WO2018228533A1 - Resource mapping method and apparatus - Google Patents

Abstract

The present application provides a resource mapping method and apparatus. The method comprises: a terminal device receiving resource configuration information sent by a network device, the resource configuration information being used for indicating parameter information of N frequency hop bandwidth parts to the terminal device, wherein N ≥ 2, the bandwidth length of any one of the N frequency hop bandwidth parts being less than or equal to the bandwidth length of an active bandwidth part (active-BP) of the terminal device; the terminal device determining, according to the resource configuration information and uplink scheduling information, an uplink physical transmission resource allocated by the network device. By enabling the bandwidth length of any one of the N frequency hop bandwidth parts to be less than or equal to the bandwidth length of the active-BP of the terminal device, the terminal device, when performing frequency hop according to the parameter information of any one of the N frequency hop bandwidth parts, would not hop out of the active-BP of the terminal device.

Description

资源映射的方法和装置Method and device for resource mapping

本申请要求于2017年06月16日提交中国专利局、申请号为201710459150.2、申请名称为“资源映射的方法和装置”的中国专利申请的优先权，其全部内容通过引用结合在本申请中。The present application claims the priority of the Chinese Patent Application, filed on Jun. 16, 2017, the entire disclosure of which is hereby incorporated by reference.

技术领域Technical field

本申请涉及通信领域，并且更具体地，涉及通信领域中的资源映射的方法和装置。The present application relates to the field of communications and, more particularly, to methods and apparatus for resource mapping in the field of communications.

背景技术Background technique

长期演进(Long Term Evolution，LTE)***中，用户设备(User Equipment，UE)的上行物理共享信道(Physical Uplink Shared Channel，PUSCH)的传输使用离散傅里叶变换扩展的OFDM(Discrete Fourier Transform-Spread OFDM，DFT-S-OFDM)波形。In the Long Term Evolution (LTE) system, the transmission of the Physical Uplink Shared Channel (PUSCH) of the User Equipment (UE) uses Discrete Fourier Transform Extended OFDM (Discrete Fourier Transform-Spread) OFDM, DFT-S-OFDM) waveform.

为了使得使用DFT-s-OFDM波形PUSCH的功率峰均比(Peak to Average Power Ratio，PAPR)比较低，尽量更大效率的使用UE的功放提高上行覆盖，PUSCH传输通常会使用连续的物理资源块(Physical Resource Block，PRB)资源，对于一段连续的PRB资源的PUSCH传输，为了提高PUSCH的分集增益，LTE***中的PUSCH传输支持帧内跳频和帧间跳频。In order to make the power peak-to-average ratio (PAPR) of the DFT-s-OFDM waveform PUSCH relatively low, the UE uses the power amplifier to improve the uplink coverage as much as possible, and the PUSCH transmission usually uses consecutive physical resource blocks. (Physical Resource Block, PRB) resource, for PUSCH transmission of a continuous PRB resource, in order to improve the diversity gain of the PUSCH, the PUSCH transmission in the LTE system supports intra-frame frequency hopping and inter-frame frequency hopping.

在LTE***中，UE的工作带宽部分(Bandwidth Part，BP)的带宽长度等于***带宽的带宽长度，当网络设备按照***带宽为UE配置跳频带宽时，UE按照网络设备配置的跳频带宽进行跳频时，不会跳出UE的工作BP的范围。In the LTE system, the bandwidth length of the Bandwidth Part (BP) of the UE is equal to the bandwidth length of the system bandwidth. When the network device configures the hopping bandwidth for the UE according to the system bandwidth, the UE performs the hopping bandwidth configured by the network device. When hopping, it does not jump out of the range of the working BP of the UE.

然而，在NR***中，由于UE的工作BP的带宽长度有可能小于***带宽的带宽长度，当UE按照网络设备配置的***带宽进行跳频时，有可能跳出UE的工作BP的范围。However, in the NR system, since the bandwidth length of the working BP of the UE may be less than the bandwidth length of the system bandwidth, when the UE performs frequency hopping according to the system bandwidth configured by the network device, it is possible to jump out of the working BP range of the UE.

发明内容Summary of the invention

本申请提供了一种资源映射的方法和装置，能够支持解决UE跳出工作BP范围的问题。The application provides a method and device for resource mapping, which can support the problem that the UE jumps out of the working BP range.

第一方面，提供了一种资源映射的方法，该方法包括：网络设备生成资源配置信息，该资源配置信息用于向该终端设备指示N个跳频带宽部分的参数信息，N≥2，该N个跳频带宽部分中的任意一个跳频带宽部分的带宽长度小于或等于该终端设备的激活态带宽部分active-BP的带宽长度；网络设备向终端设备发送资源配置信息。The first aspect provides a method for resource mapping, where the method includes: the network device generates resource configuration information, where the resource configuration information is used to indicate parameter information of the N frequency hopping bandwidth portions to the terminal device, where N≥2, The bandwidth length of any one of the N frequency hopping bandwidth portions is less than or equal to the bandwidth length of the active state bandwidth portion active-BP of the terminal device; the network device sends the resource configuration information to the terminal device.

可选地，该方法还包括：该网络设备在上行物理传输资源上接收该终端设备发送的上行数据。Optionally, the method further includes: the network device receiving the uplink data sent by the terminal device on the uplink physical transmission resource.

因此，通过使N个跳频带宽部分中的任意一个跳频带宽部分的带宽长度小于或等于该终端设备的激活态带宽部分active-BP的带宽长度，使得终端设备按照该N个跳频带宽部分中的任意一个跳频带宽部分的参数信息进行跳频时，都不会跳出终端设备的激活态带 宽部分active-BP。Therefore, by making the bandwidth length of any one of the N frequency hopping bandwidth portions less than or equal to the bandwidth length of the active state bandwidth portion active-BP of the terminal device, the terminal device follows the N frequency hopping bandwidth portions. When the parameter information of any one of the hopping bandwidth sections is frequency hopping, the active state bandwidth part active-BP of the terminal device does not jump out.

可选地，该资源配置信息用于向该终端设备指示一个跳频带宽部分的参数信息(即，N＝1)，该一个跳频带宽部分的带宽长度小于或等于该终端设备的激活态带宽部分active-BP的带宽长度。Optionally, the resource configuration information is used to indicate, to the terminal device, parameter information of a hopping bandwidth portion (ie, N=1), where a bandwidth length of the hopping bandwidth portion is less than or equal to an active state bandwidth of the terminal device. The bandwidth length of part of active-BP.

因此，通过为终端设备配置一个跳频带宽部分，并且该跳频带宽部分的带宽长度小于或等于该终端设备的激活态带宽部分active-BP的带宽长度，同样可以使得终端设备按照该1个跳频带宽部分的参数信息进行跳频时，都不会跳出终端设备的激活态带宽部分active-BP。Therefore, by configuring a hopping bandwidth portion for the terminal device, and the bandwidth length of the hopping bandwidth portion is less than or equal to the bandwidth length of the active-bandwidth portion active-BP of the terminal device, the terminal device can also be made to follow the hop. When the parameter information of the frequency bandwidth part is frequency hopping, the active state bandwidth part active-BP of the terminal device does not jump out.

结合第一方面，在第一方面的第一种实现方式中，该N个跳频带宽部分的带宽总长度等于该终端设备的active-BP的带宽长度，该N个跳频带宽部分中的任意两个跳频带宽部分在频域上不重叠。With reference to the first aspect, in a first implementation manner of the first aspect, the total bandwidth length of the N frequency hopping bandwidth portions is equal to the bandwidth length of the active-BP of the terminal device, and any of the N frequency hopping bandwidth portions The two hopping bandwidth portions do not overlap in the frequency domain.

因此，通过使网络设备为终端设备分配的N个跳频跳频带宽部分能够完全覆盖住终端设备的active-BP的带宽长度，使得终端设备能够按照该N个跳频跳频带宽部分进行跳频，避免因为N个跳频带宽部分的带宽总长度小于N个跳频带宽部分的带宽总长度，导致终端设备的active-BP中的一部分带宽按照***带宽进行跳频时出现跳出工作带宽范围的问题。Therefore, the N-hop frequency hopping bandwidth portion allocated by the network device for the terminal device can completely cover the bandwidth length of the active-BP of the terminal device, so that the terminal device can perform frequency hopping according to the N frequency hopping frequency hopping bandwidth portions. The problem that the total bandwidth of the N frequency hopping bandwidths is less than the total bandwidth of the N hopping bandwidths, and the bandwidth of a part of the active-BP of the terminal device jumps out of the working bandwidth according to the system bandwidth. .

结合第一方面及其上述实现方式，在第一方面的第四种实现方式中，该方法还包括：With reference to the first aspect and the foregoing implementation manner, in a fourth implementation manner of the first aspect, the method further includes:

该网络设备向该终端设备发送上行调度信息，该上行调度信息用于指示该上行VRB资源的资源索引信息，该资源索引信息包括该上行VRB资源的资源索引值。The network device sends uplink scheduling information to the terminal device, where the uplink scheduling information is used to indicate resource index information of the uplink VRB resource, where the resource index information includes a resource index value of the uplink VRB resource.

结合第一方面及其上述实现方式，在第一方面的第五种实现方式中，该N个跳频带宽部分中的每个跳频带宽部分的参数信息至少包括以下信息：With reference to the first aspect and the foregoing implementation manner, in a fifth implementation manner of the first aspect, the parameter information of each of the N frequency hopping bandwidth portions includes at least the following information:

跳频带宽部分的带宽长度信息、跳频带宽部分的位置信息和跳频带宽部分的跳频规则信息，该跳频带宽部分的跳频规则信息至少包括跳频模式信息、跳频PRB偏移信息和跳频子带信息。The bandwidth length information of the frequency hopping bandwidth part, the location information of the frequency hopping bandwidth part, and the frequency hopping rule information of the frequency hopping bandwidth part, the frequency hopping rule information of the frequency hopping bandwidth part includes at least the frequency hopping mode information and the frequency hopping PRB offset information. And frequency hopping subband information.

结合第一方面及其上述实现方式，在第一方面的第六种实现方式中，该网络设备向终端设备发送资源配置信息，包括：该网络设备通过RRC信令向该终端设备发送该资源配置信息；或该网络设备通过***广播消息或组播消息向终端设备发送M个跳频带宽部分的参数信息，M≥2，以使该终端设备根据该M个跳频带宽部分的参数信息和该终端设备的active-BP的带宽长度P确定对应的N个跳频带宽部分的参数信息，其中，M、N均为正整数，且M≥N。With reference to the first aspect and the foregoing implementation manner, in a sixth implementation manner of the first aspect, the network device sends the resource configuration information to the terminal device, where the network device sends the resource configuration to the terminal device by using RRC signaling. Information; or the network device sends parameter information of the M frequency hopping bandwidth parts to the terminal device through the system broadcast message or the multicast message, M≥2, so that the terminal device according to the parameter information of the M frequency hopping bandwidth parts and the The bandwidth length P of the active-BP of the terminal device determines parameter information of the corresponding N frequency hopping bandwidth portions, where M and N are positive integers, and M ≥ N.

第二方面，提供了一种资源映射的方法，该方法包括：终端设备接收网络设备发送的资源配置信息，该资源配置信息用于向该终端设备指示N个跳频带宽部分的参数信息，N≥2，该N个跳频带宽部分中的任意一个跳频带宽部分的带宽长度小于或等于该终端设备的激活态带宽部分active-BP的带宽长度；该终端设备根据该资源配置信息和上行调度信息，确定网络设备分配的上行物理传输资源。A second aspect provides a method for resource mapping, where the method includes: receiving, by a terminal device, resource configuration information sent by a network device, where the resource configuration information is used to indicate parameter information of the N frequency hopping bandwidth portions to the terminal device, where ≥ 2, the bandwidth length of the hopping bandwidth portion of the N hopping bandwidth portions is less than or equal to the bandwidth length of the active-band bandwidth portion active-BP of the terminal device; the terminal device according to the resource configuration information and the uplink scheduling Information, determining the uplink physical transmission resource allocated by the network device.

可选地，该方法还包括：该终端设备在该上行物理传输资源上向该网络设备发送上行数据。Optionally, the method further includes: the terminal device sending uplink data to the network device on the uplink physical transmission resource.

因此，通过使N个跳频带宽部分中的任意一个跳频带宽部分的带宽长度小于或等于该终端设备的激活态带宽部分active-BP的带宽长度，使得终端设备按照该N个跳频带宽 部分中的任意一个跳频带宽部分的参数信息进行跳频时，都不会跳出终端设备的激活态带宽部分active-BP。Therefore, by making the bandwidth length of any one of the N frequency hopping bandwidth portions less than or equal to the bandwidth length of the active state bandwidth portion active-BP of the terminal device, the terminal device follows the N frequency hopping bandwidth portions. When the parameter information of any one of the hopping bandwidth sections is frequency hopping, the active state bandwidth part active-BP of the terminal device does not jump out.

可选地，该资源配置信息用于向该终端设备指示一个跳频带宽部分的参数信息(即，N＝1)，该一个跳频带宽部分的带宽长度小于或等于该终端设备的激活态带宽部分active-BP的带宽长度。Optionally, the resource configuration information is used to indicate, to the terminal device, parameter information of a hopping bandwidth portion (ie, N=1), where a bandwidth length of the hopping bandwidth portion is less than or equal to an active state bandwidth of the terminal device. The bandwidth length of part of active-BP.

因此，通过为终端设备配置一个跳频带宽部分，并且该跳频带宽部分的带宽长度小于或等于该终端设备的激活态带宽部分active-BP的带宽长度，同样可以使得终端设备按照该1个跳频带宽部分的参数信息进行跳频时，都不会跳出终端设备的激活态带宽部分active-BP。Therefore, by configuring a hopping bandwidth portion for the terminal device, and the bandwidth length of the hopping bandwidth portion is less than or equal to the bandwidth length of the active-bandwidth portion active-BP of the terminal device, the terminal device can also be made to follow the hop. When the parameter information of the frequency bandwidth part is frequency hopping, the active state bandwidth part active-BP of the terminal device does not jump out.

结合第二方面，在第二方面的第一种实现方式中，该N个跳频带宽部分的带宽总长度等于该active-BP的带宽长度，该N个跳频带宽部分中的任意两个跳频带宽部分在频域上不重叠。With reference to the second aspect, in a first implementation manner of the second aspect, the total bandwidth length of the N frequency hopping bandwidth portions is equal to the bandwidth length of the active-BP, and any two of the N frequency hopping bandwidth portions The frequency bandwidth portions do not overlap in the frequency domain.

因此，通过使网络设备为终端设备分配的N个跳频跳频带宽部分能够完全覆盖住终端设备的active-BP的带宽长度，使得终端设备能够按照该N个跳频跳频带宽部分进行跳频，避免因为N个跳频带宽部分的带宽总长度小于N个跳频带宽部分的带宽总长度，导致终端设备的active-BP中的一部分带宽按照***带宽进行跳频时出现跳出工作带宽范围的问题。Therefore, the N-hop frequency hopping bandwidth portion allocated by the network device for the terminal device can completely cover the bandwidth length of the active-BP of the terminal device, so that the terminal device can perform frequency hopping according to the N frequency hopping frequency hopping bandwidth portions. The problem that the total bandwidth of the N frequency hopping bandwidths is less than the total bandwidth of the N hopping bandwidths, and the bandwidth of a part of the active-BP of the terminal device jumps out of the working bandwidth according to the system bandwidth. .

结合第二方面，在第二方面的第二种实现方式中，该终端设备根据该资源配置信息和上行调度信息，确定网络设备分配的上行物理传输资源，包括：该终端设备确定第一上行VRB资源属于第一跳频带宽部分，该第一跳频带宽部分为该N个跳频带宽部分中的任意一个跳频带宽部分，该第一上行VRB资源为该网络设备通过该上行调度信息为该终端设备分配的资源；该终端设备将该第一上行VRB资源按照该第一跳频带宽部分的参数信息进行映射，确定第一上行PRB资源、第二上行PRB资源，该第一上行PRB资源和该第二上行PRB资源为该第一上行VRB资源在该第一跳频带宽部分中对应的映射资源，该第一上行PRB资源属于该第一跳频带宽部分中的第一时间单元，该第二上行PRB资源属于该第一跳频带宽部分中的第二时间单元，该第一上行PRB资源和该第二上行PRB资源之间在频域上存在整数个PRB资源的偏移。With reference to the second aspect, in a second implementation manner of the second aspect, the terminal device determines, according to the resource configuration information and the uplink scheduling information, the uplink physical transmission resource allocated by the network device, where the terminal device determines the first uplink VRB. The resource belongs to the first hopping bandwidth portion, and the first hopping bandwidth portion is the hopping bandwidth portion of the N hopping bandwidth portion, where the first uplink VRB resource is the network device that uses the uplink scheduling information for the a resource allocated by the terminal device; the terminal device maps the first uplink VRB resource according to the parameter information of the first hopping bandwidth portion, and determines a first uplink PRB resource, a second uplink PRB resource, and the first uplink PRB resource The second uplink PRB resource is a mapping resource corresponding to the first uplink VRB resource in the first frequency hopping bandwidth portion, and the first uplink PRB resource belongs to a first time unit in the first hopping bandwidth portion, where the first time The second uplink PRB resource belongs to the second time unit in the first hop bandwidth portion, and the first uplink PRB resource and the second uplink PRB resource are in the frequency domain. There is an offset of an integer number of PRB resources.

因此，对于active-BP的带宽长度不同的终端设备，通过使同一跳频带宽部分中的属于不同终端设备的虚拟传输资源按照相同的跳频带宽部分的参数信息进行映射，进而解决active-BP的带宽长度不同的终端设备按照各自的active-BP跳频之后发生资源冲突的问题。Therefore, for the terminal devices with different bandwidth lengths of the active-BP, the virtual transmission resources belonging to different terminal devices in the same hopping bandwidth portion are mapped according to the parameter information of the same hopping bandwidth portion, thereby solving the active-BP. A problem occurs when a terminal device with different bandwidth lengths divides according to the respective active-BP frequency hopping.

结合第二方面，在第二方面的第三种实现方式中，该第一上行VRB资源至多属于该第一跳频带宽部分和第二跳频带宽部分，该第二跳频带宽部分为该N个跳频带宽部分中与该第一跳频带宽部分相邻的跳频带宽部分，该第一上行VRB资源为一段连续的VRB资源。With reference to the second aspect, in a third implementation manner of the second aspect, the first uplink VRB resource belongs to the first hop bandwidth portion and the second hop bandwidth portion at least, and the second hop bandwidth portion is the N The hopping bandwidth portion of the hopping bandwidth portion adjacent to the first hopping bandwidth portion, the first uplink VRB resource is a continuous VRB resource.

因此，通过使上行VRB资源至多只属于两个相邻的跳频带宽部分，使得该上行VRB资源在进行跳频映射之后，在两个相邻的跳频带宽部分中的每一个跳频带宽部分中对应的映射资源为两段连续的PRB资源。Therefore, by causing the uplink VRB resource to belong to at most two adjacent hopping bandwidth portions, the uplink VRB resource is subjected to frequency hopping mapping, and each of the two adjacent hopping bandwidth portions is hopped by the bandwidth portion. The corresponding mapping resource in the middle is two consecutive PRB resources.

结合第二方面，在第二方面的第四种实现方式中，该方法还包括：该终端设备接收该网络设备发送的该上行调度信息，该上行调度信息用于指示该上行VRB资源的资源索 引信息，该资源索引信息包括该上行VRB资源的资源索引值。With reference to the second aspect, in a fourth implementation manner of the second aspect, the method further includes: receiving, by the terminal device, the uplink scheduling information that is sent by the network device, where the uplink scheduling information is used to indicate a resource index of the uplink VRB resource. Information, the resource index information includes a resource index value of the uplink VRB resource.

结合第二方面，在第二方面的第五种实现方式中，该N个跳频带宽部分中的每个跳频带宽部分的参数信息至少包括以下信息：跳频带宽部分的带宽长度信息、跳频带宽部分的位置信息和跳频带宽部分的跳频规则信息，该跳频带宽部分的跳频规则信息至少包括跳频模式信息、跳频PRB偏移信息和跳频子带信息。With reference to the second aspect, in a fifth implementation manner of the second aspect, the parameter information of each of the N frequency hopping bandwidth portions includes at least the following information: bandwidth length information of the frequency hopping bandwidth portion, and hopping The location information of the frequency bandwidth portion and the frequency hopping rule information of the frequency hopping bandwidth portion, the frequency hopping rule information of the frequency hopping bandwidth portion includes at least frequency hopping mode information, frequency hopping PRB offset information, and frequency hopping subband information.

结合第二方面，在第二方面的第六种实现方式中，该终端设备接收该网络设备发送的资源配置信息，包括：该终端设备通过RRC信令接收该网络设备发送该资源配置信息；或该终端设备通过***广播消息或组播消息接收该网络设备发送的M个跳频带宽部分的参数信息，M≥2；该终端设备根据该M个跳频带宽部分的参数信息和该active-BP的带宽长度，确定对应的N个跳频带宽部分的参数信息，其中，M、N均为正整数，且M≥N。With reference to the second aspect, in a sixth implementation manner of the second aspect, the receiving, by the terminal device, the resource configuration information that is sent by the network device, includes: receiving, by the RRC signaling, the network device, by using the RRC signaling, the network device to send the resource configuration information; or Receiving, by the system broadcast message or the multicast message, the parameter information of the M frequency hopping bandwidth parts sent by the network device, where M≥2; the terminal device according to the parameter information of the M frequency hopping bandwidth part and the active-BP The bandwidth length determines the parameter information of the corresponding N frequency hopping bandwidth parts, where M and N are positive integers, and M ≥ N.

第三方面，提供了一种资源映射的方法，该方法包括：网络设备生成资源配置信息，该资源配置信息用于向该终端设备指示N个映射带宽部分的参数信息，N≥2，该N个映射带宽部分中的任意一个映射带宽部分的带宽长度小于或等于该终端设备的激活态带宽部分active-BP的带宽长度映射带宽部分映射带宽部分；网络设备向终端设备发送资源配置信息。A third aspect provides a method for resource mapping, where the method includes: the network device generates resource configuration information, where the resource configuration information is used to indicate parameter information of the N mapping bandwidth parts to the terminal device, where N≥2, the N The bandwidth length of any one of the mapped bandwidth portions is less than or equal to the bandwidth of the active state bandwidth portion active-BP of the terminal device, and the bandwidth portion maps the bandwidth portion; the network device sends the resource configuration information to the terminal device.

可选地，该方法还包括：该网络设备在下行物理传输资源上向该终端设备发送下行数据。Optionally, the method further includes: the network device sending downlink data to the terminal device on a downlink physical transmission resource.

因此，本申请的资源映射的方法，通过使N个映射带宽部分中的任意一个映射带宽部分的带宽长度小于或等于该终端设备的激活态带宽部分active-BP的带宽长度，使得终端设备按照该N个映射带宽部分中的任意一个映射带宽部分的参数信息进行分布式资源映射时，都不会超出终端设备的激活态带宽部分active-BP。Therefore, the resource mapping method of the present application, by making the bandwidth length of the mapped bandwidth portion of any one of the N mapping bandwidth portions less than or equal to the bandwidth length of the active-state bandwidth portion active-BP of the terminal device, causes the terminal device to follow the When the parameter information of any one of the N mapped bandwidth parts is distributed resource mapping, the active state bandwidth part active-BP of the terminal device is not exceeded.

可选地，该资源配置信息用于向该终端设备指示一个映射带宽部分的参数信息(即，N＝1)，该一个映射带宽部分的带宽长度小于或等于该终端设备的激活态带宽部分active-BP的带宽长度。Optionally, the resource configuration information is used to indicate, to the terminal device, parameter information of a mapping bandwidth part (ie, N=1), where a bandwidth length of the one mapping bandwidth part is less than or equal to an active state bandwidth part of the terminal device. -BP bandwidth length.

因此，通过为终端设备配置一个映射带宽部分，并且该映射带宽部分的带宽长度小于或等于该终端设备的激活态带宽部分active-BP的带宽长度，同样可以使得终端设备按照该1个映射带宽部分的参数信息进行分布式资源映射时，都不会超出终端设备的激活态带宽部分active-BP。Therefore, by configuring a mapping bandwidth portion for the terminal device, and the bandwidth length of the mapping bandwidth portion is less than or equal to the bandwidth length of the active-state bandwidth portion active-BP of the terminal device, the terminal device can also be configured to follow the one mapping bandwidth portion. When the parameter information is distributed resource mapping, it does not exceed the active state bandwidth part active-BP of the terminal device.

结合第三方面，在第三方面的第一种实现方式中，该N个映射带宽部分的带宽总长度等于该active-BP的带宽长度，该N个映射带宽部分中的任意两个映射带宽部分在频域上不重叠。With reference to the third aspect, in a first implementation manner of the third aspect, a total bandwidth length of the N mapping bandwidth portions is equal to a bandwidth length of the active-BP, and any two mapping bandwidth portions of the N mapping bandwidth portions Do not overlap in the frequency domain.

因此，通过使网络设备为终端设备分配的N个映射带宽部分能够完全覆盖住终端设备的active-BP的带宽长度，使得终端设备能够按照该N个映射带宽部分进行分布式资源映射，避免因为N个映射带宽部分的带宽总长度小于N个映射带宽部分的带宽总长度，导致终端设备的active-BP中的一部分带宽按照***带宽进行分布式资源映射时出现超出工作带宽范围的问题。Therefore, the N-mapped bandwidth portion allocated by the network device to the terminal device can completely cover the bandwidth length of the active-BP of the terminal device, so that the terminal device can perform distributed resource mapping according to the N mapped bandwidth portions, thereby avoiding N The total bandwidth of the bandwidth portion of the mapping bandwidth is smaller than the total bandwidth of the N mapping bandwidth portion, which causes a problem that a part of the bandwidth of the active-BP of the terminal device exceeds the working bandwidth when performing distributed resource mapping according to the system bandwidth.

可选地，该N个映射带宽部分中的任意一个映射带宽部分的带宽总长度大于该active-BP的带宽长度。Optionally, the total bandwidth length of any one of the N mapped bandwidth portions is greater than the bandwidth length of the active-BP.

当该N个映射带宽部分中的任意一个映射带宽部分的带宽长度大于该active-BP的带 宽长度时，或者该N个映射带宽部分的带宽总长度大于该active-BP的带宽长度时，通过将该N个映射带宽部分中超出用户active-BP的至多两个映射带宽部分的映射模式配置为集中式映射，使得终端设备进行分布式资源映射时，都不会超出终端设备的激活态带宽部分active-BP。When the bandwidth length of the mapping bandwidth portion of the N mapping bandwidth portions is greater than the bandwidth length of the active-BP, or the total bandwidth length of the N mapping bandwidth portions is greater than the bandwidth length of the active-BP, The mapping mode of the part of the N mapping bandwidth that exceeds the two mapping bandwidths of the user active-BP is configured as a centralized mapping, so that the terminal device does not exceed the active state bandwidth of the terminal device when the distributed resource mapping is performed. -BP.

结合第三方面及其上述实现方式，在第三方面的第四种实现方式中，该方法还包括：With reference to the third aspect and the foregoing implementation manner, in a fourth implementation manner of the third aspect, the method further includes:

该网络设备向该终端设备发送下行调度信息，该下行调度信息用于指示至少该下行VRB资源的资源索引信息和映射参数信息，该资源索引信息包括该下行VRB资源的资源索引值，该映射参数和映射带宽部分的配置信息联合指示一个映射带宽部分内VRB资源的交织矩阵，通过交织矩阵可以得到映射后的PRB资源。The network device sends downlink scheduling information to the terminal device, where the downlink scheduling information is used to indicate resource index information and mapping parameter information of the downlink VRB resource, where the resource index information includes a resource index value of the downlink VRB resource, and the mapping parameter And the configuration information of the mapping bandwidth part jointly indicates an interleaving matrix of the VRB resources in a mapping bandwidth part, and the mapped PRB resources can be obtained through the interlacing matrix.

结合第三方面及其上述实现方式，在第三方面的第五种实现方式中，该N个映射带宽部分中的每个映射带宽部分的参数信息至少包括以下信息：映射带宽部分的带宽长度信息、映射带宽部分的位置信息和映射带宽部分的映射模式，该映射带宽部分的映射模式包括集中式映射或分布式映射中的一个。With reference to the third aspect and the foregoing implementation manner, in a fifth implementation manner of the third aspect, the parameter information of each mapping bandwidth portion of the N mapping bandwidth portions includes at least the following information: bandwidth length information of the mapping bandwidth portion And mapping the location information of the bandwidth part and the mapping mode of the mapping bandwidth part, where the mapping mode of the mapping bandwidth part comprises one of a centralized mapping or a distributed mapping.

结合第三方面及其上述实现方式，在第三方面的第六种实现方式中，该网络设备向终端设备发送资源配置信息，包括：该网络设备通过RRC信令向该终端设备发送该资源配置信息；或该网络设备通过***广播消息或组播消息向终端设备发送M个映射带宽部分的参数信息，M≥2，以使该终端设备根据该M个映射带宽部分的参数信息和该终端设备的active-BP的带宽长度确定对应的N个映射带宽部分的参数信息，其中，M、N均为正整数，且M≥N。With the third aspect and the foregoing implementation manner, in a sixth implementation manner of the third aspect, the network device sends the resource configuration information to the terminal device, where the network device sends the resource configuration to the terminal device by using RRC signaling. Or the network device sends the parameter information of the M mapped bandwidth parts to the terminal device through the system broadcast message or the multicast message, M≥2, so that the terminal device according to the parameter information of the M mapping bandwidth part and the terminal device The bandwidth length of the active-BP determines the parameter information of the corresponding N mapping bandwidth parts, where M and N are positive integers, and M≥N.

第四方面，提供了一种资源映射的方法，该方法包括：终端设备接收网络设备发送的资源配置信息，该资源配置信息用于向该终端设备指示N个映射带宽部分的参数信息，N≥2，该N个映射带宽部分中的任意一个映射带宽部分的带宽长度小于或等于该终端设备的激活态带宽部分active-BP的带宽长度映射带宽部分映射带宽部分；该终端设备根据该资源配置信息和下行调度信息，确定网络设备分配的下行物理传输资源。A fourth aspect provides a method for resource mapping, where the method includes: receiving, by a terminal device, resource configuration information sent by a network device, where the resource configuration information is used to indicate parameter information of the N mapping bandwidth parts to the terminal device, where N≥ 2, the bandwidth length of the mapping bandwidth portion of any one of the N mapping bandwidth portions is less than or equal to the bandwidth length mapping bandwidth portion mapping bandwidth portion of the active-state bandwidth portion active-BP of the terminal device; the terminal device according to the resource configuration information And downlink scheduling information, determining downlink physical transmission resources allocated by the network device.

可选地，该方法还包括：该终端设备在该下行物理传输资源上接收该网络设备发送的下行数据。Optionally, the method further includes: receiving, by the terminal device, downlink data sent by the network device on the downlink physical transmission resource.

因此，本申请的资源映射的方法，通过使N个映射带宽部分中的任意一个映射带宽部分的带宽长度小于或等于该终端设备的激活态带宽部分active-BP的带宽长度，使得终端设备按照该N个映射带宽部分中的任意一个映射带宽部分的参数信息进行分布式资源映射时，都不会超出终端设备的激活态带宽部分active-BP。Therefore, the resource mapping method of the present application, by making the bandwidth length of the mapped bandwidth portion of any one of the N mapping bandwidth portions less than or equal to the bandwidth length of the active-state bandwidth portion active-BP of the terminal device, causes the terminal device to follow the When the parameter information of any one of the N mapped bandwidth parts is distributed resource mapping, the active state bandwidth part active-BP of the terminal device is not exceeded.

可选地，该资源配置信息用于向该终端设备指示一个映射带宽部分的参数信息(即，N＝1)，该一个映射带宽部分的带宽长度小于或等于该终端设备的激活态带宽部分active-BP的带宽长度。Optionally, the resource configuration information is used to indicate, to the terminal device, parameter information of a mapping bandwidth part (ie, N=1), where a bandwidth length of the one mapping bandwidth part is less than or equal to an active state bandwidth part of the terminal device. -BP bandwidth length.

因此，通过为终端设备配置一个映射带宽部分，并且该映射带宽部分的带宽长度小于或等于该终端设备的激活态带宽部分active-BP的带宽长度，同样可以使得终端设备按照该1个映射带宽部分的参数信息进行分布式资源映射时，都不会超出终端设备的激活态带宽部分active-BP。Therefore, by configuring a mapping bandwidth portion for the terminal device, and the bandwidth length of the mapping bandwidth portion is less than or equal to the bandwidth length of the active-state bandwidth portion active-BP of the terminal device, the terminal device can also be configured to follow the one mapping bandwidth portion. When the parameter information is distributed resource mapping, it does not exceed the active state bandwidth part active-BP of the terminal device.

结合第四方面，在第四方面的第一种实现方式中，该N个映射带宽部分的带宽总长度等于该active-BP的带宽长度，该N个映射带宽部分中的任意两个映射带宽部分在频域 上不重叠。With reference to the fourth aspect, in a first implementation manner of the fourth aspect, a total bandwidth length of the N mapping bandwidth portions is equal to a bandwidth length of the active-BP, and any two mapping bandwidth portions of the N mapping bandwidth portions Do not overlap in the frequency domain.

因此，通过使网络设备为终端设备分配的N个映射带宽部分能够完全覆盖住终端设备的active-BP的带宽长度，使得终端设备能够按照该N个映射带宽部分进行分布式资源映射，避免因为N个映射带宽部分的带宽总长度小于N个映射带宽部分的带宽总长度，导致终端设备的active-BP中的一部分带宽按照***带宽进行分布式资源映射时出现超出工作带宽范围的问题。Therefore, the N-mapped bandwidth portion allocated by the network device to the terminal device can completely cover the bandwidth length of the active-BP of the terminal device, so that the terminal device can perform distributed resource mapping according to the N mapped bandwidth portions, thereby avoiding N The total bandwidth of the bandwidth portion of the mapping bandwidth is smaller than the total bandwidth of the N mapping bandwidth portion, which causes a problem that a part of the bandwidth of the active-BP of the terminal device exceeds the working bandwidth when performing distributed resource mapping according to the system bandwidth.

可选地，该N个映射带宽部分中的任意一个映射带宽部分的带宽总长度大于该active-BP的带宽长度。Optionally, the total bandwidth length of any one of the N mapped bandwidth portions is greater than the bandwidth length of the active-BP.

当该N个映射带宽部分中的任意一个映射带宽部分的带宽长度大于该active-BP的带宽长度时，或者该N个映射带宽部分的带宽总长度大于该active-BP的带宽长度时，通过将该N个映射带宽部分中超出用户active-BP的至多两个映射带宽部分的映射模式配置为集中式映射，使得终端设备进行分布式资源映射时，都不会超出终端设备的激活态带宽部分active-BP。When the bandwidth length of the mapping bandwidth portion of the N mapping bandwidth portions is greater than the bandwidth length of the active-BP, or the total bandwidth length of the N mapping bandwidth portions is greater than the bandwidth length of the active-BP, The mapping mode of the part of the N mapping bandwidth that exceeds the two mapping bandwidths of the user active-BP is configured as a centralized mapping, so that the terminal device does not exceed the active state bandwidth of the terminal device when the distributed resource mapping is performed. -BP.

结合第四方面，在第四方面的第二种实现方式中，该终端设备根据该资源配置信息和下行调度信息，确定网络设备分配的下行物理传输资源，包括：该终端设备确定第一下行VRB资源属于第一映射带宽部分，该第一映射带宽部分为该N个映射带宽部分中的任意一个映射带宽部分，该第一下行VRB资源为该网络设备通过该下行调度信息为该终端设备分配的资源；该终端设备将该第一下行VRB资源按照该第一映射带宽部分的参数信息和下行调度信息指示的映射参数进行映射，确定交织矩阵，从而确定第一下行PRB资源，该第一下行PRB资源为该第一下行VRB资源在该第一映射带宽部分中对应的映射资源，该第一下行PRB资源属于该第一映射带宽部分。With reference to the fourth aspect, in a second implementation manner of the fourth aspect, the terminal device determines, according to the resource configuration information and the downlink scheduling information, the downlink physical transmission resource allocated by the network device, where the terminal device determines the first downlink. The VRB resource belongs to the first mapping bandwidth part, and the first mapping bandwidth part is the mapping bandwidth part of any one of the N mapping bandwidth parts, where the first downlink VRB resource is the network device, and the downlink scheduling information is the terminal equipment. The allocated resource; the terminal device maps the first downlink VRB resource according to the parameter information of the first mapping bandwidth part and the mapping parameter indicated by the downlink scheduling information, determines an interlace matrix, and determines the first downlink PRB resource, where The first downlink PRB resource is a mapping resource corresponding to the first downlink VRB resource in the first mapping bandwidth part, and the first downlink PRB resource belongs to the first mapping bandwidth part.

因此，对于active-BP的带宽长度不同的终端设备，通过使同一映射带宽部分中的属于不同终端设备的虚拟传输资源按照相同的映射带宽部分的参数信息进行分布式资源映射，进而解决active-BP的带宽长度不同的终端设备按照各自的active-BP进行分布式资源映射之后发生资源冲突的问题。Therefore, for the terminal devices with different bandwidth lengths of the active-BP, the virtual transmission resources belonging to different terminal devices in the same mapping bandwidth portion are mapped according to the parameter information of the same mapping bandwidth portion, thereby solving the active-BP. The resource conflict occurs after the terminal devices with different bandwidth lengths perform distributed resource mapping according to their respective active-BPs.

结合第四方面，在第四方面的第三种实现方式中，该第一下行VRB资源属于该N个映射带宽部分中的多个相邻的映射带宽部分，该第一下行VRB资源为一段连续的VRB资源。With reference to the fourth aspect, in a third implementation manner of the fourth aspect, the first downlink VRB resource belongs to a plurality of adjacent mapping bandwidth portions of the N mapping bandwidth portions, and the first downlink VRB resource is A continuous VRB resource.

结合第四方面，在第四方面的第四种实现方式中，该方法还包括：该终端设备接收该网络设备发送的该下行调度信息，该下行调度信息用于指示至少该下行VRB资源的资源索引信息和映射参数信息，该资源索引信息包括该下行VRB资源的资源索引值，该映射参数信息和一个映射带宽部分的配置信息联合确定属于该映射带宽部分的VRB到PRB的交织矩阵。With reference to the fourth aspect, in a fourth implementation manner of the fourth aspect, the method further includes: receiving, by the terminal device, the downlink scheduling information that is sent by the network device, where the downlink scheduling information is used to indicate at least resources of the downlink VRB resource The index information and the mapping parameter information, the resource index information includes a resource index value of the downlink VRB resource, and the mapping parameter information and the configuration information of a mapping bandwidth portion jointly determine an interlace matrix of the VRB to the PRB belonging to the mapping bandwidth portion.

结合第四方面，在第四方面的第五种实现方式中，该N个映射带宽部分中的每个映射带宽部分的参数信息至少包括以下信息：映射带宽部分的带宽长度信息、映射带宽部分的位置信息和映射带宽部分的映射模式，该映射带宽部分的映射模式包括集中式映射和分布式映射。With reference to the fourth aspect, in a fifth implementation manner of the fourth aspect, the parameter information of each mapping bandwidth part of the N mapping bandwidth parts includes at least the following information: bandwidth length information of the mapping bandwidth part, and part of the mapping bandwidth part A mapping mode of location information and a mapped bandwidth portion, the mapping mode of the mapped bandwidth portion includes a centralized mapping and a distributed mapping.

结合第四方面，在第四方面的第六种实现方式中，该终端设备接收该网络设备发送的资源配置信息，包括：该终端设备通过RRC信令接收该网络设备发送的该资源配置信 息；或该终端设备通过***广播消息或组播消息接收该网络设备发送的M个映射带宽部分的参数信息，M≥2；该终端设备根据该M个映射带宽部分的参数信息和该active-BP的带宽长度，确定对应的N个映射带宽部分的参数信息，其中，M、N均为正整数，且M≥N。With reference to the fourth aspect, in a sixth implementation manner of the fourth aspect, the receiving, by the terminal device, the resource configuration information that is sent by the network device, includes: receiving, by the terminal device, the resource configuration information sent by the network device by using RRC signaling; Or the terminal device receives the parameter information of the M mapping bandwidth parts sent by the network device by using a system broadcast message or a multicast message, where M≥2; the terminal device according to the parameter information of the M mapping bandwidth part and the active-BP The bandwidth length determines the parameter information of the corresponding N mapping bandwidth parts, where M and N are positive integers, and M≥N.

第五方面，提供了一种资源映射的装置，包括用于执行上述第一方面以及第一方面的各实现方式中的资源映射的方法的各步骤的单元。In a fifth aspect, an apparatus for resource mapping is provided, comprising means for performing the steps of the first aspect and the method of resource mapping in implementations of the first aspect.

第六方面，提供了一种资源映射的装置，包括用于执行上述第二方面以及第二方面的各实现方式中的资源映射的方法的各步骤的单元。In a sixth aspect, an apparatus for resource mapping is provided, comprising means for performing the steps of the method of resource mapping in the implementations of the second aspect and the second aspect.

第七方面，提供了一种资源映射的装置，包括用于执行上述第三方面以及第三方面的各实现方式中的资源映射的方法的各步骤的单元。In a seventh aspect, an apparatus for resource mapping is provided, comprising means for performing the steps of the method of resource mapping in the implementations of the third aspect and the third aspect described above.

第八方面，提供了一种资源映射的装置，包括用于执行上述第四方面以及第四方面的各实现方式中的资源映射的方法的各步骤的单元。In an eighth aspect, an apparatus for resource mapping is provided, comprising means for performing the steps of the method of resource mapping in the implementations of the fourth aspect and the fourth aspect described above.

第九方面，提供了一种资源映射的设备，包括存储器和处理器，该存储器用于存储计算机程序，该处理器用于从存储器中调用并运行该计算机程序，使得终端设备执行上述第一方面及其各种实现方式中的任一种资源映射的方法。A ninth aspect, a device for resource mapping, comprising a memory and a processor, the memory is configured to store a computer program, the processor is configured to call and run the computer program from the memory, so that the terminal device performs the first aspect and A method of resource mapping of any of its various implementations.

第十方面，提供了一种资源映射的设备，包括存储器和处理器，该存储器用于存储计算机程序，该处理器用于从存储器中调用并运行该计算机程序，使得网络设备执行上述第二方面及其各种实现方式中的任一种资源映射的方法。A tenth aspect, a device for resource mapping, comprising a memory and a processor, the memory is configured to store a computer program, the processor is configured to call and run the computer program from the memory, so that the network device performs the second aspect and A method of resource mapping of any of its various implementations.

第十一方面，提供了一种资源映射的设备，包括存储器和处理器，该存储器用于存储计算机程序，该处理器用于从存储器中调用并运行该计算机程序，使得终端设备执行上述第三方面及其各种实现方式中的任一种资源映射的方法。In an eleventh aspect, a device for resource mapping is provided, comprising a memory and a processor, the memory being for storing a computer program, the processor for calling and running the computer program from the memory, so that the terminal device performs the third aspect described above A method of resource mapping of any of its various implementations.

第十二方面，提供了一种资源映射的设备，包括存储器和处理器，该存储器用于存储计算机程序，该处理器用于从存储器中调用并运行该计算机程序，使得网络设备执行上述第四方面及其各种实现方式中的任一种资源映射的方法。According to a twelfth aspect, a device for resource mapping is provided, comprising a memory and a processor, the memory for storing a computer program, the processor for calling and running the computer program from the memory, so that the network device performs the fourth aspect described above A method of resource mapping of any of its various implementations.

第十三方面，提供了一种计算机程序产品，该计算机程序产品包括：计算机程序代码，当该计算机程序代码被网络设备的处理单元、通信单元或处理器、收发器运行时，使得终端设备的执行上述第一方面至第四方面中的任一方面及其实施方式中的资源映射的方法。In a thirteenth aspect, a computer program product is provided, the computer program product comprising: computer program code, when the computer program code is run by a processing unit, a communication unit or a processor of a network device, or a transceiver, causing the terminal device A method of performing resource mapping in any of the above first to fourth aspects and embodiments thereof.

第十四方面，提供了一种计算机可读存储介质，该计算机可读存储介质存储有程序，该程序使得终端设备执行上述第一方面至第四方面中的任一方面及其实施方式中的资源映射的方法。A fourteenth aspect, a computer readable storage medium storing a program causing a terminal device to perform any of the above first to fourth aspects and embodiments thereof The method of resource mapping.

第十五方面，提供了一种芯片***，包括存储器和处理器，该存储器用于存储计算机程序，该存储器用于从存储器中调用并运行该计算机程序，使得安装有该芯片***的通信设备执行上述第一方面至第四方面中的任一方面及其实施方式中的资源映射的方法。计算机可读存储介质，该计算机可读存储介质存储有程序，该程序使得终端设备执行上述第一方面及其各种实现方式中的任一种资源映射的方法。In a fifteenth aspect, a chip system is provided, comprising a memory and a processor for storing a computer program for calling and running the computer program from the memory such that the communication device on which the chip system is installed performs The method of resource mapping in any of the above aspects to the fourth aspect and the embodiment thereof. A computer readable storage medium storing a program causing a terminal device to perform a method of resource mapping of any of the above first aspects and various implementations thereof.

附图说明DRAWINGS

图1是根据本申请的通信***的示意性架构图。1 is a schematic architectural diagram of a communication system in accordance with the present application.

图2是根据本申请的资源映射的方法的示意***互图。2 is a schematic interaction diagram of a method of resource mapping in accordance with the present application.

图3是根据本申请的上行跳频映射的原理性示意图。3 is a schematic diagram of an uplink frequency hopping map according to the present application.

图4是根据本申请的资源映射的方法的另一示意***互图。4 is another schematic interaction diagram of a method of resource mapping in accordance with the present application.

图5是根据本申请的下行分布式资源映射的原理性示意图。FIG. 5 is a schematic diagram of a downlink distributed resource mapping according to the present application.

图6是根据本申请的资源映射的装置的示意性框图。6 is a schematic block diagram of an apparatus for resource mapping in accordance with the present application.

图7是根据本申请的资源映射的装置的另一示意性框图。7 is another schematic block diagram of an apparatus for resource mapping in accordance with the present application.

图8是根据本申请的资源映射的装置的另一示意性框图。8 is another schematic block diagram of an apparatus for resource mapping in accordance with the present application.

图9是根据本申请的资源映射的装置的另一示意性框图。9 is another schematic block diagram of an apparatus for resource mapping in accordance with the present application.

图10是根据本申请的资源映射的装置的示意性结构图。FIG. 10 is a schematic structural diagram of an apparatus for resource mapping according to the present application.

图11是根据本申请的资源映射的装置的另一示意性结构图。11 is another schematic structural diagram of an apparatus for resource mapping according to the present application.

图12是根据本申请的资源映射的装置的另一示意性结构图。FIG. 12 is another schematic structural diagram of an apparatus for resource mapping according to the present application.

图13是根据本申请的资源映射的装置的另一示意性结构图。FIG. 13 is another schematic structural diagram of an apparatus for resource mapping according to the present application.

具体实施方式detailed description

下面将结合附图，对本申请中的技术方案进行描述。The technical solutions in the present application will be described below with reference to the accompanying drawings.

在本说明书中使用的术语“部件”、“模块”、“***”等用于表示计算机相关的实体、硬件、固件、硬件和软件的组合、软件、或执行中的软件。例如，部件可以是但不限于，在处理器上运行的进程、处理器、对象、可执行文件、执行线程、程序和/或计算机。通过图示，在计算设备上运行的应用和计算设备都可以是部件。一个或多个部件可驻留在进程和/或执行线程中，部件可位于一个计算机上和/或分布在2个或更多个计算机之间。此外，这些部件可从在上面存储有各种数据结构的各种计算机可读介质执行。部件可例如根据具有一个或多个数据分组(例如来自与本地***、分布式***和/或网络间的另一部件交互的二个部件的数据，例如通过信号与其它***交互的互联网)的信号通过本地和/或远程进程来通信。The terms "component," "module," "system," and the like, as used in this specification, are used to mean a computer-related entity, hardware, firmware, a combination of hardware and software, software, or software in execution. For example, a component can be, but is not limited to being, a process running on a processor, a processor, an object, an executable, a thread of execution, a program, and/or a computer. By way of illustration, both an application running on a computing device and a computing device can be a component. One or more components can reside within a process and/or execution thread, and the components can be located on one computer and/or distributed between two or more computers. Moreover, these components can execute from various computer readable media having various data structures stored thereon. A component may, for example, be based on signals having one or more data packets (eg, data from two components interacting with another component between the local system, the distributed system, and/or the network, such as the Internet interacting with other systems) Communicate through local and/or remote processes.

应理解，本申请的技术方案可以应用于各种通信***，例如：全球移动通讯(Global System of Mobile communication，GSM)***、码分多址(Code Division Multiple Access，CDMA)***、宽带码分多址(Wideband Code Division Multiple Access，WCDMA)***、通用分组无线业务(General Packet Radio Service，GPRS)、长期演进(Long Term Evolution，LTE)***、先进的长期演进(Advanced long term evolution，LTE-A)***、通用移动通信***(Universal Mobile Telecommunication System，UMTS)或下一代通信***等。It should be understood that the technical solution of the present application can be applied to various communication systems, for example, a Global System of Mobile communication (GSM) system, a Code Division Multiple Access (CDMA) system, and a wideband code division. Wideband Code Division Multiple Access (WCDMA) system, General Packet Radio Service (GPRS), Long Term Evolution (LTE) system, Advanced Long Term Evolution (LTE-A) System, Universal Mobile Telecommunication System (UMTS) or next generation communication system.

其中，下一代移动通信***将不仅支持传统的通信，还将支持例如，机器到机器(Machine to Machine，M2M)通信或车辆间通信(Vehicle to Vehicle，V2V)通信，其中，M2M通信也可以叫做机器类型通信(Machine Type Communication，MTC)。Among them, the next-generation mobile communication system will not only support traditional communication, but also support, for example, Machine to Machine (M2M) communication or Vehicle to Vehicle (V2V) communication, wherein M2M communication can also be called Machine Type Communication (MTC).

本申请结合终端设备描述了各个实施例。终端设备也可以称为用户设备(User Equipment，UE)用户设备、接入终端、用户单元、用户站、移动站、移动台、远方站、远程终端、移动设备、用户终端、终端、无线通信设备、用户代理或用户装置。终端设备可以是无线局域网(Wireless Local Area Networks，WLAN)中的站点(STAION，ST)，可以是蜂窝电话、无绳电话、会话启动协议(Session Initiation Protocol，SIP)电话、无线本地环路(Wireless Local Loop，WLL)站、个人数字处理(Personal Digital Assistant，PDA) 设备、具有无线通信功能的手持设备、计算设备或连接到无线调制编码器的其它处理设备、车载设备、可穿戴设备以及下一代通信***，例如，第五代通信(fifth-generation，5G)网络中的终端设备或者未来演进的公共陆地移动网络(Public Land Mobile Network，PLMN)网络中的终端设备等。The present application describes various embodiments in connection with a terminal device. The terminal device may also be referred to as a User Equipment (UE) user equipment, an access terminal, a subscriber unit, a subscriber station, a mobile station, a mobile station, a remote station, a remote terminal, a mobile device, a user terminal, a terminal, and a wireless communication device. , user agent or user device. The terminal device may be a station (STAION, ST) in a Wireless Local Area Networks (WLAN), and may be a cellular phone, a cordless phone, a Session Initiation Protocol (SIP) phone, or a wireless local loop (Wireless Local) Loop, WLL) stations, Personal Digital Assistant (PDA) devices, handheld devices with wireless communication capabilities, computing devices or other processing devices connected to wireless modulation encoders, in-vehicle devices, wearable devices, and next-generation communications The system, for example, a terminal device in a fifth-generation (5G) network or a terminal device in a future evolved Public Land Mobile Network (PLMN) network.

此外，本申请结合网络设备描述了各个实施例。网络设备可以是用于与移动设备通信的设备，网络设备可以是WLAN中的接入点(ACCESS POINT，AP)，GSM或CDMA中的基站(Base Transceiver Station，BTS)，也可以是WCDMA中的基站(NodeB，NB)，还可以是LTE中的演进型基站(Evolutional Node B，eNB或eNodeB)，或者中继站或接入点，或者车载设备、可穿戴设备以及未来5G网络中的网络设备或者未来演进的PLMN网络中的网络设备等。Moreover, the present application describes various embodiments in connection with a network device. The network device may be a device for communicating with the mobile device, and the network device may be an access point (APCESS POINT, AP) in the WLAN, a Base Transceiver Station (BTS) in GSM or CDMA, or may be in WCDMA. A base station (NodeB, NB) may also be an evolved base station (Evolutional Node B, eNB or eNodeB) in LTE, or a relay station or an access point, or an in-vehicle device, a wearable device, and a network device in a future 5G network or a future. Network devices and the like in an evolved PLMN network.

另外，在本申请实施例中，网络设备为小区提供服务，终端设备通过该小区使用的传输资源(例如，频域资源，或者说，频谱资源)与网络设备进行通信，该小区可以是网络设备(例如基站)对应的小区，小区可以属于宏基站，也可以属于小小区(small cell)对应的基站，这里的小区可以包括：城市小区(Metro cell)、微小区(Micro cell)、微微小区(Pico cell)、毫微微小区(Femto cell)等，这些小小区具有覆盖范围小、发射功率低的特点，适用于提供高速率的数据传输服务。In addition, in the embodiment of the present application, the network device provides a service for the cell, and the terminal device communicates with the network device by using a transmission resource (for example, a frequency domain resource, or a spectrum resource) used by the cell, where the cell may be a network device. (e.g., a base station) corresponding to a cell, the cell may belong to a macro base station, or may belong to a base station corresponding to a small cell, where the cell may include: a metro cell, a micro cell, and a pico cell. Pico cell, femto cell, etc. These small cells have the characteristics of small coverage and low transmission power, and are suitable for providing high-speed data transmission services.

此外，LTE***中的载波上可以同时有多个小区同频工作，在某些特殊场景下，也可以认为LTE***中的载波与小区的概念等同。例如在载波聚合(CA，Carrier Aggregation)场景下，当为UE配置辅载波时，会同时携带辅载波的载波索引和工作在该辅载波的辅小区的小区标识(Cell Indentify，Cell ID)，在这种情况下，可以认为载波与小区的概念等同，比如UE接入一个载波和接入一个小区是等同的。In addition, multiple carriers can work at the same frequency on the carrier in the LTE system. In some special scenarios, the concept of the carrier and the cell in the LTE system can be considered to be equivalent. For example, in a carrier aggregation (CA) scenario, when a secondary carrier is configured for a UE, the carrier index of the secondary carrier and the cell identifier (Cell ID) of the secondary cell operating in the secondary carrier are simultaneously carried. In this case, the concept of the carrier and the cell can be considered to be equivalent, for example, the UE accessing one carrier and accessing one cell are equivalent.

本申请提供的方法和装置，可以应用于终端设备或网络设备，该终端设备或网络设备包括硬件层、运行在硬件层之上的操作***层，以及运行在操作***层上的应用层。该硬件层包括中央处理器(Central Processing Unit，CPU)、内存管理单元(Memory Management Unit，MMU)和内存(也称为主存)等硬件。该操作***可以是任意一种或多种通过进程(Process)实现业务处理的计算机操作***，例如，Linux操作***、Unix操作***、Android操作***、iOS操作***或windows操作***等。该应用层包含浏览器、通讯录、文字处理软件、即时通信软件等应用。并且，在本申请中，资源映射的方法的执行主体的具体结构，本申请并未特别限定，只要能够通过运行记录有本申请的资源映射的方法的代码的程序，以根据本申请的资源映射的方法进行通信即可，例如，本申请的资源映射的方法的执行主体可以是终端设备或网络设备，或者，是终端设备或网络设备中能够调用程序并执行程序的功能模块。The method and apparatus provided by the present application can be applied to a terminal device or a network device, which includes a hardware layer, an operating system layer running on the hardware layer, and an application layer running on the operating system layer. The hardware layer includes hardware such as a central processing unit (CPU), a memory management unit (MMU), and a memory (also referred to as main memory). The operating system may be any one or more computer operating systems that implement business processing through a process, such as a Linux operating system, a Unix operating system, an Android operating system, an iOS operating system, or a Windows operating system. The application layer includes applications such as browsers, contacts, word processing software, and instant messaging software. Further, in the present application, the specific structure of the execution subject of the resource mapping method is not particularly limited as long as the resource mapping according to the present application can be performed by running a program that records the code of the method of resource mapping of the present application. The method can be communicated. For example, the execution body of the method for resource mapping of the present application may be a terminal device or a network device, or a functional module that can call a program and execute a program in the terminal device or the network device.

此外，本申请的各个方面或特征可以实现成方法、装置或使用标准编程和/或工程技术的制品。本申请中使用的术语“制品”涵盖可从任何计算机可读器件、载体或介质访问的计算机程序。例如，计算机可读介质可以包括，但不限于:磁存储器件(例如，硬盘、软盘或磁带等)，光盘(例如，压缩盘(Compact Disc，CD)、数字通用盘(Digital Versatile Disc，DVD)等)，智能卡和闪存器件(例如，可擦写可编程只读存储器(Erasable Programmable Read-Only Memory，EPROM)、卡、棒或钥匙驱动器等。另外，本文描述的各种存储介质可代表用于存储信息的一个或多个设备和/或其它机器可读介质。术语“机 器可读介质”可包括但不限于，无线信道和能够存储、包含和/或承载指令和/或数据的各种其它介质。Furthermore, various aspects or features of the present application can be implemented as a method, apparatus, or article of manufacture using standard programming and/or engineering techniques. The term "article of manufacture" as used in this application encompasses a computer program accessible from any computer-readable device, carrier, or media. For example, the computer readable medium may include, but is not limited to, a magnetic storage device (eg, a hard disk, a floppy disk, or a magnetic tape, etc.), such as a compact disc (CD), a digital versatile disc (Digital Versatile Disc, DVD). And so on, smart cards and flash memory devices (eg, Erasable Programmable Read-Only Memory (EPROM), cards, sticks or key drivers, etc. Additionally, various storage media described herein can be used for One or more devices and/or other machine readable media storing information. The term "machine readable medium" may include, but is not limited to, a wireless channel and various other capable of storing, containing and/or carrying instructions and/or data. medium.

图1是适用本申请的传输上行控制信号的方法和装置的通信***的示意图。如图1所示，该通信***100包括网络设备102，网络设备102可包括多个天线例如，天线104、106、108、110、112和114。另外，网络设备102可附加地包括发射机链和接收机链，本领域普通技术人员可以理解，它们均可包括与信号发送和接收相关的多个部件(例如处理器、调制器、复用器、编码器、解复用器或天线等)。1 is a schematic diagram of a communication system to which a method and apparatus for transmitting an uplink control signal of the present application is applied. As shown in FIG. 1, the communication system 100 includes a network device 102 that can include multiple antennas, such as antennas 104, 106, 108, 110, 112, and 114. Additionally, network device 102 may additionally include a transmitter chain and a receiver chain, as will be understood by those of ordinary skill in the art, which may include multiple components related to signal transmission and reception (eg, processor, modulator, multiplexer) , encoder, demultiplexer or antenna, etc.).

网络设备102可以与多个终端设备(例如终端设备116和终端设备122)通信。然而，可以理解，网络设备102可以与类似于终端设备116或122的任意数目的终端设备通信。终端设备116和122可以是，例如蜂窝电话、智能电话、便携式电脑、手持通信设备、手持计算设备、卫星无线电装置、全球定位***、PDA和/或用于在无线通信***100上通信的任意其它适合设备。 Network device 102 can communicate with a plurality of terminal devices, such as terminal device 116 and terminal device 122. However, it will be appreciated that network device 102 can communicate with any number of terminal devices similar to terminal device 116 or 122. Terminal devices 116 and 122 can be, for example, cellular telephones, smart phones, portable computers, handheld communication devices, handheld computing devices, satellite radios, global positioning systems, PDAs, and/or any other for communicating over wireless communication system 100. Suitable for equipment.

如图1所示，终端设备116与天线112和114通信，其中天线112和114通过前向链路118向终端设备116发送信息，并通过反向链路120从终端设备116接收信息。此外，终端设备122与天线104和106通信，其中天线104和106通过前向链路124向终端设备122发送信息，并通过反向链路126从终端设备122接收信息。As shown in FIG. 1, terminal device 116 is in communication with antennas 112 and 114, wherein antennas 112 and 114 transmit information to terminal device 116 over forward link 118 and receive information from terminal device 116 over reverse link 120. In addition, terminal device 122 is in communication with antennas 104 and 106, wherein antennas 104 and 106 transmit information to terminal device 122 over forward link 124 and receive information from terminal device 122 over reverse link 126.

例如，在频分双工(Frequency Division Duplex，FDD)***中，例如，前向链路118可利用与反向链路120所使用的不同频带，前向链路124可利用与反向链路126所使用的不同频带。For example, in a Frequency Division Duplex (FDD) system, for example, the forward link 118 can utilize a different frequency band than that used by the reverse link 120, and the forward link 124 can utilize the reverse link. 126 different frequency bands used.

再例如，在时分双工(Time Division Duplex，TDD)***和全双工(Full Duplex)***中，前向链路118和反向链路120可使用共同频带，前向链路124和反向链路126可使用共同频带。As another example, in a Time Division Duplex (TDD) system and a Full Duplex system, the forward link 118 and the reverse link 120 can use a common frequency band, a forward link 124, and a reverse link. Link 126 can use a common frequency band.

被设计用于通信的每个天线(或者由多个天线组成的天线组)和/或区域称为网络设备102的扇区。例如，可将天线组设计为与网络设备102覆盖区域的扇区中的终端设备通信。在网络设备102通过前向链路118和124分别与终端设备116和122进行通信的过程中，网络设备102的发射天线可利用波束成形来改善前向链路118和124的信噪比。此外，与网络设备通过单个天线向它所有的终端设备发送信号的方式相比，在网络设备102利用波束成形向相关覆盖区域中随机分散的终端设备116和122发送信号时，相邻小区中的移动设备会受到较少的干扰。Each antenna (or set of antennas consisting of multiple antennas) and/or regions designed for communication is referred to as a sector of network device 102. For example, the antenna group can be designed to communicate with terminal devices in sectors of the network device 102 coverage area. In the process in which network device 102 communicates with terminal devices 116 and 122 via forward links 118 and 124, respectively, the transmit antenna of network device 102 may utilize beamforming to improve the signal to noise ratio of forward links 118 and 124. In addition, when the network device 102 uses beamforming to transmit signals to the randomly dispersed terminal devices 116 and 122 in the relevant coverage area, the network device 102 uses a single antenna to transmit signals to all of its terminal devices. Mobile devices are subject to less interference.

在给定时间，网络设备102、终端设备116或终端设备122可以是无线通信发送装置和/或无线通信接收装置。当发送数据时，无线通信发送装置可对数据进行编码以用于传输。具体地，无线通信发送装置可获取(例如生成、从其它通信装置接收、或在存储器中保存等)要通过信道发送至无线通信接收装置的一定数目的数据比特。这种数据比特可包含在数据的传输块(或多个传输块)中，传输块可被分段以产生多个码块。At a given time, network device 102, terminal device 116, or terminal device 122 may be a wireless communication transmitting device and/or a wireless communication receiving device. When transmitting data, the wireless communication transmitting device can encode the data for transmission. In particular, the wireless communication transmitting device may acquire (eg, generate, receive from other communication devices, or store in memory, etc.) a certain number of data bits to be transmitted over the channel to the wireless communication receiving device. Such data bits may be included in a transport block (or multiple transport blocks) of data that may be segmented to produce multiple code blocks.

此外，该通信***100可以是PLMN网络或者D2D网络或者M2M网络或者其他网络，图1只是举例的简化示意图，网络中还可以包括其他网络设备，图1中未予以画出。In addition, the communication system 100 can be a PLMN network or a D2D network or an M2M network or other network. FIG. 1 is only a simplified schematic diagram of an example, and other network devices may also be included in the network, which are not shown in FIG.

需要说明的是，本申请的资源映射的方法包括上行传输中的资源映射的方法以及下行传输中的资源映射的方法，下面逐一进行说明。It should be noted that the method for resource mapping in the present application includes a method for resource mapping in uplink transmission and a method for resource mapping in downlink transmission, which are described one by one below.

首先，对上行传输中的资源映射的方法进行说明。First, a method of resource mapping in uplink transmission will be described.

图2示出了根据本申请的上行传输中的资源映射的方法的示意性流程图。图2中的终端设备可以为图1中的终端设备116、122中的终端设备；网络设备可以为图1中的网络设备102。当然，实际***中，网络设备和终端设备的数量可以不局限于本实施例或其他实施例的举例，以下不再赘述。如图2所示，该方法包括：FIG. 2 shows a schematic flow chart of a method of resource mapping in uplink transmission according to the present application. The terminal device in FIG. 2 may be the terminal device in the terminal devices 116, 122 in FIG. 1; the network device may be the network device 102 in FIG. Of course, in the actual system, the number of the network device and the terminal device may not be limited to the examples in this embodiment or other embodiments, and details are not described herein again. As shown in Figure 2, the method includes:

S210，网络设备生成资源配置信息，该资源配置信息用于向该终端设备指示N个跳频带宽部分(Hopping bandwidth part，HBP)的参数信息，N≥2，该N个HBP中的任意一个HBP的带宽长度小于或等于该终端设备的激活态带宽部分active-BP的带宽长度；S220，网络设备向终端设备发送该资源配置信息；S210, the network device generates resource configuration information, where the resource configuration information is used to indicate parameter information of the N Hopping bandwidth part (HBP) to the terminal device, where N≥2, any one of the N HBPs The bandwidth length is less than or equal to the bandwidth length of the active-bandwidth portion active-BP of the terminal device; S220, the network device sends the resource configuration information to the terminal device;

S230，终端设备接收网络设备发送的资源配置信息，该资源配置信息用于向该终端设备指示N个HBP的参数信息，N≥2，该N个HBP中的任意一个HBP的带宽长度小于或等于该终端设备的激活态带宽部分active-BP的带宽长度HBP；S230, the terminal device receives resource configuration information sent by the network device, where the resource configuration information is used to indicate parameter information of the N HBPs to the terminal device, where N≥2, and the bandwidth length of any one of the N HBPs is less than or equal to The bandwidth of the active state bandwidth part of the terminal device active-BP is HBP;

具体而言，网络设备向终端设备发送资源配置信息，该资源配置信息用于向终端设备指示N个HBP的参数信息，N≥2，即向终端设备指示该终端设备的激活态带宽部分active-BP的带宽长度所包含的HBP，以及每个HBP的参数信息，该N个HBP中的任意一个HBP的带宽长度均小于或等于该终端设备的激活态带宽部分active-BP的带宽长度。Specifically, the network device sends the resource configuration information to the terminal device, where the resource configuration information is used to indicate the parameter information of the N HBPs to the terminal device, where N≥2, that is, indicating to the terminal device, the active state bandwidth portion of the terminal device is active- The HBP included in the bandwidth length of the BP and the parameter information of each HBP, the bandwidth length of any one of the N HBPs is less than or equal to the bandwidth length of the active-bandwidth portion active-BP of the terminal device.

可选地，该资源配置信息还可以用于向该终端设备指示一个HBP的参数信息(即，N＝1)，该一个HBP的带宽长度小于或等于该终端设备的激活态带宽部分active-BP的带宽长度。Optionally, the resource configuration information may be further used to indicate, to the terminal device, parameter information of an HBP, that is, N=1, where a bandwidth length of the one HBP is less than or equal to an active state bandwidth part of the terminal device, active-BP. The length of the bandwidth.

具体而言，通过为终端设备配置一个HBP，并且该HBP的带宽长度小于或等于该终端设备的激活态带宽部分active-BP的带宽长度，同样可以使得终端设备按照该1个HBP的参数信息进行跳频时，都不会跳出终端设备的激活态带宽部分active-BP。Specifically, by configuring an HBP for the terminal device, and the bandwidth length of the HBP is less than or equal to the bandwidth length of the active-bandwidth portion active-BP of the terminal device, the terminal device can also be configured according to the parameter information of the one HBP. When hopping, the active-bandwidth part active-BP of the terminal device does not jump out.

在步骤S220中，终端设备接收网络设备发送的该资源配置信息，通过该资源配置信息，终端设备可以确定其激活态带宽部分active-BP包含的HBP的数目以及每个HBP的参数信息。在上行传输中，该N个HBP向终端设备指示在相应HBP内按照该HBP的参数信息进行跳频。In step S220, the terminal device receives the resource configuration information sent by the network device, and by using the resource configuration information, the terminal device may determine the number of HBPs included in the active-state bandwidth portion active-BP and the parameter information of each HBP. In the uplink transmission, the N HBPs indicate to the terminal device that frequency hopping is performed according to the parameter information of the HBP in the corresponding HBP.

可选地，该N个HBP的带宽总长度等于该终端设备的active-BP的带宽长度，该N个HBP中的任意两个HBP在频域上不重叠。Optionally, the total length of the bandwidth of the N HBPs is equal to the bandwidth length of the active-BP of the terminal device, and any two HBPs of the N HBPs do not overlap in the frequency domain.

具体而言，通过使网络设备为终端设备分配的N个跳频HBP能够完全覆盖住终端设备的active-BP的带宽长度，使得终端设备能够按照该N个跳频HBP进行跳频，避免因为N个HBP的带宽总长度小于N个HBP的带宽总长度，导致终端设备的active-BP中的一部分带宽按照***带宽进行跳频时出现跳出工作带宽范围的问题。Specifically, the N frequency hopping HBPs allocated by the network device to the terminal device can completely cover the bandwidth length of the active-BP of the terminal device, so that the terminal device can perform frequency hopping according to the N frequency hopping HBPs to avoid The total length of the bandwidth of the HBP is less than the total length of the bandwidth of the N HBPs, which causes a problem that a part of the bandwidth of the active-BP of the terminal device jumps out of the working bandwidth when frequency hopping according to the system bandwidth.

因此，本申请的资源映射的方法，通过使N个HBP中的任意一个HBP的带宽长度小于或等于该终端设备的激活态带宽部分active-BP的带宽长度，使得终端设备按照该N个HBP中的任意一个HBP的参数信息进行跳频时，都不会跳出终端设备的激活态带宽部分active-BP。Therefore, the resource mapping method of the present application, by making the bandwidth length of any one of the N HBPs less than or equal to the bandwidth length of the active-state bandwidth portion active-BP of the terminal device, causes the terminal device to follow the N HBPs. When the parameter information of any one of the HBPs is frequency hopping, the active state bandwidth part active-BP of the terminal device does not jump out.

可选地，该网络设备通过RRC信令向该终端设备发送该资源配置信息；或Optionally, the network device sends the resource configuration information to the terminal device by using RRC signaling; or

该网络设备通过***广播消息或组播消息向终端设备发送M个HBP的参数信息，M≥2，以使该终端设备根据该M个HBP的参数信息和该终端设备的active-BP的带宽长度和active-BP的起始位置或者结束位置，确定对应的N个HBP的参数信息，其中，M、N 均为正整数，且M≥N。The network device sends the parameter information of the M HBPs to the terminal device by using the system broadcast message or the multicast message, M≥2, so that the terminal device according to the parameter information of the M HBPs and the bandwidth length of the active-BP of the terminal device And the start position or the end position of the active-BP, determining parameter information of the corresponding N HBPs, where M and N are positive integers, and M≥N.

具体而言，网络设备可以通过无线资源控制(Radio Resource Control，RRC)信令单独向***中的每个终端设备发送该对应的资源配置信息；或者，还可以通过***广播消息或者组播消息在***中广播M个HBP的参数信息，该M个HBP的参数信息发送给***中的多个终端设备。Specifically, the network device may separately send the corresponding resource configuration information to each terminal device in the system by using Radio Resource Control (RRC) signaling; or may also broadcast a message or a multicast message through the system. The parameter information of the M HBPs is broadcasted in the system, and the parameter information of the M HBPs is sent to multiple terminal devices in the system.

当***中的终端设备收到网络设备通过***广播消息或者组播消息发送的该M个HBP的参数信息时，根据自身的active-BP的带宽长度，从该M个HBP的参数信息中确定出与属于该终端设备的active-BP的N个HBP的参数信息,其中，M、N均为正整数，且M≥N。When the terminal device in the system receives the parameter information of the M HBPs sent by the network device through the system broadcast message or the multicast message, the terminal device determines the parameter information of the M HBPs according to the bandwidth length of the active-BP. The parameter information of the N HBPs of the active-BP belonging to the terminal device, wherein M and N are positive integers, and M≥N.

为了便于对后续方案的理解，首先对该N个HBP的参数信息进行说明。In order to facilitate the understanding of the subsequent solutions, the parameter information of the N HBPs is first described.

可选地，该N个HBP中的每个HBP的参数信息至少包括以下信息：Optionally, the parameter information of each HBP of the N HBPs includes at least the following information:

HBP的带宽长度信息、HBP的位置信息和HBP的跳频规则信息，该HBP的跳频规则信息包括跳频模式信息、跳频PRB偏移信息、跳频子带信息中的至少一个。The bandwidth length information of the HBP, the location information of the HBP, and the hopping rule information of the HBP, the hopping rule information of the HBP includes at least one of frequency hopping mode information, frequency hopping PRB offset information, and frequency hopping subband information.

具体而言，该HBP的带宽长度信息可以为HBP所包括的物理资源块(Physical Resource Block，PRB)的数目，该HBP的位置信息可以为对应HBP起始的PRB资源的编号或者结束的PRB资源的编号；该HBP的跳频模式信息可以为传输时间单元内跳频或者传输时间单元间跳频；HBP参数信息中的跳频PRB偏移信息可以为跳频时的PRB偏移量，用于保护HBP中其他信道的正常传输，该其他信道可以为上行物理控制信道(Physical Uplink Control Channel，PUCCH)；HBP的参数信息中的跳频子带信息可以为终端设备的一个HBP所包括的子带数目信息。Specifically, the bandwidth length information of the HBP may be the number of physical resource blocks (PRBs) included in the HBP, and the location information of the HBP may be the number of the PRB resource corresponding to the HBP or the end of the PRB resource. The number of the hopping mode information of the HBP may be a frequency hopping or a transmission time hopping between the transmission time units; the frequency hopping PRB offset information in the HBP parameter information may be a PRB offset at the time of frequency hopping, used for The normal transmission of the other channels in the HBP is protected. The other channel may be a Physical Uplink Control Channel (PUCCH). The frequency hopping subband information in the parameter information of the HBP may be a subband included in an HBP of the terminal device. Number information.

需要说明的是，该子带数目信息和PRB偏移量信息及HBP包含的PRB数目共同用于确定其他类型跳频时(例如，Type2跳频类型)从VRB资源到PRB资源映射时的PRB偏移量计算。It should be noted that the sub-band number information and the PRB offset information and the number of PRBs included in the HBP are used together to determine the PRB bias when the other types of frequency hopping (for example, the Type 2 hopping type) are mapped from the VRB resource to the PRB resource. Transfer calculation.

S240，该终端设备根据该资源配置信息和上行调度信息，确定网络设备分配的上行物理传输资源；S240. The terminal device determines, according to the resource configuration information and the uplink scheduling information, an uplink physical transmission resource allocated by the network device.

具体而言，当终端设备接收到网络设备发送的资源配置信息之后，终端设备根据该资源配置信息以及上行调度信息，确定网络设备分配的上行物理传输资源，该上行调度信息用于向终端设备指示网络设备为其分配的虚拟传输资源。Specifically, after the terminal device receives the resource configuration information sent by the network device, the terminal device determines, according to the resource configuration information and the uplink scheduling information, an uplink physical transmission resource allocated by the network device, where the uplink scheduling information is used to indicate to the terminal device. The virtual transmission resource assigned to it by the network device.

可选地，该上行调度信息可以是基于***预配置的，即网络设备与终端设备都能够获知该上行调度信息；或者，该上行调度信息可以由网络设备发送至终端设备，该上行调度信息至少用于向终端设备指示网络设备为其分配的上行传输资源和映射参数信息，该映射参数信息用于向终端设备指示跳频时需要使用某种跳频类型。例如，该上行调度信息向终端设备指示上行虚拟资源块(Virtual Resource Block，VRB)的资源索引信息，该资源索引信息可以包括该上行VRB资源的资源索引值。Optionally, the uplink scheduling information may be based on the system pre-configured, that is, the network device and the terminal device can obtain the uplink scheduling information; or the uplink scheduling information may be sent by the network device to the terminal device, where the uplink scheduling information is at least And configured to indicate to the terminal device, the uplink transmission resource and the mapping parameter information allocated by the network device, where the mapping parameter information is used to indicate to the terminal device that a certain frequency hopping type is needed when the frequency hopping is performed. For example, the uplink scheduling information indicates, to the terminal device, resource index information of an uplink virtual resource block (VRB), where the resource index information may include a resource index value of the uplink VRB resource.

当终端设备获取了该上行调度信息之后，就可以根据该上行调度信息，确定网络设备为其分配的虚拟传输资源，此外，由于该上行调度信息还用于向用户设备指示映射参数信息，该映射参数信息用于向终端设备指示跳频时需要使用某种跳频类型。进而，终端设备根据该资源配置信息和上行调度信息指示的映射参数信息，确定网络设备分配的上行物理传输资源。After the terminal device obtains the uplink scheduling information, the network device determines the virtual transmission resource allocated by the network device according to the uplink scheduling information, and further, the uplink scheduling information is used to indicate the mapping parameter information to the user equipment, where the mapping is performed. The parameter information is used to indicate to the terminal device that a certain frequency hopping type is required when hopping. Further, the terminal device determines, according to the resource configuration information and the mapping parameter information indicated by the uplink scheduling information, the uplink physical transmission resource allocated by the network device.

在步骤S240中，可选地，该终端设备确定属于第一HBP的第一上行VRB资源，该第一HBP为该N个HBP中的任意一个HBP，该第一上行VRB资源为该网络设备通过该上行调度信息为该终端设备分配的资源；In step S240, the terminal device determines, by the terminal device, the first uplink VRB resource that belongs to the first HBP, where the first HBP is any one of the N HBPs, and the first uplink VRB resource is the network device. The uplink scheduling information is a resource allocated by the terminal device;

该终端设备将该第一上行VRB资源按照该第一HBP的参数信息进行映射，确定第一上行PRB资源、第二上行PRB资源，即在第一时间单元中，该VRB资源在第一HBP中经过映射后得到第一上行PRB资源，在第二时间单元中，该VRB资源在第一HBP中经过映射后得到第二上行PRB资源，该第一上行PRB资源和该第二上行PRB资源之间在频域上存在一定数目的PRB偏移。The terminal device maps the first uplink VRB resource according to the parameter information of the first HBP, and determines the first uplink PRB resource and the second uplink PRB resource, that is, in the first time unit, the VRB resource is in the first HBP. After the mapping, the first uplink PRB resource is obtained, and in the second time unit, the VRB resource is mapped in the first HBP to obtain the second uplink PRB resource, where the first uplink PRB resource and the second uplink PRB resource are There is a certain number of PRB offsets in the frequency domain.

需要说明的是，该第一上行VRB资源可以为网络设备为终端设备分配的一段连续的VRB资源，或者，也可以是网络设备为终端设备分配的一段连续的VRB资源中的部分VRB资源(即，该连续的VRB资源中的部分VRB资源属于HBP1，该连续的VRB资源中的另一部分VRB资源属于该N个HBP中除HBP1之外的其他HBP)。本申请对此不作限制。It should be noted that the first uplink VRB resource may be a continuous VRB resource allocated by the network device for the terminal device, or may be a partial VRB resource of a continuous VRB resource allocated by the network device to the terminal device (ie, A part of the VRB resources in the consecutive VRB resources belong to HBP1, and another part of the VRB resources in the consecutive VRB resources belong to other HBPs except the HBP1 in the N HBPs. This application does not limit this.

为了便于说明，下面以***中的终端设备为第一终端设备和第二终端设备为例，对本申请的技术方案进行说明，其中该第一终端设备的工作带宽大小与该第二终端设备的工作带宽大小不同，且该第一终端设备与该第二终端设备的工作带宽之间存在重叠区域。For the convenience of the description, the following is a description of the technical solution of the first terminal device and the second terminal device in the system, wherein the working bandwidth of the first terminal device and the working of the second terminal device are described. The bandwidth is different, and there is an overlapping area between the working bandwidth of the first terminal device and the second terminal device.

作为示例而非限定，如图3所示，该第一终端设备的工作带宽包含25个PRB资源(即，0～24号PRB资源)，该第二终端设备的工作带宽包含50个PRB资源(即，0～49号PRB资源)，其中，第一终端设备与第二终端设备的工作带宽之间存在重叠区域，且该重叠区域包含0～24号PRB资源(即，HBP的带宽长度信息的一例与HBP的位置信息的一例)。网络设备通过该资源配置信息，为该第一终端设备配置了一个HBP(HBP1，即，第一HBP的一例)，该HBP包含0～24号PRB资源，网络设备为该第二终端设备配置了两个HBP，该两个HBP中的HBP1包含0～24号PRB资源，该两个HBP中的HBP2包含25～49号PRB资源。By way of example and not limitation, as shown in FIG. 3, the working bandwidth of the first terminal device includes 25 PRB resources (ie, PRB resources 0-24), and the working bandwidth of the second terminal device includes 50 PRB resources ( That is, there is an overlap area between the working bandwidths of the first terminal device and the second terminal device, and the overlapping area includes the PRB resources of 0 to 24 (that is, the bandwidth length information of the HBP). An example of an example of location information with HBP). The network device configures, by the resource configuration information, an HBP (HBP1, that is, an example of the first HBP), where the HBP includes the PRB resources 0 to 24, and the network device configures the second terminal device. Two HBPs, HBP1 of the two HBPs contain PRB resources No. 0-24, and HBP2 of the two HBPs contain PRB resources No. 25-49.

作为示例而非限定，网络设备通过该上行调度信息，为第一终端设备分配的VRB资源为9～13号VRB资源(即，第一上行VRB资源的一例)。该第一终端设备首先根据网络设备为其分配的VRB资源，确定该9～13号VRB资源属于HBP1，因此，该第一终端设备将按照HBP1的参数信息和上行调度信息指示的映射参数信息对该9～13号VRB资源进行资源映射(即，跳频)。By way of example and not limitation, the network device allocates VRB resources for the first terminal device to the VRB resources of 9 to 13 (that is, an example of the first uplink VRB resource). The first terminal device first determines that the VRB resources of the 9th to 13th belong to the HBP1 according to the VRB resources allocated by the network device, and therefore, the first terminal device performs the mapping parameter information indicated by the parameter information of the HBP1 and the uplink scheduling information. The 9 to 13 VRB resources perform resource mapping (ie, frequency hopping).

例如，HBP1和HBP2的参数信息均配置为PRB的偏移量为0，即整个HBP内的PRB都是跳频区域；或者，该参数信息还可以配置为14个正交频分复用符号(OFDM Symbol，OS)内的子帧内(intra-slot)跳频；还例如，HBP1的跳频模式为传输时间单元内跳频，HBP2的跳频模式同样为传输时间单元内跳频，并配置跳频子带数目为2，第一终端设备的上行调度信息与第二终端设备的上行调度信息中的映射参数信息向终端设备指示跳频需要使用跳频类型(例如，Type1跳频类型)，即按照1/2的HBP长度进行跳频。For example, the parameter information of HBP1 and HBP2 is configured as the offset of the PRB is 0, that is, the PRB in the entire HBP is a frequency hopping area; or, the parameter information can also be configured as 14 orthogonal frequency division multiplexing symbols ( Intra-slot hopping in OFDM Symbol, OS); for example, the frequency hopping mode of HBP1 is frequency hopping in the transmission time unit, and the frequency hopping mode of HBP2 is also frequency hopping in the transmission time unit, and configured The number of the frequency hopping subbands is 2, and the uplink scheduling information of the first terminal device and the mapping parameter information in the uplink scheduling information of the second terminal device indicate that the frequency hopping needs to use the frequency hopping type (for example, the Type 1 hopping type). That is, frequency hopping is performed according to the HBP length of 1/2.

需要说明的是，上述关于HBP的参数信息的配置以及映射参数信息的配置仅为示例性说明，本申请对此不作任何限制。It should be noted that the configuration of the parameter information about the HBP and the configuration of the mapping parameter information are merely exemplary, and the present application does not limit this.

此时，第一终端设备首先将该9～13号VRB资源映射到HBP1中的第一时间单元对应的9～13号PRB资源(即，第一上行PRB资源的一例)中，再将该9～13号VRB资源 按照12个PRB资源进行偏移之后，映射到HBP1中的第二时间单元对应的21～24号PRB资源以及0号PRB资源(即，第二上行PRB资源的一例)中。可以看出，该第一时间单元上的第一PRB资源和该第二时间单元上的第二PRB资源之间存在12个PRB(25/2向下取整后的结果)的偏移。至此，第一终端设备根据资源配置信息以及上行调度信息，确定了网络设备分配的上行物理传输资源。At this time, the first terminal device first maps the VRB resources of the 9th to the 13th to the 9th to 13th PRB resources corresponding to the first time unit in the HBP1 (that is, an example of the first uplink PRB resource), and then the 9th terminal device The No. 13 VRB resource is offset according to the 12 PRB resources, and then mapped to the 21st to 24th PRB resources and the 0th PRB resources (that is, an example of the second uplink PRB resources) corresponding to the second time unit in the HBP1. It can be seen that there is an offset of 12 PRBs (25/2 rounded down result) between the first PRB resource on the first time unit and the second PRB resource on the second time unit. So far, the first terminal device determines the uplink physical transmission resource allocated by the network device according to the resource configuration information and the uplink scheduling information.

在步骤S240中，可选地，该第一上行VRB资源至多属于该第一HBP和第二HBP，该第二HBP为该N个HBP中与该第一HBP相邻的HBP，该第一上行VRB资源为一段连续的VRB资源。In step S240, optionally, the first uplink VRB resource belongs to the first HBP and the second HBP at most, and the second HBP is an HBP adjacent to the first HBP among the N HBPs, where the first uplink is The VRB resource is a continuous VRB resource.

作为示例而非限定，网络设备为第二终端设备分配的VRB资源为22～29号VRB资源。该第二终端设备首先根据网络设备为其分配的VRB资源和HBP配置信息，确定该22～29号VRB中的22～24号VRB资源属于HBP1，该22～29号VRB资源中的25～29号VRB属于HBP2。因此，该第二终端设备将按照HBP1的参数信息和上行调度信息指示的Type1跳频类型(即，1/2的HBP的PRB偏移)对该22～24号VRB资源进行资源映射，按照HBP2的参数信息和上行调度信息指示的Type1跳频类型(即，1/2的HBP的PRB偏移)对该25～29号VRB资源进行资源映射(即，跳频)。By way of example and not limitation, the VRB resources allocated by the network device to the second terminal device are VRB resources No. 22-29. The second terminal device first determines, according to the VRB resource and the HBP configuration information allocated by the network device, that the VRB resources of the 22th to the 24th VRBs belong to the HBP1, and the 25th and 29th of the VRB resources 22-29 No. VRB belongs to HBP2. Therefore, the second terminal device performs resource mapping on the No. 22 to No. 24 VRB resources according to the parameter information of the HBP1 and the Type1 hopping type indicated by the uplink scheduling information (that is, the PRB offset of the HBP of 1/2), according to the HBP2. The parameter information and the Type 1 hopping type indicated by the uplink scheduling information (ie, the PRB offset of the HBP of 1/2) perform resource mapping (ie, frequency hopping) on the VRB resources No. 25-29.

按照上述的HBP1和HBP2的参数信息的配置可知，HBP1的跳频模式为传输时间单元内跳频，且该第一终端设备的上行调度信息指示的跳频类型为Type1跳频类型，即按照12个PRB偏移进行跳频；HBP2的跳频模式为传输时间单元内跳频，且该第一终端设备的上行调度信息指示的跳频类型为Type1跳频类型，即按照12个PRB偏移进行跳频。According to the configuration of the parameter information of the HBP1 and the HBP2, the frequency hopping mode of the HBP1 is a frequency hopping in the transmission time unit, and the hopping type indicated by the uplink scheduling information of the first terminal device is a Type 1 hopping type, that is, according to 12 The frequency hopping mode of the HBP2 is hopping in the transmission time unit, and the hopping type indicated by the uplink scheduling information of the first terminal equipment is the Type 1 hopping type, that is, according to 12 PRB offsets. Frequency hopping.

此时，第二终端设备首先将第一时间单元中属于HBP1的22～24号VRB映射到的HBP1的22～24号PRB，属于HBP2的25～29号VRB映射到HBP2的25～29号PRB，其中第一时间单元可以为时域上连续的n个OFDM符号，n≥1；其次，将第二时间单元中属于HBP1的22～24号VRB映射到的HBP1的9～11号PRB，属于HBP2的25～29号VRB映射到HBP2的37～41号PRB，其中第二时间单元为时域上连续的n个OFDM符号，n≥1。At this time, the second terminal device first maps the PRBs 22 to 24 of HBP1 to which the VRBs 22 to 24 belonging to HBP1 in the first time unit are mapped, and the VRBs 25 to 29 belonging to HBP2 to the PRBs 25 to 29 of HBP2. The first time unit may be n consecutive OFDM symbols in the time domain, n≥1; secondly, the PRBs 9 to 11 of HBP1 to which the VRBs 22 to 24 belonging to HBP1 in the second time unit are mapped belong to The VRBs 25-29 of HBP2 are mapped to PRBs 37-41 of HBP2, wherein the second time unit is n consecutive OFDM symbols in the time domain, n≥1.

至此，第二终端设备根据资源配置信息以及上行调度信息，确定了网络设备分配的上行物理传输资源。So far, the second terminal device determines the uplink physical transmission resource allocated by the network device according to the resource configuration information and the uplink scheduling information.

需要说明的是，当HBP配置了子帧内的跳频模式时，上述的第一时间单元与该第二时间单元可以属于同一个传输时间单元；或者，当HBP配置子帧间的跳频模式时，上述第一时间单元与第二时间单元也可以分别属于不同的传输时间单元。本申请对此不做限定。It should be noted that when the HBP configures the frequency hopping mode in the subframe, the foregoing first time unit and the second time unit may belong to the same transmission time unit; or, when the HBP configures the frequency hopping mode between the subframes The first time unit and the second time unit may also belong to different transmission time units. This application does not limit this.

可选地，该方法200还可以包括步骤S250，该终端设备在该上行物理传输资源上向该网络设备发送上行数据。Optionally, the method 200 may further include the step S250, the terminal device sending uplink data to the network device on the uplink physical transmission resource.

具体而言，当终端设备确定了网络设备分配的上行物理传输资源(例如，上述的9～13号PRB资源、21～24号PRB资源以及0号PRB资源)之后，就可以在该上行物理传输资源上向该网络设备发送上行数据了。Specifically, after the terminal device determines the uplink physical transmission resource allocated by the network device (for example, the foregoing 9 to 13 PRB resources, the 21 to 24 PRB resources, and the 0th PRB resources), the terminal may perform the uplink physical transmission. The uplink data is sent to the network device on the resource.

可选地，该方法200还可以包括步骤S260，网络设备在该上行物理传输资源上向接收终端设备发送的上行数据Optionally, the method 200 may further include the step S260, the uplink data sent by the network device to the receiving terminal device on the uplink physical transmission resource.

需要说明的是，图3中示出的第一终端设备包含一个HBP且第二终端设备包含两个 HBP的情况仅以示例，并不对本申请构成任何限定。在本申请中，处于同一个***中的部分终端设备的active-BP可以只包含一个HBP，还有部分终端设备的active-BP可以至少包含两个HBP，或者，处于同一个***中的部分终端设备的active-BP均可以至少包含两个HBP。本申请对此不作限定。It should be noted that the case where the first terminal device shown in FIG. 3 includes one HBP and the second terminal device includes two HBPs is only an example, and does not constitute any limitation to the present application. In this application, the active-BP of some terminal devices in the same system may only contain one HBP, and the active-BP of some terminal devices may include at least two HBPs, or some terminals in the same system. The device's active-BP can contain at least two HBPs. This application does not limit this.

因此，本申请的资源映射的方法，对于active-BP的带宽长度不同的终端设备，通过使同一HBP中的属于不同终端设备的虚拟传输资源按照相同的HBP的参数信息进行映射，进而解决active-BP的带宽长度不同的终端设备按照各自的active-BP跳频之后发生资源冲突的问题。Therefore, the method for resource mapping of the present application, for the terminal devices with different bandwidth lengths of the active-BP, maps the virtual transmission resources belonging to different terminal devices in the same HBP according to the same HBP parameter information, thereby solving the active- The problem of resource conflict occurs after the terminal devices with different bandwidth lengths of BP follow the respective active-BP frequency hopping.

上述是针对上行传输，对本申请的资源映射的方法进行了说明。下面针对下行传输，对本申请的资源映射的方法进行说明。The above is a description of the method of resource mapping of the present application for uplink transmission. The method of resource mapping of the present application will be described below for downlink transmission.

图4示出了根据本申请的下行传输中的资源映射的方法的示意性流程图。图4中的终端设备可以为图1中的终端设备116、122中的终端设备；网络设备可以为图1中的网络设备102。当然，实际***中，网络设备和终端设备的数量可以不局限于本实施例或其他实施例的举例，以下不再赘述。如图4所示，该方法包括：FIG. 4 shows a schematic flow chart of a method of resource mapping in downlink transmission according to the present application. The terminal device in FIG. 4 may be the terminal device in the terminal devices 116, 122 in FIG. 1; the network device may be the network device 102 in FIG. Of course, in the actual system, the number of the network device and the terminal device may not be limited to the examples in this embodiment or other embodiments, and details are not described herein again. As shown in FIG. 4, the method includes:

S310，网络设备生成资源配置信息，该资源配置信息用于向该终端设备指示N个映射带宽部分(Mapping Bandwidth Part，MBP)的参数信息，N≥2，该N个MBP中的任意一个MBP的带宽长度小于或等于该终端设备的激活态带宽部分active-BP的带宽长度；S310, the network device generates resource configuration information, where the resource configuration information is used to indicate parameter information of N mapping bandwidth parts (MBPs) to the terminal device, where N≥2, any one of the N MBPs The bandwidth length is less than or equal to the bandwidth length of the active-bandwidth portion active-BP of the terminal device;

S320，网络设备向终端设备发送该资源配置信息；S320. The network device sends the resource configuration information to the terminal device.

S330，终端设备接收网络设备发送的资源配置信息，该资源配置信息用于向该终端设备指示N个MBP的参数信息，N≥2，该N个MBP中的任意一个MBP的带宽长度小于或等于该终端设备的激活态带宽部分active-BP的带宽长度；S330, the terminal device receives the resource configuration information sent by the network device, where the resource configuration information is used to indicate the parameter information of the N MBPs to the terminal device, where N≥2, and the bandwidth length of any one of the N MBPs is less than or equal to The bandwidth of the active-bandwidth portion active-BP of the terminal device;

具体而言，网络设备向终端设备发送资源配置信息，该资源配置信息用于向终端设备指示N个MBP的参数信息，N≥2，即向终端设备指示该终端设备的激活态带宽部分active-BP的带宽长度所包含的MBP，以及每个MBP的参数信息，该N个MBP中的任意一个MBP的带宽长度均小于或等于该终端设备的激活态带宽部分active-BP的带宽长度，并且，该N个MBP中的任意两个MBP在频域上不重叠。Specifically, the network device sends the resource configuration information to the terminal device, where the resource configuration information is used to indicate the parameter information of the N MBPs to the terminal device, where N≥2, that is, indicating to the terminal device, the active state bandwidth portion of the terminal device is active- The MBP included in the bandwidth length of the BP, and the parameter information of each MBP, the bandwidth length of any one of the N MBPs is less than or equal to the bandwidth length of the active-bandwidth portion active-BP of the terminal device, and Any two of the N MBPs do not overlap in the frequency domain.

可选地，该资源配置信息用于向该终端设备指示一个MBP的参数信息(即，N＝1)，该一个MBP的带宽长度小于或等于该终端设备的激活态带宽部分active-BP的带宽长度。Optionally, the resource configuration information is used to indicate, to the terminal device, parameter information of an MBP (ie, N=1), where a bandwidth length of the one MBP is less than or equal to a bandwidth of an active-state bandwidth portion active-BP of the terminal device. length.

具体而言，通过为终端设备配置一个MBP，并且该MBP的带宽长度小于或等于该终端设备的激活态带宽部分active-BP的带宽长度，同样可以使得终端设备按照该1个MBP的参数信息进行分布式资源映射时，都不会超出终端设备的激活态带宽部分active-BP。Specifically, by configuring an MBP for the terminal device, and the bandwidth length of the MBP is less than or equal to the bandwidth length of the active-bandwidth portion active-BP of the terminal device, the terminal device can also be configured according to the parameter information of the MBP. When the distributed resource is mapped, the active-bandwidth part of the terminal device is not exceeded.

在步骤S330中，终端设备接收网络设备发送的该资源配置信息，通过该资源配置信息，终端设备可以确定其激活态带宽部分active-BP包含的MBP的数目以及每个MBP的参数信息。在下行传输中，该N个MBP向终端设备指示在相应MBP内按照该MBP的参数信息进行资源映射。In step S330, the terminal device receives the resource configuration information sent by the network device, and by using the resource configuration information, the terminal device may determine the number of MBPs included in the active-state bandwidth portion active-BP and the parameter information of each MBP. In the downlink transmission, the N MBPs indicate to the terminal device that the resource mapping is performed according to the parameter information of the MBP in the corresponding MBP.

需要说明的是，该MBP可以为一段频域上连续的PRB资源，本申请对此不作限定。It should be noted that the MBP may be a continuous PRB resource in a frequency domain, which is not limited in this application.

可选地，该N个跳频带宽部分的带宽总长度等于该终端设备的active-BP的带宽长度，该N个跳频带宽部分中的任意两个跳频带宽部分在频域上不重叠。Optionally, the total length of the bandwidth of the N frequency hopping bandwidth portions is equal to the bandwidth length of the active-BP of the terminal device, and any two of the hopping bandwidth portions of the N frequency hopping bandwidth portions do not overlap in the frequency domain.

具体而言，通过使网络设备为终端设备分配的N个MBP能够完全覆盖住终端设备 的active-BP的带宽长度，使得终端设备能够按照该N个MBP进行分布式资源映射，避免因为终端设备active-BP带宽总长度小于N个MBP的带宽总长度，导致终端设备的active-BP中的一部分带宽按照***带宽进行分布式资源映射时出现超出工作带宽范围的问题。Specifically, the N-type MBPs allocated by the network device to the terminal device can completely cover the bandwidth length of the active-BP of the terminal device, so that the terminal device can perform distributed resource mapping according to the N MBPs, thereby avoiding that the terminal device is active. The total length of the BP bandwidth is less than the total length of the bandwidth of the N MBPs, which causes a problem that a part of the bandwidth of the active-BP of the terminal device exceeds the working bandwidth when performing distributed resource mapping according to the system bandwidth.

需要说明的是，该N个MBP的带宽总长度或者该N个MBP中的任意一个MBP的带宽长度可以大于该终端设备的active-BP的带宽长度，对于未被该N个MBP覆盖住的该终端设备的部分active-BP而言，该部分active-BP的映射模式可以配置为集中式映射。It should be noted that the total length of the bandwidth of the N MBPs or the bandwidth length of any one of the N MBPs may be greater than the bandwidth length of the active-BP of the terminal device, and the bandwidth is not covered by the N MBPs. For part of the active-BP of the terminal device, the mapping mode of the active-BP part can be configured as a centralized mapping.

因此，本申请的资源映射的方法，通过使N个MBP中的任意一个MBP的带宽长度小于或等于该终端设备的激活态带宽部分active-BP的带宽长度，使得终端设备按照该N个MBP中的任意一个MBP的参数信息进行分布式资源映射时，都不会超出终端设备的激活态带宽部分active-BP。Therefore, the resource mapping method of the present application, by making the bandwidth length of any one of the N MBPs less than or equal to the bandwidth length of the active-state bandwidth portion active-BP of the terminal device, causes the terminal device to follow the N MBPs. When any parameter information of one MBP is used for distributed resource mapping, the active state bandwidth part active-BP of the terminal device is not exceeded.

可选地，该网络设备通过RRC信令向该终端设备发送该资源配置信息；或Optionally, the network device sends the resource configuration information to the terminal device by using RRC signaling; or

该网络设备通过***广播消息或组播消息向终端设备发送M个MBP的参数信息，M≥2，以使该终端设备根据该M个MBP的参数信息和该终端设备的active-BP的带宽长度确定对应的N个MBP的参数信息，其中，M、N均为正整数，且M≥N。The network device sends the parameter information of the M MBPs to the terminal device by using the system broadcast message or the multicast message, M≥2, so that the terminal device according to the parameter information of the M MBPs and the bandwidth length of the active-BP of the terminal device Determining parameter information of the corresponding N MBPs, where M and N are positive integers, and M≥N.

具体而言，网络设备可以通过无线资源控制(Radio Resource Control，RRC)信令单独向***中的每个终端设备发送该对应的资源配置信息；或者，还可以通过***广播消息或者组播消息在***中广播M个MBP的参数信息，该M个MBP的参数信息对应***中的多个终端设备。Specifically, the network device may separately send the corresponding resource configuration information to each terminal device in the system by using Radio Resource Control (RRC) signaling; or may also broadcast a message or a multicast message through the system. The parameter information of the M MBPs is broadcasted in the system, and the parameter information of the M MBPs corresponds to multiple terminal devices in the system.

当***中的终端设备收到网络设备通过***广播消息或者组播消息发送的该M个MBP的参数信息时，根据自身的active-BP的带宽长度，从该M个MBP的参数信息中确定出与属于该终端设备的N个MBP的参数信息,其中，M、N均为正整数，且M≥N。When the terminal device in the system receives the parameter information of the M MBPs sent by the network device through the system broadcast message or the multicast message, the terminal device determines the parameter information of the M MBPs according to the bandwidth length of the active-BP. Parameter information of N MBPs belonging to the terminal device, where M and N are both positive integers and M≥N.

为了便于对后续方案的理解，首先对该N个MBP的参数信息进行说明。In order to facilitate understanding of the subsequent solutions, the parameter information of the N MBPs is first described.

可选地，该N个MBP中的每个MBP的参数信息至少包括以下信息：Optionally, the parameter information of each MBP of the N MBPs includes at least the following information:

MBP的带宽长度信息、MBP的位置信息和MBP的映射模式，该MBP的映射模式包括集中式映射以及分布式映射。MBP bandwidth length information, MBP location information, and MBP mapping mode, the MBP mapping mode includes centralized mapping and distributed mapping.

具体而言，该MBP的带宽长度信息可以为MBP所包括的物理资源块(Physical Resource Block，PRB)的数目，该MBP的位置信息可以为对应MBP起始的PRB资源的编号或者结束的PRB资源的编号，该MBP的映射模式包括集中式映射以及分布式映射。Specifically, the bandwidth length information of the MBP may be the number of physical resource blocks (PRBs) included in the MBP, and the location information of the MBP may be the number of the PRB resource corresponding to the MBP starting or the ending PRB resource. The numbering of the MBP mapping mode includes centralized mapping as well as distributed mapping.

可选地，该方法300还可以包括步骤S340，该网络设备在下行物理传输资源上向该终端设备发送下行数据。Optionally, the method 300 may further include the step S340, the network device sending downlink data to the terminal device on the downlink physical transmission resource.

S350，该终端设备根据该资源配置信息与该终端设备的下行调度信息，确定网络设备分配的下行物理传输资源；S350, the terminal device determines, according to the resource configuration information and the downlink scheduling information of the terminal device, a downlink physical transmission resource allocated by the network device;

具体而言，当终端设备接收到网络设备发送的资源配置信息与该终端设备的下行调度信息之后，终端设备首先需要根据该资源配置信息以及下行调度信息，确定网络设备分配的下行物理传输资源，该下行调度信息用于向终端设备指示网络设备为其分配的虚拟传输资源，此外，该下行调度信息还用于向终端设备指示映射参数信息，网络设备根据该映射参数信息，能够计算得到MBP中下行虚拟资源块(Virtual Resource Block，VRB)到PRB资源映射的交织矩阵。Specifically, after the terminal device receives the resource configuration information sent by the network device and the downlink scheduling information of the terminal device, the terminal device first needs to determine, according to the resource configuration information and the downlink scheduling information, the downlink physical transmission resource allocated by the network device, The downlink scheduling information is used to indicate to the terminal device the virtual transmission resource allocated by the network device, and the downlink scheduling information is further used to indicate the mapping parameter information to the terminal device, and the network device can calculate the MBP according to the mapping parameter information. The interleaving matrix of the downlink virtual resource block (VRB) to the PRB resource mapping.

可选地，该下行调度信息可以是基于***预配置的，即网络设备与终端设备都能够获知该下行调度信息；或者，该下行调度信息可以由网络设备发送至终端设备，该下行调度信息用于向终端设备网络设备为其分配的下行传输资源。例如，该下行调度信息向终端设备指示VRB资源的资源索引信息，该资源索引信息可以包括该下行VRB资源的资源索引值。Optionally, the downlink scheduling information may be based on the system pre-configured, that is, the network device and the terminal device can obtain the downlink scheduling information; or the downlink scheduling information may be sent by the network device to the terminal device, where the downlink scheduling information is used by the network device. The downlink transmission resource allocated to the terminal device network device. For example, the downlink scheduling information indicates resource index information of the VRB resource to the terminal device, and the resource index information may include a resource index value of the downlink VRB resource.

在步骤S350中，可选地，该网络设备通过下行调度信息为终端分配的资源为下行VRB资源，该下行VRB资源中属于第一MBP是第一VRB资源，该第一MBP为该N个MBP中的任意一个MBP；In the step S350, the resource allocated by the network device to the terminal by using the downlink scheduling information is a downlink VRB resource, where the first MBP belongs to the first VRB resource, and the first MBP is the N MBP. Any one of the MBPs;

该终端设备将该第一下行VRB资源按照该第一MBP的参数信息进行映射，确定第一下行PRB资源，该第一下行PRB资源为该第一下行VRB资源在该第一MBP中对应的映射资源，该第一下行PRB资源属于该第一MBP。The terminal device maps the first downlink VRB resource according to the parameter information of the first MBP, and determines a first downlink PRB resource, where the first downlink PRB resource is the first downlink VRB resource in the first MBP And corresponding mapping resources, where the first downlink PRB resource belongs to the first MBP.

为了便于说明，下面以***中的终端设备为第一终端设备和第二终端设备为例，对本申请的技术方案进行说明，其中该第一终端设备的工作带宽大小与该第二终端设备的工作带宽大小不同，且该第一终端设备与该第二终端设备的工作带宽之间存在重叠区域。For the convenience of the description, the following is a description of the technical solution of the first terminal device and the second terminal device in the system, wherein the working bandwidth of the first terminal device and the working of the second terminal device are described. The bandwidth is different, and there is an overlapping area between the working bandwidth of the first terminal device and the second terminal device.

作为示例而非限定，如图5所示，该第一终端设备的工作带宽包含25个PRB资源(即，0～24号PRB资源)，该第二终端设备的工作带宽包含50个PRB资源(即，0～49号PRB资源)，其中，第一终端设备与第二终端设备的工作带宽之间存在重叠区域，且该重叠区域包含0～24号PRB资源(即，MBP的带宽长度信息的一例与MBP的位置信息的一例)。网络设备通过该资源配置信息，为该第一终端设备配置了一个MBP(MBP1，即，第一MBP的一例)，该MBP包含0～24号PRB资源，网络设备为该第二终端设备配置了两个MBP，该两个MBP中的MBP1包含0～24号PRB资源，该两个MBP中的MBP2包含25～49号PRB资源。As an example and not by way of limitation, as shown in FIG. 5, the working bandwidth of the first terminal device includes 25 PRB resources (ie, PRB resources 0-24), and the working bandwidth of the second terminal device includes 50 PRB resources ( That is, there is an overlap area between the working bandwidths of the first terminal device and the second terminal device, and the overlapping area includes the PRB resources of 0 to 24 (that is, the bandwidth length information of the MBP) An example of an example of location information with an MBP). The network device configures, by the resource configuration information, an MBP (MBP1, that is, an example of the first MBP), where the MBP includes the PRB resources 0 to 24, and the network device configures the second terminal device. Two MBPs, MBP1 of the two MBPs include PRB resources No. 0-24, and MBP2 of the two MBPs contain PRB resources No. 25-49.

作为示例而非限定，网络设备通过该下行调度信息，为第一终端设备分配的VRB资源为9～13号VRB资源。该第一终端设备首先根据网络设备为其分配的VRB资源和MBP配置信息，确定该9～13号VRB资源属于MBP1，因此，该第一终端设备将按照MBP1的参数信息和下行调度信息显示或隐式指示的映射参数信息，确定MBP1中VRB到PRB映射的交织矩阵。By way of example and not limitation, the network device allocates VRB resources for the first terminal device to the VRB resources 9 to 13 through the downlink scheduling information. The first terminal device first determines that the VRB resources of the 9th to 13th belong to the MBP1 according to the VRB resources and the MBP configuration information allocated by the network device, and therefore, the first terminal device displays the parameter information and the downlink scheduling information according to the MBP1 or The mapping parameter information of the implicit indication determines the interleaving matrix of the VRB to PRB mapping in MBP1.

该交织矩阵如图5所示，网络设备根据该交织矩阵，能够确定VRB资源到PRB资源的资源映射表，该资源映射表如图5所示。As shown in FIG. 5, the network device can determine a resource mapping table of a VRB resource to a PRB resource according to the interlace matrix, and the resource mapping table is as shown in FIG. 5.

例如，MBP1的映射模式分布式映射。此时，该第一终端根据该资源映射表，首先将该9～13号VRB资源映射到MBP1中，其中，9号VRB资源映射到MBP1中的8号PRB资源上，10号VRB资源映射到MBP1中的14号PRB资源上，11号VRB资源映射到MBP1中的20号PRB资源上，12号VRB资源映射到MBP1中的3号PRB资源上，13号VRB资源映射到MBP1中的9号PRB资源上。至此，该第一终端设备根据资源配置信息以及下行调度信息，确定了网络设备为其分配的下行物理传输资源For example, the mapping mode of MBP1 is distributed. At this time, the first terminal first maps the VRB resources of the 9th to 13th into the MBP1 according to the resource mapping table, where the VRB resources of the 9th are mapped to the 8th PRB resources in the MBP1, and the VRB resources of the 10th are mapped to On the No. 14 PRB resource in MBP1, the No. 11 VRB resource is mapped to the No. 20 PRB resource in MBP1, the No. 12 VRB resource is mapped to the No. 3 PRB resource in MBP1, and the No. 13 VRB resource is mapped to No. 9 in MBP1. On the PRB resource. So far, the first terminal device determines, according to the resource configuration information and the downlink scheduling information, the downlink physical transmission resource allocated by the network device

在步骤S350中，可选地，该第一下行VRB资源属于该N个MBP中的多个相邻的MBP，该第一下行VRB资源为一段连续的VRB资源。In step S350, the first downlink VRB resource belongs to a plurality of adjacent MBPs in the N MBPs, and the first downlink VRB resource is a continuous VRB resource.

作为示例而非限定，如图5所示，例如，该第一下行VRB资源属于该N个MBP中的两个相邻的MBP，网络设备为第二终端设备分配的VRB资源为22～29号VRB资源(即， 第一下行VRB资源的一例)。该第二终端设备首先根据网络设备为其分配的VRB资源，确定该22～29号VRB资源中的22～24号VRB资源属于MBP1，该22～29号VRB资源中的25～29号VRB资源属于MBP2，因此，该网络设备为其设备将按照MBP1的参数信息和下行调度信息显示或隐式指示的映射参数对该22～24号VRB资源进行资源映射，按照MBP2的参数信息和下行调度信息显示或隐式指示的映射参数信息，对该25～29号VRB资源进行资源映射。By way of example and not limitation, as shown in FIG. 5, for example, the first downlink VRB resource belongs to two adjacent MBPs of the N MBPs, and the VRB resources allocated by the network device to the second terminal device are 22-29. No. VRB resource (ie, an example of the first downlink VRB resource). The second terminal device first determines that the VRB resources of the No. 22-No. It belongs to the MBP2. Therefore, the network device performs resource mapping on the VRB resources of the 22th to the 24th, according to the parameter information of the MBP1 and the mapping parameters that are displayed or implicitly indicated by the downlink scheduling information, according to the parameter information and the downlink scheduling information of the MBP2. Display or implicitly indicate mapping parameter information, and perform resource mapping on the No. 25 to No. 29 VRB resources.

例如，MBP1的映射模式分布式映射，MBP2的映射模式为分布式映射。For example, the mapping mode of MBP1 is distributed, and the mapping mode of MBP2 is distributed mapping.

此时，该第二终端设备首先将该22～24号VRB资源映射到MBP1中，其中，22号VRB资源映射到MBP1中的17号PRB资源上，23号VRB资源映射到MBP1中的23号PRB资源上，24号VRB资源映射到MBP1中的24号PRB资源上，再将该25～29号VRB资源映射到MBP1中。At this time, the second terminal device first maps the VRB resources of the 22th to 24th to the MBP1, wherein the VRB resource of the 22nd is mapped to the 17th PRB resource in the MBP1, and the VRB resource of the 23rd is mapped to the 23rd of the MBP1. On the PRB resource, the No. 24 VRB resource is mapped to the No. 24 PRB resource in MBP1, and the No. 25 to No. 29 VRB resource is mapped to MBP1.

该第二终端设备将该25～29号VRB资源映射到MBP2中，其中，25号VRB资源映射到MBP1中的25号PRB资源上，26号VRB资源映射到MBP2中的31号PRB资源上，27号VRB资源映射到MBP2中的37号PRB资源上，28号VRB资源映射到MBP2中的43号PRB资源上，29号VRB资源映射到MBP2中的26号PRB资源上。The second terminal device maps the VRB resources of the 25th to the 29th to the MBP2, wherein the VRB resource No. 25 is mapped to the No. 25 PRB resource in the MBP1, and the No. 26 VRB resource is mapped to the No. 31 PRB resource in the MBP2. The No. 27 VRB resource is mapped to the No. 37 PRB resource in MBP2, the No. 28 VRB resource is mapped to the No. 43 PRB resource in MBP2, and the No. 29 VRB resource is mapped to the No. 26 PRB resource in MBP2.

至此，该第二终端设备根据资源配置信息以及下行调度信息，确定了网络设备为其分配的下行物理传输资源。So far, the second terminal device determines, according to the resource configuration information and the downlink scheduling information, the downlink physical transmission resource allocated by the network device.

需要说明的是，MBP1的映射模式还可以为集中式映射，当MBP1的映射模式为集中式映射时，该9～13号VRB资源按照集中式映射模式映射到MBP1中的9～13号PRB资源。It should be noted that the mapping mode of MBP1 may also be a centralized mapping. When the mapping mode of MBP1 is centralized mapping, the VRB resources of 9 to 13 are mapped to the PRB resources 9 to 13 in MBP1 according to the centralized mapping mode. .

还需要说明的是，当MBP1的映射模式为分布式映射，MBP2的映射模式为集中式映射时，其中属于MBP1的该22～24号VRB资源按照MBP1的分布式映射模式进行映射，属于MBP2的25～29号VRB资源则按照MBP2的集中式映射模式进行映射，该25～29号VRB资源按照MBP2的集中式映射模式映射到MBP2中的25～29号PRB资源。It should be noted that when the mapping mode of the MBP1 is a distributed mapping and the mapping mode of the MBP2 is a centralized mapping, the 22-24 VRB resources belonging to the MBP1 are mapped according to the distributed mapping mode of the MBP1, and belong to the MBP2. The VRB resources 25 to 29 are mapped according to the centralized mapping mode of MBP2, and the VRB resources 25 to 29 are mapped to the PRB resources 25 to 29 in MBP2 according to the centralized mapping mode of MBP2.

可选地，该方法300还可以包括步骤S360，该终端设备在该下行物理传输资源上接收该网络设备发送的下行数据。Optionally, the method 300 may further include the step S360, the terminal device receiving downlink data sent by the network device on the downlink physical transmission resource.

具体而言，当终端设备确定了网络设备为其分配的下行物理传输资源之后，就可以在该物理传输资源上接收该网络设备发送的下行数据了。Specifically, after the terminal device determines the downlink physical transmission resource allocated by the network device, the downlink data sent by the network device may be received on the physical transmission resource.

需要说明的是，图5中示出的第一终端设备包含一个MBP且第二终端设备包含两个MBP的情况仅以示例，并不对本申请构成任何限定。在本申请中，处于同一个***中的部分终端设备的active-BP可以只包含一个MBP，还有部分终端设备的active-BP可以至少包含两个MBP，或者，处于同一个***中的部分终端设备的active-BP均可以至少包含两个MBP。本申请对此不作限定。It should be noted that the case where the first terminal device shown in FIG. 5 includes one MBP and the second terminal device includes two MBPs is only an example, and does not constitute any limitation to the present application. In this application, the active-BP of some terminal devices in the same system may only contain one MBP, and the active-BP of some terminal devices may include at least two MBPs, or some terminals in the same system. The device's active-BP can contain at least two MBPs. This application does not limit this.

因此，对于active-BP的带宽长度不同的终端设备，通过使同一MBP中的属于不同终端设备的虚拟传输资源按照相同的MBP的参数信息进行分布式资源映射，进而解决active-BP的带宽长度不同的终端设备按照各自的active-BP进行分布式资源映射之后发生资源冲突的问题。Therefore, for the terminal devices with different bandwidth lengths of the active-BP, the virtual transmission resources belonging to different terminal devices in the same MBP are mapped according to the same MBP parameter information, thereby solving the difference in the bandwidth length of the active-BP. The resource conflict occurs after the terminal device performs distributed resource mapping according to the respective active-BP.

图6是根据本申请的资源映射的装置400的示意性框图。如图6所示，该装置包括：处理单元410和通信单元420。FIG. 6 is a schematic block diagram of an apparatus 400 for resource mapping in accordance with the present application. As shown in FIG. 6, the apparatus includes a processing unit 410 and a communication unit 420.

其中，处理单元410，用于生成资源配置信息，该资源配置信息用于向该终端设备指示N个跳频带宽部分的参数信息，N≥2，该N个跳频带宽部分中的任意一个跳频带宽部分的带宽长度小于或等于该终端设备的激活态带宽部分active-BP的带宽长度；The processing unit 410 is configured to generate resource configuration information, where the resource configuration information is used to indicate parameter information of the N frequency hopping bandwidth parts to the terminal device, where N≥2, any one of the N frequency hopping bandwidth parts. The bandwidth length of the frequency bandwidth portion is less than or equal to the bandwidth length of the active-bandwidth portion active-BP of the terminal device;

通信单元420，用于向终端设备发送该资源配置信息。The communication unit 420 is configured to send the resource configuration information to the terminal device.

可选地，该N个跳频带宽部分的带宽总长度等于该终端设备的active-BP的带宽长度，该N个跳频带宽部分中的任意两个跳频带宽部分在频域上不重叠。Optionally, the total length of the bandwidth of the N frequency hopping bandwidth portions is equal to the bandwidth length of the active-BP of the terminal device, and any two of the hopping bandwidth portions of the N frequency hopping bandwidth portions do not overlap in the frequency domain.

可选地，该通信单元420还用于：Optionally, the communication unit 420 is further configured to:

向该终端设备发送该上行调度信息，该上行调度信息用于指示该上行VRB资源的资源索引信息，该资源索引信息包括该上行VRB资源的资源索引值。Sending the uplink scheduling information to the terminal device, where the uplink scheduling information is used to indicate resource index information of the uplink VRB resource, where the resource index information includes a resource index value of the uplink VRB resource.

可选地，该N个跳频带宽部分中的每个跳频带宽部分的参数信息至少包括以下信息：Optionally, the parameter information of each of the N frequency hopping bandwidth portions includes at least the following information:

跳频带宽部分的带宽长度信息、跳频带宽部分的位置信息和跳频带宽部分的跳频规则信息，该跳频带宽部分的跳频规则信息至少包括跳频模式信息、跳频PRB偏移信息和跳频子带信息。The bandwidth length information of the frequency hopping bandwidth part, the location information of the frequency hopping bandwidth part, and the frequency hopping rule information of the frequency hopping bandwidth part, the frequency hopping rule information of the frequency hopping bandwidth part includes at least the frequency hopping mode information and the frequency hopping PRB offset information. And frequency hopping subband information.

可选地，该通信单元420还用于：Optionally, the communication unit 420 is further configured to:

通过RRC信令向该终端设备发送该资源配置信息；或Transmitting the resource configuration information to the terminal device by using RRC signaling; or

通过***广播消息或组播消息向终端设备发送M个跳频带宽部分的参数信息，M≥2，以使该终端设备根据该M个跳频带宽部分的参数信息和该终端设备的active-BP的带宽长度P确定对应的N个跳频带宽部分的参数信息，其中，M、N均为正整数，且M≥N。Transmitting, by the system broadcast message or the multicast message, parameter information of the M frequency hopping bandwidth parts to the terminal device, M≥2, so that the terminal device according to the parameter information of the M frequency hopping bandwidth part and the active-BP of the terminal device The bandwidth length P determines parameter information of the corresponding N frequency hopping bandwidth parts, where M and N are positive integers, and M ≥ N.

可选地，该通信单元420还用于：Optionally, the communication unit 420 is further configured to:

在上行物理传输资源上接收该终端设备发送的上行数据。Receiving uplink data sent by the terminal device on the uplink physical transmission resource.

应理解，根据本申请的资源映射的装置400可对应于本申请的方法中的网络设备，且该资源映射的装置400中的各单元及模块和上述其他操作和/或功能分别为了实现方法200中由网络设备执行的相应流程，为了简洁，此处不再赘述。It should be understood that the device 400 according to the resource mapping of the present application may correspond to the network device in the method of the present application, and each unit and module in the device 400 of the resource mapping and the other operations and/or functions described above are respectively implemented to implement the method 200. The corresponding process performed by the network device is not described here for brevity.

因此，本申请的资源映射的装置，通过使N个HBP中的任意一个HBP的带宽长度小于或等于该终端设备的激活态带宽部分active-BP的带宽长度，使得终端设备按照该N个HBP中的任意一个HBP的参数信息进行跳频时，都不会跳出终端设备的激活态带宽部分active-BP。Therefore, the device for resource mapping of the present application, by making the bandwidth length of any one of the N HBPs less than or equal to the bandwidth length of the active-state bandwidth portion active-BP of the terminal device, causes the terminal device to follow the N HBPs. When the parameter information of any one of the HBPs is frequency hopping, the active state bandwidth part active-BP of the terminal device does not jump out.

图7是根据本申请的资源映射的装置500的示意性框图。如图7所示，该装置包括：通信单元510和处理单元520。FIG. 7 is a schematic block diagram of an apparatus 500 for resource mapping in accordance with the present application. As shown in FIG. 7, the apparatus includes a communication unit 510 and a processing unit 520.

其中，通信单元510，用于接收网络设备发送的资源配置信息，该资源配置信息用于向该终端设备指示N个跳频带宽部分的参数信息，N≥2，该N个跳频带宽部分中的任意一个跳频带宽部分的带宽长度小于或等于该终端设备的激活态带宽部分active-BP的带宽长度；The communication unit 510 is configured to receive resource configuration information sent by the network device, where the resource configuration information is used to indicate parameter information of the N frequency hopping bandwidth portions to the terminal device, where N≥2, in the N hopping bandwidth portions. The bandwidth length of any one of the hopping bandwidth portions is less than or equal to the bandwidth length of the active-bandwidth portion active-BP of the terminal device;

处理单元520，用于根据该资源配置信息和上行调度信息，确定网络设备分配的上行物理传输资源。The processing unit 520 is configured to determine, according to the resource configuration information and the uplink scheduling information, an uplink physical transmission resource allocated by the network device.

可选地，该N个跳频带宽部分的带宽总长度等于该active-BP的带宽长度，该N个跳频带宽部分中的任意两个跳频带宽部分在频域上不重叠。Optionally, the total length of the bandwidth of the N hopping bandwidth portions is equal to the bandwidth length of the active-BP, and any two of the hopping bandwidth portions of the N hopping bandwidth portions do not overlap in the frequency domain.

可选地，该处理单元520具体用于：Optionally, the processing unit 520 is specifically configured to:

确定第一上行VRB资源属于第一跳频带宽部分，该第一跳频带宽部分为该N个跳 频带宽部分中的任意一个跳频带宽部分，该第一上行VRB资源为该网络设备通过该上行调度信息为该终端设备分配的资源；Determining that the first uplink VRB resource belongs to the first hopping bandwidth portion, and the first hopping bandwidth portion is any one of the N hopping bandwidth portions, where the first uplink VRB resource is the network device The uplink scheduling information is a resource allocated by the terminal device;

将该第一上行VRB资源按照该第一跳频带宽部分的参数信息进行映射，确定第一上行PRB资源、第二上行PRB资源，该第一上行PRB资源和该第二上行PRB资源为该第一上行VRB资源在该第一跳频带宽部分中对应的映射资源，该第一上行PRB资源属于该第一跳频带宽部分中的第一时间单元，该第二上行PRB资源属于该第一跳频带宽部分中的第二时间单元，该第一上行PRB资源和该第二上行PRB资源之间在频域上存在整数个PRB资源的偏移。And mapping the first uplink VRB resource according to the parameter information of the first hopping bandwidth part, and determining the first uplink PRB resource and the second uplink PRB resource, where the first uplink PRB resource and the second uplink PRB resource are the first An uplink resource of the uplink VRB resource in the first hop bandwidth portion, the first uplink PRB resource belongs to the first time unit in the first hop bandwidth portion, and the second uplink PRB resource belongs to the first hop The second time unit in the frequency bandwidth portion has an offset of an integer number of PRB resources in the frequency domain between the first uplink PRB resource and the second uplink PRB resource.

可选地，该第一上行VRB资源至多属于该第一跳频带宽部分和第二跳频带宽部分，该第二跳频带宽部分为该N个跳频带宽部分中与该第一跳频带宽部分相邻的跳频带宽部分，该第一上行VRB资源为一段连续的VRB资源。Optionally, the first uplink VRB resource belongs to the first hop bandwidth portion and the second hop bandwidth portion, and the second hop bandwidth portion is the first hop bandwidth in the N hop bandwidth portions. Part of the adjacent hopping bandwidth portion, the first uplink VRB resource is a continuous VRB resource.

可选地，该通信单元510还用于：Optionally, the communication unit 510 is further configured to:

接收该网络设备发送的该上行调度信息，该上行调度信息用于指示该上行VRB资源的资源索引信息，该资源索引信息包括该上行VRB资源的资源索引值。And receiving, by the network device, the uplink scheduling information, where the uplink scheduling information is used to indicate resource index information of the uplink VRB resource, where the resource index information includes a resource index value of the uplink VRB resource.

可选地，该N个跳频带宽部分中的每个跳频带宽部分的参数信息至少包括以下信息：Optionally, the parameter information of each of the N frequency hopping bandwidth portions includes at least the following information:

跳频带宽部分的带宽长度信息、跳频带宽部分的位置信息和跳频带宽部分的跳频规则信息，该跳频带宽部分的跳频规则信息至少包括跳频模式信息、跳频PRB偏移信息和跳频子带信息。The bandwidth length information of the frequency hopping bandwidth part, the location information of the frequency hopping bandwidth part, and the frequency hopping rule information of the frequency hopping bandwidth part, the frequency hopping rule information of the frequency hopping bandwidth part includes at least the frequency hopping mode information and the frequency hopping PRB offset information. And frequency hopping subband information.

可选地，该通信单元510还用于：Optionally, the communication unit 510 is further configured to:

通过RRC信令接收该网络设备发送该资源配置信息；或Receiving, by using RRC signaling, the network device to send the resource configuration information; or

通过***广播消息或组播消息接收该网络设备发送的M个跳频带宽部分的参数信息，M≥2；Receiving parameter information of M frequency hopping bandwidth parts sent by the network device by using a system broadcast message or a multicast message, M≥2;

该处理单元520还用于：The processing unit 520 is further configured to:

根据该M个跳频带宽部分的参数信息和该active-BP的带宽长度，确定对应的N个跳频带宽部分的参数信息，其中，M、N均为正整数，且M≥N。Determining parameter information of the corresponding N frequency hopping bandwidth parts according to the parameter information of the M frequency hopping bandwidth parts and the bandwidth length of the active-BP, where M and N are positive integers, and M ≥ N.

可选地，该通信单元510还用于：Optionally, the communication unit 510 is further configured to:

在该上行物理传输资源上向网络设备发送上行数据。And transmitting uplink data to the network device on the uplink physical transmission resource.

应理解，根据本申请的资源映射的装置500可对应于本申请的方法中的终端设备，且该资源映射的装置500中的各单元及模块和上述其他操作和/或功能分别为了实现方法200中由终端设备执行的相应流程，为了简洁，此处不再赘述。It should be understood that the device 500 of the resource mapping according to the present application may correspond to the terminal device in the method of the present application, and each unit and module in the device 500 of the resource mapping and the other operations and/or functions described above respectively implement the method 200. The corresponding processes executed by the terminal device are not described here for brevity.

因此，本申请的资源映射的装置，通过使N个HBP中的任意一个HBP的带宽长度小于或等于该终端设备的激活态带宽部分active-BP的带宽长度，使得终端设备按照该N个HBP中的任意一个HBP的参数信息进行跳频时，都不会跳出终端设备的激活态带宽部分active-BP。Therefore, the device for resource mapping of the present application, by making the bandwidth length of any one of the N HBPs less than or equal to the bandwidth length of the active-state bandwidth portion active-BP of the terminal device, causes the terminal device to follow the N HBPs. When the parameter information of any one of the HBPs is frequency hopping, the active state bandwidth part active-BP of the terminal device does not jump out.

图8是根据本申请的资源映射的装置600的示意性框图。如图8所示，该装置包括：处理单元610和通信单元620。FIG. 8 is a schematic block diagram of an apparatus 600 for resource mapping in accordance with the present application. As shown in FIG. 8, the apparatus includes a processing unit 610 and a communication unit 620.

其中，处理单元610，用于生成资源配置信息，该资源配置信息用于向该终端设备指示N个映射带宽部分的参数信息，N≥2，该N个映射带宽部分中的任意一个映射带宽部分的带宽长度小于或等于该终端设备的激活态带宽部分active-BP的带宽长度映射带宽 部分映射带宽部分；The processing unit 610 is configured to generate resource configuration information, where the resource configuration information is used to indicate parameter information of the N mapping bandwidth parts to the terminal device, where N≥2, and any one of the N mapping bandwidth parts maps the bandwidth part. The bandwidth length is less than or equal to the active state bandwidth portion of the terminal device, the bandwidth length of the active-BP mapping portion, and the bandwidth portion of the bandwidth portion;

通信单元620，用于向终端设备发送该资源配置信息。The communication unit 620 is configured to send the resource configuration information to the terminal device.

可选地，该N个映射带宽部分的带宽总长度等于该active-BP的带宽长度，该N个映射带宽部分中的任意两个映射带宽部分在频域上不重叠。Optionally, the total bandwidth length of the N mapping bandwidth portions is equal to the bandwidth length of the active-BP, and any two mapping bandwidth portions of the N mapping bandwidth portions do not overlap in the frequency domain.

可选地，该通信单元620还用于：Optionally, the communication unit 620 is further configured to:

向该终端设备发送该下行调度信息，该下行调度信息用于指示该下行VRB资源的资源索引信息，该资源索引信息包括该下行VRB资源的资源索引值。Sending the downlink scheduling information to the terminal device, where the downlink scheduling information is used to indicate resource index information of the downlink VRB resource, where the resource index information includes a resource index value of the downlink VRB resource.

可选地，该N个映射带宽部分中的每个映射带宽部分的参数信息至少包括以下信息：Optionally, the parameter information of each of the N mapped bandwidth portions includes at least the following information:

映射带宽部分的带宽长度信息、映射带宽部分的位置信息和映射带宽部分的映射模式，该映射带宽部分的映射模式包括集中式映射和分布式映射。The bandwidth length information of the mapped bandwidth portion, the location information of the mapped bandwidth portion, and the mapping mode of the mapped bandwidth portion, the mapping mode of the mapped bandwidth portion includes a centralized mapping and a distributed mapping.

可选地，该通信单元620还用于：Optionally, the communication unit 620 is further configured to:

通过RRC信令向该终端设备发送该资源配置信息；或Transmitting the resource configuration information to the terminal device by using RRC signaling; or

通过***广播消息或组播消息向终端设备发送M个映射带宽部分的参数信息，M≥2，以使该终端设备根据该M个映射带宽部分的参数信息和该终端设备的active-BP的带宽长度确定对应的N个映射带宽部分的参数信息，其中，M、N均为正整数，且M≥N。Transmitting, by the system broadcast message or the multicast message, the parameter information of the M mapping bandwidth parts to the terminal device, M≥2, so that the terminal device according to the parameter information of the M mapping bandwidth part and the active-BP bandwidth of the terminal device The length determines the parameter information of the corresponding N mapping bandwidth parts, where M and N are positive integers, and M≥N.

可选地，该通信单元620还用于：Optionally, the communication unit 620 is further configured to:

在该下行物理传输资源上向该终端设备发送下行数据。Downlink data is sent to the terminal device on the downlink physical transmission resource.

应理解，根据本申请的资源映射的装置600可对应于本申请的方法中的网络设备，且该资源映射的装置600中的各单元及模块和上述其他操作和/或功能分别为了实现方法300中由网络设备执行的相应流程，为了简洁，此处不再赘述。It should be understood that the device 600 of the resource mapping according to the present application may correspond to the network device in the method of the present application, and each unit and module in the device 600 of the resource mapping and the other operations and/or functions described above respectively implement the method 300. The corresponding process performed by the network device is not described here for brevity.

因此，本申请的资源映射的方法，通过使N个MBP中的任意一个MBP的带宽长度小于或等于该终端设备的激活态带宽部分active-BP的带宽长度，使得终端设备按照该N个MBP中的任意一个MBP的参数信息进行分布式资源映射时，都不会超出终端设备的激活态带宽部分active-BP。Therefore, the resource mapping method of the present application, by making the bandwidth length of any one of the N MBPs less than or equal to the bandwidth length of the active-state bandwidth portion active-BP of the terminal device, causes the terminal device to follow the N MBPs. When any parameter information of one MBP is used for distributed resource mapping, the active state bandwidth part active-BP of the terminal device is not exceeded.

图9是根据本申请的资源映射的装置700的示意性框图。如图9所示，该装置包括：通信单元710、和处理单元720。9 is a schematic block diagram of an apparatus 700 for resource mapping in accordance with the present application. As shown in FIG. 9, the apparatus includes a communication unit 710, and a processing unit 720.

其中，通信单元720，用于接收网络设备发送的资源配置信息，该资源配置信息用于向该终端设备指示N个映射带宽部分的参数信息，N≥2，该N个映射带宽部分中的任意一个映射带宽部分的带宽长度小于或等于该终端设备的激活态带宽部分active-BP的带宽长度映射带宽部分映射带宽部分；The communication unit 720 is configured to receive resource configuration information that is sent by the network device, where the resource configuration information is used to indicate parameter information of the N mapped bandwidth portions to the terminal device, where N≥2, any of the N mapping bandwidth portions. The bandwidth length of a mapped bandwidth portion is less than or equal to the bandwidth portion of the active-state bandwidth portion active-BP of the terminal device, and the bandwidth portion maps the bandwidth portion;

处理单元720，用于根据该资源配置信息和下行调度信息，确定网络设备分配的下行物理传输资源。The processing unit 720 is configured to determine, according to the resource configuration information and the downlink scheduling information, a downlink physical transmission resource allocated by the network device.

可选地，该N个映射带宽部分的带宽总长度等于该active-BP的带宽长度，该N个映射带宽部分中的任意两个映射带宽部分在频域上不重叠。Optionally, the total bandwidth length of the N mapping bandwidth portions is equal to the bandwidth length of the active-BP, and any two mapping bandwidth portions of the N mapping bandwidth portions do not overlap in the frequency domain.

可选地，该处理单元720具体用于：Optionally, the processing unit 720 is specifically configured to:

确定第一下行VRB资源属于第一映射带宽部分，该第一映射带宽部分为该N个映射带宽部分中的任意一个映射带宽部分，该第一下行VRB资源为该网络设备通过该下行调度信息为该终端设备分配的资源；Determining that the first downlink VRB resource belongs to the first mapping bandwidth part, where the first mapping bandwidth part is any one of the N mapping bandwidth parts, and the first downlink VRB resource is the downlink scheduling of the network device by the network device Information allocated to the terminal device;

将该第一下行VRB资源按照该第一映射带宽部分的参数信息进行映射，确定第一下 行PRB资源，该第一下行PRB资源为该第一下行VRB资源在该第一映射带宽部分中对应的映射资源，该第一下行PRB资源属于该第一映射带宽部分。Mapping the first downlink VRB resource according to the parameter information of the first mapping bandwidth part, and determining the first downlink PRB resource, where the first downlink PRB resource is the first downlink VRB resource in the first mapping bandwidth And corresponding mapping resources in the part, where the first downlink PRB resource belongs to the first mapping bandwidth part.

可选地，该第一下行VRB资源属于该N个映射带宽部分中的多个相邻的映射带宽部分，该第一下行VRB资源为一段连续的VRB资源。Optionally, the first downlink VRB resource belongs to a plurality of adjacent mapping bandwidth portions of the N mapping bandwidth portions, and the first downlink VRB resource is a continuous VRB resource.

可选地，该通信单元720还用于：Optionally, the communication unit 720 is further configured to:

接收该网络设备发送的该下行调度信息，该下行调度信息用于指示该下行VRB资源的资源索引信息，该资源索引信息包括该下行VRB资源的资源索引值。And receiving, by the network device, the downlink scheduling information, where the downlink scheduling information is used to indicate resource index information of the downlink VRB resource, where the resource index information includes a resource index value of the downlink VRB resource.

可选地，该N个映射带宽部分中的每个映射带宽部分的参数信息至少包括以下信息：Optionally, the parameter information of each of the N mapped bandwidth portions includes at least the following information:

映射带宽部分的带宽长度信息、映射带宽部分的位置信息和映射带宽部分的映射模式，该映射带宽部分的映射模式包括集中式映射和分布式映射。The bandwidth length information of the mapped bandwidth portion, the location information of the mapped bandwidth portion, and the mapping mode of the mapped bandwidth portion, the mapping mode of the mapped bandwidth portion includes a centralized mapping and a distributed mapping.

可选地，该通信单元720还用于：Optionally, the communication unit 720 is further configured to:

通过RRC信令接收该网络设备发送的该资源配置信息；或Receiving, by using RRC signaling, the resource configuration information sent by the network device; or

通过***广播消息或组播消息接收该网络设备发送的M个映射带宽部分的参数信息，M≥2；Receiving parameter information of M mapping bandwidth parts sent by the network device by using a system broadcast message or a multicast message, M≥2;

该处理单元720还用于：The processing unit 720 is further configured to:

根据该M个映射带宽部分的参数信息和该active-BP的带宽长度，确定对应的N个映射带宽部分的参数信息，其中，M、N均为正整数，且M≥N。And determining parameter information of the corresponding N mapping bandwidth parts according to the parameter information of the M mapping bandwidth part and the bandwidth length of the active-BP, where M and N are positive integers, and M≥N.

可选地，该通信单元720还用于：Optionally, the communication unit 720 is further configured to:

在该下行物理传输资源上接收该网络设备发送的下行数据。应理解，根据本申请的资源映射的装置700可对应于本申请的方法中的终端设备，且该资源映射的装置700中的各单元及模块和上述其他操作和/或功能分别为了实现方法300中由终端设备执行的相应流程，为了简洁，此处不再赘述。Receiving downlink data sent by the network device on the downlink physical transmission resource. It should be understood that the apparatus 700 for resource mapping according to the present application may correspond to a terminal device in the method of the present application, and each unit and module in the device 700 of the resource mapping and the other operations and/or functions described above are respectively implemented to implement the method 300. The corresponding processes executed by the terminal device are not described here for brevity.

因此，本申请的资源映射的方法，通过使N个MBP中的任意一个MBP的带宽长度小于或等于该终端设备的激活态带宽部分active-BP的带宽长度，使得终端设备按照该N个MBP中的任意一个MBP的参数信息进行分布式资源映射时，都不会超出终端设备的激活态带宽部分active-BP。Therefore, the resource mapping method of the present application, by making the bandwidth length of any one of the N MBPs less than or equal to the bandwidth length of the active-state bandwidth portion active-BP of the terminal device, causes the terminal device to follow the N MBPs. When any parameter information of one MBP is used for distributed resource mapping, the active state bandwidth part active-BP of the terminal device is not exceeded.

图10是根据本申请的资源映射的设备800的示意性结构图。如图10所示，该设备800包括：FIG. 10 is a schematic structural diagram of a device 800 for resource mapping according to the present application. As shown in FIG. 10, the device 800 includes:

收发器810；Transceiver 810;

存储器820；Memory 820;

处理器830；The processor 830;

其中，该存储器820用于存储指令，该处理器830用于执行该存储器820存储的指令，以控制该收发器810发送信号或者控制该收发器810接收信号。The memory 820 is configured to store instructions, and the processor 830 is configured to execute instructions stored by the memory 820 to control the transceiver 810 to send signals or control the transceiver 810 to receive signals.

其中，处理器830，用于生成资源配置信息，该资源配置信息用于向该终端设备指示N个跳频带宽部分的参数信息，N≥2，该N个跳频带宽部分中的任意一个跳频带宽部分的带宽长度小于或等于该终端设备的激活态带宽部分active-BP的带宽长度；The processor 830 is configured to generate resource configuration information, where the resource configuration information is used to indicate parameter information of the N frequency hopping bandwidth parts to the terminal device, where N≥2, any one of the N frequency hopping bandwidth parts. The bandwidth length of the frequency bandwidth portion is less than or equal to the bandwidth length of the active-bandwidth portion active-BP of the terminal device;

收发器810，用于向终端设备发送该资源配置信息。The transceiver 810 is configured to send the resource configuration information to the terminal device.

可选地，该N个跳频带宽部分的带宽总长度等于该终端设备的active-BP的带宽长度，该N个跳频带宽部分中的任意两个跳频带宽部分在频域上不重叠。Optionally, the total length of the bandwidth of the N frequency hopping bandwidth portions is equal to the bandwidth length of the active-BP of the terminal device, and any two of the hopping bandwidth portions of the N frequency hopping bandwidth portions do not overlap in the frequency domain.

可选地，该收发器810还用于：Optionally, the transceiver 810 is further configured to:

向该终端设备发送该上行调度信息，该上行调度信息用于指示该上行VRB资源的资源索引信息，该资源索引信息包括该上行VRB资源的资源索引值。Sending the uplink scheduling information to the terminal device, where the uplink scheduling information is used to indicate resource index information of the uplink VRB resource, where the resource index information includes a resource index value of the uplink VRB resource.

可选地，该N个跳频带宽部分中的每个跳频带宽部分的参数信息至少包括以下信息：Optionally, the parameter information of each of the N frequency hopping bandwidth portions includes at least the following information:

跳频带宽部分的带宽长度信息、跳频带宽部分的位置信息和跳频带宽部分的跳频规则信息，该跳频带宽部分的跳频规则信息至少包括跳频模式信息、跳频PRB偏移信息和跳频子带信息。The bandwidth length information of the frequency hopping bandwidth part, the location information of the frequency hopping bandwidth part, and the frequency hopping rule information of the frequency hopping bandwidth part, the frequency hopping rule information of the frequency hopping bandwidth part includes at least the frequency hopping mode information and the frequency hopping PRB offset information. And frequency hopping subband information.

可选地，该收发器810还用于：Optionally, the transceiver 810 is further configured to:

通过RRC信令向该终端设备发送该资源配置信息；或Transmitting the resource configuration information to the terminal device by using RRC signaling; or

通过***广播消息或组播消息向终端设备发送M个跳频带宽部分的参数信息，M≥2，以使该终端设备根据该M个跳频带宽部分的参数信息和该终端设备的active-BP的带宽长度P确定对应的N个跳频带宽部分的参数信息，其中，M、N均为正整数，且M≥N。Transmitting, by the system broadcast message or the multicast message, parameter information of the M frequency hopping bandwidth parts to the terminal device, M≥2, so that the terminal device according to the parameter information of the M frequency hopping bandwidth part and the active-BP of the terminal device The bandwidth length P determines parameter information of the corresponding N frequency hopping bandwidth parts, where M and N are positive integers, and M ≥ N.

可选地，该收发器810还用于：Optionally, the transceiver 810 is further configured to:

在该上行物理传输资源上接收该终端设备发送的上行数据。Receiving uplink data sent by the terminal device on the uplink physical transmission resource.

应理解，根据本申请的资源映射的设备800可对应于本申请的方法中的网络设备，且该资源映射的设备800中的各单元及模块和上述其他操作和/或功能分别为了实现方法200中由网络设备执行的相应流程，为了简洁，此处不再赘述。It should be understood that the device 800 of the resource mapping according to the present application may correspond to the network device in the method of the present application, and each unit and module in the resource mapped device 800 and the other operations and/or functions described above are respectively implemented to implement the method 200. The corresponding process performed by the network device is not described here for brevity.

因此，本申请的资源映射的设备，通过使N个HBP中的任意一个HBP的带宽长度小于或等于该终端设备的激活态带宽部分active-BP的带宽长度，使得终端设备按照该N个HBP中的任意一个HBP的参数信息进行跳频时，都不会跳出终端设备的激活态带宽部分active-BP。Therefore, the resource mapping device of the present application, by making the bandwidth length of any one of the N HBPs less than or equal to the bandwidth length of the active-state bandwidth portion active-BP of the terminal device, causes the terminal device to follow the N HBPs. When the parameter information of any one of the HBPs is frequency hopping, the active state bandwidth part active-BP of the terminal device does not jump out.

图11是根据本申请的资源映射的设备900的示意性结构图。如图11所示，该设备900包括：11 is a schematic structural diagram of a device 900 for resource mapping according to the present application. As shown in FIG. 11, the device 900 includes:

收发器910；Transceiver 910;

存储器920；Memory 920;

处理器930；The processor 930;

其中，该存储器920用于存储指令，该处理器930用于执行该存储器920存储的指令，以控制该收发器910发送信号或者控制该收发器910接收信号。The memory 920 is configured to store instructions, and the processor 930 is configured to execute instructions stored in the memory 920 to control the transceiver 910 to send signals or control the transceiver 910 to receive signals.

其中，收发器910，用于接收网络设备发送的资源配置信息，该资源配置信息用于向该终端设备指示N个跳频带宽部分的参数信息，N≥2，该N个跳频带宽部分中的任意一个跳频带宽部分的带宽长度小于或等于该终端设备的激活态带宽部分active-BP的带宽长度；The transceiver 910 is configured to receive resource configuration information sent by the network device, where the resource configuration information is used to indicate parameter information of the N frequency hopping bandwidth portions to the terminal device, where N≥2, in the N frequency hopping bandwidth portions. The bandwidth length of any one of the hopping bandwidth portions is less than or equal to the bandwidth length of the active-bandwidth portion active-BP of the terminal device;

处理器930，用于根据该资源配置信息和上行调度信息，确定网络设备分配的上行物理传输资源。The processor 930 is configured to determine, according to the resource configuration information and the uplink scheduling information, an uplink physical transmission resource allocated by the network device.

可选地，该N个跳频带宽部分的带宽总长度等于该active-BP的带宽长度，该N个跳频带宽部分中的任意两个跳频带宽部分在频域上不重叠。Optionally, the total length of the bandwidth of the N hopping bandwidth portions is equal to the bandwidth length of the active-BP, and any two of the hopping bandwidth portions of the N hopping bandwidth portions do not overlap in the frequency domain.

可选地，该处理器930具体用于：Optionally, the processor 930 is specifically configured to:

确定第一上行VRB资源属于第一跳频带宽部分，该第一跳频带宽部分为该N个跳频带宽部分中的任意一个跳频带宽部分，该第一上行VRB资源为该网络设备通过该上行 调度信息为该终端设备分配的资源；Determining that the first uplink VRB resource belongs to the first hopping bandwidth portion, and the first hopping bandwidth portion is any one of the N hopping bandwidth portions, where the first uplink VRB resource is the network device The uplink scheduling information is a resource allocated by the terminal device;

将该第一上行VRB资源按照该第一跳频带宽部分的参数信息进行映射，确定第一上行PRB资源、第二上行PRB资源，该第一上行PRB资源和该第二上行PRB资源为该第一上行VRB资源在该第一跳频带宽部分中对应的映射资源，该第一上行PRB资源属于该第一跳频带宽部分中的第一时间单元，该第二上行PRB资源属于该第一跳频带宽部分中的第二时间单元，该第一上行PRB资源和该第二上行PRB资源之间在频域上存在整数个PRB资源的偏移。And mapping the first uplink VRB resource according to the parameter information of the first hopping bandwidth part, and determining the first uplink PRB resource and the second uplink PRB resource, where the first uplink PRB resource and the second uplink PRB resource are the first An uplink resource of the uplink VRB resource in the first hop bandwidth portion, the first uplink PRB resource belongs to the first time unit in the first hop bandwidth portion, and the second uplink PRB resource belongs to the first hop The second time unit in the frequency bandwidth portion has an offset of an integer number of PRB resources in the frequency domain between the first uplink PRB resource and the second uplink PRB resource.

可选地，该第一上行VRB资源至多属于该第一跳频带宽部分和第二跳频带宽部分，该第二跳频带宽部分为该N个跳频带宽部分中与该第一跳频带宽部分相邻的跳频带宽部分，该第一上行VRB资源为一段连续的VRB资源。Optionally, the first uplink VRB resource belongs to the first hop bandwidth portion and the second hop bandwidth portion, and the second hop bandwidth portion is the first hop bandwidth in the N hop bandwidth portions. Part of the adjacent hopping bandwidth portion, the first uplink VRB resource is a continuous VRB resource.

可选地，该收发器910还用于：Optionally, the transceiver 910 is further configured to:

接收该网络设备发送的该上行调度信息，该上行调度信息用于指示该上行VRB资源的资源索引信息，该资源索引信息包括该上行VRB资源的资源索引值。And receiving, by the network device, the uplink scheduling information, where the uplink scheduling information is used to indicate resource index information of the uplink VRB resource, where the resource index information includes a resource index value of the uplink VRB resource.

可选地，该N个跳频带宽部分中的每个跳频带宽部分的参数信息至少包括以下信息：Optionally, the parameter information of each of the N frequency hopping bandwidth portions includes at least the following information:

跳频带宽部分的带宽长度信息、跳频带宽部分的位置信息和跳频带宽部分的跳频规则信息，该跳频带宽部分的跳频规则信息至少包括跳频模式信息、跳频PRB偏移信息和跳频子带信息。The bandwidth length information of the frequency hopping bandwidth part, the location information of the frequency hopping bandwidth part, and the frequency hopping rule information of the frequency hopping bandwidth part, the frequency hopping rule information of the frequency hopping bandwidth part includes at least the frequency hopping mode information and the frequency hopping PRB offset information. And frequency hopping subband information.

可选地，该收发器910还用于：Optionally, the transceiver 910 is further configured to:

通过RRC信令接收该网络设备发送该资源配置信息；或Receiving, by using RRC signaling, the network device to send the resource configuration information; or

通过***广播消息或组播消息接收该网络设备发送的M个跳频带宽部分的参数信息，M≥2；Receiving parameter information of M frequency hopping bandwidth parts sent by the network device by using a system broadcast message or a multicast message, M≥2;

该处理器930还用于：The processor 930 is also configured to:

根据该M个跳频带宽部分的参数信息和该active-BP的带宽长度，确定对应的N个跳频带宽部分的参数信息，其中，M、N均为正整数，且M≥N。Determining parameter information of the corresponding N frequency hopping bandwidth parts according to the parameter information of the M frequency hopping bandwidth parts and the bandwidth length of the active-BP, where M and N are positive integers, and M ≥ N.

可选地，该收发器910还用于：Optionally, the transceiver 910 is further configured to:

在该上行物理传输资源上向该网络设备发送上行数据。And transmitting uplink data to the network device on the uplink physical transmission resource.

应理解，根据本申请的资源映射的设备900可对应于本申请的方法中的终端设备，且该资源映射的设备900中的各单元及模块和上述其他操作和/或功能分别为了实现方法300中由终端设备执行的相应流程，为了简洁，此处不再赘述。It should be understood that the resource mapping device 900 according to the present application may correspond to the terminal device in the method of the present application, and each unit and module in the resource mapping device 900 and the above other operations and/or functions respectively implement the method 300. The corresponding processes executed by the terminal device are not described here for brevity.

因此，本申请的资源映射的设备，通过使N个HBP中的任意一个HBP的带宽长度小于或等于该终端设备的激活态带宽部分active-BP的带宽长度，使得终端设备按照该N个HBP中的任意一个HBP的参数信息进行跳频时，都不会跳出终端设备的激活态带宽部分active-BP。Therefore, the resource mapping device of the present application, by making the bandwidth length of any one of the N HBPs less than or equal to the bandwidth length of the active-state bandwidth portion active-BP of the terminal device, causes the terminal device to follow the N HBPs. When the parameter information of any one of the HBPs is frequency hopping, the active state bandwidth part active-BP of the terminal device does not jump out.

图12是根据本申请的资源映射的设备1000的示意性结构图。如图12所示，该设备1000包括：FIG. 12 is a schematic structural diagram of a device 1000 for resource mapping according to the present application. As shown in FIG. 12, the device 1000 includes:

收发器1010；Transceiver 1010;

存储器1020；Memory 1020;

处理器1030；The processor 1030;

其中，该存储器1020用于存储指令，该处理器1030用于执行该存储器1020存储的 指令，以控制该收发器1010发送信号或者控制该收发器1010接收信号。The memory 1020 is configured to store instructions, and the processor 1030 is configured to execute instructions stored in the memory 1020 to control the transceiver 1010 to transmit signals or control the transceiver 1010 to receive signals.

其中，处理器1030，用于生成资源配置信息，该资源配置信息用于向该终端设备指示N个映射带宽部分的参数信息，N≥2，该N个映射带宽部分中的任意一个映射带宽部分的带宽长度小于或等于该终端设备的激活态带宽部分active-BP的带宽长度映射带宽部分映射带宽部分；The processor 1030 is configured to generate resource configuration information, where the resource configuration information is used to indicate parameter information of the N mapped bandwidth portions to the terminal device, where N≥2, and any one of the N mapping bandwidth portions maps the bandwidth portion. The bandwidth length is less than or equal to the active state bandwidth portion of the terminal device, the bandwidth length of the active-BP mapping portion, and the bandwidth portion of the bandwidth portion;

收发器1010，用于向终端设备发送该资源配置信息。The transceiver 1010 is configured to send the resource configuration information to the terminal device.

可选地，该N个映射带宽部分的带宽总长度等于该active-BP的带宽长度，该N个映射带宽部分中的任意两个映射带宽部分在频域上不重叠。Optionally, the total bandwidth length of the N mapping bandwidth portions is equal to the bandwidth length of the active-BP, and any two mapping bandwidth portions of the N mapping bandwidth portions do not overlap in the frequency domain.

可选地，该收发器1010还用于：Optionally, the transceiver 1010 is further configured to:

向该终端设备发送该下行调度信息，该下行调度信息用于指示该下行VRB资源的资源索引信息，该资源索引信息包括该下行VRB资源的资源索引值。Sending the downlink scheduling information to the terminal device, where the downlink scheduling information is used to indicate resource index information of the downlink VRB resource, where the resource index information includes a resource index value of the downlink VRB resource.

可选地，该N个映射带宽部分中的每个映射带宽部分的参数信息至少包括以下信息：Optionally, the parameter information of each of the N mapped bandwidth portions includes at least the following information:

映射带宽部分的带宽长度信息、映射带宽部分的位置信息和映射带宽部分的映射模式，该映射带宽部分的映射模式包括集中式映射和分布式映射。The bandwidth length information of the mapped bandwidth portion, the location information of the mapped bandwidth portion, and the mapping mode of the mapped bandwidth portion, the mapping mode of the mapped bandwidth portion includes a centralized mapping and a distributed mapping.

可选地，该收发器1010还用于：Optionally, the transceiver 1010 is further configured to:

通过RRC信令向该终端设备发送该资源配置信息；或Transmitting the resource configuration information to the terminal device by using RRC signaling; or

通过***广播消息或组播消息向终端设备发送M个映射带宽部分的参数信息，M≥2，以使该终端设备根据该M个映射带宽部分的参数信息和该终端设备的active-BP的带宽长度确定对应的N个映射带宽部分的参数信息，其中，M、N均为正整数，且M≥N。Transmitting, by the system broadcast message or the multicast message, the parameter information of the M mapping bandwidth parts to the terminal device, M≥2, so that the terminal device according to the parameter information of the M mapping bandwidth part and the active-BP bandwidth of the terminal device The length determines the parameter information of the corresponding N mapping bandwidth parts, where M and N are positive integers, and M≥N.

可选地，该收发器1010还用于：Optionally, the transceiver 1010 is further configured to:

在该下行物理传输资源上向该终端设备发送下行数据Sending downlink data to the terminal device on the downlink physical transmission resource

应理解，根据本申请的资源映射的设备1000可对应于本申请的方法中的网络设备，且该资源映射的设备1000中的各单元及模块和上述其他操作和/或功能分别为了实现方法300中由网络设备执行的相应流程，为了简洁，此处不再赘述。It should be understood that the device 1000 according to the resource mapping of the present application may correspond to the network device in the method of the present application, and each unit and module in the resource mapped device 1000 and the other operations and/or functions described above respectively implement the method 300. The corresponding process performed by the network device is not described here for brevity.

因此，本申请的资源映射的设备，通过使N个MBP中的任意一个MBP的带宽长度小于或等于该终端设备的激活态带宽部分active-BP的带宽长度，使得终端设备按照该N个MBP中的任意一个MBP的参数信息进行分布式资源映射时，都不会超出终端设备的激活态带宽部分active-BP。Therefore, the resource mapping device of the present application causes the terminal device to follow the N MBPs by making the bandwidth length of any one of the N MBPs less than or equal to the bandwidth length of the active-state bandwidth portion active-BP of the terminal device. When any parameter information of one MBP is used for distributed resource mapping, the active state bandwidth part active-BP of the terminal device is not exceeded.

图13是根据本申请的资源映射的设备1100的示意性结构图。如图13所示，该设备1100包括：FIG. 13 is a schematic structural diagram of a device 1100 for resource mapping according to the present application. As shown in FIG. 13, the device 1100 includes:

收发器1110；Transceiver 1110;

存储器1120；Memory 1120;

处理器1130；The processor 1130;

其中，该存储器1120用于存储指令，该处理器1130用于执行该存储器1120存储的指令，以控制该收发器1110发送信号或者控制该收发器1110接收信号。The memory 1120 is configured to store an instruction, and the processor 1130 is configured to execute an instruction stored by the memory 1120 to control the transceiver 1110 to send a signal or control the transceiver 1110 to receive a signal.

其中，收发器1110，用于接收网络设备发送的资源配置信息，该资源配置信息用于向该终端设备指示N个映射带宽部分的参数信息，N≥2，该N个映射带宽部分中的任意一个映射带宽部分的带宽长度小于或等于该终端设备的激活态带宽部分active-BP的带宽长度映射带宽部分映射带宽部分；The transceiver 1110 is configured to receive resource configuration information sent by the network device, where the resource configuration information is used to indicate parameter information of the N mapped bandwidth portions to the terminal device, where N≥2, any of the N mapping bandwidth portions. The bandwidth length of a mapped bandwidth portion is less than or equal to the bandwidth portion of the active-state bandwidth portion active-BP of the terminal device, and the bandwidth portion maps the bandwidth portion;

处理器1130，用于根据该资源配置信息和下行调度信息，确定网络设备分配的下行物理传输资源。The processor 1130 is configured to determine, according to the resource configuration information and the downlink scheduling information, a downlink physical transmission resource allocated by the network device.

可选地，该N个映射带宽部分的带宽总长度等于该active-BP的带宽长度，该N个映射带宽部分中的任意两个映射带宽部分在频域上不重叠。Optionally, the total bandwidth length of the N mapping bandwidth portions is equal to the bandwidth length of the active-BP, and any two mapping bandwidth portions of the N mapping bandwidth portions do not overlap in the frequency domain.

可选地，该处理器1130具体用于：Optionally, the processor 1130 is specifically configured to:

确定第一下行VRB资源属于第一映射带宽部分，该第一映射带宽部分为该N个映射带宽部分中的任意一个映射带宽部分，该第一下行VRB资源为该网络设备通过该下行调度信息为该终端设备分配的资源；Determining that the first downlink VRB resource belongs to the first mapping bandwidth part, where the first mapping bandwidth part is any one of the N mapping bandwidth parts, and the first downlink VRB resource is the downlink scheduling of the network device by the network device Information allocated to the terminal device;

将该第一下行VRB资源按照该第一映射带宽部分的参数信息进行映射，确定第一下行PRB资源，该第一下行PRB资源为该第一下行VRB资源在该第一映射带宽部分中对应的映射资源，该第一下行PRB资源属于该第一映射带宽部分。Mapping the first downlink VRB resource according to the parameter information of the first mapping bandwidth part, and determining the first downlink PRB resource, where the first downlink PRB resource is the first downlink VRB resource in the first mapping bandwidth And corresponding mapping resources in the part, where the first downlink PRB resource belongs to the first mapping bandwidth part.

可选地，该第一下行VRB资源属于该N个映射带宽部分中的多个相邻的映射带宽部分，该第一下行VRB资源为一段连续的VRB资源。Optionally, the first downlink VRB resource belongs to a plurality of adjacent mapping bandwidth portions of the N mapping bandwidth portions, and the first downlink VRB resource is a continuous VRB resource.

可选地，该收发器1110还用于：Optionally, the transceiver 1110 is further configured to:

接收该网络设备发送的该下行调度信息，该下行调度信息用于指示该下行VRB资源的资源索引信息，该资源索引信息包括该下行VRB资源的资源索引值。And receiving, by the network device, the downlink scheduling information, where the downlink scheduling information is used to indicate resource index information of the downlink VRB resource, where the resource index information includes a resource index value of the downlink VRB resource.

可选地，该N个映射带宽部分中的每个映射带宽部分的参数信息至少包括以下信息：Optionally, the parameter information of each of the N mapped bandwidth portions includes at least the following information:

映射带宽部分的带宽长度信息、映射带宽部分的位置信息和映射带宽部分的映射模式，该映射带宽部分的映射模式包括集中式映射和分布式映射。The bandwidth length information of the mapped bandwidth portion, the location information of the mapped bandwidth portion, and the mapping mode of the mapped bandwidth portion, the mapping mode of the mapped bandwidth portion includes a centralized mapping and a distributed mapping.

可选地，该收发器1110还用于：Optionally, the transceiver 1110 is further configured to:

通过RRC信令接收该网络设备发送的该资源配置信息；或Receiving, by using RRC signaling, the resource configuration information sent by the network device; or

通过***广播消息或组播消息接收该网络设备发送的M个映射带宽部分的参数信息，M≥2；Receiving parameter information of M mapping bandwidth parts sent by the network device by using a system broadcast message or a multicast message, M≥2;

该处理器1130还用于：The processor 1130 is also configured to:

根据该M个映射带宽部分的参数信息和该active-BP的带宽长度，确定对应的N个映射带宽部分的参数信息，其中，M、N均为正整数，且M≥N。And determining parameter information of the corresponding N mapping bandwidth parts according to the parameter information of the M mapping bandwidth part and the bandwidth length of the active-BP, where M and N are positive integers, and M≥N.

可选地，该收发器1110还用于：Optionally, the transceiver 1110 is further configured to:

在该下行物理传输资源上接收该网络设备发送的下行数据。Receiving downlink data sent by the network device on the downlink physical transmission resource.

应理解，根据本申请的资源映射的设备1100可对应于本申请的方法中的终端设备，且该资源映射的设备1100中的各单元及模块和上述其他操作和/或功能分别为了实现方法300中由终端设备执行的相应流程，为了简洁，此处不再赘述。It should be understood that the device 1100 according to the resource mapping of the present application may correspond to the terminal device in the method of the present application, and each unit and module in the resource mapped device 1100 and the above other operations and/or functions respectively implement the method 300. The corresponding processes executed by the terminal device are not described here for brevity.

因此，本申请的资源映射的设备，通过使N个MBP中的任意一个MBP的带宽长度小于或等于该终端设备的激活态带宽部分active-BP的带宽长度，使得终端设备按照该N个MBP中的任意一个MBP的参数信息进行分布式资源映射时，都不会超出终端设备的激活态带宽部分active-BP。Therefore, the resource mapping device of the present application causes the terminal device to follow the N MBPs by making the bandwidth length of any one of the N MBPs less than or equal to the bandwidth length of the active-state bandwidth portion active-BP of the terminal device. When any parameter information of one MBP is used for distributed resource mapping, the active state bandwidth part active-BP of the terminal device is not exceeded.

本领域普通技术人员可以意识到，结合本文中所公开的实施例描述的各示例的单元及算法步骤，能够以电子硬件、或者计算机软件和电子硬件的结合来实现。这些功能究竟以硬件还是软件方式来执行，取决于技术方案的特定应用和设计约束条件。专业技术人员可以对每个特定的应用来使用不同方法来实现所描述的功能，但是这种实现不应认为超出 本申请的范围。Those of ordinary skill in the art will appreciate that the elements and algorithm steps of the various examples described in connection with the embodiments disclosed herein can be implemented in electronic hardware or a combination of computer software and electronic hardware. Whether these functions are performed in hardware or software depends on the specific application and design constraints of the solution. A person skilled in the art can use different methods to implement the described functionality for each particular application, but such implementation should not be considered to be beyond the scope of the application.

所属领域的技术人员可以清楚地了解到，为描述的方便和简洁，上述描述的***、装置和单元的具体工作过程，可以参考前述方法实施例中的对应过程，在此不再赘述。A person skilled in the art can clearly understand that for the convenience and brevity of the description, the specific working process of the system, the device and the unit described above can refer to the corresponding process in the foregoing method embodiment, and details are not described herein again.

在本申请所提供的几个实施例中，应该理解到，所揭露的***、装置和方法，可以通过其它的方式实现。例如，以上所描述的装置实施例仅仅是示意性的，例如，所述单元的划分，仅仅为一种逻辑功能划分，实际实现时可以有另外的划分方式，例如多个单元或组件可以结合或者可以集成到另一个***，或一些特征可以忽略，或不执行。另一点，所显示或讨论的相互之间的耦合或直接耦合或通信连接可以是通过一些接口，装置或单元的间接耦合或通信连接，可以是电性，机械或其它的形式。In the several embodiments provided by the present application, it should be understood that the disclosed systems, devices, and methods may be implemented in other manners. For example, the device embodiments described above are merely illustrative. For example, the division of the unit is only a logical function division. In actual implementation, there may be another division manner, for example, multiple units or components may be combined or Can be integrated into another system, or some features can be ignored or not executed. In addition, the mutual coupling or direct coupling or communication connection shown or discussed may be an indirect coupling or communication connection through some interface, device or unit, and may be in an electrical, mechanical or other form.

所述作为分离部件说明的单元可以是或者也可以不是物理上分开的，作为单元显示的部件可以是或者也可以不是物理单元，即可以位于一个地方，或者也可以分布到多个网络单元上。可以根据实际的需要选择其中的部分或者全部单元来实现本实施例方案的目的。The units described as separate components may or may not be physically separated, and the components displayed as units may or may not be physical units, that is, may be located in one place, or may be distributed to multiple network units. Some or all of the units may be selected according to actual needs to achieve the purpose of the solution of the embodiment.

另外，在本申请各个实施例中的各功能单元可以集成在一个处理单元中，也可以是各个单元单独物理存在，也可以两个或两个以上单元集成在一个单元中。In addition, each functional unit in each embodiment of the present application may be integrated into one processing unit, or each unit may exist physically separately, or two or more units may be integrated into one unit.

所述功能如果以软件功能单元的形式实现并作为独立的产品销售或使用时，可以存储在一个计算机可读取存储介质中。基于这样的理解，本申请的技术方案本质上或者说对现有技术做出贡献的部分或者该技术方案的部分可以以软件产品的形式体现出来，该计算机软件产品存储在一个存储介质中，包括若干指令用以使得一台计算机设备(可以是个人计算机，服务器，或者网络设备等)执行本申请各个实施例所述方法的全部或部分步骤。而前述的存储介质包括：U盘、移动硬盘、只读存储器(Read-Only Memory，ROM)、随机存取存储器(Random Access Memory，RAM)、磁碟或者光盘等各种可以存储程序代码的介质。The functions may be stored in a computer readable storage medium if implemented in the form of a software functional unit and sold or used as a standalone product. Based on such understanding, the technical solution of the present application, which is essential or contributes to the prior art, or a part of the technical solution, may be embodied in the form of a software product, which is stored in a storage medium, including The instructions are used to cause a computer device (which may be a personal computer, server, or network device, etc.) to perform all or part of the steps of the methods described in various embodiments of the present application. The foregoing storage medium includes: a U disk, a mobile hard disk, a read-only memory (ROM), a random access memory (RAM), a magnetic disk, or an optical disk, and the like, which can store program codes. .

以上所述，仅为本申请的具体实施方式，但本申请的保护范围并不局限于此，任何熟悉本技术领域的技术人员在本申请揭露的技术范围内，可轻易想到变化或替换，都应涵盖在本申请的保护范围之内。因此，本申请的保护范围应所述以权利要求的保护范围为准。The foregoing is only a specific embodiment of the present application, but the scope of protection of the present application is not limited thereto, and any person skilled in the art can easily think of changes or substitutions within the technical scope disclosed in the present application. It should be covered by the scope of protection of this application. Therefore, the scope of protection of the present application should be determined by the scope of the claims.

Claims (46)

1. 一种资源映射的方法，其特征在于，所述方法包括：A method for resource mapping, the method comprising:

   终端设备接收网络设备发送的资源配置信息，所述资源配置信息用于向所述终端设备指示N个跳频带宽部分的参数信息，N为不小于2的整数，所述N个跳频带宽部分中的任意一个跳频带宽部分的带宽长度小于或等于所述终端设备的激活态带宽部分active-BP的带宽长度；The terminal device receives resource configuration information sent by the network device, where the resource configuration information is used to indicate parameter information of the N frequency hopping bandwidth portions to the terminal device, where N is an integer not less than 2, and the N frequency hopping bandwidth portions The bandwidth length of any one of the hopping bandwidth portions is less than or equal to the bandwidth length of the active-state bandwidth portion active-BP of the terminal device;

   所述终端设备根据所述资源配置信息和上行调度信息，确定网络设备分配的上行物理传输资源。The terminal device determines, according to the resource configuration information and the uplink scheduling information, an uplink physical transmission resource allocated by the network device.
2. 根据权利要求1所述的方法，其特征在于，所述N个跳频带宽部分的带宽总长度等于所述active-BP的带宽长度，所述N个跳频带宽部分中的任意两个跳频带宽部分在频域上不重叠。The method according to claim 1, wherein a total length of the bandwidth of the N frequency hopping bandwidth portions is equal to a bandwidth length of the active-BP, and any two of the N frequency hopping bandwidth portions are frequency hopping. The bandwidth portions do not overlap in the frequency domain.
3. 根据权利要求1或2所述的方法，其特征在于，所述终端设备根据所述资源配置信息和上行调度信息，确定网络设备分配的上行物理传输资源，包括：The method according to claim 1 or 2, wherein the terminal device determines the uplink physical transmission resource allocated by the network device according to the resource configuration information and the uplink scheduling information, including:

   所述终端设备确定第一上行VRB资源属于第一跳频带宽部分，所述第一跳频带宽部分为所述N个跳频带宽部分中的任意一个跳频带宽部分，所述第一上行VRB资源为所述网络设备通过所述上行调度信息为所述终端设备分配的资源；Determining, by the terminal device, that the first uplink VRB resource belongs to a first frequency hopping bandwidth part, where the first frequency hopping bandwidth part is any one of the N frequency hopping bandwidth parts, the first uplink VRB The resource is a resource allocated by the network device to the terminal device by using the uplink scheduling information;

   所述终端设备将所述第一上行VRB资源按照所述第一跳频带宽部分的参数信息进行映射，确定第一上行PRB资源、第二上行PRB资源，所述第一上行PRB资源和所述第二上行PRB资源为所述第一上行VRB资源在所述第一跳频带宽部分中对应的映射资源，所述第一上行PRB资源属于所述第一跳频带宽部分中的第一时间单元，所述第二上行PRB资源属于所述第一跳频带宽部分中的第二时间单元，所述第一上行PRB资源和所述第二上行PRB资源之间在频域上存在整数个PRB资源的偏移。The terminal device maps the first uplink VRB resource according to the parameter information of the first hopping bandwidth part, and determines a first uplink PRB resource, a second uplink PRB resource, the first uplink PRB resource, and the The second uplink PRB resource is a mapping resource corresponding to the first uplink VRB resource in the first hop bandwidth portion, and the first uplink PRB resource belongs to a first time unit in the first hop bandwidth portion The second uplink PRB resource belongs to a second time unit in the first hop bandwidth portion, and an integer number of PRB resources exist in the frequency domain between the first uplink PRB resource and the second uplink PRB resource. Offset.
4. 根据权利要求3所述的方法，其特征在于，所述第一上行VRB资源至多属于所述第一跳频带宽部分和第二跳频带宽部分，所述第二跳频带宽部分为所述N个跳频带宽部分中与所述第一跳频带宽部分相邻的跳频带宽部分，所述第一上行VRB资源为一段连续的VRB资源。The method according to claim 3, wherein the first uplink VRB resource belongs to at least the first hopping bandwidth portion and the second hopping bandwidth portion, and the second hopping bandwidth portion is the N The hopping bandwidth portion of the hopping bandwidth portion adjacent to the first hopping bandwidth portion, the first uplink VRB resource is a contiguous VRB resource.
5. 根据权利要求3或4所述的方法，其特征在于，所述方法还包括：The method according to claim 3 or 4, wherein the method further comprises:

   所述终端设备接收所述网络设备发送的所述上行调度信息，所述上行调度信息用于指示所述上行VRB资源的资源索引信息，所述资源索引信息包括所述上行VRB资源的资源索引值。The terminal device receives the uplink scheduling information that is sent by the network device, where the uplink scheduling information is used to indicate resource index information of the uplink VRB resource, where the resource index information includes a resource index value of the uplink VRB resource. .
6. 根据权利要求1至5中任一项所述的方法，其特征在于，所述N个跳频带宽部分中的每个跳频带宽部分的参数信息至少包括以下信息：The method according to any one of claims 1 to 5, wherein the parameter information of each of the N frequency hopping bandwidth portions includes at least the following information:

   跳频带宽部分的带宽长度信息、跳频带宽部分的位置信息和跳频带宽部分的跳频规则信息，所述跳频带宽部分的跳频规则信息至少包括跳频模式信息、跳频PRB偏移信息和跳频子带信息。The bandwidth length information of the frequency hopping bandwidth part, the location information of the frequency hopping bandwidth part, and the frequency hopping rule information of the frequency hopping bandwidth part, where the frequency hopping rule information of the frequency hopping bandwidth part includes at least the frequency hopping mode information and the frequency hopping PRB offset Information and frequency hopping subband information.
7. 根据权利要求1至6中任一项所述的方法，其特征在于，所述终端设备接收所述网络设备发送的资源配置信息，包括：The method according to any one of claims 1 to 6, wherein the receiving, by the terminal device, the resource configuration information sent by the network device comprises:

   所述终端设备通过RRC信令接收所述网络设备发送所述资源配置信息；或Receiving, by the RRC signaling, the network device, by using the RRC signaling, the resource configuration information; or

   所述终端设备通过***广播消息或组播消息接收所述网络设备发送的M个跳频带宽部分的参数信息，M≥2；Receiving, by the system broadcast message or the multicast message, the parameter information of the M frequency hopping bandwidth parts sent by the network device, where M ≥ 2;

   所述终端设备根据所述M个跳频带宽部分的参数信息和所述active-BP的带宽长度，确定对应的N个跳频带宽部分的参数信息，其中，M、N均为正整数，且M≥N。Determining, by the terminal device, the parameter information of the corresponding N frequency hopping bandwidth parts according to the parameter information of the M frequency hopping bandwidth part and the bandwidth length of the active-BP, where M and N are positive integers, and M ≥ N.
8. 一种资源映射的装置，其特征在于，所述装置包括：A device for resource mapping, characterized in that the device comprises:

   通信单元，用于接收网络设备发送的资源配置信息，所述资源配置信息用于向所述终端设备指示N个跳频带宽部分的参数信息，N为不小于2的整数，所述N个跳频带宽部分中的任意一个跳频带宽部分的带宽长度小于或等于所述终端设备的激活态带宽部分active-BP的带宽长度；a communication unit, configured to receive resource configuration information sent by the network device, where the resource configuration information is used to indicate parameter information of the N frequency hopping bandwidth portions to the terminal device, where N is an integer not less than 2, and the N hops The bandwidth length of any one of the frequency hopping bandwidth portions is less than or equal to the bandwidth length of the active state bandwidth portion active-BP of the terminal device;

   处理单元，用于根据所述资源配置信息和上行调度信息，确定网络设备分配的上行物理传输资源。The processing unit is configured to determine, according to the resource configuration information and the uplink scheduling information, an uplink physical transmission resource allocated by the network device.
9. 根据权利要求8所述的装置，其特征在于，所述N个跳频带宽部分的带宽总长度等于所述active-BP的带宽长度，所述N个跳频带宽部分中的任意两个跳频带宽部分在频域上不重叠。The apparatus according to claim 8, wherein a total length of the bandwidth of the N frequency hopping bandwidth portions is equal to a bandwidth length of the active-BP, and any two of the N frequency hopping bandwidth portions are frequency hopping. The bandwidth portions do not overlap in the frequency domain.
10. 根据权利要求8或9所述的装置，其特征在于，所述处理单元具体用于：The device according to claim 8 or 9, wherein the processing unit is specifically configured to:

    确定第一上行VRB资源属于第一跳频带宽部分，所述第一跳频带宽部分为所述N个跳频带宽部分中的任意一个跳频带宽部分，所述第一上行VRB资源为所述网络设备通过所述上行调度信息为所述终端设备分配的资源；Determining that the first uplink VRB resource belongs to the first frequency hopping bandwidth portion, the first hopping bandwidth portion is any one of the N frequency hopping bandwidth portions, and the first uplink VRB resource is the a resource allocated by the network device to the terminal device by using the uplink scheduling information;

    将所述第一上行VRB资源按照所述第一跳频带宽部分的参数信息进行映射，确定第一上行PRB资源、第二上行PRB资源，所述第一上行PRB资源和所述第二上行PRB资源为所述第一上行VRB资源在所述第一跳频带宽部分中对应的映射资源，所述第一上行PRB资源属于所述第一跳频带宽部分中的第一时间单元，所述第二上行PRB资源属于所述第一跳频带宽部分中的第二时间单元，所述第一上行PRB资源和所述第二上行PRB资源之间在频域上存在整数个PRB资源的偏移。Mapping the first uplink VRB resource according to the parameter information of the first hopping bandwidth portion, and determining the first uplink PRB resource, the second uplink PRB resource, the first uplink PRB resource, and the second uplink PRB The resource is a mapping resource corresponding to the first uplink VRB resource in the first hop bandwidth portion, and the first uplink PRB resource belongs to a first time unit in the first hop bandwidth portion, where the The second uplink PRB resource belongs to the second time unit in the first hop bandwidth portion, and there is an offset of an integer number of PRB resources in the frequency domain between the first uplink PRB resource and the second uplink PRB resource.
11. 根据权利要求10所述的装置，其特征在于，所述第一上行VRB资源至多属于所述第一跳频带宽部分和第二跳频带宽部分，所述第二跳频带宽部分为所述N个跳频带宽部分中与所述第一跳频带宽部分相邻的跳频带宽部分，所述第一上行VRB资源为一段连续的VRB资源。The apparatus according to claim 10, wherein the first uplink VRB resource belongs to at least the first hopping bandwidth portion and the second hopping bandwidth portion, and the second hopping bandwidth portion is the N The hopping bandwidth portion of the hopping bandwidth portion adjacent to the first hopping bandwidth portion, the first uplink VRB resource is a contiguous VRB resource.
12. 根据权利要求10或11所述的装置，其特征在于，所述通信单元还用于：The device according to claim 10 or 11, wherein the communication unit is further configured to:

    接收所述网络设备发送的所述上行调度信息，所述上行调度信息用于指示所述上行VRB资源的资源索引信息，所述资源索引信息包括所述上行VRB资源的资源索引值。Receiving, by the network device, the uplink scheduling information, where the uplink scheduling information is used to indicate resource index information of the uplink VRB resource, where the resource index information includes a resource index value of the uplink VRB resource.
13. 根据权利要求8至12中任一项所述的装置，其特征在于，所述N个跳频带宽部分中的每个跳频带宽部分的参数信息至少包括以下信息：The apparatus according to any one of claims 8 to 12, wherein the parameter information of each of the N frequency hopping bandwidth sections includes at least the following information:

    跳频带宽部分的带宽长度信息、跳频带宽部分的位置信息和跳频带宽部分的跳频规则信息，所述跳频带宽部分的跳频规则信息至少包括跳频模式信息、跳频PRB偏移信息和跳频子带信息。The bandwidth length information of the frequency hopping bandwidth part, the location information of the frequency hopping bandwidth part, and the frequency hopping rule information of the frequency hopping bandwidth part, where the frequency hopping rule information of the frequency hopping bandwidth part includes at least the frequency hopping mode information and the frequency hopping PRB offset Information and frequency hopping subband information.
14. 根据权利要求8至13中任一项所述的装置，其特征在于，所述通信单元还用于：The device according to any one of claims 8 to 13, wherein the communication unit is further configured to:

    通过RRC信令接收所述网络设备发送所述资源配置信息；或Receiving, by using RRC signaling, the network device to send the resource configuration information; or

    通过***广播消息或组播消息接收所述网络设备发送的M个跳频带宽部分的参数信息，M≥2；Receiving parameter information of M frequency hopping bandwidth parts sent by the network device by using a system broadcast message or a multicast message, M≥2;

    所述处理单元还用于：The processing unit is further configured to:

    根据所述M个跳频带宽部分的参数信息和所述active-BP的带宽长度，确定对应的N个跳频带宽部分的参数信息，其中，M、N均为正整数，且M≥N。Determining parameter information of the corresponding N frequency hopping bandwidth portions according to the parameter information of the M frequency hopping bandwidth portions and the bandwidth length of the active-BP, where M and N are positive integers, and M ≥ N.
15. 一种资源映射的方法，所述方法包括：A method of resource mapping, the method comprising:

    网络设备生成资源配置信息，所述资源配置信息用于向所述终端设备指示N个跳频带宽部分的参数信息，N为不小于2的整数，所述N个跳频带宽部分中的任意一个跳频带宽部分的带宽长度小于或等于所述终端设备的激活态带宽部分active-BP的带宽长度；The network device generates resource configuration information, where the resource configuration information is used to indicate parameter information of the N frequency hopping bandwidth portions to the terminal device, where N is an integer not less than 2, and any one of the N frequency hopping bandwidth portions The bandwidth length of the frequency hopping bandwidth portion is less than or equal to the bandwidth length of the active state bandwidth portion active-BP of the terminal device;

    网络设备向终端设备发送资源配置信息。The network device sends resource configuration information to the terminal device.
16. 根据权利要求15所述的方法，其特征在于，所述N个跳频带宽部分的带宽总长度等于所述终端设备的active-BP的带宽长度，所述N个跳频带宽部分中的任意两个跳频带宽部分在频域上不重叠。The method according to claim 15, wherein the total bandwidth length of the N frequency hopping bandwidth portions is equal to the bandwidth length of the active-BP of the terminal device, and any two of the N frequency hopping bandwidth portions The hopping bandwidth portions do not overlap in the frequency domain.
17. 根据权利要求15或16所述的方法，其特征在于，所述方法还包括：The method according to claim 15 or 16, wherein the method further comprises:

    所述网络设备向所述终端设备发送上行调度信息，所述上行调度信息用于指示所述上行VRB资源的资源索引信息，所述资源索引信息包括所述上行VRB资源的资源索引值。The network device sends uplink scheduling information to the terminal device, where the uplink scheduling information is used to indicate resource index information of the uplink VRB resource, where the resource index information includes a resource index value of the uplink VRB resource.
18. 根据权利要求15至17中任一项所述的方法，其特征在于，所述N个跳频带宽部分中的每个跳频带宽部分的参数信息至少包括以下信息：The method according to any one of claims 15 to 17, wherein the parameter information of each of the N frequency hopping bandwidth portions includes at least the following information:

    跳频带宽部分的带宽长度信息、跳频带宽部分的位置信息和跳频带宽部分的跳频规则信息，所述跳频带宽部分的跳频规则信息至少包括跳频模式信息、跳频PRB偏移信息和跳频子带信息。The bandwidth length information of the frequency hopping bandwidth part, the location information of the frequency hopping bandwidth part, and the frequency hopping rule information of the frequency hopping bandwidth part, where the frequency hopping rule information of the frequency hopping bandwidth part includes at least the frequency hopping mode information and the frequency hopping PRB offset Information and frequency hopping subband information.
19. 根据权利要求15至18中任一项所述的方法，其特征在于，所述网络设备向终端设备发送资源配置信息，包括：The method according to any one of claims 15 to 18, wherein the sending, by the network device, the resource configuration information to the terminal device comprises:

    所述网络设备通过RRC信令向所述终端设备发送所述资源配置信息；或Transmitting, by the network device, the resource configuration information to the terminal device by using RRC signaling; or

    所述网络设备通过***广播消息或组播消息向终端设备发送M个跳频带宽部分的参数信息，M≥2，以使所述终端设备根据所述M个跳频带宽部分的参数信息和所述终端设备的active-BP的带宽长度P确定对应的N个跳频带宽部分的参数信息，其中，M、N均为正整数，且M≥N。Transmitting, by the system broadcast message or the multicast message, the parameter information of the M frequency hopping bandwidth parts to the terminal device, where M≥2, so that the terminal device according to the parameter information and the part of the M frequency hopping bandwidth part The bandwidth length P of the active-BP of the terminal device determines parameter information of the corresponding N frequency hopping bandwidth portions, where M and N are positive integers, and M ≥ N.
20. 一种资源映射的装置，所述装置包括：A device for resource mapping, the device comprising:

    处理单元，用于生成资源配置信息，所述资源配置信息用于向所述终端设备指示N个跳频带宽部分的参数信息，N为不小于2的整数，所述N个跳频带宽部分中的任意一个跳频带宽部分的带宽长度小于或等于所述终端设备的激活态带宽部分active-BP的带宽长度；a processing unit, configured to generate resource configuration information, where the resource configuration information is used to indicate, to the terminal device, parameter information of N hopping bandwidth portions, where N is an integer not less than 2, and the N hopping bandwidth portions are The bandwidth length of any one of the hopping bandwidth portions is less than or equal to the bandwidth length of the active-state bandwidth portion active-BP of the terminal device;

    通信单元，用于向终端设备发送资源配置信息。a communication unit, configured to send resource configuration information to the terminal device.
21. 根据权利要求20所述的装置，其特征在于，所述N个跳频带宽部分的带宽总长度等于所述终端设备的active-BP的带宽长度，所述N个跳频带宽部分中的任意两个跳频带宽部分在频域上不重叠。The apparatus according to claim 20, wherein a total length of the bandwidth of the N frequency hopping bandwidth portions is equal to a bandwidth length of an active-BP of the terminal device, and any two of the N frequency hopping bandwidth portions The hopping bandwidth portions do not overlap in the frequency domain.
22. 根据权利要求20或21所述的装置，其特征在于，所述通信单元还用于，The apparatus according to claim 20 or 21, wherein said communication unit is further configured to:

    向所述终端设备发送上行调度信息，所述上行调度信息用于指示所述上行VRB资源 的资源索引信息，所述资源索引信息包括所述上行VRB资源的资源索引值。And sending, to the terminal device, uplink scheduling information, where the uplink scheduling information is used to indicate resource index information of the uplink VRB resource, where the resource index information includes a resource index value of the uplink VRB resource.
23. 根据权利要求20至22中任一项所述的装置，其特征在于，所述N个跳频带宽部分中的每个跳频带宽部分的参数信息至少包括以下信息：The apparatus according to any one of claims 20 to 22, wherein the parameter information of each of the N frequency hopping bandwidth sections includes at least the following information:

    跳频带宽部分的带宽长度信息、跳频带宽部分的位置信息和跳频带宽部分的跳频规则信息，所述跳频带宽部分的跳频规则信息至少包括跳频模式信息、跳频PRB偏移信息和跳频子带信息。The bandwidth length information of the frequency hopping bandwidth part, the location information of the frequency hopping bandwidth part, and the frequency hopping rule information of the frequency hopping bandwidth part, where the frequency hopping rule information of the frequency hopping bandwidth part includes at least the frequency hopping mode information and the frequency hopping PRB offset Information and frequency hopping subband information.
24. 根据权利要求20至23中任一项所述的装置，其特征在于，所述通信单元具体用于，Apparatus according to any one of claims 20 to 23, wherein said communication unit is specifically adapted to:

    通过RRC信令向所述终端设备发送所述资源配置信息；或Transmitting the resource configuration information to the terminal device by using RRC signaling; or

    通过***广播消息或组播消息向终端设备发送M个跳频带宽部分的参数信息，M≥2，以使所述终端设备根据所述M个跳频带宽部分的参数信息和所述终端设备的active-BP的带宽长度P确定对应的N个跳频带宽部分的参数信息，其中，M、N均为正整数，且M≥N。Transmitting, by the system broadcast message or the multicast message, parameter information of the M frequency hopping bandwidth parts to the terminal device, M≥2, so that the terminal device according to the parameter information of the M frequency hopping bandwidth parts and the terminal device The bandwidth length P of the active-BP determines the parameter information of the corresponding N frequency hopping bandwidth parts, where M and N are positive integers, and M ≥ N.
25. 一种资源映射的方法，所述方法包括：A method of resource mapping, the method comprising:

    网络设备生成资源配置信息，所述资源配置信息用于向所述终端设备指示N个映射带宽部分的参数信息，N为不小于2的整数，所述N个映射带宽部分中的任意一个映射带宽部分的带宽长度小于或等于所述终端设备的激活态带宽部分active-BP的带宽长度映射带宽部分映射带宽部分；The network device generates resource configuration information, where the resource configuration information is used to indicate parameter information of the N mapped bandwidth portions to the terminal device, where N is an integer not less than 2, and any one of the N mapping bandwidth portions is mapped bandwidth a part of the bandwidth length is less than or equal to the bandwidth of the active state bandwidth portion of the terminal device active-BP mapping bandwidth portion mapping bandwidth portion;

    网络设备向终端设备发送资源配置信息。The network device sends resource configuration information to the terminal device.
26. 根据权利要求25所述的方法，其特征在于，所述N个映射带宽部分的带宽总长度等于所述active-BP的带宽长度，所述N个映射带宽部分中的任意两个映射带宽部分在频域上不重叠。The method according to claim 25, wherein a total length of the bandwidth of the N mapping bandwidth portions is equal to a bandwidth length of the active-BP, and any two mapping bandwidth portions of the N mapping bandwidth portions are Do not overlap in the frequency domain.
27. 根据权利要求25或26所述的方法，其特征在于，所述方法还包括：The method of claim 25 or 26, wherein the method further comprises:

    所述网络设备向所述终端设备发送下行调度信息，所述下行调度信息用于指示至少所述下行VRB资源的资源索引信息和映射参数信息，所述资源索引信息包括所述下行VRB资源的资源索引值，所述映射参数和映射带宽部分的配置信息联合指示一个映射带宽部分内VRB资源的交织矩阵，通过交织矩阵可以得到映射后的PRB资源。The network device sends downlink scheduling information to the terminal device, where the downlink scheduling information is used to indicate resource index information and mapping parameter information of at least the downlink VRB resource, where the resource index information includes resources of the downlink VRB resource. The index value, the mapping parameter and the configuration information of the mapping bandwidth part jointly indicate an interlace matrix of the VRB resource in a mapping bandwidth part, and the mapped PRB resource can be obtained through the interlacing matrix.
28. 根据权利要求25至27中任一项所述的方法，其特征在于，所述N个映射带宽部分中的每个映射带宽部分的参数信息至少包括以下信息：映射带宽部分的带宽长度信息、映射带宽部分的位置信息和映射带宽部分的映射模式，所述映射带宽部分的映射模式包括集中式映射或分布式映射中的一个。The method according to any one of claims 25 to 27, wherein the parameter information of each of the N mapped bandwidth portions includes at least the following information: bandwidth length information of the mapped bandwidth portion, mapping The location information of the bandwidth portion and the mapping mode of the mapped bandwidth portion, the mapping mode of the mapped bandwidth portion includes one of a centralized mapping or a distributed mapping.
29. 根据权利要求25至28中任一项所述的方法，其特征在于，所述网络设备向终端设备发送资源配置信息，包括：The method according to any one of claims 25 to 28, wherein the sending, by the network device, the resource configuration information to the terminal device comprises:

    所述网络设备通过RRC信令向所述终端设备发送所述资源配置信息；或所述网络设备通过***广播消息或组播消息向终端设备发送M个映射带宽部分的参数信息，M≥2，以使所述终端设备根据所述M个映射带宽部分的参数信息和所述终端设备的active-BP的带宽长度确定对应的N个映射带宽部分的参数信息，其中，M、N均为正整数，且M≥N。And the network device sends the resource configuration information to the terminal device by using RRC signaling; or the network device sends, by using a system broadcast message or a multicast message, parameter information of the M mapping bandwidth parts to the terminal device, where M≥2, And determining, by the terminal device, parameter information of the corresponding N mapping bandwidth parts according to the parameter information of the M mapping bandwidth parts and the bandwidth length of the active-BP of the terminal device, where M and N are positive integers. And M ≥ N.
30. 一种资源映射的装置，所述装置包括：A device for resource mapping, the device comprising:

    处理单元，用于生成资源配置信息，所述资源配置信息用于向所述终端设备指示N 个映射带宽部分的参数信息，N≥2，所述N个映射带宽部分中的任意一个映射带宽部分的带宽长度小于或等于所述终端设备的激活态带宽部分active-BP的带宽长度映射带宽部分映射带宽部分；a processing unit, configured to generate resource configuration information, where the resource configuration information is used to indicate parameter information of the N mapped bandwidth portions to the terminal device, where N≥2, and any one of the N mapping bandwidth portions maps the bandwidth portion The bandwidth length is less than or equal to the bandwidth of the active state bandwidth portion active-BP of the terminal device, and the bandwidth portion maps the bandwidth portion;

    通信单元，用于向终端设备发送资源配置信息。a communication unit, configured to send resource configuration information to the terminal device.
31. 根据权利要求30所述的装置，其特征在于，所述N个映射带宽部分的带宽总长度等于所述active-BP的带宽长度，所述N个映射带宽部分中的任意两个映射带宽部分在频域上不重叠。The apparatus according to claim 30, wherein a total length of bandwidth of said N mapped bandwidth portions is equal to a bandwidth length of said active-BP, and any two of said N mapped bandwidth portions are at a bandwidth portion Do not overlap in the frequency domain.
32. 根据权利要求30或31所述的装置，其特征在于，所述通信单元还用于，The apparatus according to claim 30 or 31, wherein said communication unit is further configured to:

    向所述终端设备发送下行调度信息，所述下行调度信息用于指示至少所述下行VRB资源的资源索引信息和映射参数信息，所述资源索引信息包括所述下行VRB资源的资源索引值，所述映射参数和映射带宽部分的配置信息联合指示一个映射带宽部分内VRB资源的交织矩阵，通过交织矩阵可以得到映射后的PRB资源。And sending, to the terminal device, downlink scheduling information, where the downlink scheduling information is used to indicate resource index information and mapping parameter information of the downlink VRB resource, where the resource index information includes a resource index value of the downlink VRB resource, where The mapping information and the configuration information of the mapping bandwidth portion jointly indicate an interleaving matrix of VRB resources in a mapping bandwidth portion, and the mapped PRB resources can be obtained through the interlacing matrix.
33. 根据权利要求30至32中任一项所述的装置，其特征在于，所述N个映射带宽部分中的每个映射带宽部分的参数信息至少包括以下信息：映射带宽部分的带宽长度信息、映射带宽部分的位置信息和映射带宽部分的映射模式，所述映射带宽部分的映射模式包括集中式映射或分布式映射中的一个。The apparatus according to any one of claims 30 to 32, wherein the parameter information of each of the N mapped bandwidth portions includes at least the following information: bandwidth length information of the mapped bandwidth portion, mapping The location information of the bandwidth portion and the mapping mode of the mapped bandwidth portion, the mapping mode of the mapped bandwidth portion includes one of a centralized mapping or a distributed mapping.
34. 根据权利要求30至33中任一项所述的装置，其特征在于，所述通信单元具体用于，通过RRC信令向所述终端设备发送所述资源配置信息；或The device according to any one of claims 30 to 33, wherein the communication unit is specifically configured to send the resource configuration information to the terminal device by using RRC signaling; or

    用于通过***广播消息或组播消息向终端设备发送M个映射带宽部分的参数信息，M≥2，以使所述终端设备根据所述M个映射带宽部分的参数信息和所述终端设备的active-BP的带宽长度确定对应的N个映射带宽部分的参数信息，其中，M、N均为正整数，且M≥N。The parameter information for transmitting the M mapping bandwidth parts to the terminal device by using the system broadcast message or the multicast message, M≥2, so that the terminal device according to the parameter information of the M mapping bandwidth parts and the terminal device The bandwidth length of the active-BP determines the parameter information of the corresponding N mapping bandwidth parts, where M and N are positive integers, and M≥N.
35. 一种资源映射的方法，所述方法包括：终端设备接收网络设备发送的资源配置信息，所述资源配置信息用于向所述终端设备指示N个映射带宽部分的参数信息，N≥2，所述N个映射带宽部分中的任意一个映射带宽部分的带宽长度小于或等于所述终端设备的激活态带宽部分active-BP的带宽长度映射带宽部分映射带宽部分；A method for resource mapping, the method includes: receiving, by a terminal device, resource configuration information sent by a network device, where the resource configuration information is used to indicate, to the terminal device, parameter information of N mapping bandwidth parts, where N≥2 The bandwidth length of the mapping bandwidth portion of any one of the N mapping bandwidth portions is less than or equal to the bandwidth length mapping bandwidth portion mapping bandwidth portion of the active-state bandwidth portion active-BP of the terminal device;

    所述终端设备根据所述资源配置信息和下行调度信息，确定网络设备分配的下行物理传输资源。The terminal device determines, according to the resource configuration information and the downlink scheduling information, a downlink physical transmission resource allocated by the network device.
36. 根据权利要求35所述的方法，其特征在于，所述N个映射带宽部分的带宽总长度等于所述active-BP的带宽长度，所述N个映射带宽部分中的任意两个映射带宽部分在频域上不重叠。The method according to claim 35, wherein the total bandwidth length of the N mapping bandwidth portions is equal to the bandwidth length of the active-BP, and any two mapping bandwidth portions of the N mapping bandwidth portions are Do not overlap in the frequency domain.
37. 根据权利要求35或36所述的方法，其特征在于，所述终端设备根据所述资源配置信息和下行调度信息，确定网络设备分配的下行物理传输资源，包括：The method according to claim 35 or claim 36, wherein the determining, by the terminal device, the downlink physical transmission resource allocated by the network device, according to the resource configuration information and the downlink scheduling information, includes:

    所述终端设备确定第一下行VRB资源属于第一映射带宽部分，所述第一映射带宽部分为所述N个映射带宽部分中的任意一个映射带宽部分，所述第一下行VRB资源为所述网络设备通过所述下行调度信息为所述终端设备分配的资源；The terminal device determines that the first downlink VRB resource belongs to the first mapping bandwidth portion, and the first mapping bandwidth portion is any one of the N mapping bandwidth portions, where the first downlink VRB resource is a resource allocated by the network device to the terminal device by using the downlink scheduling information;

    所述终端设备将所述第一下行VRB资源按照所述第一映射带宽部分的参数信息和下行调度信息指示的映射参数进行映射，确定交织矩阵，从而确定第一下行PRB资源，所述第一下行PRB资源为所述第一下行VRB资源在所述第一映射带宽部分中对应的映射 资源，所述第一下行PRB资源属于所述第一映射带宽部分。The terminal device maps the first downlink VRB resource according to the parameter information of the first mapping bandwidth part and the mapping parameter indicated by the downlink scheduling information, determines an interlace matrix, and determines a first downlink PRB resource, where The first downlink PRB resource is a mapping resource corresponding to the first downlink VRB resource in the first mapping bandwidth part, and the first downlink PRB resource belongs to the first mapping bandwidth part.
38. 根据权利要求35至37中任一项所述的方法，其特征在于，所述方法还包括：所述终端设备接收所述网络设备发送的所述下行调度信息，所述下行调度信息用于指示至少所述下行VRB资源的资源索引信息和映射参数信息，所述资源索引信息包括所述下行VRB资源的资源索引值，所述映射参数信息和一个映射带宽部分的配置信息联合确定属于所述映射带宽部分的VRB到PRB的交织矩阵。The method according to any one of claims 35 to 37, wherein the method further comprises: the terminal device receiving the downlink scheduling information sent by the network device, where the downlink scheduling information is used to indicate At least the resource index information and the mapping parameter information of the downlink VRB resource, where the resource index information includes a resource index value of the downlink VRB resource, and the mapping parameter information and the configuration information of a mapping bandwidth part jointly determine that the mapping belongs to the mapping The VB to PRB interleaving matrix of the bandwidth portion.
39. 根据权利要求35至38中任一项所述的方法，其特征在于，所述N个映射带宽部分中的每个映射带宽部分的参数信息至少包括以下信息：映射带宽部分的带宽长度信息、映射带宽部分的位置信息和映射带宽部分的映射模式，所述映射带宽部分的映射模式包括集中式映射和分布式映射。The method according to any one of claims 35 to 38, wherein the parameter information of each of the N mapped bandwidth portions includes at least the following information: bandwidth length information of the mapped bandwidth portion, mapping The location information of the bandwidth portion and the mapping mode of the mapped bandwidth portion, the mapping mode of the mapping bandwidth portion includes a centralized mapping and a distributed mapping.
40. 根据权利要求35至39中任一项所述的方法，其特征在于，所述终端设备接收所述网络设备发送的资源配置信息，包括：The method according to any one of claims 35 to 39, wherein the receiving, by the terminal device, the resource configuration information sent by the network device comprises:

    所述终端设备通过RRC信令接收所述网络设备发送的所述资源配置信息；或所述终端设备通过***广播消息或组播消息接收所述网络设备发送的M个映射带宽部分的参数信息，M≥2；The terminal device receives the resource configuration information sent by the network device by using RRC signaling; or the terminal device receives, by using a system broadcast message or a multicast message, parameter information of M mapping bandwidth parts sent by the network device, M≥2;

    所述终端设备根据所述M个映射带宽部分的参数信息和所述active-BP的带宽长度，确定对应的N个映射带宽部分的参数信息，其中，M、N均为正整数，且M≥N。Determining, by the terminal device, parameter information of the corresponding N mapping bandwidth parts according to the parameter information of the M mapping bandwidth parts and the bandwidth length of the active-BP, where M and N are positive integers, and M≥ N.
41. 一种资源映射的装置，所述装置包括：A device for resource mapping, the device comprising:

    通信单元，用于接收网络设备发送的资源配置信息，所述资源配置信息用于向所述终端设备指示N个映射带宽部分的参数信息，N为不小于2的整数，所述N个映射带宽部分中的任意一个映射带宽部分的带宽长度小于或等于所述终端设备的激活态带宽部分active-BP的带宽长度映射带宽部分映射带宽部分；a communication unit, configured to receive resource configuration information sent by the network device, where the resource configuration information is used to indicate parameter information of the N mapping bandwidth parts to the terminal device, where N is an integer not less than 2, and the N mapping bandwidths The bandwidth length of any one of the mapping bandwidth portions is less than or equal to the bandwidth length of the active state bandwidth portion active-BP of the terminal device, and the bandwidth portion mapping bandwidth portion;

    处理单元，用于根据所述资源配置信息和下行调度信息，确定网络设备分配的下行物理传输资源。The processing unit is configured to determine, according to the resource configuration information and the downlink scheduling information, a downlink physical transmission resource allocated by the network device.
42. 根据权利要求41所述的装置，其特征在于，所述N个映射带宽部分的带宽总长度等于所述active-BP的带宽长度，所述N个映射带宽部分中的任意两个映射带宽部分在频域上不重叠。The apparatus according to claim 41, wherein a total length of bandwidth of said N mapped bandwidth portions is equal to a bandwidth length of said active-BP, and any two mapping bandwidth portions of said N mapped bandwidth portions are Do not overlap in the frequency domain.
43. 根据权利要求41或42所述的装置，其特征在于，所述处理单元还用于，The apparatus according to claim 41 or 42, wherein said processing unit is further configured to:

    确定第一下行VRB资源属于第一映射带宽部分，所述第一映射带宽部分为所述N个映射带宽部分中的任意一个映射带宽部分，所述第一下行VRB资源为所述网络设备通过所述下行调度信息为所述终端设备分配的资源；Determining that the first downlink VRB resource belongs to the first mapping bandwidth portion, the first mapping bandwidth portion is any one of the N mapping bandwidth portions, and the first downlink VRB resource is the network device a resource allocated to the terminal device by using the downlink scheduling information;

    所述处理单元还用于，将所述第一下行VRB资源按照所述第一映射带宽部分的参数信息和下行调度信息指示的映射参数进行映射，确定交织矩阵，从而确定第一下行PRB资源，所述第一下行PRB资源为所述第一下行VRB资源在所述第一映射带宽部分中对应的映射资源，所述第一下行PRB资源属于所述第一映射带宽部分。The processing unit is further configured to: map the first downlink VRB resource according to the parameter information of the first mapping bandwidth part and the mapping parameter indicated by the downlink scheduling information, determine an interlace matrix, and determine the first downlink PRB. The first downlink PRB resource is a mapping resource corresponding to the first downlink VRB resource in the first mapping bandwidth part, and the first downlink PRB resource belongs to the first mapping bandwidth part.
44. 根据权利要求41至43中任一项所述的装置，其特征在于，所述通信单元还用于，接收所述网络设备发送的所述下行调度信息，所述下行调度信息用于指示至少所述下行VRB资源的资源索引信息和映射参数信息，所述资源索引信息包括所述下行VRB资源的资源索引值，所述映射参数信息和一个映射带宽部分的配置信息联合确定属于所述映射 带宽部分的VRB到PRB的交织矩阵。The device according to any one of claims 41 to 43, wherein the communication unit is further configured to receive the downlink scheduling information sent by the network device, where the downlink scheduling information is used to indicate at least The resource index information and the mapping parameter information of the downlink VRB resource, where the resource index information includes a resource index value of the downlink VRB resource, and the mapping parameter information and the configuration information of a mapping bandwidth part jointly determine that the mapping bandwidth part belongs to The VRB to PRB interleaving matrix.
45. 根据权利要求41至44中任一项所述的装置，其特征在于，所述N个映射带宽部分中的每个映射带宽部分的参数信息至少包括以下信息：映射带宽部分的带宽长度信息、映射带宽部分的位置信息和映射带宽部分的映射模式，所述映射带宽部分的映射模式包括集中式映射和分布式映射。The apparatus according to any one of claims 41 to 44, wherein the parameter information of each of the N mapped bandwidth portions includes at least information of: bandwidth length information of the mapped bandwidth portion, mapping The location information of the bandwidth portion and the mapping mode of the mapped bandwidth portion, the mapping mode of the mapping bandwidth portion includes a centralized mapping and a distributed mapping.
46. 根据权利要求41至45中任一项所述的装置，其特征在于，所述通信单元具体用于，通过RRC信令接收所述网络设备发送的所述资源配置信息；或The device according to any one of claims 41 to 45, wherein the communication unit is specifically configured to receive, by using RRC signaling, the resource configuration information sent by the network device; or

    用于通过***广播消息或组播消息接收所述网络设备发送的M个映射带宽部分的参数信息，M≥2；The parameter information for receiving M mapping bandwidth parts sent by the network device by using a system broadcast message or a multicast message, M≥2;

    所述处理单元具体用于，根据所述M个映射带宽部分的参数信息和所述active-BP的带宽长度，确定对应的N个映射带宽部分的参数信息，其中，M、N均为正整数，且M≥N。The processing unit is configured to determine, according to the parameter information of the M mapping bandwidths and the bandwidth length of the active-BP, parameter information of the corresponding N mapping bandwidth parts, where M and N are positive integers. And M ≥ N.

Images