WO2020216005A1

WO2020216005A1 - Random access method and terminal

Info

Publication number: WO2020216005A1
Application number: PCT/CN2020/082091
Authority: WO
Inventors: 倪吉庆; 周伟; 左君
Original assignee: ***通信有限公司研究院; ***通信集团有限公司
Priority date: 2019-04-25
Filing date: 2020-03-30
Publication date: 2020-10-29
Also published as: CN111867121B; CN111867121A

Abstract

Provided are a random access method and a terminal. The method comprises: obtaining a transmission power of a physical uplink shared channel (PUSCH) during a random access process according to system information; and sending the PUSCH according to the transmission power of the PUSCH.

Description

随机接入方法及终端Random access method and terminal

相关申请的交叉引用Cross references to related applications

本申请主张在2019年4月25日在中国提交的中国专利申请号No.201910340585.4的优先权，其全部内容通过引用包含于此。This application claims the priority of Chinese Patent Application No. 201910340585.4 filed in China on April 25, 2019, the entire content of which is incorporated herein by reference.

技术领域Technical field

本公开涉及通信技术领域，特别是指一种随机接入方法及终端。The present disclosure relates to the field of communication technology, in particular to a random access method and terminal.

背景技术Background technique

相关技术中，如图1所示，终端发起基于竞争的随机接入(Contention-based Random Access，CBRA)的4-step随机接入信道(Random Access Channel，RACH)流程大致如下：In the related technology, as shown in Figure 1, the 4-step random access channel (Random Access Channel, RACH) process of the terminal initiating Contention-based Random Access (CBRA) is roughly as follows:

1)终端在物理随机接入信道(Physical Random Access Channel，PRACH)的资源上发送包含Preamble(前导序列、前导码或者导频)的上行信号，称为Msg1；1) The terminal sends an uplink signal containing a preamble (preamble sequence, preamble or pilot) on the physical random access channel (Physical Random Access Channel, PRACH) resource, which is called Msg1;

2)终端接收基站侧发送的随机接入响应(Random Access Response，RAR)，称为Msg2；2) The terminal receives the random access response (Random Access Response, RAR) sent by the base station side, which is called Msg2;

3)终端在RAR指示的上行时频资源上发送上行数据，称为Msg3；3) The terminal sends uplink data on the uplink time-frequency resource indicated by the RAR, which is called Msg3;

4)终端接收基站侧发送的下行数据，该下行数据包含竞争解决相关信息，称为Msg4。4) The terminal receives the downlink data sent by the base station side. The downlink data contains contention resolution related information, which is called Msg4.

为了降低随机接入时延，如图2所示，随机接入流程可以为2-step RACH，即将原4-step RACH中的Msg1和Msg3集中在一步发送，称为MsgA；Msg2和Msg4则进一步合并为MsgB，具体消息内容可能会有变化。In order to reduce the random access delay, as shown in Figure 2, the random access process can be 2-step RACH, that is, Msg1 and Msg3 in the original 4-step RACH are sent together in one step, called MsgA; Msg2 and Msg4 are further Merged into MsgB, the specific message content may change.

原4-step RACH流程，终端在发送Msg3时，需要进行闭环功率控制，以提升Msg3传输的可靠性。其方法是Msg2(RAR)中包括媒体访问控制-控制单元(Medium Access Control-Control Element，MAC-CE)信息指示，MAC-CE中的上行调度(Uplink grant，UL-grant)域共占用27比特，见表1。In the original 4-step RACH process, when the terminal sends Msg3, it needs to perform closed-loop power control to improve the reliability of Msg3 transmission. The method is that Msg2 (RAR) includes Medium Access Control-Control Element (MAC-CE) information indication, and the Uplink Grant (UL-grant) field in MAC-CE occupies 27 bits in total , See Table 1.

表1Table 1

其中TPC command占用的3个比特用于调整Msg3的发送功率。具体的TPC command与功率偏移值的对应，见表2。The 3 bits occupied by the TPC command are used to adjust the transmission power of Msg3. The specific TPC command and the corresponding power offset value are shown in Table 2.

表2Table 2

TPC CommandTPC Command	Value(in dB)Value(in dB)
00	-6-6
11	-4-4
22	-2-2
33	00
44	22
55	44
66	66
77	88

在2-step RACH流程中，终端在第一步MsgA中就将发送PUSCH，因此，不能采用相关技术中的闭环功率控制方法。In the 2-step RACH process, the terminal will transmit the PUSCH in the first step MsgA, therefore, the closed-loop power control method in the related technology cannot be adopted.

发明内容Summary of the invention

本公开提供了一种随机接入方法及终端，从而更好的保证两步随机接入流程中MsgA的传输性能。The present disclosure provides a random access method and terminal, so as to better ensure the transmission performance of MsgA in a two-step random access process.

为解决上述技术问题，本公开的实施例提供如下方案：To solve the above technical problems, the embodiments of the present disclosure provide the following solutions:

一种两步随机接入方法，应用于终端，所述方法包括：A two-step random access method applied to a terminal, the method includes:

根据***信息，获得随机接入流程中物理上行共享信道(Physical Uplink Shared Channel，PUSCH)的传输功率；According to the system information, obtain the transmission power of the Physical Uplink Shared Channel (PUSCH) in the random access process;

根据所述PUSCH的传输功率，发送所述PUSCH。The PUSCH is transmitted according to the transmission power of the PUSCH.

其中，根据***信息，获得随机接入流程中物理上行共享信道PUSCH的传输功率，包括：Among them, obtaining the transmission power of the physical uplink shared channel PUSCH in the random access procedure according to the system information includes:

根据所述***信息中的PUSCH带宽、导频接收目标功率以及配置的功率偏移值中的至少一项，获得所述PUSCH的传输功率；或者，Obtain the transmission power of the PUSCH according to at least one of the PUSCH bandwidth, the pilot reception target power, and the configured power offset value in the system information; or,

根据所述***信息获取导频的传输功率，根据所述导频传输功率，获得所述PUSCH的传输功率。Obtain the transmission power of the pilot according to the system information, and obtain the transmission power of the PUSCH according to the pilot transmission power.

其中，根据所述***信息中的PUSCH带宽、导频接收目标功率以及配置的功率偏移值中的至少一项，获得所述PUSCH的传输功率，包括：Wherein, obtaining the transmission power of the PUSCH according to at least one of the PUSCH bandwidth, the pilot reception target power, and the configured power offset value in the system information includes:

通过公式

获得所述PUSCH的传输功率； By formula

Obtaining the transmission power of the PUSCH;

其中，所述P _CMAX为配置的最大传输功率或配置的传输功率； Wherein, the P _CMAX is the configured maximum transmission power or the configured transmission power;

P _{O_PRE}为导频接收目标功率； _{PO_PRE} is the pilot receiving target power;

Δ _delta为配置的功率偏移值； Δ _delta is the configured power offset value;

u为子载波间隔配置参数；u is the subcarrier spacing configuration parameter;

为PUSCH带宽，用资源块(resource block，RB)个数表示；

Is the PUSCH bandwidth, expressed by the number of resource blocks (resource block, RB);

α为配置参数；α is the configuration parameter;

PL为路径损耗；PL is the path loss;

Δ _TF＝0或者10log ₁₀(2 ^BPRE-1)或者根据MCS确定的值； Δ _TF = 0 or 10log ₁₀ (2 ^BPRE -1) or a value determined according to MCS;

其中，所述

Among them, the

C为码块个数，K _r为码块K的尺寸，N _RE为所述PUSCH去除解调参考信号(Demodulation Reference Signal，DMRS)所占资源单元(resource element，RE)的剩余RE个数； C is the number of code blocks, K _r is the size of code block K, and N _RE is the number of remaining REs in resource elements (RE) occupied by the PUSCH to remove demodulation reference signals (DMRS);

Δ _n为功率调整值。 Δ _n is the power adjustment value.

其中，所述Δ _delta与Δ _{delta_msg3}通过相同参数配置的或通过不同参数配置，所述Δ _delta为PUSCH相对导频的功率偏移值，所述Δ _{delta_msg3}为四步随机接入流程中Msg3相对导频的功率偏移值。 Wherein, the Δ _delta and Δ _{delta_msg3} are configured through the same parameter or configured through different parameters, the Δ _delta is the power offset value of the PUSCH relative to the pilot, and the Δ _{delta_msg3} is the Msg3 relative pilot in the four-step random access procedure. Frequency power offset value.

其中，所述Δ _n的确定过程，包括： Wherein, the determination process of Δ _n includes:

如果所述随机接入流程中MsgA为第一次传输，或者，此次MsgA发送以前一预设时间段内的至少一次MsgA成功发送，则Δ _n为零； If the random access procedure is MsgA first transmission or a preset period of time before transmitting the at least one MsgA MsgA successfully transmitted, Δ _n is zero;

或者，Δ _n为从第一次PUSCH传输到本次或上一次PUSCH传输，确定的总功率上升值；所述MsgA包括导频和PUSCH。 Alternatively, Δ _n is the first PUSCH transmission from or to this PUSCH transmission time, determining a rise over the total power; MsgA comprising the pilot and PUSCH.

其中，Δ _n为从第一次PUSCH传输到本次或上一次PUSCH传输，确定的总功率上升值，包括： Among them, Δ _n is the determined total power increase value from the first PUSCH transmission to this or last PUSCH transmission, including:

Δ _n＝ΔP _{rampup_pusch}； Δ _n =ΔP _{rampup_pusch} ;

ΔP _{rampup_pusch}通过公式：ΔP _{rampup_pusch}＝{max{0,P _CMAX-P},ΔP _{rampup_pusch_n}}确定； ΔP _{rampup_pusch is} determined by the formula: ΔP _{rampup_pusch} ={max{0,P _CMAX -P},ΔP _{rampup_pusch_n} };

其中，P _CMAX为配置的最大传输功率或配置的传输功率； Among them, P _CMAX is the configured maximum transmission power or configured transmission power;

为PUSCH带宽，用资源块RB个数表示；

Is the PUSCH bandwidth, expressed by the number of resource blocks RB;

α为配置参数；α is the configuration parameter;

PL为路径损耗；PL is the path loss;

其中，所述

C为码块个数，K _r为码块K的尺寸，N _RE为所述PUSCH去除DMRS所占资源单元RE的剩余RE个数； Among them, the

C is the number of code blocks, K _r is the size of code block K, and N _RE is the number of remaining REs of the resource unit RE occupied by the DMRS excluding the PUSCH;

ΔP _{rampup_pusch_n}可以通过公式：ΔP _{rampup_pusch_n}＝(n-1)×s _PUSCH确定； ΔP _{rampup_pusch_n} can be determined by the formula: ΔP _{rampup_pusch_n} = (n-1)×s _PUSCH ;

其中，s _PUSCH为配置的PUSCH功率调整步进值，所述PUSCH功率调整步进值与导频功率调整步进值是独立配置的相同的或不同的值；(n-1)为PUSCH功率调整的次数，n为大于或等于1的整数。 Where, s _PUSCH is the configured PUSCH power adjustment step value, and the PUSCH power adjustment step value and the pilot power adjustment step value are independently configured the same or different values; (n-1) is the PUSCH power adjustment The number of times, n is an integer greater than or equal to 1.

其中，根据所述***信息获取导频的传输功率，根据所述导频的传输功率，获得所述PUSCH的传输功率，包括：Wherein, obtaining the transmission power of the pilot according to the system information, and obtaining the transmission power of the PUSCH according to the transmission power of the pilot includes:

通过

获得所述PUSCH的传输功率； by

Obtaining the transmission power of the PUSCH;

其中，所述P _CMAX为配置的最大传输功率或配置的传输功率 Wherein, the P _CMAX is the configured maximum transmission power or the configured transmission power

P _PRE为导频的传输功率； P _PRE is the transmission power of the pilot;

为PUSCH的带宽，用资源块RB个数表示；

Is the bandwidth of PUSCH, expressed by the number of resource blocks RB;

所述

其中，C为码块个数，K _r为码块K的尺寸，N _RE为所述PUSCH去除DMRS所占资源单元RE的剩余RE个数； Said

Wherein, C is the number of code blocks, K _r is the size of code block K, and N _RE is the number of remaining REs of the resource unit RE occupied by the PUSCH excluding the DMRS;

Δ _n为功率调整值。 Δ _n is the power adjustment value.

其中，Δ _n的确定过程，包括： Among them, the determination process of Δ _n includes:

如果所述随机接入流程中MsgA为第一次传输，或者此次MsgA发送以前一预设时间段内的至少一次MsgA成功发送，则Δ _n为零，或者，为配置的参数Δ ₀，或者，与上一次MsgA传输中的Δ _n-1值相同； If MsgA is the first transmission in the random access procedure, or if at least one MsgA is successfully transmitted within a preset time period before this MsgA transmission, then Δ _n is zero, or is the configured parameter Δ ₀ , or , The same as the value of Δ _n-1 in the last MsgA transmission;

Δ _n＝ΔP _{rampup_pusch}， Δ _n =ΔP _{rampup_pusch} ,

其中，P _PRE为导频的传输功率；Δ _Delta为配置的偏移值；u为子载波间隔配置参数；

为PUSCH的带宽，用资源块RB个数表示；

Among them, P _PRE is the transmission power of the pilot; Δ _Delta is the configured offset value; u is the subcarrier spacing configuration parameter;

Is the bandwidth of PUSCH, expressed by the number of resource blocks RB;

Δ _TF＝0或者10log ₁₀(2 ^BPRE-1)或者MCS确定的值；其中，所述

其中，C为码块个数，K _r为码块K的尺寸，NRE为所述PUSCH去除DMRS所占资源单元RE的剩余RE个数； Δ _TF =0 or 10log ₁₀ (2 ^BPRE -1) or the value determined by MCS; wherein, the

Where, C is the number of code blocks, K _r is the size of code block K, and NRE is the number of remaining REs of the resource unit RE occupied by the PUSCH excluding the DMRS;

ΔP _{rampup_pusch_n}可以通过公式：ΔP _{rampup_pusch_n}＝(n-1)×s _Δ确定； ΔP _{rampup_pusch_n} can be determined by the formula: ΔP _{rampup_pusch_n} = (n-1)×s _Δ ;

其中，n-1为PUSCH功率调整的次数，n为大于或等于1的整数；Where n-1 is the number of PUSCH power adjustments, and n is an integer greater than or equal to 1;

s _Δ为PUSCH功率调整步进值和导频功率调整步进值的差值，PUSCH功率调整步进值和导频功率调整步进值是分别配置的相同或者不同的值。 s _Δ is the difference between the PUSCH power adjustment step value and the pilot power adjustment step value, and the PUSCH power adjustment step value and the pilot power adjustment step value are respectively configured the same or different values.

本公开的实施例还提供一种终端，包括：The embodiment of the present disclosure also provides a terminal, including:

收发机，用于接收***信息；Transceiver, used to receive system information;

处理器，用于根据所述***信息，获得随机接入流程中物理上行共享信道PUSCH的传输功率；A processor, configured to obtain the transmission power of the physical uplink shared channel PUSCH in the random access procedure according to the system information;

所述收发机还用于根据所述PUSCH的传输功率，发送所述PUSCH。The transceiver is further configured to transmit the PUSCH according to the transmission power of the PUSCH.

其中，所述处理器具体用于：根据所述***信息中的PUSCH带宽、导频接收目标功率以及配置的功率偏移值中的至少一项，获得所述PUSCH的传输功率；或者，根据所述***信息获取导频的传输功率，根据所述导频的传输功率，获得所述PUSCH的传输功率。Wherein, the processor is specifically configured to: obtain the transmission power of the PUSCH according to at least one of the PUSCH bandwidth, the pilot reception target power, and the configured power offset value in the system information; or The system information obtains the transmission power of the pilot, and obtains the transmission power of the PUSCH according to the transmission power of the pilot.

通过公式

获得所述PUSCH的传输功率； By formula

Obtaining the transmission power of the PUSCH;

为PUSCH带宽，用资源块RB个数表示；

Is the PUSCH bandwidth, expressed by the number of resource blocks RB;

α为配置参数；α is the configuration parameter;

PL为路径损耗；PL is the path loss;

其中，所述

Among them, the

C为码块个数，K _r为码块K的尺寸，N _RE为所述PUSCH去除DMRS所占资源单元RE的剩余RE个数； C is the number of code blocks, K _r is the size of code block K, and N _RE is the number of remaining REs of the resource unit RE occupied by the DMRS excluding the PUSCH;

Δ _n为功率调整值。 Δ _n is the power adjustment value.

通过公式：

获得所述PUSCH的传输功率； By formula:

Obtaining the transmission power of the PUSCH;

为PUSCH的带宽，用资源块RB个数表示；

Is the bandwidth of PUSCH, expressed by the number of resource blocks RB;

所述

其中，C为码块个数，K _r为码块K的尺寸，N ^RE为所述PUSCH去除DMRS所占资源单元RE的剩余RE个数； Said

Wherein, C is the number of code blocks, K _r is the size of code block K, and N ^RE is the number of remaining REs of the resource unit RE occupied by the PUSCH excluding the DMRS;

Δ _n为功率调整值。 Δ _n is the power adjustment value.

本公开的实施例还提供一种随机接入装置，包括：The embodiment of the present disclosure also provides a random access device, including:

收发模块，用于接收***信息；Transceiver module, used to receive system information;

处理模块，用于根据所述***信息，获得随机接入流程中物理上行共享信道PUSCH的传输功率；A processing module, configured to obtain the transmission power of the physical uplink shared channel PUSCH in the random access procedure according to the system information;

所述收发模块还用于根据所述PUSCH的传输功率，发送所述PUSCH。The transceiver module is further configured to send the PUSCH according to the transmission power of the PUSCH.

其中，所述处理模块具体用于：根据所述***信息中的PUSCH带宽、导频接收目标功率以及配置的功率偏移值中的至少一项，获得所述PUSCH的传输功率；或者，根据所述***信息获取导频的传输功率，根据所述导频的传输功率，获得所述PUSCH的传输功率。Wherein, the processing module is specifically configured to: obtain the transmission power of the PUSCH according to at least one of the PUSCH bandwidth, the pilot received target power, and the configured power offset value in the system information; or The system information obtains the transmission power of the pilot, and obtains the transmission power of the PUSCH according to the transmission power of the pilot.

通过公式

获得所述PUSCH的传输功率； By formula

Obtaining the transmission power of the PUSCH;

为PUSCH带宽，用资源块RB个数表示；

Is the PUSCH bandwidth, expressed by the number of resource blocks RB;

α为配置参数；α is the configuration parameter;

PL为路径损耗；PL is the path loss;

其中，所述

Among them, the

Δ _n为功率调整值。 Δ _n is the power adjustment value.

通过公式：

获得所述PUSCH的传输功率； By formula:

Obtaining the transmission power of the PUSCH;

为PUSCH的带宽，用RB个数表示；

Is the bandwidth of PUSCH, expressed by the number of RBs;

所述

其中，C为码块个数，K _r为码块K的尺寸，N _RE为所述PUSCH去除DMRS所占RE的剩余RE个数； Said

Wherein, C is the number of code blocks, K _r is the size of code block K, and N _RE is the number of remaining REs of the PUSCH excluding DMRS;

Δ _n为功率调整值。 Δ _n is the power adjustment value.

本公开的实施例还提供一种终端，包括：处理器、存储有计算机程序的存储器，所述计算机程序被处理器运行时，执行如上所述的方法。An embodiment of the present disclosure also provides a terminal, including a processor and a memory storing a computer program, and when the computer program is run by the processor, the method described above is executed.

本公开的实施例还提供一种计算机可读存储介质，包括指令，当所述指令在计算机运行时，使得计算机执行如上所述的方法。Embodiments of the present disclosure also provide a computer-readable storage medium, including instructions, which when run on a computer, cause the computer to execute the method described above.

本公开的上述方案至少包括以下有益效果：The above solutions of the present disclosure include at least the following beneficial effects:

本公开的上述方案，通过根据***信息，获得随机接入流程中物理上行共享信道PUSCH的传输功率；根据所述PUSCH的传输功率，发送所述PUSCH。这样不需要基站侧的闭环指示，可以开环的基于***信息确定PUSCH的功率，适用于2-step RACH MsgA中PUSCH的传输。可以对MsgA中PUSCH的传输进行功率控制，从而更好的保证随机接入流程中MsgA的传输性能。In the above-mentioned solution of the present disclosure, the transmission power of the physical uplink shared channel PUSCH in the random access procedure is obtained according to the system information; and the PUSCH is transmitted according to the transmission power of the PUSCH. In this way, no closed-loop indication on the base station side is required, and the PUSCH power can be determined based on system information in an open-loop, which is suitable for the transmission of PUSCH in 2-step RACH MsgA. Power control can be performed on the transmission of PUSCH in MsgA, so as to better ensure the transmission performance of MsgA in the random access procedure.

通过针对2-step RACH独立配置PUSCH相对导频的功率偏移值，可以保证***配置的灵活性，避免MsgA中PUSCH的功率的配置被相关技术中的4-step RACH流程限制。例如，考虑到开环功率的特性，针对2-step RACH配置的值可以相对针对2-step RACH配置的值更大一些，这样保证了开环功率控制下的传输可靠性。By independently configuring the power offset value of the PUSCH relative to the pilot for the 2-step RACH, the flexibility of the system configuration can be guaranteed, and the configuration of the PUSCH power in the MsgA can be prevented from being restricted by the 4-step RACH process in the related technology. For example, considering the characteristics of open-loop power, the value configured for 2-step RACH may be larger than the value configured for 2-step RACH, which ensures transmission reliability under open-loop power control.

此外，本方案中的PUSCH功率调整步进值和导频功率调整步进值是独立配置的，这样保证可以根据PUSCH信道特性独立的调整发送功率，可以避免和导频的功率调整绑定，可以更好的提升PUSCH的传输性能，从而更好的保证随机接入流程中MsgA的传输性能。In addition, the PUSCH power adjustment step value and pilot power adjustment step value in this solution are independently configured, which ensures that the transmission power can be adjusted independently according to the PUSCH channel characteristics, which can avoid binding with the power adjustment of the pilot. Better improve the transmission performance of PUSCH, so as to better guarantee the transmission performance of MsgA in the random access process.

另一方面，本公开的中根据导频的传输功率获得PUSCH的传输功率的技术方案，可以避免了计算PUSCH功率时某些参数的重复计算，相对降低了计算复杂度。On the other hand, the technical solution of obtaining the transmission power of the PUSCH according to the transmission power of the pilot in the present disclosure can avoid the repeated calculation of certain parameters when calculating the PUSCH power, and relatively reduce the calculation complexity.

附图说明Description of the drawings

图1为四步随机接入流程的示意图；Figure 1 is a schematic diagram of a four-step random access process;

图2为两步随机接入流程的示意图；Figure 2 is a schematic diagram of a two-step random access process;

图3为本公开的随机接入方法的流程示意图；FIG. 3 is a schematic flowchart of the random access method of the present disclosure;

图4为本公开的终端架构示意图。Figure 4 is a schematic diagram of the terminal architecture of the present disclosure.

具体实施方式Detailed ways

下面将参照附图更详细地描述本公开的示例性实施例。虽然附图中显示了本公开的示例性实施例，然而应当理解，可以以各种形式实现本公开而不应被这里阐述的实施例所限制。相反，提供这些实施例是为了能够更透彻地理解本公开，并且能够将本公开的范围完整的传达给本领域的技术人员。Hereinafter, exemplary embodiments of the present disclosure will be described in more detail with reference to the accompanying drawings. Although the drawings show exemplary embodiments of the present disclosure, it should be understood that the present disclosure can be implemented in various forms and should not be limited by the embodiments set forth herein. On the contrary, these embodiments are provided to enable a more thorough understanding of the present disclosure and to fully convey the scope of the present disclosure to those skilled in the art.

如图3所示，本公开的实施例提供一种随机接入方法，应用于终端，包括：As shown in FIG. 3, an embodiment of the present disclosure provides a random access method applied to a terminal, including:

步骤31，根据***信息，获得随机接入流程中物理上行共享信道PUSCH的传输功率，所述***信息是在进行随机接入流程前接收到的；Step 31: Obtain the transmission power of the physical uplink shared channel PUSCH in the random access procedure according to the system information, the system information is received before the random access procedure is performed;

步骤32，根据所述PUSCH的传输功率，发送所述PUSCH。Step 32: Send the PUSCH according to the transmission power of the PUSCH.

本公开的一具体实施例中，上述步骤31具体可以包括：In a specific embodiment of the present disclosure, the foregoing step 31 may specifically include:

步骤311，根据所述***信息中的PUSCH带宽、导频接收目标功率以及配置的功率偏移值中的至少一项，获得所述PUSCH的传输功率；或者Step 311: Obtain the transmission power of the PUSCH according to at least one of the PUSCH bandwidth, the pilot reception target power, and the configured power offset value in the system information; or

步骤312，根据所述***信息获取导频的传输功率，根据所述导频的传输功率，获得所述PUSCH的传输功率。这里，***信息中指示导频接收目标功率，而导频的传输功率可以与导频接收目标功率相同，或者导频的传输功率可以根据导频接收目标功率通过预设算法运算得到。Step 312: Obtain the transmission power of the pilot according to the system information, and obtain the transmission power of the PUSCH according to the transmission power of the pilot. Here, the system information indicates the pilot reception target power, and the pilot transmission power may be the same as the pilot reception target power, or the pilot transmission power may be calculated through a preset algorithm based on the pilot reception target power.

其中，步骤311具体可以包括：Wherein, step 311 may specifically include:

通过公式

获得所述PUSCH的传输功率； By formula

Obtaining the transmission power of the PUSCH;

为PUSCH带宽，用RB(资源块)个数表示；

Is PUSCH bandwidth, expressed by the number of RBs (resource blocks)

α为配置参数；α is the configuration parameter;

PL为路径损耗；PL is the path loss;

其中，所述

Among them, the

C为码块个数，K _r为码块K的尺寸，N _RE为所述PUSCH去除DMRS所占RE(资源单元)的剩余RE个数； C is the number of code blocks, K _r is the size of code block K, and N _RE is the number of remaining REs (resource units) occupied by the PUSCH excluding the DMRS;

Δ _n为功率调整值。 Δ _n is the power adjustment value.

这里，RB定义为频域的12个连续的子载波；RE定义为一个符号上的一个子载波。Here, RB is defined as 12 consecutive subcarriers in the frequency domain; RE is defined as one subcarrier on one symbol.

其中，确定Δ _n时，具体可以包括： Among them, when determining Δ _n , it may specifically include:

1)如果所述随机接入流程中MsgA为第一次传输，或者，此次MsgA发送以前一预设时间段内的至少一次MsgA成功发送，则Δ _n为零； 1) If the random access procedure is MsgA first transmission or a preset period of time before transmitting the at least one MsgA MsgA successfully transmitted, Δ _n is zero;

Δ _n＝ΔP _{rampup_pusch}； Δ _n =ΔP _{rampup_pusch} ;

为PUSCH带宽，用RB个数表示；

Is the PUSCH bandwidth, expressed by the number of RBs;

α为配置参数；α is the configuration parameter;

PL为路径损耗；PL is the path loss;

Δ _TF＝0或者10log ₁₀(2 ^BPRE-1)或者根据MCS确定的值； Δ _TF =0 or 10log ₁₀ (2 ^BPRE -1) or a value determined according to MCS;

其中，所述

C为码块个数，K _r为码块K的尺寸，N _RE为所述PUSCH去除DMRS所占RE的剩余RE个数； Among them, the

C is the number of code blocks, K _r is the size of code block K, and N _RE is the number of remaining REs from the PUSCH excluding DMRS;

其中，步骤312具体可以包括：Wherein, step 312 may specifically include:

通过公式

获得所述PUSCH的传输功率； By formula

Obtaining the transmission power of the PUSCH;

为PUSCH的带宽，用RB个数表示；

Is the bandwidth of PUSCH, expressed by the number of RBs;

所述

Δ _n为功率调整值。 Δ _n is the power adjustment value.

如果所述随机接入流程中MsgA为第一次传输，或者此次MsgA发送以前一预设时间段内的至少一次MsgA成功发送，则Δ _n为零，或者，为配置的参数Δ ₀，或者，与上一次MsgA传输中的Δ _n-1值相同； If MsgA is the first transmission in the random access procedure, or if at least one MsgA is successfully transmitted within a preset time period before this MsgA transmission, then Δ _n is zero, or is the configured parameter Δ ₀ , or , Which is the same as the value of Δ _n-1 in the last MsgA transmission;

Δ _n＝ΔP _{rampup_pusch}， Δ _n =ΔP _{rampup_pusch} ,

其中，P _PRE为导频的传输功率；Δ _Delta为配置的功率偏移值；u为子载波间隔配置参数；

为PUSCH的带宽，用RB个数表示；Δ _TF＝0或者10log ₁₀(2 ^BPRE-1)或者MCS确定的值；其中，所述

其中，C为码块个数，K _r为码块K的尺寸，N _RE为所述PUSCH去除DMRS所占RE的剩余RE个数；

Among them, P _PRE is the transmission power of the pilot; Δ _Delta is the configured power offset value; u is the subcarrier spacing configuration parameter;

Is the bandwidth of PUSCH, expressed by the number of RBs; Δ _TF = 0 or 10log ₁₀ (2 ^BPRE -1) or a value determined by MCS; wherein, the

本公开的一具体实施例中，在上述步骤32中，发送所述PUSCH时，还可以包括：发送所述随机接入流程中的导频；所述导频的传输功率根据***信息确定，导频的传输功率可以与***信息中指示的导频接收目标功率相同，或者导频的传输功率可以根据导频接收目标功率通过预设算法运算得到。In a specific embodiment of the present disclosure, in the foregoing step 32, when sending the PUSCH, it may further include: sending a pilot in the random access procedure; the transmission power of the pilot is determined according to system information, and the pilot The transmission power of the pilot frequency may be the same as the pilot reception target power indicated in the system information, or the pilot transmission power may be calculated through a preset algorithm according to the pilot reception target power.

本公开的一具体实施例中，随机接入方法还可以进一步包括：接收网络设备发送的随机接入响应消息(即MsgB)。In a specific embodiment of the present disclosure, the random access method may further include: receiving a random access response message (ie, MsgB) sent by the network device.

本公开的上述实施例，通过根据***信息，获得随机接入流程中物理上行共享信道PUSCH的传输功率；根据所述PUSCH的传输功率，发送所述PUSCH。这是一种开环功率控制方法，可以用于确定MsgA中PUSCH的传输功率。In the above-mentioned embodiment of the present disclosure, the transmission power of the physical uplink shared channel PUSCH in the random access procedure is obtained by using system information; and the PUSCH is transmitted according to the transmission power of the PUSCH. This is an open-loop power control method that can be used to determine the transmission power of PUSCH in MsgA.

本公开的上述实施例中，对导频和PUSCH可以配置不同的功率调整步进值，不需要基站侧的闭环指示，可以开环的确定PUSCH的功率，适用于2-step RACH MsgA中PUSCH的传输。所述Δ _delta为PUSCH相对导频的功率偏移值，可以与Δ _{delta_msg3}是独立配置的，保证了***配置的灵活性，避免MsgA中PUSCH的功率的配置是与Δ _{delta_msg3}绑定的。例如，考虑到开环功率的特性，Δ _delta配置的值可以相对Δ _{delta_msg3}更大一些，这样保证了开环功率控制下的传输可靠性。所述方案中的PUSCH功率调整步进值和导频功率调整步进值是独立配置的，这样保证可以根据PUSCH信道特性独立的调整发送功率，可以避免和导频的功率调整绑定，可以更好的提升PUSCH的传输性能，从而更好的保证随机接入流程中MsgA的传输性能。 In the above-mentioned embodiments of the present disclosure, different power adjustment step values can be configured for the pilot and PUSCH, no closed-loop indication on the base station side is required, and the power of the PUSCH can be determined in an open loop, which is suitable for the PUSCH in 2-step RACH MsgA. transmission. The Δ _delta is the power offset value of the PUSCH relative to the pilot, which can be independently configured with Δ _{delta_msg3} , which ensures the flexibility of system configuration and avoids that the configuration of the PUSCH power in the _{MsgA is} bound to Δ _{delta_msg3} . For example, considering the characteristics of open loop power, the value of Δ _delta configuration can be larger than Δ _{delta_msg3} , which ensures the transmission reliability under open loop power control. The PUSCH power adjustment step value and pilot power adjustment step value in the solution are independently configured, which ensures that the transmission power can be adjusted independently according to the PUSCH channel characteristics, which can avoid binding with the power adjustment of the pilot, and can be more Improve the transmission performance of PUSCH, so as to better guarantee the transmission performance of MsgA in the random access process.

另外，本公开的上述方案，根据导频的传输功率，获得所述PUSCH的传输功率。该方法的优点是，首先计算得到导频功率值，再基于导频功率值获取PUSCH功率值。具体的，导频的功率值是根据***信息得到的，所以，所述方法避免了计算PUSCH功率时某些参数的重复计算，相对降低了计算复杂度。In addition, the above-mentioned solution of the present disclosure obtains the transmission power of the PUSCH according to the transmission power of the pilot. The advantage of this method is that the pilot power value is calculated first, and then the PUSCH power value is obtained based on the pilot power value. Specifically, the power value of the pilot is obtained according to the system information. Therefore, the method avoids the repeated calculation of certain parameters when calculating the PUSCH power, and relatively reduces the calculation complexity.

如图4所示，本公开的实施例还提供一种终端40，包括：As shown in FIG. 4, an embodiment of the present disclosure further provides a terminal 40, including:

收发机41，用于接收***信息；The transceiver 41 is used to receive system information;

处理器42，用于根据所述***信息，获得随机接入流程中物理上行共享信道PUSCH的传输功率；The processor 42 is configured to obtain the transmission power of the physical uplink shared channel PUSCH in the random access procedure according to the system information;

所述收发机41还用于根据所述PUSCH的传输功率，发送所述PUSCH。The transceiver 41 is also configured to transmit the PUSCH according to the transmission power of the PUSCH.

其中，所述处理器42具体用于：根据所述***信息中的PUSCH带宽、导频接收目标功率以及配置的功率偏移值中的至少一项，获得所述PUSCH的传输功率；或者，根据所述***信息获取导频的传输功率，根据所述导频的传输功率，获得所述PUSCH的传输功率。Wherein, the processor 42 is specifically configured to: obtain the transmission power of the PUSCH according to at least one of the PUSCH bandwidth, the pilot received target power, and the configured power offset value in the system information; or, according to The system information obtains the transmission power of the pilot, and obtains the transmission power of the PUSCH according to the transmission power of the pilot.

根据

获得所述PUSCH的传输功率； according to

Obtaining the transmission power of the PUSCH;

为PUSCH带宽，用RB(资源块)个数表示；

Is the PUSCH bandwidth, expressed by the number of RBs (resource blocks);

α为配置参数；α is the configuration parameter;

PL为路径损耗；PL is the path loss;

其中，所述

Among them, the

Δ _n为功率调整值。 Δ _n is the power adjustment value.

如果所述随机接入流程中随机接入请求消息MsgA为第一次传输，或者，此次MsgA发送以前一预设时间段内的至少一次MsgA成功发送，则Δ _n为零； If the random access procedure is a random access request message MsgA first transmission or a preset period of time before transmitting the at least one MsgA MsgA successfully transmitted, Δ _n is zero;

Δ _n＝ΔP _{rampup_pusch}； Δ _n =ΔP _{rampup_pusch} ;

为PUSCH带宽，用RB个数表示；

Is the PUSCH bandwidth, expressed by the number of RBs;

α为配置参数；α is the configuration parameter;

PL为路径损耗；PL is the path loss;

其中，所述

其中，根据***信息获取导频的传输功率，根据所述导频的传输功率获得所述PUSCH的传输功率，包括：Wherein, obtaining the transmission power of the pilot according to the system information and obtaining the transmission power of the PUSCH according to the transmission power of the pilot includes:

通过公式

获得所述PUSCH的传输功率； By formula

Obtaining the transmission power of the PUSCH;

为PUSCH的带宽，用RB个数表示；

Is the bandwidth of PUSCH, expressed by the number of RBs;

所述

Δ _n为功率调整值。 Δ _n is the power adjustment value.

Δ _n＝ΔP _{rampup_pusch}， Δ _n =ΔP _{rampup_pusch} ,

其中，P _PRE为导频的传输功率； Δ _Delta为配置的功率偏移值；u为子载波间隔配置参数；

其中，C为码块个数，K _r为码块K的尺寸，NRE为所述PUSCH去除DMRS所占RE的剩余RE个数；

Wherein, C is the number of code blocks, K _r is the size of code block K, and NRE is the number of remaining REs of the PUSCH excluding DMRS;

其中，所述收发机还用于：发送所述随机接入流程中的导频；接收网络设备发送的随机接入流程中的随机接入响应消息。Wherein, the transceiver is further configured to: send the pilot in the random access procedure; and receive the random access response message in the random access procedure sent by the network device.

需要说明的是，该终端是与上述终端的方法对应的终端，上述方法实施例中所有实现方式均适用于该终端的实施例中，也能达到相同的技术效果。该终端40还可以进一步包括：存储器43，收发机41与处理器42，以及，收发机41与存储器43之间，均可以通过总线接口连接，收发机41的功能可以由处理器42实现，处理器42的功能也可以由收发机41实现。It should be noted that the terminal is a terminal corresponding to the above-mentioned method of the terminal, and all implementation manners in the above-mentioned method embodiment are applicable to the embodiment of the terminal, and the same technical effect can also be achieved. The terminal 40 may further include: a memory 43, the transceiver 41 and the processor 42, and the transceiver 41 and the memory 43 can all be connected through a bus interface. The function of the transceiver 41 can be implemented by the processor 42 to process The function of the transmitter 42 can also be implemented by the transceiver 41.

通过公式

获得所述PUSCH的传输功率； By formula

Obtaining the transmission power of the PUSCH;

为PUSCH带宽，用RB个数表示；

Is the PUSCH bandwidth, expressed by the number of RBs;

α为配置参数；α is the configuration parameter;

PL为路径损耗；PL is the path loss;

其中，所述

Among them, the

Δ _n为功率调整值。 Δ _n is the power adjustment value.

通过公式：

获得所述PUSCH的传输功率； By formula:

Obtaining the transmission power of the PUSCH;

为PUSCH的带宽，用RB个数表示；

Is the bandwidth of PUSCH, expressed by the number of RBs;

所述

Δ _n为功率调整值。 Δ _n is the power adjustment value.

需要说明的是，该装置是与上述终端的方法对应的装置，上述方法实施例中所有实现方式均适用于该终端的实施例中，也能达到相同的技术效果。It should be noted that the device is a device corresponding to the above-mentioned terminal method, and all the implementation manners in the above-mentioned method embodiment are applicable to the embodiment of the terminal, and the same technical effect can be achieved.

本公开的实施例还提供一种终端，包括：处理器、存储有计算机程序的存储器，所述计算机程序被处理器运行时，执行如上图2所示终端侧方法的上述方法实施例中所有实现方式均适用于该实施例中，也能达到相同的技术效果。The embodiment of the present disclosure also provides a terminal, including: a processor, a memory storing a computer program, and when the computer program is run by the processor, all implementations in the above method embodiment of the terminal side method shown in FIG. 2 are executed The methods are all applicable to this embodiment, and the same technical effect can be achieved.

本公开的实施例还提供一种计算机可读存储介质，包括指令，当所述指令在计算机运行时，使得计算机执行如上所述的方法。上述方法实施例中所有实现方式均适用于该实施例中，也能达到相同的技术效果。Embodiments of the present disclosure also provide a computer-readable storage medium, including instructions, which when run on a computer, cause the computer to execute the method described above. All the implementation manners in the foregoing method embodiment are applicable to this embodiment, and the same technical effect can also be achieved.

本公开的上述方案通过根据***信息，获得随机接入流程中物理上行共享信道PUSCH的传输功率，所述***信息是在进行随机接入流程前接收到的；根据所述PUSCH的传输功率，发送所述PUSCH。所述方法，不需要基站侧的闭环指示，可以开环的确定PUSCH的功率，适用于2-step RACH MsgA中PUSCH的传输。所述Δ _delta为PUSCH相对导频的功率偏移值，可以与Δ _{delta_msg3}是独立配置的，保证了***配置的灵活性，避免MsgA中PUSCH的功率的配置是与Δ _{delta_msg3}绑定的。例如，考虑到开环功率的特性，Δ _delta配置的值可以相对Δ _{delta_msg3}更大一些，这样保证了开环功率控制下的传输可靠性。所述方案中的PUSCH功率调整步进值和导频功率调整步进值是独立配置的，这样保证可以根据PUSCH信道特性独立的调整发送功率，可以避免和导频的功率调整绑定，可以更好的提升PUSCH的传输性能，从而更好的保证随机接入流程中MsgA的传输性能。 The above-mentioned solution of the present disclosure obtains the transmission power of the physical uplink shared channel PUSCH in the random access process according to the system information, the system information is received before the random access process; The PUSCH. The method does not require a closed loop indication on the base station side, can determine the power of the PUSCH in an open loop, and is suitable for PUSCH transmission in 2-step RACH MsgA. The Δ _delta is the power offset value of the PUSCH relative to the pilot, which can be independently configured with Δ _{delta_msg3} , which ensures the flexibility of system configuration and avoids that the configuration of the PUSCH power in the _{MsgA is} bound to Δ _{delta_msg3} . For example, considering the characteristics of open loop power, the value of Δ _delta configuration can be larger than Δ _{delta_msg3} , which ensures the transmission reliability under open loop power control. The PUSCH power adjustment step value and pilot power adjustment step value in the solution are independently configured, which ensures that the transmission power can be adjusted independently according to the PUSCH channel characteristics, which can avoid binding with the power adjustment of the pilot, and can be more Improve the transmission performance of PUSCH, so as to better guarantee the transmission performance of MsgA in the random access process.

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公开的范围。A person of ordinary skill in the art may be aware that the units and algorithm steps of the examples described in combination with the embodiments disclosed herein can be implemented by electronic hardware or a combination of computer software and electronic hardware. Whether these functions are executed by hardware or software depends on the specific application and design constraint conditions of the technical solution. Professionals and technicians can use different methods for each specific application to implement the described functions, but such implementation should not be considered beyond the scope of the present disclosure.

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。Those skilled in the art can clearly understand that, for the convenience and conciseness of description, the specific working processes of the systems, devices and units described above can refer to the corresponding processes in the foregoing method embodiments, which will not be repeated here.

在本公开所提供的实施例中，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 embodiments provided in the present disclosure, it should be understood that the disclosed device and method may be implemented in other ways. For example, the device embodiments described above are only illustrative. For example, the division of the units is only a logical function division, and there may be other divisions in actual implementation, for example, multiple units or components can be combined or It can be integrated into another system, or some features can be ignored or not implemented. In addition, the displayed or discussed mutual coupling or direct coupling or communication connection may be indirect coupling or communication connection through some interfaces, devices or units, and may be in electrical, mechanical or other forms.

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, they may be located in one place, or they may be distributed on multiple network units. Some or all of the units may be selected according to actual needs to achieve the objectives of the solutions of the embodiments.

另外，在本公开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, the functional units in the various embodiments of the present disclosure may be integrated into one processing unit, or each unit may exist alone physically, 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，本公开的技术方案本质上或者说对相关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)执行本公开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、ROM、RAM、磁碟或者光盘等各种可以存储程序代码的介质。If the function is implemented in the form of a software functional unit and sold or used as an independent product, it can be stored in a computer readable storage medium. Based on this understanding, the technical solution of the present disclosure essentially or the part that contributes to the related technology or the part of the technical solution can be embodied in the form of a software product. The computer software product is stored in a storage medium, including several The instructions are used to make a computer device (which may be a personal computer, a server, or a network device, etc.) execute all or part of the steps of the methods described in the various embodiments of the present disclosure. The aforementioned storage media include: U disk, mobile hard disk, ROM, RAM, magnetic disk or optical disk and other media that can store program codes.

本领域普通技术人员可以理解实现上述实施例方法中的全部或部分流程，是可以通过计算机程序来控制相关的硬件来完成，所述的程序可存储于计算机可读取存储介质中，该程序在执行时，可包括如上述各方法的实施例的流程。其中，所述的存储介质可为磁碟、光盘、只读存储器(Read-Only Memory，ROM)或随机存取存储器(Random Access Memory，RAM)等。A person of ordinary skill in the art can understand that all or part of the processes in the above-mentioned embodiment methods can be implemented by controlling the relevant hardware through a computer program. The program can be stored in a computer readable storage medium. When executed, it may include the processes of the above-mentioned method embodiments. Wherein, the storage medium may be a magnetic disk, an optical disk, a read-only memory (Read-Only Memory, ROM), or a random access memory (Random Access Memory, RAM), etc.

可以理解的是，本公开实施例描述的这些实施例可以用硬件、软件、固件、中间件、微码或其组合来实现。对于硬件实现，模块、单元、子单元可以实现在一个或多个专用集成电路(Application Specific Integrated Circuits，ASIC)、数字信号处理器(Digital Signal Processor，DSP)、数字信号处理设备(DSP Device，DSPD)、可编程逻辑设备(Programmable Logic Device，PLD)、现场可编程门阵列(Field-Programmable Gate Array，FPGA)、通用处理器、控制器、微控制器、微处理器、用于执行本公开所述功能的其它电子单元或其组合中。It can be understood that the embodiments described in the embodiments of the present disclosure may be implemented by hardware, software, firmware, middleware, microcode, or a combination thereof. For hardware implementation, modules, units, and sub-units can be implemented in one or more Application Specific Integrated Circuits (ASIC), Digital Signal Processor (DSP), Digital Signal Processing Device (DSP Device, DSPD) ), Programmable Logic Device (PLD), Field-Programmable Gate Array (FPGA), general-purpose processors, controllers, microcontrollers, microprocessors, used to implement Described functions in other electronic units or combinations thereof.

对于软件实现，可通过执行本公开实施例所述功能的模块(例如过程、函数等)来实现本公开实施例所述的技术。软件代码可存储在存储器中并通过处理器执行。存储器可以在处理器中或在处理器外部实现。For software implementation, the technology described in the embodiments of the present disclosure can be implemented by modules (for example, procedures, functions, etc.) that perform the functions described in the embodiments of the present disclosure. The software codes can be stored in the memory and executed by the processor. The memory can be implemented in the processor or external to the processor.

此外，需要指出的是，在本公开的装置和方法中，显然，各部件或各步骤是可以分解和/或重新组合的。这些分解和/或重新组合应视为本公开的等效方案。并且，执行上述系列处理的步骤可以自然地按照说明的顺序按时间顺序执行，但是并不需要一定按照时间顺序执行，某些步骤可以并行或彼此独立地执行。对本领域的普通技术人员而言，能够理解本公开的方法和装置的全部或者任何步骤或者部件，可以在任何计算装置(包括处理器、存储介质等)或者计算装置的网络中，以硬件、固件、软件或者它们的组合加以实现，这是本领域普通技术人员在阅读了本公开的说明的情况下运用他们的基本编程技能就能实现的。In addition, it should be pointed out that, in the device and method of the present disclosure, obviously, each component or each step can be decomposed and/or recombined. These decomposition and/or recombination should be regarded as equivalent solutions of the present disclosure. Moreover, the steps of performing the above series of processing can naturally be performed in a time sequence in the order of description, but do not necessarily need to be performed in a time sequence, and some steps can be performed in parallel or independently of each other. Those of ordinary skill in the art can understand that all or any of the steps or components of the methods and devices of the present disclosure can be used in any computing device (including a processor, storage medium, etc.) or a network of computing devices, using hardware and firmware , Software, or a combination of them, this can be achieved by those of ordinary skill in the art using their basic programming skills after reading the description of the present disclosure.

因此，本公开的目的还可以通过在任何计算装置上运行一个程序或者一组程序来实现。所述计算装置可以是公知的通用装置。因此，本公开的目的也可以仅仅通过提供包含实现所述方法或者装置的程序代码的程序产品来实现。也就是说，这样的程序产品也构成本公开，并且存储有这样的程序产品的存储介质也构成本公开。显然，所述存储介质可以是任何公知的存储介质或者将来所开发出来的任何存储介质。还需要指出的是，在本公开的装置和方法中，显然，各部件或各步骤是可以分解和/或重新组合的。这些分解和/或重新组合应视为本公开的等效方案。并且，执行上述系列处理的步骤可以自然地按照说明的顺序按时间顺序执行，但是并不需要一定按照时间顺序执行。某些步骤可以并行或彼此独立地执行。Therefore, the purpose of the present disclosure can also be realized by running a program or a group of programs on any computing device. The computing device may be a well-known general-purpose device. Therefore, the purpose of the present disclosure can also be achieved only by providing a program product containing program code for implementing the method or device. That is, such a program product also constitutes the present disclosure, and a storage medium storing such a program product also constitutes the present disclosure. Obviously, the storage medium may be any well-known storage medium or any storage medium developed in the future. It should also be pointed out that, in the device and method of the present disclosure, obviously, each component or each step can be decomposed and/or recombined. These decomposition and/or recombination should be regarded as equivalent solutions of the present disclosure. In addition, the steps of performing the above-mentioned series of processing can naturally be performed in chronological order in the order of description, but they are not necessarily performed in chronological order. Some steps can be performed in parallel or independently of each other.

以上所述是本公开的可选实施方式，应当指出，对于本技术领域的普通技术人员来说，在不脱离本公开所述原理的前提下，还可以作出若干改进和润饰，这些改进和润饰也应视为本公开的保护范围。The above are optional implementations of the present disclosure. It should be pointed out that for those of ordinary skill in the art, without departing from the principle of the present disclosure, several improvements and modifications can be made. These improvements and modifications It should also be regarded as the protection scope of the present disclosure.

Claims

一种两步随机接入方法，应用于终端，包括：A two-step random access method, applied to a terminal, including:

根据***信息，获得随机接入流程中物理上行共享信道PUSCH的传输功率；According to the system information, obtain the transmission power of the physical uplink shared channel PUSCH in the random access process;

根据所述PUSCH的传输功率，发送所述PUSCH。The PUSCH is transmitted according to the transmission power of the PUSCH.
根据权利要求1所述的两步随机接入方法，其中，根据***信息，获得随机接入流程中物理上行共享信道PUSCH的传输功率，包括：The two-step random access method according to claim 1, wherein, according to system information, obtaining the transmission power of the physical uplink shared channel PUSCH in the random access procedure comprises:

根据所述***信息中的PUSCH带宽、导频接收目标功率以及配置的功率偏移值中的至少一项，获得所述PUSCH的传输功率；或者，Obtain the transmission power of the PUSCH according to at least one of the PUSCH bandwidth, the pilot reception target power, and the configured power offset value in the system information; or,

根据所述***信息获取导频的传输功率，根据所述导频传输功率获得所述PUSCH的传输功率。The transmission power of the pilot is obtained according to the system information, and the transmission power of the PUSCH is obtained according to the transmission power of the pilot.
根据权利要求2所述的两步随机接入方法，其中，根据所述***信息中的PUSCH带宽、导频接收目标功率以及配置的功率偏移值中的至少一项，获得所述PUSCH的传输功率，包括：The two-step random access method according to claim 2, wherein the transmission of the PUSCH is obtained according to at least one of the PUSCH bandwidth, the pilot reception target power, and the configured power offset value in the system information Power, including:

通过公式
获得所述PUSCH的传输功率； By formula
Obtaining the transmission power of the PUSCH;

其中，所述P _CMAX为配置的最大传输功率或配置的传输功率； Wherein, the P _CMAX is the configured maximum transmission power or the configured transmission power;

P _{O_PRE}为导频接收目标功率； _{PO_PRE} is the pilot receiving target power;

Δ _delta为配置的功率偏移值； Δ _delta is the configured power offset value;

u为子载波间隔配置参数；u is the subcarrier spacing configuration parameter;

为PUSCH带宽，用资源块RB个数表示；
Is the PUSCH bandwidth, expressed by the number of resource blocks RB;

α为配置参数；α is the configuration parameter;

PL为路径损耗；PL is the path loss;

Δ _TF＝0或者10log ₁₀(2 ^BPRE-1)或者根据调制编码方案MCS确定的值； ^ΔTF ₌₀ or 10log ₁₀ (2 ^BPRE -1) or a value determined according to the modulation and coding scheme MCS;

其中，所述
Among them, the

C为码块个数，K _r为码块K的尺寸，N _RE为所述PUSCH去除解调参考信号DMRS所占资源单元RE的剩余RE个数； C is the number of code blocks, K _r is the size of code block K, and N _RE is the number of remaining REs in the resource unit RE occupied by the PUSCH excluding the demodulation reference signal DMRS;

Δ _n为功率调整值。 Δ _n is the power adjustment value.
根据权利要求3所述的两步随机接入方法，其中，所述Δ _delta与Δ _{delta_msg3}通过相同参数配置的或通过不同参数配置，所述Δ _delta为PUSCH相对导频的功率偏移值，Δ _{delta_msg3}为四步随机接入流程中Msg3相对导频的功率偏移值。 The two-step random access method according to claim 3, wherein the Δ _delta and Δ _{delta_msg3} are configured by the same parameter or configured by different parameters, and the Δ _delta is the power offset value of the PUSCH relative to the pilot, and Δ _{delta_msg3} is the power offset value of Msg3 relative to the pilot frequency in the four-step random access procedure.
根据权利要求3所述的两步随机接入方法，其中，所述Δ _n的确定过程，包括： The two-step random access method according to claim 3, wherein the Δ _n of the determination process, comprising:

如果所述随机接入流程中MsgA为第一次传输，或者，本次MsgA发送以前一预设时间段内的至少一次MsgA成功发送，则Δ _n为零； If the random access procedure is the first transmission MsgA, or a predetermined period of time before this MsgA transmitted at least once MsgA successfully transmitted, Δ _n is zero;

或者，Δ _n为从第一次PUSCH传输到本次或上一次PUSCH传输，确定的总功率上升值； Or, Δ _n is the determined total power increase value from the first PUSCH transmission to the current or last PUSCH transmission;

所述MsgA包括导频和PUSCH。The MsgA includes pilot and PUSCH.
根据权利要求5所述的两步随机接入方法，其中，所述Δ _n为从第一次PUSCH传输到本次或上一次PUSCH传输，确定的总功率上升值，进一步包括： The two-step random access method according to claim 5, wherein the Δ _n for the first PUSCH transmission from or to this PUSCH transmission time, determining a rise over the total power, further comprising:

Δ _n＝ΔP _{rampup_pusch}； Δ _n =ΔP _{rampup_pusch} ;

ΔP _{rampup_pusch}通过公式：ΔP _{rampup_pusch}＝{max{0,P _CMAX-P},ΔP _{rampup_pusch_n}}确定； ΔP _{rampup_pusch is} determined by the formula: ΔP _{rampup_pusch} ={max{0,P _CMAX -P},ΔP _{rampup_pusch_n} };

其中，P _CMAX为配置的最大传输功率或配置的传输功率； Among them, P _CMAX is the configured maximum transmission power or configured transmission power;

P _{O_PRE}为导频接收目标功率； _{PO_PRE} is the pilot receiving target power;

Δ _delta为配置的功率偏移值； Δ _delta is the configured power offset value;

u为子载波间隔配置参数；u is the subcarrier spacing configuration parameter;

为PUSCH带宽，用资源块RB个数表示；
Is the PUSCH bandwidth, expressed by the number of resource blocks RB;

α为配置参数；α is the configuration parameter;

PL为路径损耗；PL is the path loss;

Δ _TF＝0或者10log ₁₀(2 ^BPRE-1)或者根据MCS确定的值； Δ _TF=0 or 10log ₁₀ (2 ^BPRE -1) or a value determined according to MCS;

其中，所述
C为码块个数，K _r为码块K的尺寸，N _RE为所述PUSCH去除DMRS所占RE的剩余RE个数； Among them, the
C is the number of code blocks, K _r is the size of code block K, and N _RE is the number of remaining REs from the PUSCH excluding DMRS;

ΔP _{rampup_pusch_n}可以通过公式：ΔP _{rampup_pusch_n}＝(n-1)×s _PUSCH确定； ΔP _{rampup_pusch_n} can be determined by the formula: ΔP _{rampup_pusch_n} = (n-1)×s _PUSCH ;

其中，s _PUSCH为配置的PUSCH功率调整步进值，所述PUSCH功率调整步进值与导频功率调整步进值是独立配置的相同的或不同的值；(n-1)为PUSCH功率调整的次数，n为大于或等于1的整数。 Where, s _PUSCH is the configured PUSCH power adjustment step value, and the PUSCH power adjustment step value and the pilot power adjustment step value are independently configured the same or different values; (n-1) is the PUSCH power adjustment The number of times, n is an integer greater than or equal to 1.
根据权利要求2所述的两步随机接入方法，其中，根据所述***信息获取导频的传输功率，根据所述导频传输功率获得所述PUSCH的传输功率，进一步包括：The two-step random access method according to claim 2, wherein obtaining the transmission power of the pilot according to the system information, and obtaining the transmission power of the PUSCH according to the transmission power of the pilot, further comprises:

通过
获得所述PUSCH的传输功率； by
Obtaining the transmission power of the PUSCH;

其中，所述P _CMAX为配置的最大传输功率或配置的传输功率； Wherein, the P _CMAX is the configured maximum transmission power or the configured transmission power;

P _PRE为导频的传输功率； P _PRE is the transmission power of the pilot;

Δ _delta为配置的偏移值； Δ _delta is the configured offset value;

u为子载波间隔配置参数；u is the subcarrier spacing configuration parameter;

为PUSCH的带宽，用资源块RB个数表示；
Is the bandwidth of PUSCH, expressed by the number of resource blocks RB;

Δ _TF＝0或者10log ₁₀(2 ^BPRE-1)或者根据MCS确定的值； Δ _TF=0 or 10log ₁₀ (2 ^BPRE -1) or a value determined according to MCS;

所述
其中，C为码块个数，K _r为码块K的尺寸，N _RE为所述PUSCH去除DMRS所占RE的剩余RE个数； Said
Wherein, C is the number of code blocks, K _r is the size of code block K, and N _RE is the number of remaining REs of the PUSCH excluding DMRS;

Δ _n为功率调整值。 Δ _n is the power adjustment value.
根据权利要求7所述的两步随机接入方法，其中，Δ _n的确定过程，包括： Two-step random access method according to claim 7, wherein, Δ _n of the determination process, comprising:

如果所述随机接入流程中MsgA为第一次传输，或者本次MsgA发送以前一预设时间段内的至少一次MsgA成功发送，则Δ _n为零，或者，为配置的参数Δ ₀，或者，与上一次MsgA传输中的Δ _n-1值相同； If MsgA is the first transmission in the random access procedure, or if at least one MsgA is successfully transmitted within a preset time period before this MsgA transmission, then Δ _n is zero, or is the configured parameter Δ ₀ , or , Which is the same as the value of Δ _n-1 in the last MsgA transmission;

或者，Δ _n为从第一次PUSCH传输到本次或上一次PUSCH传输，确定的总功率上升值； Or, Δ _n is the determined total power increase value from the first PUSCH transmission to the current or last PUSCH transmission;

所述MsgA包括导频和PUSCH。The MsgA includes pilot and PUSCH.
根据权利要求8所述的两步随机接入方法，其中，Δ _n为从第一次PUSCH传输到本次或上一次PUSCH传输，确定的总功率上升值，包括： The two-step random access method according to claim 8, wherein, Δ _n is the first PUSCH transmission from or to this PUSCH transmission time, a rise in the total power is determined, comprising:

Δ _n＝ΔP _{rampup_pusch}， Δ _n =ΔP _{rampup_pusch} ,

ΔP _{rampup_pusch}通过公式：ΔP _{rampup_pusch}＝{max{0,P _CMAX-P},ΔP _{rampup_pusch_n}}确定； ΔP _{rampup_pusch is} determined by the formula: ΔP _{rampup_pusch} ={max{0,P _CMAX -P},ΔP _{rampup_pusch_n} };

其中，所述P _CMAX为配置的最大传输功率或配置的传输功率； Wherein, the P _CMAX is the configured maximum transmission power or the configured transmission power;

其中，P _PRE为导频的传输功率； Among them, P _PRE is the transmission power of the pilot;

Δ _delta为配置的偏移值； Δ _delta is the configured offset value;

u为子载波间隔配置参数；u is the subcarrier spacing configuration parameter;

为PUSCH的带宽，用RB个数表示；
Is the bandwidth of PUSCH, expressed by the number of RBs;

Δ _TF＝0或者10log ₁₀(2 ^BPRE-1)或者MCS确定的值， Δ _TF=0 or 10log ₁₀ (2 ^BPRE -1) or the value determined by MCS,

其中，所述
其中，C为码块个数，K _r为码块K的尺寸，N _RE为所述PUSCH去除DMRS所占RE的剩余RE个数； Among them, the
Wherein, C is the number of code blocks, K _r is the size of code block K, and N _RE is the number of remaining REs of the PUSCH excluding DMRS;

ΔP _{rampup_pusch_n}可以通过公式：ΔP _{rampup_pusch_n}＝(n-1)×s _Δ确定； ΔP _{rampup_pusch_n} can be determined by the formula: ΔP _{rampup_pusch_n} = (n-1)×s _Δ ;

其中，n-1为PUSCH功率调整的次数，n为大于或等于1的整数；Where n-1 is the number of PUSCH power adjustments, and n is an integer greater than or equal to 1;

s _Δ为PUSCH功率调整步进值和导频功率调整步进值的差值，PUSCH功率调整步进值和导频功率调整步进值是分别配置的相同或者不同的值。 s _Δ is the difference between the PUSCH power adjustment step value and the pilot power adjustment step value, and the PUSCH power adjustment step value and the pilot power adjustment step value are respectively configured the same or different values.
一种终端，包括：A terminal, including:

收发机，用于接收***信息；Transceiver, used to receive system information;

处理器，用于根据所述***信息，获得随机接入流程中物理上行共享信道PUSCH的传输功率；A processor, configured to obtain the transmission power of the physical uplink shared channel PUSCH in the random access procedure according to the system information;

所述收发机还用于根据所述PUSCH的传输功率，发送所述PUSCH。The transceiver is further configured to transmit the PUSCH according to the transmission power of the PUSCH.
根据权利要求10所述的终端，其中，所述处理器具体用于：根据所述***信息中的PUSCH带宽、导频接收目标功率以及配置的功率偏移值中的至少一项，获得所述PUSCH的传输功率；或者，根据所述***信息获取导频的传输功率，根据所述导频传输功率获得所述PUSCH的传输功率。The terminal according to claim 10, wherein the processor is specifically configured to: obtain the power offset value according to at least one of the PUSCH bandwidth, the pilot reception target power, and the configured power offset value in the system information PUSCH transmission power; or, obtaining pilot transmission power according to the system information, and obtaining the PUSCH transmission power according to the pilot transmission power.
根据权利要求11所述的终端，其中，根据所述***信息中的PUSCH带宽、导频接收目标功率以及配置的功率偏移值中的至少一项，获得所述PUSCH的传输功率，包括：The terminal according to claim 11, wherein obtaining the transmission power of the PUSCH according to at least one of the PUSCH bandwidth, the pilot reception target power, and the configured power offset value in the system information includes:

通过公式
获得所述PUSCH的传输功率； By formula
Obtaining the transmission power of the PUSCH;

其中，所述P _CMAX为配置的最大传输功率或配置的传输功率； Wherein, the P _CMAX is the configured maximum transmission power or the configured transmission power;

P _{O_PRE}为导频接收目标功率； _{PO_PRE} is the pilot receiving target power;

Δ _delta为配置的功率偏移值； Δ _delta is the configured power offset value;

u为子载波间隔配置参数；u is the subcarrier spacing configuration parameter;

为PUSCH带宽，用资源块RB个数表示；
Is the PUSCH bandwidth, expressed by the number of resource blocks RB;

α为配置参数；α is the configuration parameter;

PL为路径损耗；PL is the path loss;

Δ _TF＝0或者10log ₁₀(2 ^BPRE-1)或者根据调制编码方案MCS确定的值； ^ΔTF ₌₀ or 10log ₁₀ (2 ^BPRE -1) or a value determined according to the modulation and coding scheme MCS;

其中，所述
Among them, the

C为码块个数，K _r为码块K的尺寸，N _RE为所述PUSCH去除解调参考信号DMRS所占资源单元RE的剩余RE个数； C is the number of code blocks, K _r is the size of code block K, and N _RE is the number of remaining REs in the resource unit RE occupied by the PUSCH excluding the demodulation reference signal DMRS;

Δ _n为功率调整值。 Δ _n is the power adjustment value.
根据权利要求11所述的终端，其中，根据所述***信息获取导频的传输功率，根据所述导频传输功率，获得所述PUSCH的传输功率，包括：The terminal according to claim 11, wherein obtaining the transmission power of the pilot according to the system information, and obtaining the transmission power of the PUSCH according to the pilot transmission power comprises:

通过公式：
获得所述PUSCH的传输功率； By formula:
Obtaining the transmission power of the PUSCH;

其中，所述P _CMAX为配置的最大传输功率或配置的传输功率； Wherein, the P _CMAX is the configured maximum transmission power or the configured transmission power;

P _PRE为导频的传输功率； P _PRE is the transmission power of the pilot;

Δ _delta为配置的功率偏移值； Δ _delta is the configured power offset value;

u为子载波间隔配置参数；u is the subcarrier spacing configuration parameter;

为PUSCH的带宽，用资源块RB个数表示；
Is the bandwidth of PUSCH, expressed by the number of resource blocks RB;

Δ _TF＝0或者10log ₁₀(2 ^BPRE-1)或者根据调制编码方案MCS确定的值； ^ΔTF ₌₀ or 10log ₁₀ (2 ^BPRE -1) or a value determined according to the modulation and coding scheme MCS;

所述
其中，C为码块个数，K _r为码块K的尺寸，N _RE为所述PUSCH去除解调参考信号DMRS所占资源单元RE的剩余RE个数； Said
Wherein, C is the number of code blocks, K _r is the size of code block K, and N _RE is the number of remaining REs of the resource unit RE occupied by the PUSCH to remove the demodulation reference signal DMRS;

Δ _n为功率调整值。 Δ _n is the power adjustment value.
一种随机接入装置，包括：A random access device, including:

收发模块，用于接收***信息；Transceiver module, used to receive system information;

处理模块，用于根据所述***信息，获得随机接入流程中物理上行共享信道PUSCH的传输功率；A processing module, configured to obtain the transmission power of the physical uplink shared channel PUSCH in the random access procedure according to the system information;

所述收发模块还用于根据所述PUSCH的传输功率，发送所述PUSCH。The transceiver module is further configured to send the PUSCH according to the transmission power of the PUSCH.
一种终端，包括：处理器、存储有计算机程序的存储器，所述计算机程序被处理器运行时，执行如权利要求1至9中任一项所述的方法。A terminal comprising: a processor and a memory storing a computer program, and when the computer program is executed by the processor, the method according to any one of claims 1 to 9 is executed.
一种计算机可读存储介质，包括指令，当所述指令在计算机运行时，使得计算机执行如权利要求1至9中任一项所述的方法。A computer-readable storage medium, comprising instructions, when the instructions are run on a computer, the computer executes the method according to any one of claims 1-9.