WO2020048050A1

WO2020048050A1 - Terminal communication control method and apparatus, storage medium, and terminal

Info

Publication number: WO2020048050A1
Application number: PCT/CN2018/123322
Authority: WO
Inventors: 罗宇
Original assignee: 珠海格力电器股份有限公司
Priority date: 2018-09-03
Filing date: 2018-12-25
Publication date: 2020-03-12
Also published as: CN109257081A; CN109257081B

Abstract

Disclosed are a terminal communication control method and apparatus, a storage medium, and a terminal. The method comprises: acquiring a current signal strength value of a terminal in a current data transmission mode; determining whether the current signal strength value is less than or equal to a set threshold value of the terminal in a current communication mode; and if the current signal strength value is less than or equal to the set threshold value, switching a main antenna of the terminal from a first set position to a second set position, so as to increase the current signal strength value to be greater than the set threshold value. According to the solution of the present invention, the problem that a signal-to-noise ratio of a received signal of a mobile phone becomes worse because the broadband spectrum covered by the radiated energy of a faster digital transmission rate causes serious interference to mobile phone communication can be solved, such that the effect of improving the signal-to-noise ratio of the received signal of the mobile phone is achieved.

Description

一种终端的通信控制方法、装置、存储介质及终端Communication control method, device, storage medium and terminal of terminal

本申请要求于2018年9月3日提交中国专利局、申请号为201811020248.9、发明名称为“一种终端的通信控制方法、装置、存储介质及终端”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。This application claims the priority of a Chinese patent application filed with the Chinese Patent Office on September 3, 2018, with an application number of 201811020248.9, and an invention name of "a communication control method, device, storage medium and terminal for a terminal". Incorporated by reference in this application.

技术领域Technical field

本发明属于终端技术领域，具体涉及一种终端的通信控制方法、装置、存储介质及终端，尤其涉及一种手机应对USB3.0数据传输干扰的调整机制的实现方法、与该方法对应的装置、具有该装置的手机、存储有该方法对应的指令的计算机可读存储介质、以及能够执行该方法对应的指令的手机。The present invention belongs to the technical field of terminals, and particularly relates to a communication control method, device, storage medium, and terminal of a terminal, and in particular, to a method for implementing an adjustment mechanism for a mobile phone to respond to USB 3.0 data transmission interference, a device corresponding to the method, A mobile phone having the device, a computer-readable storage medium storing instructions corresponding to the method, and a mobile phone capable of executing the instructions corresponding to the method.

背景技术Background technique

随着手机通信技术的迅猛发展，手机有线数字传输的发展也日新月异。USB有线传输从1.0到2.0再到3.0，其技术接口协议越来越复杂的同时，传输速度也从最初的1.0的1.5Mbps到2.0的480Mbps，到现今USB 3.0的5Gbps，在节省大量传输时间的同时，提升着人们对有线数据传输的体验。With the rapid development of mobile phone communication technology, the development of mobile phone wired digital transmission is also changing with each passing day. USB wired transmission is from 1.0 to 2.0 to 3.0. At the same time, the technology interface protocol is becoming more and more complex. At the same time, the transmission speed has also changed from 1.5Mbps of 1.0 to 480Mbps of 2.0 to 5Gbps of USB 3.0 today. At the same time, it improves people's experience with wired data transmission.

但数字传输速度越快，其辐射的能量覆盖的频率范围也越来越广。USB3.0的传输速度高达5Gbps，其传输时候主波频谱将直接覆盖到5GHz频率范围，此已经远远超过并完全覆盖了4G手机通信传输时候的频率。传输时候其如此宽频谱将对手机通信造成严重干扰，其导致手机接收信号的信噪比变差，视USB接口和手机主天线距离的远近，其将造成对手机接收灵敏度以几dB到几十dB的恶化。如此大的干扰，将造成手机的吞吐率的大幅降低或直接造成手机通话的中断掉话。But the faster the digital transmission speed, the wider the frequency range covered by its radiated energy. The transmission speed of USB3.0 is as high as 5Gbps. When transmitting, the main wave spectrum will directly cover the 5GHz frequency range, which has far exceeded and completely covered the frequency of 4G mobile phone communication transmission. When transmitting such a wide spectrum, it will cause serious interference to mobile phone communication, which will cause the signal-to-noise ratio of the mobile phone's received signal to deteriorate. Depending on the distance between the USB interface and the mobile phone's main antenna, it will cause the mobile phone's reception sensitivity to be several dB to several tens. dB degradation. Such a large amount of interference will result in a drastic reduction in the throughput of the mobile phone or directly interrupt the call drop of the mobile phone.

发明内容Summary of the Invention

本发明的目的在于，针对上述缺陷，提供一种终端的通信控制方法、装置、存储介质及终端，以解决现有技术中数字传输速率越快其辐射的能量覆盖的宽频谱对手机通信造成严重干扰导致手机接收信号的信噪比变差的问题，达到改善手机接收信号的信噪比的效果。An object of the present invention is to provide a communication control method, device, storage medium, and terminal for a terminal in order to solve the above-mentioned shortcomings, in order to solve the problem that mobile phone communication will be seriously affected by the wide spectrum of radiant energy coverage in the prior art. The interference leads to the problem that the signal-to-noise ratio of the signal received by the mobile phone becomes worse, and the effect of improving the signal-to-noise ratio of the signal received by the mobile phone is achieved.

本发明提供一种终端的通信控制方法，包括：获取所述终端在当前数据传输方式下的当前信号强度值；确定所述当前信号强度值是否小于或等于所述终端在当前通信制式下的设定阈值；若所述当前信号强度值小于或等于所述设定阈值，则将所述终端的主天线由第一设定位置切换至第二设定位置，以将所述当前信号强度值提升至大于所述设定阈值。The invention provides a communication control method for a terminal, which includes: obtaining a current signal strength value of the terminal in a current data transmission mode; and determining whether the current signal strength value is less than or equal to a setting of the terminal under a current communication system. A predetermined threshold; if the current signal strength value is less than or equal to the set threshold value, switching the main antenna of the terminal from a first set position to a second set position to increase the current signal strength value Up to the set threshold.

可选地，获取所述终端在当前数据传输方式下的当前信号强度值，包括：确定所述终端的当前数据传输方式的数据接口是否有待进行数据传输的传输设备***；若所述数据接口有所述待传输设备***，则获取由信号检测模块检测得到的所述终端的所述当前信号强度值；或者，确定所述终端是否在所述当前数据传输方式下进行数据传输；若所述终端在所述当前数据传输方式下进行数据传输，则获取由信号检测模块检测得到的所述终端在待机或通话情况下的所述当前信号强度值；或者，确定所述终端是否发出拨打电话的拨打消息、或是否接收到待接听电话的来电消息；若所述终端发出所述拨打消息、或接收所述来电消息，则确定所述终端是否在所述当前数据传输方式下进行数据传输；若所述终端在所述当前数据传输方式下进行数据传输，则获取由信号检测模块检测得到的所述当前信号强度值。Optionally, obtaining the current signal strength value of the terminal in the current data transmission mode includes: determining whether a data interface of the terminal's current data transmission mode needs to be inserted by a transmission device for data transmission; if the data interface has If the device to be transmitted is inserted, then acquiring the current signal strength value of the terminal detected by the signal detection module; or determining whether the terminal performs data transmission in the current data transmission mode; if the terminal When data transmission is performed in the current data transmission mode, the current signal strength value of the terminal in the standby or call situation detected by the signal detection module is acquired; or, it is determined whether the terminal makes a dialing call Message, or whether an incoming call message is received from the phone to be answered; if the terminal sends the dial message or receives the incoming message, determining whether the terminal is performing data transmission in the current data transmission mode; When the terminal performs data transmission in the current data transmission mode, the terminal obtains a signal The sensing module detects a current signal intensity value obtained.

可选地，还包括：确定在所述主天线在所述第二设定位置的情况下的当前信号强度值是否仍小于或等于所述设定阈值；若在所述主天线在所述第二设定位置的情况下所述当前信号强度值仍小于或等于所述设定阈值，则降低所述当前数据传输方式的传输速度、或中断所述当前数据传输方式下的数据传输，以实现所述终端的正常通信。Optionally, the method further includes: determining whether a current signal strength value is still less than or equal to the set threshold when the main antenna is at the second set position; if the main antenna is at the second set position, If the current signal strength value is still less than or equal to the set threshold when the position is set, reduce the transmission speed of the current data transmission mode or interrupt the data transmission in the current data transmission mode to achieve Normal communication of the terminal.

可选地，还包括：确定在降低所述当前数据传输方式的传输速度的情况下的当前信号强度值是否仍小于或等于所述设定阈值；若在降低所述当前数据传输方式的传输速度的情况下所述当前信号强度值仍小于或等于所述设定阈值，则中断所述当前数据传输方式下的数据传输。Optionally, the method further includes: determining whether the current signal strength value is still less than or equal to the set threshold when the transmission speed of the current data transmission mode is reduced; if the transmission speed of the current data transmission mode is reduced If the current signal strength value is still less than or equal to the set threshold, the data transmission in the current data transmission mode is interrupted.

可选地，还包括：确定所述终端的当前通话是否已结束；若所述当前通话已结束，则在已降低所述当前数据传输方式的传输速度的情况下恢复所述当前数据传输方式的传输速度、或在已中断所述当前数据传输方式下的数据传输的情况下恢复所述当前数据传输方式下的数据传输。Optionally, it further comprises: determining whether the current call of the terminal has ended; and if the current call has ended, restoring the current data transmission mode under the condition that the transmission speed of the current data transmission mode has been reduced The transmission speed, or the data transmission in the current data transmission mode is resumed if the data transmission in the current data transmission mode has been interrupted.

可选地，还包括：确定所述当前数据传输方式下的数据传输是否已传输完毕；若所述当前数据传输方式下的数据传输已传输完毕，则将所述终端的主天线由第二设定位置恢复至第一设定位置。Optionally, the method further includes: determining whether data transmission in the current data transmission mode has been completed; and if data transmission in the current data transmission mode is completed, setting the main antenna of the terminal to a second setting The fixed position returns to the first set position.

可选地，其中，所述当前数据传输方式，包括：USB3.0；和/或，所述当前信号强度值，包括：接收信号的当前强度值、和/或发送信号的当前强度值；和/或，所述第一设定位置，包括：所述终端的主天线在所述终端上的设置位置；所述第二设定位置，包括：所述终端的分集副天线在所述终端上的设置位置；和/或，所述当前数据传输方式的数据接口与所述第一设定位置之间的第一距离，小于所述数据接口与所述第二设定位置之间的第二距离；和/或，通过天线切换开关，实现所述主天线的第一设定位置和第二设定位置之间的切换。Optionally, wherein the current data transmission mode includes: USB 3.0; and / or, the current signal strength value includes: the current strength value of the received signal, and / or the current strength value of the transmitted signal; and / Or, the first setting position includes: a setting position of a main antenna of the terminal on the terminal; and the second setting position includes: a diversity sub antenna of the terminal on the terminal And / or the first distance between the data interface of the current data transmission method and the first set position is smaller than the second distance between the data interface and the second set position Distance; and / or, switching between a first set position and a second set position of the main antenna through an antenna switch.

与上述方法相匹配，本发明另一方面提供一种终端的通信控制装置，包括：获取单元，用于获取所述终端在当前数据传输方式下的当前信号强度值；控制单元，用于确定所述当前信号强度值是否小于或等于所述终端在当前通信制式下的设定阈值；所述控制单元，还用于若所述当前信号强度值小于或等于所述设定阈值，则将所述终端的主天线由第一设定位置切换至第二设定位置，以将所述当前信号强度值提升至大于所述设定阈值。Matching the above method, another aspect of the present invention provides a communication control device for a terminal, including: an obtaining unit, configured to obtain a current signal strength value of the terminal in a current data transmission mode; and a control unit, configured to determine all Whether the current signal strength value is less than or equal to a set threshold value of the terminal under the current communication standard; the control unit is further configured to: if the current signal strength value is less than or equal to the set threshold value, The main antenna of the terminal is switched from the first set position to the second set position to increase the current signal strength value to be greater than the set threshold.

可选地，所述获取单元获取所述终端在当前数据传输方式下的当前信号强度值，包括：确定所述终端的当前数据传输方式的数据接口是否有待进行数据传输的传输设备***；若所述数据接口有所述待传输设备***，则获取由信号检测模块检测得到的所述终端的所述当前信号强度值；或者，确定所述终端是否在所述当前数据传输方式下进行数据传输；若所述终端在所述当前数据传输方式下进行数据传输，则获取由信号检测模块检测得到的所述终端在待机或通话情况下的所述当前信号强度值；或者，确定所述终端是否发出拨打电话的拨打消息、或是否接收到待接听电话的来电消息；若所述终端发出所述拨打消息、或接收所述来电消息，则确定所述终端是否在所述当前数据传输方式下进行数据传输；若所述终端在所述当前数据传输方式下进行数据传输，则获取由信号检测模块检测得到的所述当前信号强度值。Optionally, the acquiring unit acquiring the current signal strength value of the terminal in the current data transmission mode includes: determining whether a data interface of the terminal's current data transmission mode needs to be inserted by a transmission device for data transmission; if If the data interface has the device to be transmitted inserted, then obtain the current signal strength value of the terminal detected by the signal detection module; or determine whether the terminal is performing data transmission in the current data transmission mode; If the terminal performs data transmission in the current data transmission mode, obtaining the current signal strength value of the terminal detected by the signal detection module in a standby or call situation; or determining whether the terminal sends out If the dialing message of the call is received, or whether an incoming call message is received, if the terminal sends the dialing message or receives the incoming call message, it is determined whether the terminal performs data in the current data transmission mode. Transmission; if the terminal performs data transmission in the current data transmission mode, Get the current value of the signal strength detected by the signal detection module obtained.

可选地，还包括：所述控制单元，还用于确定在所述主天线在所述第二设定位置的情况下的当前信号强度值是否仍小于或等于所述设定阈值；所述控制单元，还用于若在所述主天线在所述第二设定位置的情况下所述当前信号强度值仍小于或等于所述设定阈值，则降低所述当前数据传输方式的传输速度、或中断所述当前数据传输方式下的数据传输，以实现所述终端的正常通信。Optionally, the control unit is further configured to determine whether a current signal strength value is still less than or equal to the set threshold value when the main antenna is in the second set position; the A control unit, further configured to reduce the transmission speed of the current data transmission mode if the current signal strength value is still less than or equal to the set threshold when the main antenna is in the second set position Or interrupt data transmission in the current data transmission mode to achieve normal communication of the terminal.

可选地，还包括：所述控制单元，还用于确定在降低所述当前数据传输方式的传输速度的情况下的当前信号强度值是否仍小于或等于所述设定阈值；所述控制单元，还用于若在降低所述当前数据传输方式的传输速度的情况下所述当前信号强度值仍小于或等于所述设定阈值，则中断所述当前数据传输方式下的数据传输。Optionally, the control unit is further configured to determine whether a current signal strength value is still less than or equal to the set threshold when the transmission speed of the current data transmission mode is reduced; the control unit And is further configured to interrupt data transmission in the current data transmission mode if the current signal strength value is still less than or equal to the set threshold when the transmission speed of the current data transmission mode is reduced.

可选地，还包括：所述控制单元，还用于确定所述终端的当前通话是否已结束；所述控制单元，还用于若所述当前通话已结束，则在已降低所述当前数据传输方式的传输速度的情况下恢复所述当前数据传输方式的传输速度、或在已中断所述当前数据传输方式下的数据传输的情况下恢复所述当前数据传输方式下的数据传输。Optionally, it further includes: the control unit is further configured to determine whether the current call of the terminal has ended; the control unit is further configured to reduce the current data if the current call has ended In the case of the transmission speed of the transmission mode, the transmission speed of the current data transmission mode is restored, or when the data transmission in the current data transmission mode has been interrupted, the data transmission in the current data transmission mode is resumed.

可选地，还包括：所述控制单元，还用于确定所述当前数据传输方式下的数据传输是否已传输完毕；所述控制单元，还用于若所述当前数据传输方式下的数据传输已传输完毕，则将所述终端的主天线由第二设定位置恢复至第一设定位置。Optionally, it further includes: the control unit is further configured to determine whether data transmission in the current data transmission mode has been completed; and the control unit is further configured to perform data transmission in the current data transmission mode. After the transmission is completed, the main antenna of the terminal is restored from the second setting position to the first setting position.

与上述装置相匹配，本发明再一方面提供一种终端，包括：以上所述的终端的通信控制装置。Matching the above device, another aspect of the present invention provides a terminal, which includes the communication control device of the terminal described above.

与上述方法相匹配，本发明再一方面提供一种存储介质，包括：所述存储介质中存储有多条指令；所述多条指令，用于由处理器加载并执行以上所述的终端的通信控制方法。Matching the above method, another aspect of the present invention provides a storage medium, including: the storage medium stores multiple instructions; the multiple instructions are used by a processor to load and execute the terminal described above. Communication control method.

与上述方法相匹配，本发明再一方面提供一种终端，包括：处理器，用于执行多条指令；存储器，用于存储多条指令；其中，所述多条指令，用于由所述存储器存储，并由所述处理器加载并执行以上所述的终端的通信控制方法。Matching the above method, another aspect of the present invention provides a terminal, including: a processor for executing multiple instructions; a memory for storing multiple instructions; wherein the multiple instructions are used by the The memory stores, and the processor loads and executes the communication control method of the terminal described above.

本发明的方案，通过在手机检测到USB3.0数据传输时候，自动切换上下天线，将主天线调整到远离USB接口的位置，提升手机接收信号强度，提升通话体验。In the solution of the present invention, when the mobile phone detects USB 3.0 data transmission, it automatically switches the upper and lower antennas, adjusts the main antenna to a position far from the USB interface, improves the strength of the signal received by the mobile phone, and improves the call experience.

进一步，本发明的方案，通过在将主天线调整到远离USB接口的位置之后，如果依旧干扰过大，还可以自动降低或者关闭USB传输，待通话完成后，自动恢复USB传输及自动恢复天线初始的状态，保证了通话可靠性，也保证了数据传输的完整性。Further, according to the solution of the present invention, after adjusting the main antenna to a position far from the USB interface, if the interference is still too large, the USB transmission can also be automatically reduced or turned off. After the call is completed, the USB transmission is automatically resumed and the initial antenna is automatically restored. The state of the phone ensures the reliability of the call and the integrity of the data transmission.

进一步，本发明的方案，通过在切换上下天线后，其接收信号强度依旧小于设定阈值时，直接向主控CPU申请将USB3.0的传输调整为USB2.0数据传输，对手机的通信的干扰将大幅度降低，可以进一步提升手机接收信号强度，并改善手机的发射性能，提升通话、待机及使用体验。Further, in the solution of the present invention, when the received signal strength is still less than a set threshold after switching the upper and lower antennas, a request is directly applied to the main control CPU to adjust the USB 3.0 transmission to USB 2.0 data transmission. Interference will be greatly reduced, which can further improve the strength of the mobile phone's received signal, improve the mobile phone's transmission performance, and improve the calling, standby and use experience.

进一步，本发明的方案，通过判断到手机处于USB3.0传输时候，此时启动检测机制，检测手机在待机情况下的接收信号强度值，如果确认接收信号强度很差，切换手机的上下天线，将主天线通过开关切换到远离USB的上天线位置，减少USB对天线干扰，提升了接收信号的信噪比，也提升了通信可靠性。Further, in the solution of the present invention, when it is determined that the mobile phone is in USB 3.0 transmission, a detection mechanism is activated at this time to detect the received signal strength value of the mobile phone in the standby state. If it is confirmed that the received signal strength is poor, switch the upper and lower antennas of the mobile phone. Switching the main antenna to the upper antenna position away from the USB through the switch reduces the interference of the USB to the antenna, improves the signal-to-noise ratio of the received signal, and improves communication reliability.

进一步，本发明的方案，通过在切换手机的上下天线之后，如果干扰依旧较大，将USB3.0的数据传输改成USB2.0的数据传输，降低USB传输速率，减少USB传输的干扰，减少通话断续断话，提升通话效果，也提升用户对通话的体验。Further, according to the solution of the present invention, after switching the upper and lower antennas of the mobile phone, if the interference is still large, the USB 3.0 data transmission is changed to the USB 2.0 data transmission to reduce the USB transmission rate, reduce the interference of the USB transmission, and reduce Intermittent call disconnection improves the call effect and improves the user experience on the call.

由此，本发明的方案，通过根据上下天线接收到信号强度的不同，动态调整手机的主天线和分集副天线，使得手机的主天线可以根据信号强度来动态使用上下天线；解决现有技术中数字传输速率越快其辐射的能量覆盖的宽频谱对手机通信造成严重干扰导致手机接收信号的信噪比变差的问题，从而，克服现有技术中接收信号的信噪比差、通信可靠性低和用户体验差的缺陷，实现接收信号的信噪比好、通信可靠性高和用户体验好的有益效果。Therefore, the solution of the present invention dynamically adjusts the main antenna and the diversity antenna of the mobile phone according to the difference in the received signal strength of the upper and lower antennas, so that the main antenna of the mobile phone can dynamically use the upper and lower antennas according to the signal strength; The faster the digital transmission rate, the wider the frequency spectrum of its radiant energy coverage, which severely interferes with the communication of the mobile phone, causing the signal-to-noise ratio of the received signal of the mobile phone to deteriorate, thereby overcoming the poor signal-to-noise ratio of the received signal and communication reliability in the prior art. The shortcomings of low and poor user experience achieve the beneficial effects of good signal-to-noise ratio of received signals, high communication reliability, and good user experience.

本发明的其它特征和优点将在随后的说明书中阐述，并且，部分地从说明书中变得显而易见，或者通过实施本发明而了解。Other features and advantages of the present invention will be explained in the following description, and partly become apparent from the description, or be understood by implementing the present invention.

下面通过附图和实施例，对本发明的技术方案做进一步的详细描述。The technical solutions of the present invention will be described in further detail below with reference to the drawings and embodiments.

附图说明BRIEF DESCRIPTION OF THE DRAWINGS

图1为本发明的终端的通信控制方法的一实施例的流程示意图；1 is a schematic flowchart of an embodiment of a communication control method for a terminal according to the present invention;

图2为本发明的方法中在数据接口有传输设备***时就获取当前数据传输方式下的当前信号强度值的一实施例的流程示意图；2 is a schematic flowchart of an embodiment of acquiring a current signal strength value in a current data transmission mode when a data interface has a transmission device inserted in the method of the present invention;

图3为本发明的方法中在当前数据传输方式下进行数据传输时才获取当前数据传输方式下的当前信号强度值的一实施例的流程示意图；3 is a schematic flowchart of an embodiment of obtaining a current signal strength value in a current data transmission mode only when data transmission is performed in a current data transmission mode in the method of the present invention;

图4为本发明的方法中在拨打电话或接听电话的情况下才获取当前数据传输方式下的当前信号强度值的一实施例的流程示意图；4 is a schematic flowchart of an embodiment of obtaining a current signal strength value in a current data transmission mode only when a call is made or received in the method of the present invention;

图5为本发明的方法中对将所述终端的主天线由第一设定位置切换至第二设定位置之后的当前信号强度值进行继续调整的一实施例的流程示意图；5 is a schematic flowchart of an embodiment of the method of the present invention for continuously adjusting the current signal strength value after the main antenna of the terminal is switched from a first set position to a second set position;

图6为本发明的方法中对降低所述当前数据传输方式的传输速度之后的当前信号强度进行继续调整的一实施例的流程示意图；6 is a schematic flowchart of an embodiment in the method of the present invention for continuously adjusting the current signal strength after reducing the transmission speed of the current data transmission mode;

图7为本发明的方法中根据当前通话情况调整当前数据传输方式下的数据传输的一实施例的流程示意图；7 is a schematic flowchart of an embodiment of adjusting data transmission in a current data transmission mode according to a current call situation in the method of the present invention;

图8为本发明的方法中根据当前数据传输方式下的数据传输情况调整主天线位置的一实施例的流程示意图；8 is a schematic flowchart of an embodiment of adjusting a position of a main antenna according to a data transmission situation in a current data transmission method in the method of the present invention;

图9为本发明的终端的通信控制装置的一实施例的结构示意图；9 is a schematic structural diagram of an embodiment of a communication control device for a terminal according to the present invention;

图10为USB3.0传输傅里叶展开后就是许多正弦函数的叠加和延生曲线示意图；FIG. 10 is a schematic diagram of superposition and extension curves of many sine functions after Fourier expansion of USB 3.0 transmission;

图11为本发明的终端的一实施例的上下天线切换原理示意图；11 is a schematic diagram of a switching principle of an upper and lower antenna according to an embodiment of a terminal of the present invention;

图12为本发明的终端的一实施例的应对USB3.0数据传输干扰调整流程示意图。FIG. 12 is a schematic flowchart of a USB 3.0 data transmission interference adjustment process according to an embodiment of the terminal of the present invention.

结合附图，本发明实施例中附图标记如下：With reference to the drawings, the reference numerals in the embodiments of the present invention are as follows:

102-获取单元；104-控制单元。102-acquisition unit; 104-control unit.

具体实施方式detailed description

为使本发明的目的、技术方案和优点更加清楚，下面将结合本发明具体实施例及相应的附图对本发明技术方案进行清楚、完整地描述。显然，所描述的实施例仅是本发明一部分实施例，而不是全部的实施例。基于本发明中的实施例，本领域普通技术人员在没有做出创造性劳动前提下所获得的所有其他实施例，都属于本发明保护的范围。In order to make the objectives, technical solutions, and advantages of the present invention clearer, the technical solutions of the present invention will be clearly and completely described in combination with specific embodiments of the present invention and corresponding drawings. Obviously, the described embodiments are only a part of the embodiments of the present invention, but not all the embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts shall fall within the protection scope of the present invention.

根据本发明的实施例，提供了一种终端的通信控制方法，如图1所示本发明的方法的一实施例的流程示意图。该终端的通信控制方法可以包括：步骤S110至步骤S130。According to an embodiment of the present invention, a communication control method for a terminal is provided. As shown in FIG. 1, a schematic flowchart of an embodiment of the method of the present invention is provided. The communication control method of the terminal may include steps S110 to S130.

在步骤S110处，获取所述终端在当前数据传输方式下的当前信号强度值。At step S110, a current signal strength value of the terminal in a current data transmission mode is acquired.

其中，所述当前数据传输方式，可以包括：USB3.0；和/或，所述当前信号强度值，可以包括：接收信号的当前强度值、和/或发送信号的当前强度值。The current data transmission method may include: USB 3.0; and / or, the current signal strength value may include: a current strength value of a received signal, and / or a current strength value of a transmitted signal.

由此，通过在USB3.0下可以保证数据传输的效率，用户体验佳；通过对多种形式的信号强度值进行调整，可以满足不同用户在不同使用情况下的使用需求，灵活性好、可靠性高。Therefore, the data transmission efficiency can be guaranteed under USB 3.0, and the user experience is good; by adjusting the signal strength values of various forms, it can meet the needs of different users in different use cases, and it is flexible and reliable. High sex.

可选地，步骤S110中获取所述终端在当前数据传输方式下的当前信号强度值，可以包括以下至少一种获取情形。Optionally, acquiring the current signal strength value of the terminal in the current data transmission mode in step S110 may include at least one of the following acquisition scenarios.

第一种获取情形：在数据接口有传输设备***时就获取当前数据传输方式下的当前信号强度值。The first acquisition scenario: when a transmission device is inserted into the data interface, the current signal strength value in the current data transmission mode is acquired.

下面结合图2所示本发明的方法中在数据接口有传输设备***时就获取当前数据传输方式下的当前信号强度值的一实施例流程示意图，进一步说明在数据接口有传输设备***时就获取当前数据传输方式下的当前信号强度值的具体过程，可以包括：步骤S210和步骤S220。The following is a schematic flowchart of an embodiment of obtaining the current signal strength value in the current data transmission mode when a data interface has a transmission device inserted in the method of the present invention shown in FIG. The specific process of the current signal strength value in the current data transmission mode may include steps S210 and S220.

步骤S210，确定所述终端的当前数据传输方式的数据接口是否有待进行数据传输的传输设备***。Step S210: Determine whether a data interface of a current data transmission mode of the terminal needs to be inserted by a transmission device for data transmission.

步骤S220，若所述数据接口有所述待传输设备***，则获取由信号检测模块检测得到的所述终端的所述当前信号强度值。Step S220: if the data interface has the device to be transmitted inserted, obtain the current signal strength value of the terminal detected by the signal detection module.

例如：其他的制式如CDMA、WCDMA或者LTE的通信制式下，只要判定在***USB的时候接收信号强度较差，就启动手机上下天线切换机制。For example, under other standards such as CDMA, WCDMA or LTE communication systems, as long as it is determined that the received signal strength is poor when the USB is inserted, the mobile phone's upper and lower antenna switching mechanism is activated.

第二种获取情形：在当前数据传输方式下进行数据传输时才获取当前数据传输方式下的当前信号强度值。The second acquisition situation: the current signal strength value in the current data transmission mode is acquired only when data transmission is performed in the current data transmission mode.

下面结合图3所示本发明的方法中在当前数据传输方式下进行数据传输时才获取当前数据传输方式下的当前信号强度值的一实施例流程示意图，进一步说明在当前数据传输方式下进行数据传输时才获取当前数据传输方式下的当前信号强度值的具体过程，可以包括：步骤S310和步骤S320。The following is a schematic flowchart of an embodiment of obtaining the current signal strength value in the current data transmission mode when data transmission is performed in the current data transmission mode in the method of the present invention shown in FIG. The specific process of acquiring the current signal strength value under the current data transmission mode during transmission may include: step S310 and step S320.

步骤S310，确定所述终端是否在所述当前数据传输方式下进行数据传输。Step S310: Determine whether the terminal performs data transmission in the current data transmission mode.

步骤S320，若所述终端在所述当前数据传输方式下进行数据传输，则获取由信号检测模块检测得到的所述终端在待机或通话情况下的所述当前信号强度值。具体使用过程中，若所述终端在所述当前数据传输方式下未进行数据传输，则在待机情况下继续待机、或在通话情况下继续通话。Step S320: if the terminal performs data transmission in the current data transmission mode, obtain the current signal strength value of the terminal detected by the signal detection module in a standby or call situation. In a specific use process, if the terminal does not perform data transmission in the current data transmission mode, the terminal continues to standby in a standby situation, or continues to talk in a conversation situation.

例如：判断到手机处于USB3.0传输时候，此时启动检测机制，检测手机在待机情况下的接收信号强度值。For example: when it is determined that the mobile phone is in USB 3.0 transmission, a detection mechanism is started to detect the received signal strength value of the mobile phone in the standby state.

例如：例如：判断到手机处于USB3.0传输时候，启动检测判断机制，检测手机待机或者通话情况下的接收信号强度值，如检测手机在GSM900通话情况下，其接收信号强度小于-100dBm，则确认接收信号强度较差，CPU将通过切换手机的上下天线，将主天线通过开关切换到远离USB的上天线位置，减少USB对天线干扰，进而提升手机的RSSI值，减少通话断话及掉话率。For example: For example, when it is determined that the mobile phone is in USB 3.0 transmission, the detection judgment mechanism is activated to detect the received signal strength value when the mobile phone is in standby or during a call. For example, when the mobile phone is in a GSM900 call, its received signal strength is less than -100 dBm. Confirm that the received signal strength is poor, the CPU will switch the upper and lower antennas of the mobile phone, and switch the main antenna to the upper antenna position away from the USB through the switch, reducing the interference of the USB to the antenna, thereby increasing the RSSI value of the mobile phone, reducing call disconnection and dropped calls. rate.

第三种获取情形：在拨打电话或接听电话的情况下才获取当前数据传输方式下的当前信号强度值。The third acquisition scenario: the current signal strength value under the current data transmission mode is acquired only when a call is made or received.

下面结合图4所示本发明的方法中在拨打电话或接听电话的情况下才获取当前数据传输方式下的当前信号强度值的一实施例流程示意图，进一步说明在拨打电话或接听电话的情况下才获取当前数据传输方式下的当前信号强度值的具体过程，可以包括：步骤S410至步骤S430。The following is a schematic flowchart of an embodiment in which the current signal strength value in the current data transmission mode is obtained only in the case of making or receiving a call in the method of the present invention shown in FIG. The specific process of obtaining the current signal strength value under the current data transmission mode may include: step S410 to step S430.

步骤S410，确定所述终端是否发出拨打电话的拨打消息、或是否接收到待接听电话的来电消息。In step S410, it is determined whether the terminal sends a dialing message for making a call, or whether it receives an incoming call message for a call to be answered.

步骤S420，若所述终端发出所述拨打消息、或接收所述来电消息，则确定所述终端是否在所述当前数据传输方式下进行数据传输。In step S420, if the terminal sends the dial message or receives the incoming message, it is determined whether the terminal performs data transmission in the current data transmission mode.

步骤S430，若所述终端在所述当前数据传输方式下进行数据传输，则获取由信号检测模块检测得到的所述当前信号强度值。具体使用过程中，若所述终端在所述当前数据传输方式下未进行数据传输，则直接进行拨打电话或接听电话的通话。Step S430: if the terminal performs data transmission in the current data transmission mode, obtain the current signal strength value detected by the signal detection module. In a specific use process, if the terminal does not perform data transmission in the current data transmission mode, the terminal directly makes a call or receives a call.

例如：当手机拨打电话或者有来电的时候，立马通过CPU检测，USB3.0是否正在数据传输；若有USB3.0在传输，此时CPU通过射频前端电路，检测手机的接收信号强度RSSI值。For example: when the mobile phone makes a call or there is an incoming call, the CPU immediately detects whether USB 3.0 is transmitting data; if USB 3.0 is transmitting, the CPU detects the received signal strength RSSI value of the mobile phone through the RF front-end circuit.

由此，通过在多种情形下获取当前数据传输方式下的当前信号强度值，可以满足多种情形下的通信需求，使用灵活性好、可靠性高。Therefore, by obtaining the current signal strength value in the current data transmission mode in multiple situations, the communication requirements in multiple situations can be satisfied, and the use flexibility is good and the reliability is high.

在步骤S120处，确定所述当前信号强度值是否小于或等于所述终端在当前通信制式下的设定阈值。At step S120, it is determined whether the current signal strength value is less than or equal to a set threshold of the terminal under the current communication standard.

在步骤S130处，若所述当前信号强度值小于或等于所述设定阈值，则将所述终端的主天线由第一设定位置切换至第二设定位置，以将所述当前信号强度值提升至大于所述设定阈值(即将所述当前信号强度值维持在大于所述设定阈值的情况下)。At step S130, if the current signal strength value is less than or equal to the set threshold, the main antenna of the terminal is switched from a first set position to a second set position to change the current signal strength The value is increased to be greater than the set threshold (ie, the current signal strength value is maintained to be greater than the set threshold).

例如：如果确认接收信号强度很差，将启动如下的切换机制确保接收信号强度值维持在较好的值。如可以切换手机的上下天线，将主天线通过开关切换到远离USB的上天线位置，减少USB对天线干扰。For example, if it is confirmed that the received signal strength is poor, the following switching mechanism will be activated to ensure that the received signal strength value is maintained at a good value. If you can switch the upper and lower antennas of the mobile phone, switch the main antenna to the upper antenna position away from the USB through the switch to reduce the interference from the USB to the antenna.

例如：当在USB3.0传输时候，手机实时检测上下天线的信号强度，如果下天线受USB3.0干扰传输很大，则手机软件切换手机上下天线，使得主天线切换到手机上天线，保证手机的发射和接收尽量最佳。For example: When transmitting in USB 3.0, the mobile phone detects the signal strength of the upper and lower antennas in real time. If the lower antenna is greatly affected by USB 3.0 transmission, the mobile phone software switches the upper and lower antennas of the mobile phone, so that the main antenna is switched to the upper antenna of the mobile phone to ensure the mobile The best possible transmission and reception.

由此，通过在当前数据传输方式下的当前信号强度值小于或等于当前通信制式下的设定阈值的情况下，将主天线的位置进行切换，以将当前信号强度值提升至大于设定阈值，从而保证了当前数据传输方式下当前信号强度值的大小，使得当前数据传输方式下的当前信号强度值足以满足正常通信，从而提升通信可靠性和用户体验。Therefore, by switching the position of the main antenna when the current signal strength value in the current data transmission mode is less than or equal to the set threshold value in the current communication standard, the current signal strength value is increased to be greater than the set threshold value. Therefore, the size of the current signal strength value under the current data transmission mode is ensured, so that the current signal strength value under the current data transmission mode is sufficient to meet normal communication, thereby improving communication reliability and user experience.

具体地，所述第一设定位置，可以包括：所述终端的主天线在所述终端上的设置位置。所述第二设定位置，可以包括：所述终端的分集副天线在所述终端上的设置位置。Specifically, the first setting position may include a setting position of a main antenna of the terminal on the terminal. The second set position may include a set position of the diversity sub antenna of the terminal on the terminal.

具体地，所述当前数据传输方式的数据接口与所述第一设定位置之间的第一距离，小于所述数据接口与所述第二设定位置之间的第二距离。Specifically, a first distance between the data interface of the current data transmission mode and the first set position is smaller than a second distance between the data interface and the second set position.

例如：4G LTE手机时代，手机都会至少设计两个天线，一般主天线在下(靠近USB接口)，一个天线(分集副天线)在手机顶部。主天线包含所有制式(4G/3G/2G)信号发射和接收功能；分集副天线只包含4G的分集接收的功能，无发射功能。分集副天线主要是对4G主集天线的辅助和增强作用，增强手机接收能力。当USB3.0传输时候，可以将底部的主天线切换到手机的顶部，而将原在顶部的分集副天线切换到底部来，这样确保最重要的主天线远离USB接口，远离干扰源，提升2G/3G/4G的信号强度。For example, in the era of 4G LTE mobile phones, mobile phones will be designed with at least two antennas. Generally, the main antenna is below (near the USB interface), and one antenna (diversity secondary antenna) is on the top of the phone. The main antenna includes all standard (4G / 3G / 2G) signal transmission and reception functions; the diversity sub-antenna only includes the 4G diversity reception function and has no transmission function. The diversity sub-antenna mainly assists and enhances the 4G main-set antenna and enhances the mobile phone's receiving capability. When USB 3.0 is transmitted, the main antenna at the bottom can be switched to the top of the mobile phone, and the diversity sub antenna originally at the top can be switched to the bottom. This ensures that the most important main antenna is far away from the USB interface and away from interference sources, improving 2G / 3G / 4G signal strength.

由此，通过将主天线的位置调至远离当前数据传输方式的数据接口处，可以减小当前数据传输方式对当前信号强度值的干扰，有利于提升当前信号强度值，从而提升通信可靠性和用户体验。Therefore, by adjusting the position of the main antenna away from the data interface of the current data transmission method, the interference of the current data transmission method on the current signal strength value can be reduced, which is conducive to improving the current signal strength value, thereby improving communication reliability and user experience.

可选地，将所述终端的主天线由第一设定位置切换至第二设定位置，可以包括：通过天线切换开关，实现所述主天线的第一设定位置和第二设定位置之间的切换。Optionally, switching the main antenna of the terminal from the first setting position to the second setting position may include: realizing the first setting position and the second setting position of the main antenna through an antenna switching switch. Switch between.

例如：在图11中，手机分别设计了上下两个天线，其均可以接收2G/3G/4G信号，大部分时间手机会使用其中一个信号较好的天线作为主天线，比如使用手机下天线作为主天线。如根据上下天线接收到信号强度的不同，动态调整手机的主天线和分集副天线；使得手机的主天线可以根据信号强度来动态使用上下天线，使得主天线始终处于信号最佳的状态。For example, in Figure 11, the mobile phone is designed with two antennas, each of which can receive 2G / 3G / 4G signals. Most of the time, the mobile phone will use one of the antennas with a better signal as the main antenna, such as the lower antenna of the mobile phone The main antenna. For example, the main antenna and the diversity antenna of the mobile phone are dynamically adjusted according to the received signal strength of the upper and lower antennas; so that the main antenna of the mobile phone can dynamically use the upper and lower antennas according to the signal strength, so that the main antenna is always in the best signal state.

由此，通过天线切换开关切换主天线的位置，切换方式简便、且切换结果的可靠性高、安全性强。Therefore, the position of the main antenna is switched by the antenna switching switch, the switching method is simple, the reliability of the switching result is high, and the security is strong.

在一个可选实施方式中，还可以包括：对将所述终端的主天线由第一设定位置切换至第二设定位置之后的当前信号强度值进行继续调整的过程。In an optional implementation manner, the method may further include: a process of continuing to adjust a current signal strength value of the terminal after the main antenna of the terminal is switched from the first setting position to the second setting position.

下面结合图5所示本发明的方法中对将所述终端的主天线由第一设定位置切换至第二设定位置之后的当前信号强度值进行继续调整的一实施例流程示意图，进一步说明对将所述终端的主天线由第一设定位置切换至第二设定位置之后的当前信号强度值进行继续调整的具体过程，可以包括：步骤S510和步骤S520。The following is a flow chart of an embodiment for further adjusting the current signal strength value after the main antenna of the terminal is switched from the first set position to the second set position in the method of the present invention shown in FIG. 5 to further explain. The specific process of continuously adjusting the current signal strength value after the main antenna of the terminal is switched from the first setting position to the second setting position may include steps S510 and S520.

步骤S510，在将所述终端的主天线由第一设定位置切换至第二设定位置之后，确定在所述主天线在所述第二设定位置的情况下的当前信号强度值是否仍小于或等于所述设定阈值。Step S510: After switching the main antenna of the terminal from the first setting position to the second setting position, determine whether the current signal strength value of the terminal is still in a case where the main antenna is in the second setting position. Is less than or equal to the set threshold.

步骤S520，若在所述主天线在所述第二设定位置的情况下所述当前信号强度值仍小于或等于所述设定阈值，则降低所述当前数据传输方式的传输速度、或中断所述当前数据传输方式下的数据传输，以实现所述终端在所述当前信号强度值小于或等于所述设定阈值情况下的正常通信。具体使用过程中，若所述主天线在所述第二设定位置的情况下所述当前信号强度值已提升至大于所述设定阈值，则进行所述终端的正常通信。Step S520: if the current signal strength value is still less than or equal to the set threshold when the main antenna is in the second set position, reduce the transmission speed of the current data transmission mode, or interrupt Data transmission in the current data transmission mode to achieve normal communication of the terminal when the current signal strength value is less than or equal to the set threshold. In a specific use process, if the current signal strength value has been increased to be greater than the set threshold value when the main antenna is in the second set position, the terminal performs normal communication.

例如：切换主天线位置之后，如果干扰依旧较大，将USB3.0的数据传输改成USB2.0的数据传输，降低USB传输速率，减少USB传输的干扰，减少通话断续断话，提升用户对通话的体验。For example: After switching the main antenna position, if the interference is still large, change the USB 3.0 data transmission to the USB 2.0 data transmission, reduce the USB transmission rate, reduce the interference of USB transmission, reduce intermittent calls, and improve users The experience of calling.

例如：使得主天线切换到手机上天线之后，如果依旧发现手机的接收信号强度还是比较差，低于设定的阀值，如GSM900通话情况下，发现及时切换上下天线后，其接收信号强度依旧小于-100dBm，此时通过软件预判，直接向主控CPU申请将USB3.0的传输调整为USB2.0数据传输，对手机的通信的干扰将大幅度降低，此操作将进一步提升手机接收信号强度，并改善手机的发射性能，提升通话、待机及使用体验。For example, after the main antenna is switched to the antenna on the mobile phone, if the strength of the received signal of the mobile phone is still relatively poor and lower than the set threshold, such as in the case of a GSM900 call, it is found that after switching the upper and lower antennas in time, the received signal strength remains Less than -100dBm, at this time, through software pre-judgment, directly apply to the main control CPU to adjust the USB3.0 transmission to USB2.0 data transmission, which will greatly reduce the interference on the mobile phone's communication. This operation will further improve the mobile phone's reception signal Strength, and improve the transmission performance of the mobile phone, improve the call, standby and use experience.

例如：检测手机的接收信号强度RSSI值，如果值较差，则立马进行上下天线的切换。切换上下天线后，此时再次检测手机的接收信号强度RSSI值，如果切换上下天线后，RSSI值比预设定的阀值小，那么此时，CPU将直接保存USB3.0存储的上下文，直接中断USB3.0的传输，然后手机开始拨打和接听电话，保证手机的通话功能不断续及通话不断话。For example, the RSSI value of the received signal strength of the mobile phone is detected. If the value is poor, the upper and lower antennas are immediately switched. After switching the upper and lower antennas, the RSSI value of the received signal strength of the mobile phone is detected again at this time. If the RSSI value is smaller than the preset threshold after switching the upper and lower antennas, then the CPU will directly save the USB3.0 storage context and directly Interrupt the USB 3.0 transmission, and then the mobile phone starts to make and receive calls, ensuring that the mobile phone's call function continues and the call keeps talking.

由此，通过在切换主天线的位置后继续对当前信号强度值进行检测和调整，从而可以更可靠地保证和提升通信质量和用户体验。Therefore, by continuously detecting and adjusting the current signal strength value after switching the position of the main antenna, the communication quality and user experience can be more reliably guaranteed and improved.

在一个可选实施方式中，还可以包括：对降低所述当前数据传输方式的传输速度之后的当前信号强度进行继续调整的过程。In an optional implementation manner, the method may further include a process of continuously adjusting the current signal strength after reducing the transmission speed of the current data transmission mode.

下面结合图6所示本发明的方法中对降低所述当前数据传输方式的传输速度之后的当前信号强度进行继续调整的一实施例流程示意图，进一步说明对降低所述当前数据传输方式的传输速度之后的当前信号强度进行继续调整的具体过程，可以包括：步骤S610和步骤S620。The following is a schematic flow chart of an embodiment for further adjusting the current signal strength after reducing the transmission speed of the current data transmission method in the method of the present invention shown in FIG. 6 to further explain reducing the transmission speed of the current data transmission method. The specific process of continuing to adjust the current signal strength thereafter may include steps S610 and S620.

步骤S610，在降低所述当前数据传输方式的传输速度之后，确定在降低所述当前数据传输方式的传输速度的情况下的当前信号强度值是否仍小于或等于所述设定阈值。Step S610: After reducing the transmission speed of the current data transmission mode, determine whether the current signal strength value is still less than or equal to the set threshold when the transmission speed of the current data transmission mode is reduced.

步骤S620，若在降低所述当前数据传输方式的传输速度的情况下所述当前信号强度值仍小于或等于所述设定阈值，则中断所述当前数据传输方式下的数据传输。In step S620, if the current signal strength value is still less than or equal to the set threshold when the transmission speed of the current data transmission mode is reduced, the data transmission in the current data transmission mode is interrupted.

由此，通过在降低当前数据传输方式的传输速度之后继续对当前信号强度值进行检测和调整，可以更进一步地保证和提升当前信号强度值，从而提升通信可靠性和用户体验。Therefore, by continuously detecting and adjusting the current signal strength value after reducing the transmission speed of the current data transmission mode, the current signal strength value can be further guaranteed and improved, thereby improving communication reliability and user experience.

在一个可选实施方式中，还可以包括：在降低所述当前数据传输方式的传输速度、或中断所述当前数据传输方式下的数据传输的情况下根据当前通话情况调整当前数据传输方式下的数据传输的过程。In an optional implementation manner, the method may further include: adjusting a current data transmission mode according to a current call condition in a case of reducing a transmission speed of the current data transmission mode or interrupting data transmission in the current data transmission mode. The process of data transmission.

下面结合图7所示本发明的方法中根据当前通话情况调整当前数据传输方式下的数据传输的一实施例流程示意图，进一步说明根据当前通话情况调整当前数据传输方式下的数据传输的具体过程，可以包括：步骤S710和步骤S720。The following is a schematic flowchart of an embodiment of adjusting data transmission in the current data transmission mode according to the current call situation in the method of the present invention shown in FIG. 7 to further explain a specific process of adjusting data transmission in the current data transmission mode according to the current call situation. It may include: step S710 and step S720.

步骤S710，在降低所述当前数据传输方式的传输速度、或中断所述当前数据传输方式下的数据传输之后，确定所述终端的当前通话是否已结束。Step S710: Determine whether the current call of the terminal has ended after reducing the transmission speed of the current data transmission mode or interrupting data transmission in the current data transmission mode.

步骤S720，若所述当前通话已结束，则在已降低所述当前数据传输方式的传输速度的情况下恢复所述当前数据传输方式的传输速度、或在已中断所述当前数据传输方式下的数据传输的情况下恢复所述当前数据传输方式下的数据传输。具体使用过程中，若所述当前通话未结束，则保持已降低所述当前数据传输方式的传输速度、或已中断所述当前数据传输方式下的数据传输的状态。Step S720, if the current call has ended, the transmission speed of the current data transmission mode is restored if the transmission speed of the current data transmission mode has been reduced, or the current data transmission mode has been interrupted. In the case of data transmission, data transmission in the current data transmission mode is resumed. In a specific use process, if the current call is not ended, a state in which the transmission speed of the current data transmission mode has been reduced or data transmission in the current data transmission mode has been interrupted is maintained.

例如：手机检测到USB3.0数据传输时候，自动切换上下天线，将主天线调整到远离USB接口的位置，提升手机接收信号强度，提升通话体验。同时，如果依旧干扰过大，还可以自动降低或者关闭USB传输，待通话完成后，自动恢复USB传输及自动恢复天线初始的状态。For example, when the mobile phone detects USB3.0 data transmission, it automatically switches the upper and lower antennas, adjusts the main antenna to a position far away from the USB interface, and improves the strength of the signal received by the mobile phone and the calling experience. At the same time, if the interference is still too large, the USB transmission can also be automatically reduced or turned off. After the call is completed, the USB transmission is automatically restored and the initial state of the antenna is automatically restored.

例如：通话完成后，CPU将从USB3.0断开的上下文开始，重新恢复USB3.0的数据传输。For example: After the call is completed, the CPU will resume the USB 3.0 data transmission from the context of USB 3.0 disconnection.

由此，通过在对当前数据传输方式的当前信号强度调整后，根据当前通话情况及时恢复当前数据传输方式下的数据传输，保证了通信可靠性，也保证了数据传输的可靠性，用户体验佳。Therefore, after adjusting the current signal strength of the current data transmission mode, the data transmission in the current data transmission mode is resumed in a timely manner according to the current call situation, ensuring communication reliability, and also ensuring the reliability of data transmission, and the user experience is good. .

在一个可选实施方式中，还可以包括：在已恢复所述当前数据传输方式的传输速度、或已恢复所述当前数据传输方式下的数据传输的情况下根据当前数据传输方式下的数据传输情况调整主天线位置的过程。In an optional implementation manner, the method may further include: according to the data transmission in the current data transmission mode when the transmission speed of the current data transmission mode is restored or the data transmission in the current data transmission mode is resumed. The process of adjusting the position of the main antenna.

下面结合图8所示本发明的方法中根据当前数据传输方式下的数据传输情况调整主天线位置的一实施例流程示意图，进一步说明根据当前数据传输方式下的数据传输情况调整主天线位置的具体过程，可以包括：步骤S810和步骤S820。The flow chart of an embodiment of adjusting the position of the main antenna according to the data transmission situation in the current data transmission mode in the method of the present invention shown in FIG. 8 is described below to further explain the specific adjustment of the position of the main antenna according to the data transmission situation in the current data transmission mode. The process may include steps S810 and S820.

步骤S810，在已恢复所述当前数据传输方式的传输速度、或已恢复所述当前数据传输方式下的数据传输的情况下，确定所述当前数据传输方式下的数据传输是否已传输完毕。Step S810: Determine whether the data transmission in the current data transmission mode has been completed if the transmission speed of the current data transmission mode or the data transmission in the current data transmission mode has been restored.

步骤S820，若所述当前数据传输方式下的数据传输已传输完毕，则将所述终端的主天线由第二设定位置恢复至第一设定位置。具体使用过程中，若所述当前数据传输方式下的数据传输未传输完毕，则继续进行所述当前数据传输方式下的数据传输。In step S820, if the data transmission in the current data transmission mode has been completed, the main antenna of the terminal is restored from the second set position to the first set position. During specific use, if data transmission in the current data transmission mode is not completed, data transmission in the current data transmission mode is continued.

例如：USB3.0数据传输完成后，手机上下天线到初始状态。如USB3.0传输一旦完成，手机检测到其完成状态，此时手机经过判断，将直接使主天线从上天线切换到下天线，切回开始天线状态，回到没有USB3.0传输的手机天线待机和通话的状态。For example: After the USB 3.0 data transmission is completed, the mobile phone's upper and lower antennas are in the initial state. For example, once the USB3.0 transmission is completed, the mobile phone detects its completion status. At this time, the mobile phone will directly switch the main antenna from the upper antenna to the lower antenna, switch back to the starting antenna state, and return to the mobile phone antenna without USB3.0 transmission. Standby and call status.

例如：手机检测到USB3.0数据传输时候，自动切换上下天线，将主天线调整到远离USB接口的位置，提升手机接收信号强度，提升通话体验。同时，如果依旧干扰过大，超出手机各种制式预设的阀值，此时还可以自动降低USB传输制式，将USB3.0降低为USB2.0传输；或者直接关闭USB传输，待通话完成后，再自动恢复USB传输。待USB传输完成，手机自动恢复到天线初始的状态。For example, when the mobile phone detects USB3.0 data transmission, it automatically switches the upper and lower antennas, adjusts the main antenna to a position far away from the USB interface, and improves the strength of the signal received by the mobile phone and the calling experience. At the same time, if the interference is still too large and exceeds the preset thresholds of various mobile phone standards, you can also automatically reduce the USB transmission standard and reduce USB 3.0 to USB 2.0 transmission; or directly turn off USB transmission and wait for the call to complete , And then resume USB transfer automatically. After the USB transfer is completed, the phone automatically returns to the initial state of the antenna.

由此，通过在恢复当前数据传输方式下的数据传输的情况下根据当前数据传输方式下的数据传输情况及时回复主天线的位置以回到常态，提升了终端的智能化程度，也保证了用户使用的便捷性和可靠性。Therefore, by restoring the data transmission in the current data transmission mode according to the data transmission status in the current data transmission mode, the position of the main antenna is returned in time to return to the normal state, which improves the intelligence of the terminal and ensures the user. Convenience and reliability of use.

经大量的试验验证，采用本实施例的技术方案，通过在手机检测到USB3.0数据传输时候，自动切换上下天线，将主天线调整到远离USB接口的位置，提升手机接收信号强度，提升通话体验。After a large number of tests and verifications, using the technical solution of this embodiment, when the mobile phone detects USB3.0 data transmission, it automatically switches the upper and lower antennas, adjusts the main antenna to a position far away from the USB interface, and improves the strength of the mobile phone's received signal and calls Experience.

根据本发明的实施例，还提供了对应于终端的通信控制方法的一种终端的通信控制装置。参见图9所示本发明的装置的一实施例的结构示意图。该终端的通信控制装置可以包括：获取单元102和控制单元104。According to an embodiment of the present invention, a communication control device of a terminal corresponding to a communication control method of a terminal is also provided. Refer to FIG. 9 for a schematic structural diagram of an embodiment of the device of the present invention. The communication control device of the terminal may include: an obtaining unit 102 and a control unit 104.

在一个可选例子中，获取单元102，可以用于获取所述终端在当前数据传输方式下的当前信号强度值。该获取单元102的具体功能及处理参见步骤S110。In an optional example, the obtaining unit 102 may be configured to obtain a current signal strength value of the terminal in a current data transmission mode. For the specific function and processing of the obtaining unit 102, refer to step S110.

可选地，所述获取单元102获取所述终端在当前数据传输方式下的当前信号强度值，可以包括以下至少一种获取情形。Optionally, the acquiring unit 102 acquiring the current signal strength value of the terminal in the current data transmission mode may include at least one of the following acquisition scenarios.

第一种获取情形：在数据接口有传输设备***时就获取当前数据传输方式下的当前信号强度值，具体如下：The first acquisition situation: when a transmission device is inserted into the data interface, the current signal strength value in the current data transmission mode is acquired, as follows:

获取单元102，具体还可以用于确定所述终端的当前数据传输方式的数据接口是否有待进行数据传输的传输设备***。该获取单元102的具体功能及处理还参见步骤S210。The obtaining unit 102 may be specifically configured to determine whether a data interface of a current data transmission mode of the terminal needs to be inserted by a transmission device for data transmission. For specific functions and processing of the obtaining unit 102, refer to step S210.

获取单元102，具体还可以用于若所述数据接口有所述待传输设备***，则获取由信号检测模块检测得到的所述终端的所述当前信号强度值。该获取单元102的具体功能及处理还参见步骤S220。The obtaining unit 102 may be specifically configured to obtain the current signal strength value of the terminal detected by the signal detection module if the data interface has the device to be transmitted inserted. For specific functions and processing of the obtaining unit 102, refer to step S220.

第二种获取情形：在当前数据传输方式下进行数据传输时才获取当前数据传输方式下的当前信号强度值，具体如下：The second acquisition situation: the current signal strength value in the current data transmission mode is acquired only when data transmission is performed in the current data transmission mode, as follows:

获取单元102，具体还可以用于确定所述终端是否在所述当前数据传输方式下进行数据传输。该获取单元102的具体功能及处理还参见步骤S310。The obtaining unit 102 may be specifically configured to determine whether the terminal performs data transmission in the current data transmission mode. For specific functions and processes of the obtaining unit 102, refer to step S310.

获取单元102，具体还可以用于若所述终端在所述当前数据传输方式下进行数据传输，则获取由信号检测模块检测得到的所述终端在待机或通话情况下的所述当前信号强度值。具体使用过程中，若所述终端在所述当前数据传输方式下未进行数据传输，则在待机情况下继续待机、或在通话情况下继续通话。该获取单元102的具体功能及处理还参见步骤S320。The obtaining unit 102 may also be specifically configured to obtain the current signal strength value of the terminal detected by the signal detection module in a standby or call situation if the terminal performs data transmission in the current data transmission mode. . In a specific use process, if the terminal does not perform data transmission in the current data transmission mode, the terminal continues to standby in a standby situation, or continues to talk in a conversation situation. For specific functions and processing of the obtaining unit 102, refer to step S320.

例如：例如：判断到手机处于USB3.0传输时候，启动检测判断机制，检测手机待机或者通话情况下的接收信号强度值，如检测手机在GSM900通话情况下，其接收信号强度小于-100dBm，则确认接收信号强度较差，CPU将通过切换手机的上下天线，将主天线通过开关切换到远离USB的上天线位置，减少USB对天线干扰，进而提升手机的RSSI值，减少通话断话及掉话率。For example: For example, when it is determined that the mobile phone is in USB 3.0 transmission, the detection and judgment mechanism is started to detect the received signal strength value when the mobile phone is in standby or during a call. Confirm that the received signal strength is poor. The CPU will switch the upper and lower antennas of the mobile phone, and switch the main antenna to the upper antenna position away from the USB through the switch. rate.

第三种获取情形：在拨打电话或接听电话的情况下才获取当前数据传输方式下的当前信号强度值，具体如下：The third acquisition situation: the current signal strength value under the current data transmission mode is acquired only when a call is made or received, as follows:

获取单元102，具体还可以用于确定所述终端是否发出拨打电话的拨打消息、或是否接收到待接听电话的来电消息。该获取单元102的具体功能及处理还参见步骤S410。The obtaining unit 102 may also be specifically configured to determine whether the terminal sends a dialing message for making a call, or whether it receives an incoming call message for a call to be answered. For specific functions and processes of the obtaining unit 102, refer to step S410.

获取单元102，具体还可以用于若所述终端发出所述拨打消息、或接收所述来电消息，则确定所述终端是否在所述当前数据传输方式下进行数据传输。该获取单元102的具体功能及处理还参见步骤S420。The obtaining unit 102 may be specifically configured to determine whether the terminal transmits data in the current data transmission mode if the terminal sends the dialing message or receives the incoming message. For specific functions and processes of the obtaining unit 102, refer to step S420.

获取单元102，具体还可以用于若所述终端在所述当前数据传输方式下进行数据传输，则获取由信号检测模块检测得到的所述当前信号强度值。具体使用过程中，若所述终端在所述当前数据传输方式下未进行数据传输，则直接进行拨打电话或接听电话的通话。该获取单元102的具体功能及处理还参见步骤S430。The obtaining unit 102 may be specifically configured to obtain the current signal strength value detected by the signal detection module if the terminal performs data transmission in the current data transmission mode. In a specific use process, if the terminal does not perform data transmission in the current data transmission mode, the terminal directly makes a call or receives a call. For specific functions and processing of the obtaining unit 102, refer to step S430.

在一个可选例子中，控制单元104，可以用于确定所述当前信号强度值是否小于或等于所述终端在当前通信制式下的设定阈值。该控制单元104的具体功能及处理参见步骤S120。In an optional example, the control unit 104 may be configured to determine whether the current signal strength value is less than or equal to a set threshold of the terminal under the current communication standard. For specific functions and processes of the control unit 104, refer to step S120.

在一个可选例子中，所述控制单元104，还可以用于若所述当前信号强度值小于或等于所述设定阈值，则将所述终端的主天线由第一设定位置切换至第二设定位置，以将所述当前信号强度值提升至大于所述设定阈值(即将所述当前信号强度值维持在大于所述设定阈值的情况下)。该控制单元104的具体功能及处理还参见步骤S130。In an optional example, the control unit 104 may be further configured to switch the main antenna of the terminal from a first set position to a third set if the current signal strength value is less than or equal to the set threshold. Two set positions to increase the current signal strength value to be greater than the set threshold (ie, to maintain the current signal strength value greater than the set threshold). For specific functions and processing of the control unit 104, refer to step S130.

例如：4G LTE手机时代，手机都会至少设计两个天线，一般主天线在下(靠近USB接口)，一个天线(分集副天线)在手机顶部。主天线包含所有制式(4G/3G/2G)信号发射和接收功能；分集副天线只包含4G的分集接收的功能，无发射功能。分集副天线主要是对4G主集天线的辅助和增强作用，增强手机接收能力。当USB3.0传输时候，可以将底部的主天线切换到手机的顶部，而将原在顶部的分集副天线切换到底部来，这样确保最重要的主天线远离USB接口，远离干扰源，提升2G/3G/4G的信号强度。For example, in the era of 4G LTE mobile phones, mobile phones will be designed with at least two antennas. Generally, the main antenna is below (near the USB interface), and one antenna (diversity secondary antenna) is on the top of the phone. The main antenna includes all standard (4G / 3G / 2G) signal transmission and reception functions; the diversity sub-antenna only includes the 4G diversity reception function, and has no transmission function. The diversity sub-antenna mainly assists and enhances the 4G main-set antenna and enhances the mobile phone's receiving capability. When USB 3.0 is transmitted, the main antenna at the bottom can be switched to the top of the mobile phone, and the diversity sub antenna originally at the top can be switched to the bottom. This ensures that the most important main antenna is far away from the USB interface and away from interference sources, improving 2G / 3G / 4G signal strength.

在一个可选实施方式中，还可以包括：对将所述终端的主天线由第一设定位置切换至第二设定位置之后的当前信号强度值进行继续调整的过程，具体如下：In an optional implementation manner, the method may further include: a process of continuously adjusting the current signal strength value after the terminal ’s main antenna is switched from the first set position to the second set position, as follows:

所述控制单元104，还可以用于在将所述终端的主天线由第一设定位置切换至第二设定位置之后，确定在所述主天线在所述第二设定位置的情况下的当前信号强度值是否仍小于或等于所述设定阈值。该控制单元104的具体功能及处理还参见步骤S510。The control unit 104 may be further configured to determine, when the main antenna of the terminal is switched from the first setting position to the second setting position, that the main antenna is in the second setting position Whether the current signal strength value of is still less than or equal to the set threshold. For specific functions and processes of the control unit 104, refer to step S510.

所述控制单元104，还可以用于若在所述主天线在所述第二设定位置的情况下所述当前信号强度值仍小于或等于所述设定阈值，则降低所述当前数据传输方式的传输速度、或中断所述当前数据传输方式下的数据传输，以实现所述终端在所述当前信号强度值小于或等于所述设定阈值情况下的正常通信。具体使用过程中，若所述主天线在所述第二设定位置的情况下所述当前信号强度值已提升至大于所述设定阈值，则进行所述终端的正常通信。该控制单元104的具体功能及处理还参见步骤S520。The control unit 104 may be further configured to reduce the current data transmission if the current signal strength value is still less than or equal to the set threshold when the main antenna is in the second set position. Transmission speed of the mode, or interrupting data transmission in the current data transmission mode to achieve normal communication of the terminal when the current signal strength value is less than or equal to the set threshold. In a specific use process, if the current signal strength value has been increased to be greater than the set threshold value when the main antenna is in the second set position, the terminal performs normal communication. For specific functions and processes of the control unit 104, refer to step S520.

在一个可选实施方式中，还可以包括：对降低所述当前数据传输方式的传输速度之后的当前信号强度进行继续调整的过程，具体如下：In an optional implementation manner, the method may further include: a process of continuously adjusting the current signal strength after reducing the transmission speed of the current data transmission mode, as follows:

所述控制单元104，还可以用于在降低所述当前数据传输方式的传输速度之后，确定在降低所述当前数据传输方式的传输速度的情况下的当前信号强度值是否仍小于或等于所述设定阈值。该控制单元104的具体功能及处理还参见步骤S610。The control unit 104 may be further configured to determine, after reducing the transmission speed of the current data transmission mode, whether the current signal strength value is still less than or equal to the value when the transmission speed of the current data transmission mode is reduced. Set the threshold. For specific functions and processes of the control unit 104, refer to step S610.

所述控制单元104，还可以用于若在降低所述当前数据传输方式的传输速度的情况下所述当前信号强度值仍小于或等于所述设定阈值，则中断所述当前数据传输方式下的数据传输。该控制单元104的具体功能及处理还参见步骤S620。The control unit 104 may be further configured to interrupt the current data transmission mode if the current signal strength value is still less than or equal to the set threshold when the transmission speed of the current data transmission mode is reduced. Data transmission. For specific functions and processes of the control unit 104, refer to step S620.

在一个可选实施方式中，还可以包括：在降低所述当前数据传输方式的传输速度、或中断所述当前数据传输方式下的数据传输的情况下根据当前通话情况调整当前数据传输方式下的数据传输的过程，具体如下：In an optional implementation manner, the method may further include: adjusting a current data transmission mode according to a current call condition in a case of reducing a transmission speed of the current data transmission mode or interrupting data transmission in the current data transmission mode. The process of data transmission is as follows:

所述控制单元104，还可以用于在降低所述当前数据传输方式的传输速度、或中断所述当前数据传输方式下的数据传输之后，确定所述终端的当前通话是否已结束。该控制单元104的具体功能及处理还参见步骤S710。The control unit 104 may be further configured to determine whether the current call of the terminal has ended after reducing the transmission speed of the current data transmission mode or interrupting data transmission in the current data transmission mode. For specific functions and processes of the control unit 104, refer to step S710.

所述控制单元104，还可以用于若所述当前通话已结束，则在已降低所述当前数据传输方式的传输速度的情况下恢复所述当前数据传输方式的传输速度、或在已中断所述当前数据传输方式下的数据传输的情况下恢复所述当前数据传输方式下的数据传输。具体使用过程中，若所述当前通话未结束，则保持已降低所述当前数据传输方式的传输速度、或已中断所述当前数据传输方式下的数据传输的状态。该控制单元104的具体功能及处理还参见步骤S720。The control unit 104 may be further configured to restore the transmission speed of the current data transmission mode if the current call has ended, or the transmission speed of the current data transmission mode has been reduced, or In the case of data transmission in the current data transmission mode, data transmission in the current data transmission mode is resumed. In a specific use process, if the current call is not ended, a state in which the transmission speed of the current data transmission mode has been reduced or data transmission in the current data transmission mode has been interrupted is maintained. For specific functions and processes of the control unit 104, refer to step S720.

在一个可选实施方式中，还可以包括：在已恢复所述当前数据传输方式的传输速度、或已恢复所述当前数据传输方式下的数据传输的情况下根据当前数据传输方式下的数据传输情况调整主天线位置的过程，具体如下：In an optional implementation manner, the method may further include: according to the data transmission in the current data transmission mode when the transmission speed of the current data transmission mode is restored or the data transmission in the current data transmission mode is resumed. The process of adjusting the position of the main antenna is as follows:

所述控制单元104，还可以用于在已恢复所述当前数据传输方式的传输速度、或已恢复所述当前数据传输方式下的数据传输的情况下，确定所述当前数据传输方式下的数据传输是否已传输完毕。该控制单元104的具体功能及处理还参见步骤S810。The control unit 104 may be further configured to determine data in the current data transmission mode when the transmission speed of the current data transmission mode has been restored or data transmission in the current data transmission mode has been resumed. Whether the transfer is complete. For specific functions and processes of the control unit 104, refer to step S810.

所述控制单元104，还可以用于若所述当前数据传输方式下的数据传输已传输完毕，则将所述终端的主天线由第二设定位置恢复至第一设定位置。具体使用过程中，若所述当前数据传输方式下的数据传输未传输完毕，则继续进行所述当前数据传输方式下的数据传输。该控制单元104的具体功能及处理还参见步骤S820。The control unit 104 may be further configured to restore the main antenna of the terminal from the second set position to the first set position if data transmission in the current data transmission mode has been completed. During specific use, if data transmission in the current data transmission mode is not completed, data transmission in the current data transmission mode is continued. For specific functions and processes of the control unit 104, refer to step S820.

例如：手机检测到USB3.0数据传输时候，自动切换上下天线，将主天线调整到远离USB接口的位置，提升手机接收信号强度，提升通话体验。同时，如果依旧干扰过大，超出手机各种制式预设的阀值，此时还可以自动降低USB 传输制式，将USB3.0降低为USB2.0传输；或者直接关闭USB传输，待通话完成后，再自动恢复USB传输。待USB传输完成，手机自动恢复到天线初始的状态。For example, when the mobile phone detects USB3.0 data transmission, it automatically switches the upper and lower antennas, adjusts the main antenna to a position far away from the USB interface, and improves the strength of the signal received by the mobile phone and the calling experience. At the same time, if the interference is still too large and exceeds the preset thresholds of various mobile phone standards, you can also automatically reduce the USB transmission standard and reduce USB 3.0 to USB 2.0 transmission; or directly turn off USB transmission and wait for the call to complete , And then resume USB transfer automatically. After the USB transfer is completed, the phone automatically returns to the initial state of the antenna.

由于本实施例的装置所实现的处理及功能基本相应于前述图1至图8所示的方法的实施例、原理和实例，故本实施例的描述中未详尽之处，可以参见前述实施例中的相关说明，在此不做赘述。Since the processing and functions implemented by the device of this embodiment basically correspond to the embodiments, principles, and examples of the methods shown in FIG. 1 to FIG. 8 described above, the description of this embodiment is not exhaustive, and reference may be made to the foregoing embodiments. Relevant descriptions in the description will not be repeated here.

经大量的试验验证，采用本发明的技术方案，通过在将主天线调整到远离USB接口的位置之后，如果依旧干扰过大，还可以自动降低或者关闭USB传输，待通话完成后，自动恢复USB传输及自动恢复天线初始的状态，保证了通话可靠性，也保证了数据传输的完整性。After a large number of tests and verifications, by using the technical solution of the present invention, after adjusting the main antenna to a position far away from the USB interface, if the interference is still too large, the USB transmission can also be automatically reduced or turned off. After the call is completed, the USB is automatically restored. Transmission and automatic restoration of the initial state of the antenna ensure the reliability of the call and the integrity of the data transmission.

根据本发明的实施例，还提供了对应于终端的通信控制装置的一种终端。该终端可以包括：以上所述的终端的通信控制装置。According to an embodiment of the present invention, a terminal corresponding to a communication control device of the terminal is also provided. The terminal may include: the communication control device of the terminal described above.

在一个可选实施方式中，本发明的方案，提出一种手机应对USB3.0数据传输干扰的调整机制，该调整机制判断到手机处于USB3.0传输时候，此时启动检测机制，检测手机在待机情况下的接收信号强度值，如果确认接收信号强度很差，将启动如下的切换机制确保接收信号强度值维持在较好的值。In an optional embodiment, the solution of the present invention proposes an adjustment mechanism for a mobile phone to respond to USB 3.0 data transmission interference. The adjustment mechanism determines that when the mobile phone is in USB 3.0 transmission, a detection mechanism is activated at this time to detect that the mobile phone is in The received signal strength value in the standby state. If it is confirmed that the received signal strength is poor, the following switching mechanism will be activated to ensure that the received signal strength value is maintained at a good value.

可选地，可以切换手机的上下天线，将主天线通过开关切换到远离USB的上天线位置，减少USB对天线干扰。Optionally, the upper and lower antennas of the mobile phone can be switched, and the main antenna can be switched to the upper antenna position far from the USB through the switch, thereby reducing the interference of the USB to the antenna.

进一步地，如果干扰依旧较大，将USB3.0的数据传输改成USB2.0的数据传输，降低USB传输速率，减少USB传输的干扰，减少通话断续断话，提升用户对通话的体验。Further, if the interference is still large, change the USB 3.0 data transmission to the USB 2.0 data transmission, reduce the USB transmission rate, reduce the interference of USB transmission, reduce intermittent calls, and improve the user's experience on the call.

在一个可选具体例子中，下面结合图10对本发明的方案的效果进行对比说明。In an optional specific example, the effect of the solution of the present invention will be described in comparison with FIG. 10 below.

具体地，手机USB3.0传输的速率高达5Gbit/s，其数据频谱覆盖范围极广，将USB3.0的数据传输建模成周期信号的传输，其傅里叶变换将可以表示成正弦函数，其傅里叶变换后频率覆盖如图10所示。图10中横轴是频率，纵轴是 USB3.0传输的信号强度，其USB3.0传输傅里叶展开后就是许多正弦函数(Sinc function of USB3data rate)的叠加和延生，如图10所示。Specifically, the USB 3.0 transmission rate of mobile phones is as high as 5 Gbit / s, and its data spectrum coverage is extremely wide. The data transmission of USB 3.0 is modeled as the transmission of periodic signals, and its Fourier transform can be expressed as a sine function. The frequency coverage after the Fourier transform is shown in Figure 10. In Fig. 10, the horizontal axis is the frequency, and the vertical axis is the signal strength of USB3.0 transmission. After the Fourier expansion of the USB3.0 transmission is the superposition and extension of many sine functions (USB3data rate), as shown in Figure 10 .

从图10中得出，USB3.0传输其单主波范围就覆盖了5GHz频率，谐波可以到几十GHz的范围，远超和覆盖现今手机4G信号范围(700MHz-2.7GHz)。这些信号，对手机的天线都存在巨大的干扰，当USB接口靠近手机的主天线(USB接口和手机主天线在结构上都靠的比较近)，将直接造成手机接收信号强度大幅恶化，将直接造成手机的信号变差，断话掉话等现象出现。It can be concluded from Figure 10 that the single main wave range of USB 3.0 transmission covers the 5 GHz frequency, and the harmonics can reach the range of tens of GHz, far exceeding and covering the current 4G signal range of mobile phones (700MHz-2.7GHz). These signals have huge interference to the antenna of the mobile phone. When the USB interface is close to the main antenna of the mobile phone (the USB interface and the main antenna of the mobile phone are relatively close in structure), it will directly cause the strength of the mobile phone's received signal to deteriorate significantly and will directly Causes the mobile phone's signal to deteriorate, and dropped calls and dropped calls.

在面对图10显示的这种情况时，设计干扰调整机制，判断到手机处于USB3.0传输时候，启动检测判断机制，检测手机待机或者通话情况下的接收信号强度值，如检测手机在GSM900通话情况下，其接收信号强度小于-100dBm，则确认接收信号强度较差，CPU将通过切换手机的上下天线，将主天线通过开关切换到远离USB的上天线位置，减少USB对天线干扰，进而提升手机的RSSI值，减少通话断话及掉话率。同样，其他的制式，如CDMA、WCDMA或者LTE的通信制式下，只要判定在***USB的时候接收信号强度较差，就启动手机上下天线切换机制。In the face of this situation shown in Figure 10, design an interference adjustment mechanism to determine when the mobile phone is in USB 3.0 transmission, start the detection judgment mechanism to detect the received signal strength value when the mobile phone is in standby or during a call, such as detecting the mobile phone in GSM900 In the case of a call, if the received signal strength is less than -100dBm, it is confirmed that the received signal strength is poor. The CPU will switch the upper and lower antennas of the mobile phone and switch the main antenna to a position away from the upper antenna of the USB through the switch, thereby reducing the interference of the USB to the antenna. Increase the RSSI value of mobile phones to reduce the rate of dropped calls and dropped calls. Similarly, under other systems, such as CDMA, WCDMA, or LTE communication systems, as long as it is determined that the received signal strength is poor when the USB is inserted, the mobile phone's upper and lower antenna switching mechanism is activated.

在一个可选具体例子中，下面结合图11对本发明的方案的原理进行具体说明。In an optional specific example, the principle of the solution of the present invention is specifically described below with reference to FIG. 11.

可选地，切换上下天线的原理和操作可以如下：Optionally, the principle and operation of switching the upper and lower antennas can be as follows:

4G LTE手机时代，手机都会至少设计两个天线，一般主天线在下(靠近USB接口)，一个天线(分集副天线)在手机顶部。主天线包含所有制式(4G/3G/2G)信号发射和接收功能；分集副天线只包含4G的分集接收的功能，无发射功能。分集副天线主要是对4G主集天线的辅助和增强作用，增强手机接收能力。In the 4G LTE mobile phone era, mobile phones will be designed with at least two antennas. Generally, the main antenna is below (near the USB interface), and one antenna (diversity secondary antenna) is on the top of the phone. The main antenna includes all standard (4G / 3G / 2G) signal transmission and reception functions; the diversity sub-antenna only includes the 4G diversity reception function, and has no transmission function. The diversity sub-antenna mainly assists and enhances the 4G main-set antenna and enhances the mobile phone's receiving capability.

当USB3.0传输时候，可以将底部的主天线切换到手机的顶部，而将原在顶部的分集副天线切换到底部来，这样确保最重要的主天线远离USB接口，远离干扰源，提升2G/3G/4G的信号强度。When USB 3.0 is transmitted, the main antenna at the bottom can be switched to the top of the mobile phone, and the diversity sub antenna originally at the top can be switched to the bottom. This ensures that the most important main antenna is far away from the USB interface and away from interference sources, improving 2G / 3G / 4G signal strength.

可选地，上下天线切换原理示意图如图11所示，见切换开关SWITCH处。Optionally, a schematic diagram of the switching principle of the upper and lower antennas is shown in FIG. 11, and is shown at a switch SWITCH.

在图11中，手机分别设计了上下两个天线，其均可以接收2G/3G/4G信号，大部分时间手机会使用其中一个信号较好的天线作为主天线，比如使用手机下天线作为主天线。In Figure 11, the mobile phone is designed with two antennas, each of which can receive 2G / 3G / 4G signals. Most of the time, the mobile phone will use one of the antennas with a better signal as the main antenna. .

具体地，天线切换开关的作用主要就是切换上下天线使用，比如将手机的上天线切换成主天线，手机的下天线切换成分集副天线。双工器的作用是让手机的发射和接收信号同时工作并包含滤除干扰信号功能。滤波器的作用就是滤除干扰信号。射频收发器就是将手机的基带发射信号上变频到射频信号，使得易于发射；同时接收射频信号，将其下变频到基带接收信号，进而易于信号处理。基带信号处理器就是对发射和接收基带信号进行数字信号处理，转换出音频和数据信号出来。Specifically, the role of the antenna switch is to switch the use of the upper and lower antennas, for example, the upper antenna of the mobile phone is switched to the main antenna, and the lower antenna of the mobile phone is switched to the sub-antenna. The function of the duplexer is to make the transmitting and receiving signals of the mobile phone work at the same time and include the function of filtering out interference signals. The function of the filter is to filter out interference signals. The radio frequency transceiver is to up-convert the baseband transmission signal of the mobile phone to the radio frequency signal, so that it is easy to transmit; at the same time, the radio frequency signal is received, and it is down-converted to the baseband reception signal to facilitate signal processing. The baseband signal processor is to perform digital signal processing on the transmitted and received baseband signals, and convert the audio and data signals.

从图11中显示的技术与现有的技术对比可知，图11最大的改进就是增加了天线切换开关，其可以通过软件，根据上下天线接收到信号强度的不同，动态调整手机的主天线和分集副天线；使得手机的主天线可以根据信号强度来动态使用上下天线，使得主天线始终处于信号最佳的状态。As can be seen from the comparison between the technology shown in FIG. 11 and the existing technology, the biggest improvement in FIG. 11 is the addition of an antenna switch. The software can dynamically adjust the main antenna and diversity of the mobile phone according to the difference in signal strength received by the upper and lower antennas. Secondary antenna; the main antenna of the mobile phone can dynamically use the upper and lower antennas according to the signal strength, so that the main antenna is always in the best signal state.

在一个可选具体例子中，当在USB3.0传输时候，手机实时检测上下天线的信号强度，如果下天线受USB3.0干扰传输很大，则手机软件切换手机上下天线，使得主天线切换到手机上天线，保证手机的发射和接收尽量最佳；如此操作之后，如果依旧发现手机的接收信号强度还是比较差，低于设定的阀值，如GSM900通话情况下，发现及时切换上下天线后，其接收信号强度依旧小于-100dBm，此时通过软件预判，直接向主控CPU申请将USB3.0的传输调整为USB2.0数据传输，USB2.0的传输速率为480Mbps，其傅里叶变换后主波频率在480MHz左右，此频率已经远低于手机通信发射接收频率，其USB2.0辐射主波将不会再落入手机通信的频率内，其对手机的通信的干扰将大幅度降低，此操作将进一步提升手机接收信号强度，并改善手机的发射性能，提升通话、待机及使用体验。In an optional specific example, when transmitting in USB 3.0, the mobile phone detects the signal strength of the upper and lower antennas in real time. If the lower antenna is greatly affected by USB 3.0 transmission, the mobile phone software switches the upper and lower antennas of the mobile phone so that the main antenna is switched to The antenna on the mobile phone ensures the best transmission and reception of the mobile phone. After doing this, if you still find that the strength of the received signal of the mobile phone is still relatively poor, lower than the set threshold, such as in the case of a GSM900 call, after switching in time , Its received signal strength is still less than -100dBm, at this time through software pre-judgment, directly apply to the main control CPU to adjust the USB3.0 transmission to USB2.0 data transmission, the transmission rate of USB2.0 is 480Mbps, its Fourier The frequency of the main wave after conversion is about 480MHz, which is far lower than the transmitting and receiving frequency of mobile phone communication. Its USB2.0 radiation main wave will no longer fall into the frequency of mobile phone communication, and its interference with mobile phone communication will be greatly Decrease, this operation will further improve the strength of the mobile phone's received signal, improve the mobile phone's transmission performance, and improve the call, standby and use experience.

在一个可选具体例子中，USB3.0传输一旦完成，手机检测到其完成状态，此时手机经过判断，将直接使主天线从上天线切换到下天线，切回开始天线状态，回到没有USB3.0传输的手机天线待机和通话的状态。In an optional specific example, once the USB 3.0 transmission is completed, the mobile phone detects its completion status. At this time, after the mobile phone judges, it will directly switch the main antenna from the upper antenna to the lower antenna, switch back to the starting antenna state, and return to no USB3.0 transmission of the mobile phone antenna standby and call status.

在一个可选例子中，本发明的方案，提出了手机检测到USB3.0数据传输时候，自动切换上下天线，将主天线调整到远离USB接口的位置，提升手机接收信号强度，提升通话体验。同时，如果依旧干扰过大，还可以自动降低或者关闭USB传输，待通话完成后，自动恢复USB传输及自动恢复天线初始的状态。In an optional example, the solution of the present invention proposes that when the mobile phone detects USB 3.0 data transmission, it automatically switches the upper and lower antennas, adjusts the main antenna to a position far from the USB interface, improves the signal strength of the mobile phone, and improves the call experience. At the same time, if the interference is still too large, the USB transmission can also be automatically reduced or turned off. After the call is completed, the USB transmission is automatically restored and the initial state of the antenna is automatically restored.

可选地，本发明的方案，提出了手机检测到USB3.0数据传输时候，自动切换上下天线，将主天线调整到远离USB接口的位置，提升手机接收信号强度，提升通话体验。同时，如果依旧干扰过大，超出手机各种制式预设的阀值，此时还可以自动降低USB传输制式，将USB3.0降低为USB2.0传输；或者直接关闭USB传输，待通话完成后，再自动恢复USB传输。待USB传输完成，手机自动恢复到天线初始的状态。Optionally, the solution of the present invention proposes that when the mobile phone detects USB 3.0 data transmission, it automatically switches the upper and lower antennas, adjusts the main antenna to a position far from the USB interface, improves the strength of the signal received by the mobile phone, and improves the call experience. At the same time, if the interference is still too large and exceeds the preset thresholds of various mobile phone standards, you can also automatically reduce the USB transmission standard and reduce USB 3.0 to USB 2.0 transmission; or directly turn off USB transmission and wait for the call to complete , And then resume USB transfer automatically. After the USB transfer is completed, the phone automatically returns to the initial state of the antenna.

在一个可选具体实施方式中，可以结合图12所示的例子，对本发明的方案的具体实现过程进行示例性说明。In an optional specific implementation manner, the specific implementation process of the solution of the present invention may be exemplarily described in combination with the example shown in FIG. 12.

在一个可选具体例子中，本发明的方案的整个流程如图12所示，具体的实现过程可以包括：In an optional specific example, the entire process of the solution of the present invention is shown in FIG. 12, and the specific implementation process may include:

步骤1、当手机拨打电话或者有来电的时候，立马通过CPU检测，USB3.0是否正在数据传输；如果没有USB3.0传输，则直接进行接听或者拨打电话操作；如果有USB3.0传输，则执行步骤2。 Step 1. When the mobile phone makes a call or there is an incoming call, the CPU immediately checks whether the USB 3.0 is transmitting data; if there is no USB 3.0 transmission, it directly answers or dials the phone; if there is a USB 3.0 transmission, then Go to step 2.

步骤2、若有USB3.0在传输，此时CPU通过射频前端电路，检测手机的接收信号强度RSSI值，如果值较差，则立马进行上下天线的切换。之后可以选择性地执行步骤3。Step 2. If there is USB 3.0 transmission, the CPU detects the RSSI value of the received signal strength of the mobile phone through the RF front-end circuit. If the value is poor, the antenna is immediately switched. You can optionally perform step 3.

步骤3、切换上下天线后，此时再次检测手机的接收信号强度RSSI值，如果RSSI的值此时较为OK，比我们预设定的阀值要大，那么直接开始手机的拨打和接听操作；否则执行步骤4。Step 3: After switching the upper and lower antennas, the RSSI value of the received signal strength of the mobile phone is detected again at this time. If the RSSI value is relatively OK at this time, which is greater than our preset threshold, then directly start the call and answer operations of the mobile phone; Otherwise, go to step 4.

步骤4、如果切换上下天线后，RSSI值比预设定的阀值小，那么此时，CPU将直接保存USB3.0存储的上下文，直接中断USB3.0的传输，然后手机开始拨打和接听电话，保证手机的通话功能不断续及通话不断话。之后可以选择性地执行步骤5。Step 4. If the RSSI value is smaller than the preset threshold after switching the upper and lower antennas, then the CPU will directly save the USB 3.0 storage context, directly interrupt the USB 3.0 transmission, and then the mobile phone will start making and receiving calls. To ensure that the phone's call function continues and the call keeps talking. You can optionally perform step 5.

步骤5、通话完成后，CPU将从USB3.0断开的上下文开始，重新恢复USB3.0的数据传输。之后可以选择性地执行步骤6。Step 5. After the call is completed, the CPU resumes data transfer from USB 3.0 starting from the context where USB 3.0 was disconnected. You can optionally perform step 6.

步骤6、USB3.0数据传输完成后，手机上下天线到初始状态。Step 6. After the USB 3.0 data transmission is completed, the mobile phone's upper and lower antennas are in an initial state.

步骤7、至此，整个USB3.0传输时候通话过程完成。Step 7. At this point, the call process is complete during the entire USB 3.0 transmission.

由于本实施例的终端所实现的处理及功能基本相应于前述图9所示的装置的实施例、原理和实例，故本实施例的描述中未详尽之处，可以参见前述实施例中的相关说明，在此不做赘述。Since the processing and functions implemented by the terminal in this embodiment basically correspond to the embodiments, principles, and examples of the apparatus shown in FIG. 9 described above, the description of this embodiment is not exhaustive, and reference may be made to relevant information in the foregoing embodiments. The description will not be repeated here.

经大量的试验验证，采用本发明的技术方案，通过在切换上下天线后，其接收信号强度依旧小于设定阈值时，直接向主控CPU申请将USB3.0的传输调整为USB2.0数据传输，对手机的通信的干扰将大幅度降低，可以进一步提升手机接收信号强度，并改善手机的发射性能，提升通话、待机及使用体验。After a large number of tests and verifications, using the technical solution of the present invention, after switching the upper and lower antennas, when the received signal strength is still less than the set threshold, directly apply to the main control CPU to adjust the USB3.0 transmission to USB2.0 data transmission. , The interference to the communication of the mobile phone will be greatly reduced, which can further improve the strength of the signal received by the mobile phone, improve the transmission performance of the mobile phone, and improve the calling, standby and use experience.

根据本发明的实施例，还提供了对应于终端的通信控制方法的一种存储介质。该存储介质，可以包括：所述存储介质中存储有多条指令；所述多条指令，用于由处理器加载并执行以上所述的终端的通信控制方法。According to an embodiment of the present invention, a storage medium corresponding to a communication control method of a terminal is also provided. The storage medium may include: a plurality of instructions are stored in the storage medium; and the plurality of instructions are used by a processor to load and execute the communication control method of the terminal described above.

由于本实施例的存储介质所实现的处理及功能基本相应于前述图1至图8所示的方法的实施例、原理和实例，故本实施例的描述中未详尽之处，可以参见前述实施例中的相关说明，在此不做赘述。Since the processing and functions implemented by the storage medium of this embodiment basically correspond to the embodiments, principles, and examples of the methods shown in FIG. 1 to FIG. 8 described above, the description of this embodiment is not exhaustive, and reference may be made to the foregoing implementation. The relevant descriptions in the examples are not repeated here.

经大量的试验验证，采用本发明的技术方案，通过判断到手机处于USB3.0传输时候，此时启动检测机制，检测手机在待机情况下的接收信号强度值，如果确认接收信号强度很差，切换手机的上下天线，将主天线通过开关切换到远离USB的上天线位置，减少USB对天线干扰，提升了接收信号的信噪比，也提升了通信可靠性。After a large number of tests and verifications, using the technical solution of the present invention, when it is determined that the mobile phone is in USB 3.0 transmission, a detection mechanism is activated at this time to detect the received signal strength value of the mobile phone in the standby state. If it is confirmed that the received signal strength is very poor, Switch the upper and lower antennas of the mobile phone, and switch the main antenna to the upper antenna position far away from the USB through the switch, which reduces the interference of the USB to the antenna, improves the signal-to-noise ratio of the received signal, and improves the communication reliability.

根据本发明的实施例，还提供了对应于终端的通信控制方法的一种终端。该终端，可以包括：处理器，用于执行多条指令；存储器，用于存储多条指令；其中，所述多条指令，用于由所述存储器存储，并由所述处理器加载并执行以上所述的终端的通信控制方法。According to an embodiment of the present invention, a terminal corresponding to a communication control method of the terminal is also provided. The terminal may include: a processor configured to execute multiple instructions; a memory configured to store multiple instructions; wherein the multiple instructions are configured to be stored by the memory and loaded and executed by the processor; The communication control method of the terminal described above.

由于本实施例的终端所实现的处理及功能基本相应于前述图1至图8所示的方法的实施例、原理和实例，故本实施例的描述中未详尽之处，可以参见前述实施例中的相关说明，在此不做赘述。Since the processing and functions implemented by the terminal in this embodiment basically correspond to the foregoing embodiments, principles, and examples of the methods shown in FIG. 1 to FIG. 8, the description of this embodiment is not exhaustive, and reference may be made to the foregoing embodiments. Relevant descriptions in the description will not be repeated here.

经大量的试验验证，采用本发明的技术方案，通过在切换手机的上下天线之后，如果干扰依旧较大，将USB3.0的数据传输改成USB2.0的数据传输，降低USB传输速率，减少USB传输的干扰，减少通话断续断话，提升通话效果，也提升用户对通话的体验。After a large number of tests and verifications, using the technical solution of the present invention, after switching the upper and lower antennas of the mobile phone, if the interference is still large, the USB 3.0 data transmission is changed to the USB 2.0 data transmission to reduce the USB transmission rate and reduce The interference of USB transmission reduces the intermittent call interruption, improves the call effect, and also improves the user experience on the call.

综上，本领域技术人员容易理解的是，在不冲突的前提下，上述各有利方式可以自由地组合、叠加。In summary, those skilled in the art can easily understand that, under the premise of no conflict, the above-mentioned advantageous methods can be freely combined and superimposed.

以上所述仅为本发明的实施例而已，并不用于限制本发明，对于本领域的技术人员来说，本发明可以有各种更改和变化。凡在本发明的精神和原则之内，所作的任何修改、等同替换、改进等，均应包含在本发明的权利要求范围之内。The above description is only an embodiment of the present invention and is not intended to limit the present invention. For those skilled in the art, the present invention may have various modifications and changes. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention shall be included in the scope of the claims of the present invention.

Claims

一种终端的通信控制方法，其特征在于，包括：A communication control method for a terminal, comprising:

获取所述终端在当前数据传输方式下的当前信号强度值；Acquiring the current signal strength value of the terminal in the current data transmission mode;

确定所述当前信号强度值是否小于或等于所述终端在当前通信制式下的设定阈值；Determining whether the current signal strength value is less than or equal to a set threshold of the terminal under the current communication standard;

若所述当前信号强度值小于或等于所述设定阈值，则将所述终端的主天线由第一设定位置切换至第二设定位置，以将所述当前信号强度值提升至大于所述设定阈值。If the current signal strength value is less than or equal to the set threshold, switching the main antenna of the terminal from a first set position to a second set position to increase the current signal strength value to be greater than The setting threshold is described below.
根据权利要求1所述的方法，其特征在于，获取所述终端在当前数据传输方式下的当前信号强度值，包括：The method according to claim 1, wherein obtaining the current signal strength value of the terminal in the current data transmission mode comprises:

确定所述终端的当前数据传输方式的数据接口是否有待进行数据传输的传输设备***；Determining whether a data interface of a current data transmission mode of the terminal needs to be inserted by a transmission device for data transmission;

若所述数据接口有所述待传输设备***，则获取由信号检测模块检测得到的所述终端的所述当前信号强度值；If the device to be transmitted is inserted into the data interface, obtaining the current signal strength value of the terminal detected by the signal detection module;

或者，or,

确定所述终端是否在所述当前数据传输方式下进行数据传输；Determining whether the terminal is performing data transmission in the current data transmission mode;

若所述终端在所述当前数据传输方式下进行数据传输，则获取由信号检测模块检测得到的所述终端在待机或通话情况下的所述当前信号强度值；If the terminal performs data transmission in the current data transmission mode, obtaining the current signal strength value of the terminal detected by the signal detection module in a standby or call situation;

或者，or,

确定所述终端是否发出拨打电话的拨打消息、或是否接收到待接听电话的来电消息；Determining whether the terminal sends a dialing message for dialing a phone call, or whether it receives an incoming call message for a phone call to be answered;

若所述终端发出所述拨打消息、或接收所述来电消息，则确定所述终端是否在所述当前数据传输方式下进行数据传输；If the terminal sends the dial message or receives the incoming message, determining whether the terminal performs data transmission in the current data transmission mode;

若所述终端在所述当前数据传输方式下进行数据传输，则获取由信号检测模块检测得到的所述当前信号强度值。If the terminal performs data transmission in the current data transmission mode, the terminal obtains the current signal strength value detected by the signal detection module.
根据权利要求1或2所述的方法，其特征在于，还包括：The method according to claim 1 or 2, further comprising:

确定在所述主天线在所述第二设定位置的情况下的当前信号强度值是否仍小于或等于所述设定阈值；Determining whether the current signal strength value when the main antenna is in the second set position is still less than or equal to the set threshold;

若在所述主天线在所述第二设定位置的情况下所述当前信号强度值仍小于或等于所述设定阈值，则降低所述当前数据传输方式的传输速度、或中断所述当前数据传输方式下的数据传输，以实现所述终端的正常通信。If the current signal strength value is still less than or equal to the set threshold when the main antenna is in the second set position, reducing the transmission speed of the current data transmission mode, or interrupting the current Data transmission in a data transmission mode to achieve normal communication of the terminal.
根据权利要求3所述的方法，其特征在于，还包括：The method according to claim 3, further comprising:

确定在降低所述当前数据传输方式的传输速度的情况下的当前信号强度值是否仍小于或等于所述设定阈值；Determining whether the current signal strength value is still less than or equal to the set threshold when the transmission speed of the current data transmission mode is reduced;

若在降低所述当前数据传输方式的传输速度的情况下所述当前信号强度值仍小于或等于所述设定阈值，则中断所述当前数据传输方式下的数据传输。If the current signal strength value is still less than or equal to the set threshold when the transmission speed of the current data transmission mode is reduced, the data transmission in the current data transmission mode is interrupted.
根据权利要求3或4所述的方法，其特征在于，还包括：The method according to claim 3 or 4, further comprising:

确定所述终端的当前通话是否已结束；Determining whether the current call of the terminal has ended;

若所述当前通话已结束，则在已降低所述当前数据传输方式的传输速度的情况下恢复所述当前数据传输方式的传输速度、或在已中断所述当前数据传输方式下的数据传输的情况下恢复所述当前数据传输方式下的数据传输。If the current call has ended, the transmission speed of the current data transmission mode is restored if the transmission speed of the current data transmission mode has been reduced, or the data transmission in the current data transmission mode has been interrupted. In the case, data transmission in the current data transmission mode is resumed.
根据权利要求5所述的方法，其特征在于，还包括：The method according to claim 5, further comprising:

确定所述当前数据传输方式下的数据传输是否已传输完毕；Determining whether data transmission in the current data transmission mode has been completed;

若所述当前数据传输方式下的数据传输已传输完毕，则将所述终端的主天线由第二设定位置恢复至第一设定位置。If the data transmission in the current data transmission mode has been completed, the main antenna of the terminal is restored from the second set position to the first set position.
根据权利要求1-6之一所述的方法，其特征在于，其中，The method according to any one of claims 1-6, wherein,

所述当前数据传输方式，包括：USB3.0；The current data transmission method includes: USB 3.0;

和/或，and / or,

所述当前信号强度值，包括：接收信号的当前强度值、和/或发送信号的当前强度值；The current signal strength value includes a current strength value of a received signal and / or a current strength value of a transmitted signal;

和/或，and / or,

所述第一设定位置，包括：所述终端的主天线在所述终端上的设置位置；所述第二设定位置，包括：所述终端的分集副天线在所述终端上的设置位置；The first setting position includes a setting position of a main antenna of the terminal on the terminal, and the second setting position includes a setting position of a diversity sub antenna of the terminal on the terminal. ;

和/或，and / or,

所述当前数据传输方式的数据接口与所述第一设定位置之间的第一距离，小于所述数据接口与所述第二设定位置之间的第二距离；A first distance between the data interface of the current data transmission mode and the first set position is smaller than a second distance between the data interface and the second set position;

和/或，and / or,

通过天线切换开关，实现所述主天线的第一设定位置和第二设定位置之间的切换。The antenna switching switch is used to switch between the first setting position and the second setting position of the main antenna.
一种终端的通信控制装置，其特征在于，包括：A communication control device for a terminal, comprising:

获取单元，用于获取所述终端在当前数据传输方式下的当前信号强度值；An obtaining unit, configured to obtain a current signal strength value of the terminal in a current data transmission mode;

控制单元，用于确定所述当前信号强度值是否小于或等于所述终端在当前通信制式下的设定阈值；A control unit, configured to determine whether the current signal strength value is less than or equal to a set threshold of the terminal under the current communication standard;

所述控制单元，还用于若所述当前信号强度值小于或等于所述设定阈值，则将所述终端的主天线由第一设定位置切换至第二设定位置，以将所述当前信号强度值提升至大于所述设定阈值。The control unit is further configured to switch the main antenna of the terminal from a first set position to a second set position if the current signal strength value is less than or equal to the set threshold, so as to change the The current signal strength value is increased to be greater than the set threshold.
根据权利要求8所述的装置，其特征在于，所述获取单元获取所述终端在当前数据传输方式下的当前信号强度值，包括：The device according to claim 8, wherein the obtaining unit obtains a current signal strength value of the terminal in a current data transmission mode, comprising:

确定所述终端的当前数据传输方式的数据接口是否有待进行数据传输的传输设备***；Determining whether a data interface of a current data transmission mode of the terminal needs to be inserted by a transmission device for data transmission;

若所述数据接口有所述待传输设备***，则获取由信号检测模块检测得到的所述终端的所述当前信号强度值；If the device to be transmitted is inserted into the data interface, obtaining the current signal strength value of the terminal detected by the signal detection module;

或者，or,

确定所述终端是否在所述当前数据传输方式下进行数据传输；Determining whether the terminal is performing data transmission in the current data transmission mode;

若所述终端在所述当前数据传输方式下进行数据传输，则获取由信号检测模块检测得到的所述终端在待机或通话情况下的所述当前信号强度值；If the terminal performs data transmission in the current data transmission mode, obtaining the current signal strength value of the terminal detected by the signal detection module in a standby or call situation;

或者，or,

确定所述终端是否发出拨打电话的拨打消息、或是否接收到待接听电话的来电消息；Determining whether the terminal sends a dialing message for dialing a phone call, or whether it receives an incoming call message for a phone call to be answered;

若所述终端发出所述拨打消息、或接收所述来电消息，则确定所述终端是否在所述当前数据传输方式下进行数据传输；If the terminal sends the dial message or receives the incoming message, determining whether the terminal performs data transmission in the current data transmission mode;

若所述终端在所述当前数据传输方式下进行数据传输，则获取由信号检测模块检测得到的所述当前信号强度值。If the terminal performs data transmission in the current data transmission mode, the terminal obtains the current signal strength value detected by the signal detection module.
根据权利要求8或9所述的装置，其特征在于，还包括：The device according to claim 8 or 9, further comprising:

所述控制单元，还用于确定在所述主天线在所述第二设定位置的情况下的当前信号强度值是否仍小于或等于所述设定阈值；The control unit is further configured to determine whether a current signal strength value is still less than or equal to the set threshold when the main antenna is in the second set position;

所述控制单元，还用于若在所述主天线在所述第二设定位置的情况下所述当前信号强度值仍小于或等于所述设定阈值，则降低所述当前数据传输方式的传输速度、或中断所述当前数据传输方式下的数据传输，以实现所述终端的正常通信。The control unit is further configured to reduce the current data transmission mode if the current signal strength value is still less than or equal to the set threshold when the main antenna is in the second set position. Transmission speed, or interrupting data transmission in the current data transmission mode to achieve normal communication of the terminal.
根据权利要求10所述的装置，其特征在于，还包括：The apparatus according to claim 10, further comprising:

所述控制单元，还用于确定在降低所述当前数据传输方式的传输速度的情况下的当前信号强度值是否仍小于或等于所述设定阈值；The control unit is further configured to determine whether the current signal strength value is still less than or equal to the set threshold when the transmission speed of the current data transmission mode is reduced;

所述控制单元，还用于若在降低所述当前数据传输方式的传输速度的情况下所述当前信号强度值仍小于或等于所述设定阈值，则中断所述当前数据传输方式下的数据传输。The control unit is further configured to interrupt the data in the current data transmission mode if the current signal strength value is still less than or equal to the set threshold when the transmission speed of the current data transmission mode is reduced. transmission.
根据权利要求10或11所述的装置，其特征在于，还包括：The device according to claim 10 or 11, further comprising:

所述控制单元，还用于确定所述终端的当前通话是否已结束；The control unit is further configured to determine whether the current call of the terminal has ended;

所述控制单元，还用于若所述当前通话已结束，则在已降低所述当前数据传输方式的传输速度的情况下恢复所述当前数据传输方式的传输速度、或在已中断所述当前数据传输方式下的数据传输的情况下恢复所述当前数据传输方式下的数据传输。The control unit is further configured to restore the transmission speed of the current data transmission method if the current call has ended, or to interrupt the current data transmission method if the transmission speed of the current data transmission method has been reduced. In the case of data transmission in the data transmission mode, data transmission in the current data transmission mode is resumed.
根据权利要求12所述的装置，其特征在于，还包括：The apparatus according to claim 12, further comprising:

所述控制单元，还用于确定所述当前数据传输方式下的数据传输是否已传输完毕；The control unit is further configured to determine whether data transmission in the current data transmission mode has been completed;

所述控制单元，还用于若所述当前数据传输方式下的数据传输已传输完毕，则将所述终端的主天线由第二设定位置恢复至第一设定位置。The control unit is further configured to restore the main antenna of the terminal from the second set position to the first set position if data transmission in the current data transmission mode has been completed.
根据权利要求8-13之一所述的装置，其特征在于，其中，The device according to any one of claims 8-13, wherein,

所述当前数据传输方式，包括：USB3.0；The current data transmission method includes: USB 3.0;

和/或，and / or,

所述当前信号强度值，包括：接收信号的当前强度值、和/或发送信号的当前强度值；The current signal strength value includes a current strength value of a received signal and / or a current strength value of a transmitted signal;

和/或，and / or,

所述第一设定位置，包括：所述终端的主天线在所述终端上的设置位置；所述第二设定位置，包括：所述终端的分集副天线在所述终端上的设置位置；The first setting position includes a setting position of a main antenna of the terminal on the terminal, and the second setting position includes a setting position of a diversity sub antenna of the terminal on the terminal. ;

和/或，and / or,

所述当前数据传输方式的数据接口与所述第一设定位置之间的第一距离，小于所述数据接口与所述第二设定位置之间的第二距离；A first distance between the data interface of the current data transmission mode and the first set position is smaller than a second distance between the data interface and the second set position;

和/或，and / or,

通过天线切换开关，实现所述主天线的第一设定位置和第二设定位置之间的切换。The antenna switching switch is used to switch between the first setting position and the second setting position of the main antenna.
一种终端，其特征在于，包括：如权利要求8-14任一所述的终端的通信控制装置。A terminal, comprising: a communication control device for a terminal according to any one of claims 8-14.
一种存储介质，其特征在于，所述存储介质中存储有多条指令；所述多条指令，用于由处理器加载并执行如权利要求1-7任一所述的终端的通信控制方法。A storage medium, characterized in that a plurality of instructions are stored in the storage medium; the plurality of instructions are used by a processor to load and execute a communication control method for a terminal according to any one of claims 1-7. .
一种终端，其特征在于，包括：A terminal, comprising:

处理器，用于执行多条指令；A processor for executing multiple instructions;

存储器，用于存储多条指令；Memory for storing multiple instructions;

其中，所述多条指令，用于由所述存储器存储，并由所述处理器加载并执行如权利要求1-7任一所述的终端的通信控制方法。Wherein, the plurality of instructions are used to be stored in the memory, and loaded and executed by the processor to execute the communication control method of the terminal according to any one of claims 1-7.