CN110087294B - Communication control method, radio frequency circuit and electronic equipment - Google Patents

Abstract

The embodiment of the application provides a communication control method, a radio frequency circuit and electronic equipment, wherein the communication control method is applied to the electronic equipment and comprises the following steps: acquiring a first signal value currently received by the electronic equipment and a current electric quantity value; calculating a signal connection threshold according to the current electric quantity value and the first signal value; searching for a 5G network signal so that a base station acquires a first 5G signal value; and reporting the signal connection threshold to a base station, wherein the base station is used for realizing the transmission of the communication signals through a 5G network when the first 5G signal value is greater than the signal connection threshold, and realizing the transmission of the communication signals through a 2G network, a 3G network or a 4G network when the first 5G signal value is less than the signal connection threshold. By adjusting the signal connection threshold of the 5G network, the electronic equipment is connected under the condition that the 5G signal is better when the electric quantity of the electronic equipment is lower and the signal is poorer, and the power consumption of the electronic equipment can be effectively reduced.

Description

Communication control method, radio frequency circuit and electronic equipment

Technical Field

The present application relates to the field of communications, and more particularly, to a communication control method, a radio frequency circuit, and an electronic device.

Background

With the gradual development of communication technologies, New Radio (NR) 5G comes, and at present, there are two network architectures capable of supporting New Radio communication 5G, namely an SA architecture and an NSA architecture.

Under an NSA (Non-Stand Alone) architecture, a 5G NR network and a 4G Long Term Evolution (LTE) network are combined to form a network, and a double connection mechanism of the 5G NR network and the 4G LTE network is established. However, when the electronic device communicates by using both the 5G NR network and the 4G LTE network, a lot of power is consumed.

Disclosure of Invention

The embodiment of the application provides a communication control method, a radio frequency circuit and an electronic device, which can reduce the power consumption of the electronic device under the NSA architecture.

The application provides a communication control method, which is applied to electronic equipment and comprises the following steps:

acquiring a first signal value currently received by the electronic equipment and a current electric quantity value;

calculating a signal connection threshold according to the current electric quantity value and the first signal value;

searching for a 5G network signal so that a base station acquires a first 5G signal value;

and reporting the signal connection threshold to a base station, wherein the base station is used for realizing transmission of communication signals through a 5G network when the first 5G signal value is greater than the signal connection threshold, and realizing transmission of communication signals through a 2G network, a 3G network or a 4G network when the first 5G signal value is less than the signal connection threshold.

The present application also provides a radio frequency circuit, comprising:

a processing module;

a transmit-receive antenna;

one end of the first modem is connected with the processing module, the other end of the first modem is connected with the transceiving antenna, and the first modem is used for processing 5G radio frequency signals;

one end of the second modem is connected with the processing module, the other end of the second modem is connected with the transceiving antenna, and the second modem is used for processing 4G radio frequency signals;

the processing module is used for acquiring a first signal value currently received by the electronic equipment and a current electric quantity value; calculating a signal connection threshold according to the current electric quantity value and the first signal value; searching for a 5G network signal so that a base station acquires a first 5G signal value; and reporting the signal connection threshold to a base station, wherein the base station is used for realizing transmission of communication signals through a 5G network when the first 5G signal value is greater than the signal connection threshold, and realizing transmission of communication signals through a 2G network, a 3G network or a 4G network when the first 5G signal value is less than the signal connection threshold.

The application also provides an electronic device, the electronic device includes casing and radio frequency circuit, radio frequency circuit is as above-mentioned radio frequency circuit, radio frequency circuit set up in the casing.

According to the communication control method provided by the embodiment of the application, by adjusting the signal connection threshold of the 5G network, under the conditions that the electric quantity of the electronic equipment is low and the signal is poor, the electronic equipment does not use a 5G module with high power consumption, but uses a 4G network with low power consumption, when the electronic equipment moves to a position where the 5G signal is good, the electronic equipment is connected with the 5G network, and the power consumption of the electronic equipment can be effectively reduced.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings used in the description of the embodiments will be briefly introduced below. It is obvious that the drawings in the following description are only some embodiments of the application, and that for a person skilled in the art, other drawings can be derived from them without inventive effort.

Fig. 1 is a schematic structural diagram of an electronic device according to an embodiment of the present application.

Fig. 2 is a schematic diagram of a first structure of a radio frequency circuit according to an embodiment of the present disclosure.

Fig. 3 is a schematic diagram of a second structure of a radio frequency circuit according to an embodiment of the present disclosure.

Fig. 4 is a scene schematic diagram of a communication method according to an embodiment of the present application.

Fig. 5 is a first flowchart of a communication control method according to an embodiment of the present application.

Fig. 6 is a second flowchart of a communication control method according to an embodiment of the present application.

Fig. 7 is a third flowchart illustrating a communication control method according to an embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application. It is to be understood that the embodiments described are only a few embodiments of the present application and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

The embodiment of the application provides electronic equipment. The electronic device may be a smart phone, a tablet computer, or other devices, and may also be a game device, an AR (Augmented Reality) device, an automobile device, a data storage device, an audio playing device, a video playing device, a notebook computer, a desktop computing device, or other devices.

Referring to fig. 1, fig. 1 is a schematic structural diagram of an electronic device according to an embodiment of the present disclosure. The electronic device 100 includes a display 10, a cover 20, a bezel 30, a circuit board 40, a battery 50, a back cover 60, a radio frequency circuit 70, a first SIM card 80, and a second SIM card 90.

The display screen 10 may be used to display information such as images, text, etc. In some embodiments, the Display screen 10 may be a Liquid Crystal Display (LCD) or an Organic Light-Emitting Diode (OLED) Display screen.

The display screen 10 may be mounted on the middle frame 30 and connected to the rear cover 60 through the middle frame 30 to form a display surface of the electronic device 100. The display screen 10 serves as a front case of the electronic apparatus 100, and forms a housing of the electronic apparatus 100 together with the rear cover 60 for accommodating other electronic devices or functional components of the electronic apparatus 100. For example, the housing may be used to house electronic devices or functional components of the electronic device 100 such as a processor, memory, one or more sensors, a camera module, and the like.

The display screen 10 may include a display area as well as a non-display area. Wherein the display area performs the display function of the display screen 10 for displaying information such as images, text, etc. The non-display area does not display information. The non-display area can be used for setting functional components such as a camera module and a display screen touch electrode.

The display screen 10 may be a full-face screen. At this time, the display screen 10 may display information in a full screen, so that the electronic apparatus 100 has a large screen occupation ratio. The display screen 10 includes only a display region and does not include a non-display region, or the non-display region has a small area for the user. At this time, functional components such as a camera module and a proximity sensor in the electronic apparatus 100 may be hidden under the display screen 10, and a fingerprint recognition module of the electronic apparatus 100 may be disposed on the rear cover 60 of the electronic apparatus 100.

The cover plate 20 may be mounted on the middle frame 30, and the cover plate 20 covers the display screen 10 to protect the display screen 10 from being scratched or damaged by water. The cover 20 may be a transparent glass cover, so that a user can see the contents displayed on the display screen 10 through the cover 20. In some embodiments, the cover plate 20 may be a glass cover plate of sapphire material.

The middle frame 30 may have a thin plate-like or sheet-like structure, or may have a hollow frame structure. The middle frame 30 is used for providing a supporting function for the electronic devices or functional components in the electronic device 100, so as to mount the electronic devices or functional components in the electronic device 100 together. For example, functional components such as a camera module, a receiver module, a circuit board 40, and a battery 50 in the electronic apparatus 100 may be mounted on the middle frame 30 for fixing. In some embodiments, the material of the middle frame 30 may include metal or plastic.

The circuit board 40 may be mounted on the middle frame 30. The circuit board 40 may be a motherboard of the electronic device 100. The circuit board 40 is provided with a ground point to ground the circuit board 40. One, two or more of the functional components such as a microphone, a speaker, a receiver, an earphone interface, a universal serial bus interface (USB interface), the camera assembly 70, a distance sensor, an ambient light sensor, a gyroscope, and a processor may be integrated on the circuit board 40. Meanwhile, the display screen 10 may be electrically connected to the circuit board 40.

The circuit board 40 is provided with a display control circuit. The display control circuit outputs an electrical signal to the display screen 10 to control the display screen 10 to display information.

The battery 50 may be mounted on the middle frame 30. Meanwhile, the battery 50 is electrically connected to the circuit board 40 to enable the battery 50 to power the electronic device 100. The circuit board 40 may be provided thereon with a power management circuit. The power management circuit is used to distribute the voltage provided by the battery 50 to the various electronic devices in the electronic apparatus 100.

The battery 50 may be a rechargeable battery. For example, the battery 50 may be a lithium ion battery.

The rear cover 60 is used to form the outer contour of the electronic device 100. The rear cover 60 may be integrally formed. In the forming process of the rear cover 60, structures such as a rear camera module hole, a fingerprint identification module mounting hole and the like can be formed on the rear cover 60.

The rear cover 60 may be a metal case, such as a metal of magnesium alloy, stainless steel, etc. Note that the material of the rear cover 60 according to the embodiment of the present application is not limited to this, and other methods may be employed. For example, the rear cover 60 may be a plastic housing. As another example, the rear cover 60 may be a ceramic case. For another example, the rear cover 60 may include a plastic part and a metal part, and the rear cover 60 may be a housing structure in which the metal and the plastic are matched with each other. Specifically, the metal part may be formed first, for example, a magnesium alloy substrate is formed by injection molding, and then plastic is injected on the magnesium alloy substrate to form a plastic substrate, so as to form a complete housing structure.

Included within the electronic device is radio frequency circuitry 70, which radio frequency circuitry 70 may be disposed on the circuit board 40.

Referring to fig. 2, fig. 2 is a first structural schematic diagram of a radio frequency circuit according to an embodiment of the present disclosure. The radio frequency circuit 70 comprises a processing module 701, a first modem 702, a second modem 703 and a four transceiver antenna 704.

The first modem 702 is used for processing 5G radio frequency signals. One end of the first modem 702 is connected to the processing module 701, and the other end of the first modem 702 is connected to four antennas 704.

The second modem 703 is used for processing the 4G rf signals. One end of the second modem 703 is connected to the processing module 701, and the other end of the second modem 703 is connected to four antennas 704.

The processing module is used for acquiring a first signal value currently received by the electronic equipment and a current electric quantity value; calculating a signal connection threshold according to the current electric quantity value and the first signal value; searching for a 5G network signal so that a base station acquires a first 5G signal value; and reporting the signal connection threshold to a base station, wherein the base station is used for realizing transmission of communication signals through a 5G network when the first 5G signal value is greater than the signal connection threshold, and realizing transmission of communication signals through a 2G network, a 3G network or a 4G network when the first 5G signal value is less than the signal connection threshold.

The processing module is further used for obtaining a first compensation value according to the electricity utilization habit of the user when a signal connection threshold value is obtained through calculation according to the current electric quantity value and the first signal value; and calculating the signal connection threshold according to the first compensation value, the current electric quantity value and the first signal value.

The processing module is further used for acquiring historical data flow use information when the electric quantity of the electronic equipment is smaller than a preset electric quantity when a first compensation value is obtained according to the electricity utilization habit of a user; obtaining a data flow value of a user in a preset time period according to the use information; and obtaining a corresponding first compensation value according to the data flow value.

The processing module is further used for acquiring historical electricity utilization data when the first compensation value is obtained according to the electricity utilization habit of the user; training a model according to the historical electricity utilization data; and when the current electric quantity value is smaller than the preset electric quantity, calculating to obtain a first compensation value according to the trained model and the current electric quantity data.

The processing module is further configured to, when the signal connection threshold is calculated according to the first compensation value, the current electric quantity value, and the first signal value, obtain an RSRP' -10log (B) according to a formula RSRPc^1/2) -calculating said signal connection threshold value by a, wherein RSRPc is said signal connection threshold value, RSRP' is said first signal value, B is said current power value, a is said first compensation value.

The processing module is further used for periodically acquiring the residual electric quantity value of the electronic equipment and a second 5G signal value connected currently after the transmission of the communication signal of the electronic equipment is realized through the 5G first signal; calculating to obtain a signal disconnection threshold value according to the residual electric quantity value and the second 5G signal value; acquiring a currently received third 5G signal value after preset time; reporting the signal disconnection threshold to a base station, wherein the base station is used for realizing transmission of communication signals through the 2G network, the 3G network or the 4G network when the third 5G signal is smaller than the signal disconnection threshold, and realizing transmission of the communication signals of the electronic equipment through the 5G signal when the third 5G signal is larger than the signal disconnection threshold.

The processing module is further used for acquiring a second compensation value after the transmission of the electronic equipment communication signal is realized through the 5G first signal; calculating a signal stability threshold according to the signal connection threshold and the second compensation value, wherein the signal stability threshold is greater than the signal connection threshold; acquiring a fourth 5G signal value of the current connection after preset time; reporting the signal stability threshold to a base station, so as to implement transmission of a communication signal through the 5G network when the fourth 5G signal is smaller than the signal connection threshold and larger than the signal stability threshold, and implement transmission of a communication signal through the 2G network or the 3G network or the 4G network when the fourth 5G signal is smaller than the signal stability threshold.

Referring to fig. 3, fig. 3 is a schematic diagram illustrating a second structure of the rf circuit according to the embodiment of the present disclosure. Radio frequency circuitry 70 is disposed within the housing, and the radio frequency circuitry 70 may be disposed on the circuit board 40. The rf circuit 70 includes a processing chip 71, a first rf front-end module 72, a first rf transceiver module 73, a 4G modem 74, a second rf front-end module 75, a second rf transceiver module 76, and a 5G modem 77. The first rf front-end module 72 is mainly used for implementing transceiving of 4G signals under different frequencies, the first rf transceiving module 73 is used for wireless communication, and the 4G modem 74 is used for performing digital signal processing on the transceiving signals of the wireless communication. The second rf front-end module 75 is mainly used for transceiving signals at different frequencies, the second rf transceiving module 76 is used for wireless communication, and the 5G modem 77 is used for performing digital signal processing on the transceiving signals of the wireless communication.

The first radio frequency front end module and the second radio frequency front end module comprise receiving and transmitting antennas, a signal control switch, a duplexer, an amplifier, a filter and other components, the number of the receiving and transmitting antennas is at least 4, and the receiving and transmitting antennas can be used for transmitting 4G network signals and 5G network signals. The 4G network signals can be transmitted among the first rf front-end module 72, the first rf transceiver module 73, and the 4G modem 74 to form a 4G signal path, and the electronic device 100 implements 4G signal transmission with a base station through the 4G signal path. The 5G network signal can be transmitted among the second rf front-end module 75, the second rf transceiver module 76, and the 5G modem 77, forming a 5G signal path, and the electronic device implements 5G signal transmission with the base station through the 5G path.

The 4G system architecture includes a wireless side, where the wireless side refers to an LTE (Long Term Evolution) architecture, and in the LTE architecture, network signals are transmitted among the first rf front-end module 72, the first rf transceiver module 73, and the 4G modem 74, that is, the electronic device 100 implements LTE communication through the first rf front-end module 72, the first rf transceiver module 73, and the 4G modem 74 by using the LTE architecture.

In the 5G system architecture, according to the requirement of the 5G communication protocol, a 5G system architecture of an independent networking (SA for short) or a 5G system architecture of a Non-independent networking (NSA for short) may be adopted. In the 5G network architecture of NSA, dual connection is performed between an LTE (Long Term Evolution) architecture and an NR (New Radio Access Technology in 3GPP, abbreviated as NR) architecture in a 4G architecture. That is, in the 5G network architecture of NSA, the electronic device 100 needs to transmit a 5G network signal and a 4G network signal at the same time. The 4G network signals are transmitted among the first rf front-end module 72, the first rf transceiver module 73, and the 4G modem 74, and the 5G network signals are circulated among the second rf front-end module 75, the second rf transceiver module 76, and the 5G modem 77. That is, the electronic device 100 utilizes the 5G network architecture of NSA to implement NR communication under the NSA architecture through the first rf front-end module 72, the first rf transceiver module 73, the 4G modem 74, the second rf front-end module 75, the second rf transceiver module 76, and the 5G modem 77. At this time, the 4G signal path and the 5G signal path of the electronic device 100 are simultaneously opened, and the power consumption of the electronic device 100 is larger than that in the LTE architecture.

In the related art, two ways are added to the 5G signal under the non-independent networking: the first method is blind addition, namely after an electronic device supporting a 5G network is accessed to a 4G network, whether the position of the electronic device is a position supporting dual connection of the 4G/5G network is judged, whether the electronic device supports 5G network signals is judged by a base station, if conditions are met, 5G network connection is established with the electronic device, and 5G network service is provided. And secondly, adding based on the measurement report, wherein the specific process is that if the blind adding condition of the 5G network is met, the base station configures a measurement event for the electronic equipment to trigger the electronic equipment to measure the adjacent cell of the 5G network signal. And the base station selects the 5G network signal adjacent cell meeting the conditions to add according to the measurement result reported by the electronic equipment. The signal quality problem of the 5G network signal is considered in the scheme, but the conditions such as the electric quantity of the electronic equipment, the actual using condition and the like are not considered, the signal strength quality is only used as a judgment basis, and the signal strength quality is single and cannot be adjusted according to the requirements of users.

Referring to fig. 4, fig. 4 is a scene schematic diagram of a communication control method according to an embodiment of the present application.

In this scenario, reference needs to be made to RSRP value, which is reference signal received power, specifically, RSRP value is a linear average of received power (in watts) on Resource Elements (REs) carrying reference signals over a measurement frequency bandwidth, which is one of key parameters that can represent wireless signal strength in a 4G or 5G network and physical layer measurement requirements, and is an average of received signal power on all REs (resource elements) carrying reference signals within a certain symbol. The larger the RSRP value is, the better the 4G and 5G signal quality is.

According to the measurement standard of the RSRP value, the base station can judge whether the electronic equipment has the condition of accessing the 4G and 5G networks according to the RSRP return value returned by the electronic equipment, the RSRP value can judge whether the electronic equipment has the condition of accessing the 4G and 5G networks, and simultaneously indicates the transmitting power of the mobile phone, the smaller the RSRP, the larger the path loss from the electronic equipment to the base station, the larger the power required by the transmitting signal of the electronic equipment, and the larger the RSRP, the smaller the path loss from the electronic equipment to the base station, and the smaller the power required by the transmitting signal of the electronic equipment. Therefore, when the electric quantity of the electronic equipment is low, in order to reduce the power consumption of the electronic equipment, the 5G network is not expected to be connected when the RSRP is low, therefore, the RSRP return value can be adjusted according to the electric quantity and the power consumption habits of users, the return value and the current electric quantity of the electronic equipment are associated with the power consumption habits of the users, when the electric quantity is low, the RSRP return value (5G network signal connection threshold value) of the base station reported by the electronic equipment is adjusted, and when the electric quantity of the electronic equipment is low and the signal is poor, the electronic equipment is connected only under the condition that the 5G signal is good, so that the power consumption of the electronic equipment can be effectively reduced.

Specifically, please refer to fig. 5, fig. 5 is a first flowchart of a communication control method according to an embodiment of the present disclosure. The communication control method is applied to the electronic equipment. The communication control method includes:

101. the method comprises the steps of obtaining a first signal value currently received by the electronic equipment and a current electric quantity value.

The method includes the steps of obtaining a first signal value currently received by the electronic device, wherein the first signal value can be an RSRP value of a non-5G signal, the RSRP value can be an RSRP value obtained by the current electronic device according to a base station signal test, and can also be an RSRP value obtained by the electronic device according to a signal returned by a base station, obtaining a current electric quantity value of the electronic device, and the current electric quantity value of the electronic device can be obtained by detecting a battery and can be a residual electric quantity value of the electronic device.

In some embodiments, before obtaining the current electric quantity value of the electronic device, detecting whether the electronic device is in a charging state, when the electronic device is in the charging state, since the electric quantity problem does not need to be considered, the transmission of the communication signal is directly realized through a 5G network, or according to a user requirement, the transmission of the communication signal is realized through a 2G network, a 3G network or a 4G network, when the electronic device is not in the charging state, since the problem of the power consumption of the electronic device needs to be considered, so 101 is executed.

102. And calculating a signal connection threshold according to the current electric quantity value and the first signal value.

Can be according to the formula RSRPc-RSRP' -10log (B)^1/2) Calculating to obtain a signal connection threshold, wherein RSRPc is a signal connection threshold, the threshold may be understood as a signal return value of an electronic device returning a base station, the base station determines whether the electronic device has a condition of connecting to a 5G network according to the return value, RSRP ' may be an RSRP ' value measured by the current electronic device according to a base station signal on the basis of a 4G network, RSRP ' may also be an RSRP ' value returned by the base station for the electronic device, the RSRP value is used to measure the signal quality of the current electronic device on the 4G network, and B is a current power value of the electronic device, for example, when the RSRP ' value measured by the electronic device according to the base station signal on the basis of the 4G network is-96 dBm and the RSRP value of-96 dBm belongs to a poor coverage level, under which an outdoor voice service can initiate a call but a call with a low call success rate and a high call drop rate and an indoor service can not initiate a service basically, if a signal connection threshold value (a return value is adjusted, a 5G network is directly searched, and the 5G network is connected under the poor condition, because the signal under the RSRP 'value is poor, namely the electronic equipment is far away from a base station, the propagation loss is larger, the electronic equipment needs to consume more power for transmitting the 5G signal, and the power consumption can cause certain influence on a user when the power consumption is too fast under the condition that the electric quantity of the electronic equipment is low, the adjustment is needed according to the current electric quantity B, when the current electric quantity is 50%, the RSRP' is equal to-96 dBm, the B is equal to 0.5, and the formula is substituted, so that the RSRP is equal to-94.5 dBm, and the RSRP is equal to-94.5 dBm and belongs to the level of general signal coverage.

103. The 5G network signal is searched for the base station to obtain a first 5G signal value.

And searching the 5G network signal, connecting the 5G network signal with a base station, and enabling the base station to acquire a first 5G signal value of the position where the electronic equipment is located for indicating the strength of the 5G signal of the current position where the electronic equipment is located. For example, a 5G signal of the current location of the electronic device measures-96 dBm. The-96 dBm signal coverage is poor. The outdoor voice service can start calling, but the call success rate is low, and the call drop rate is high. Indoor services are basically unable to initiate services.

104. Reporting the signal connection threshold to a base station, and realizing transmission of communication signals through a 5G network when the first 5G signal value is greater than the signal connection threshold; and when the first 5G signal value is smaller than the signal connection threshold value, the communication signal is transmitted through the 2G network, the 3G network or the 4G network.

Reporting the RSRPc report value (signal connection threshold) to the base station, and reporting the RSRPc to the base station after calculating the signal connection threshold. If the connection threshold is-94.5 dBm calculated by 102, the first 5G signal is-96 dBm measured by 103, the base station judges whether the electronic device has a condition for connecting to the 5G network according to the signal connection threshold and the current first 5G signal value of the electronic device, for example, the first 5G signal-96 dBm is smaller than the connection threshold of-94.5 dBm, the electronic device does not have the condition for connecting to the 5G network, the transmission of the communication signal is realized through the 2G network, the 3G network or the 4G network according to the user requirement, the 5G network is connected in a better signal environment only when the 5G network signal of the position where the electronic device is located is larger than the signal connection threshold, the 5G network is connected when the signal coverage condition is better if the 5G network signal of the position is larger than-94.5 dBm, and the base station increases the RSRPc value required by connecting to the 5G network, the electronic equipment is connected with the 5G network under the condition of low electric quantity and in a better signal environment, so that the signal transmitting power of the electronic equipment is reduced, and the power consumption of the electronic equipment is reduced.

Referring to fig. 6, fig. 6 is a second flowchart of a communication control method according to an embodiment of the present application. The communication control method includes:

201. and acquiring a first signal value currently received by the electronic equipment and a current electric quantity value.

The method includes the steps of obtaining a first signal value currently received by the electronic device, wherein the first signal value may be an RSRP value, and the RSRP value is an RSRP value measured by the current electronic device according to a base station signal, and obtaining a current electric quantity value of the electronic device, and the current electric quantity value of the electronic device may be obtained by detecting a battery device, and may be a remaining electric quantity value of the electronic device.

In some embodiments, before obtaining the current electric quantity value of the electronic device, detecting whether the electronic device is in a charging state, when the electronic device is in the charging state, since the electric quantity problem does not need to be considered, directly implementing transmission of the communication signal through a 5G network, or implementing transmission of the communication signal according to a 2G network, a 3G network or a 4G network according to a user requirement, when the electronic device is in a discharging state, since the problem of power consumption of the electronic device needs to be considered, so 101 is executed.

It should be noted that, in some other embodiments, the first Signal value may also be an RSRQ value or an SINR value, and RSRQ (reference Signal Receiving quality) represents the received quality of the 4G network reference Signal, and this metric mainly ranks different LTE candidate cells according to the Signal quality, and this measurement is used as an input of handover and cell reselection decision. SINR (Signal to Interference plus Noise Ratio), which is the Ratio of the received strength of a useful Signal to the received strength of an interfering Signal (Noise and Interference), can be simply understood as "Signal to Noise Ratio". Because the RSRQ value and the SINR value are indirectly related to the power consumption of the electronic equipment, the method similar to the method for adjusting the RSRP report value can be adopted for the RSRQ or the SINR value, the RSRQ or the SINR value is adjusted according to the electric quantity and the user electricity usage habit, the RSRQ and the SINR are related to the current electric quantity of the electronic equipment and the user electricity usage habit (electric quantity mode), and the power consumption of the electronic equipment for connecting 5G under the non-independent networking is reduced.

202. And obtaining a first compensation value according to the power utilization habit of the user.

And adjusting a first compensation value according to the power utilization habits of the user, wherein the first compensation value is used for adjusting the signal connection threshold value, and the initial value of the first compensation value can be 0. For example, the power consumption habit of the user at the time of low power consumption is obtained by acquiring the historical power consumption data of the user, if the user is used to have a large demand for the data flow at the time of low power consumption, the first compensation value can be increased, and if the user is used to have no large demand for the data flow at the time of low power consumption, the first compensation value can be decreased. In some embodiments, a data flow value of a user in a preset time period may be obtained according to the obtained historical data flow usage information of the user, and a corresponding first compensation value may be obtained according to the data flow value. For example, when the power is low, but the user still needs to use large-flow data for a long time frequently, the user is considered to be acceptable for the endurance condition of the low power, for example, when the power is lower than 20%, assuming that the data flow rate used by the user is greater than a preset flow threshold X1 and/or the duration is greater than a time threshold T1, the user still needs a large demand for the data flow rate, the compensation value a is set to 1, and for example, when the power is lower than 20%, assuming that the data flow rate used by the user is greater than a preset flow threshold X2 and/or the duration is greater than a time threshold T2, where X2 is greater than X1 and T2 is greater than T1, the user still needs a large demand for the data flow rate, the compensation value a is set to 2, a specific value of the compensation value may be specifically set according to a specific situation, and the setting of the compensation value is not to be understood as a limitation to the present application.

In some embodiments, the model may be trained according to the obtained historical power consumption data of the user, and the first compensation value may be calculated according to the trained model and the current power consumption condition. For example, historical power consumption data of the user, for example, data which can reflect power consumption habits of the user, such as a power change rate corresponding to each time point of the user, a battery usage amount corresponding to each application, a frequency of using electronic equipment, a flow data rate of each application, a usage frequency of each application, and the like, may be acquired, a model may be trained on the collected historical power consumption data of the user to obtain a trained model, a current power consumption situation of the user, for example, a currently opened application type, a currently opened application data flow size, and a current power consumption value, may be used as an input of the trained model to obtain future power consumption data of the predicted user, and a corresponding first compensation value may be obtained according to the predicted data. The model may be a neural network model or the like.

203. And calculating a signal connection threshold according to the first compensation value, the current electric quantity value and the first signal value.

Can be according to the formula RSRPc-RSRP' -10log (B)^1/2) Calculating a signal connection threshold, wherein RSRPc is a signal connection threshold, the threshold may be understood as a signal return value of the electronic device returning a base station, the base station determines whether the electronic device has a condition of connecting to the 5G network according to the return value, RSRP ' is an RSRP ' value measured by the current electronic device on the basis of the 4G network according to a base station signal, and the RSRP ' value is used for measuring the signal quality of the current electronic device on the 4G network, and B is a current electric quantity value of the electronic device. For example, when the RSRP 'value measured by the electronic device based on the 4G network according to the base station signal is-96 dBm, and the RSRP value of-96 dBm starts from the level of poor signal coverage, under the signal quality, the outdoor voice service can be called, but the call success rate is low, the call drop rate is high, the indoor service basically cannot initiate the service, if the return report value is not adjusted, the 5G network is directly searched, and the 5G network is connected under the poor condition, because the signal under the RSRP' value is poor, that is, the electronic device is far away from the base station, the electronic device needs to transmit the 5G signal with more power, the transmission frequency is higher, the power consumption of the electronic device is larger, and the power consumption is too fast under the condition that the electronic device has low power, a certain influence on the user is caused, therefore, the electronic device needs to be adjusted according to the current power B, when the current power is 50%, but the user still needs to frequently use large-flow data for a long time, and then the user is considered to be acceptable for the endurance condition of the low battery, and the signal connection threshold value is adjusted according to the obtained compensation value. For example, if the first compensation threshold a calculated according to 203 is equal to 1, then the RSRP 'is equal to-96 dBm, B is equal to 0.5, and a is equal to 1, respectively, are substituted into the formula, so that the RSRPc can be calculated to be equal to-95.5 dBm, if the signal connection threshold is not adjusted by the first compensation value, the first compensation value is 0, then the RSRPc is calculated to obtain-94.5 dBm, which is the case of general signal coverage, and if the signal connection threshold is not adjusted by the first compensation value according to the user's electricity usage, the user only needs to adjust the signal connection threshold in the 5G networkThe number satisfies that the 5G network can be connected when the signal coverage is better, the connection threshold value is adjusted to-95.5 dBm according to the power utilization habit of the user, so that the user can still connect the 5G network when the electronic equipment has low power according to the requirement, and the user experience is improved by adjusting the connection threshold value according to the user requirement.

204. The 5G network signal is searched for the base station to obtain a first 5G signal value.

The method comprises the steps of searching for a 5G network signal, connecting the network with a base station, and enabling the base station to obtain a first 5G signal value of the position where the electronic equipment is located, wherein the first 5G signal value is used for indicating the strength of the 5G signal of the position where the electronic equipment is located currently, for example, the 5G signal of the position where the electronic equipment is located currently is measured to be-80 dBm and-80 dBm are located in good signal coverage, various services can be initiated outdoors, and a medium-rate data service can be obtained. Various services can be initiated indoors, and low-rate data services can be obtained.

205 reporting the signal connection threshold to the base station, for implementing transmission of the communication signal through the 5G network when the first 5G signal value is greater than the signal connection threshold; and when the first 5G signal value is smaller than the signal connection threshold value, the communication signal is transmitted through the 2G network, the 3G network or the 4G network.

Reporting the RSRPc report value (signal connection threshold) to the base station, if the connection threshold is-94.5 dBm obtained by calculation in S203 and-80 dBm is measured by the first 5G signal as 103, and the base station judging whether the electronic equipment has the condition of connecting the 5G network according to the signal connection threshold and the current first 5G signal value of the electronic equipment. For example, if the first 5G signal-80 dBm is greater than the connection threshold-98.5 dBm, the electronic device has a condition for connecting the 5G network, so that the electronic device transmits a communication signal through the 5G network, and the base station increases the RSRPc value required for connecting the 5G network, so that the electronic device is connected to the 5G network only in a better signal environment under low power, thereby reducing the signal transmission power of the electronic device and reducing the power consumption of the electronic device.

Referring to fig. 7, fig. 7 is a third flowchart of a communication control method according to an embodiment of the present application. After the transmission of the electronic device communication signal is realized through the 5G first signal, the communication control method further includes:

301. and periodically acquiring the residual capacity of the electronic equipment, and acquiring a second 5G signal value connected currently.

After the electronic equipment is connected with the 5G network, the residual electric quantity of the electronic equipment is periodically acquired, the period can be customized and can also be a default value, the period can also be set according to the electric quantity change rate of the electronic equipment, when the electric quantity change speed of the electronic equipment is high, the shorter the period for detecting the residual electric quantity of the electronic equipment is, it can be understood that when the electric quantity of the user is lower than a threshold value, the residual electric quantity of the electronic equipment is monitored in real time, a second 5G signal value of the current connection 5G network corresponding to the residual electric quantity value is acquired, and the step is executed 302. For example, after the electronic device is connected to the 5G network, the power of the electronic device is acquired every 1 minute, and when the current power of the electronic device is 10%, the second 5G signal currently connected is-80 dBm, and 302 is executed.

302. And calculating to obtain a signal disconnection threshold value according to the residual electric quantity value and the second 5G signal value.

According to the above formula, RSRPc is RSRP' -10log (B)^1/2) The signal disconnection threshold value can be obtained through calculation, the RSRPc is the signal disconnection threshold value, the B is the corresponding residual electric quantity value of 10%, the RSRP' is-80 dBm of the second 5G signal connected currently, and the RSRPc signal disconnection threshold value can be calculated to be-75 dBm according to a formula.

303. And acquiring a currently received third 5G signal value after the preset time.

Acquiring a currently received third 5G signal value, and acquiring the received third 5G signal value again when a 5G signal connected to the electronic device changes after a preset time, for example, the electronic device is in a moving state, and since a distance between the electronic device and the base station changes, the received third 5G signal value changes, for example, the re-received third 5G signal value is-78 dBm.

304. And reporting the signal disconnection threshold value to a base station, wherein the base station is used for realizing the transmission of the communication signal through a 2G network, a 3G network or a 4G network when the third 5G signal is smaller than the signal disconnection threshold value, and realizing the transmission of the communication signal of the electronic equipment through the 5G signal when the third 5G signal is larger than the signal disconnection threshold value.

Because the electric quantity has changed, a signal disconnection threshold needs to be calculated, the base station needs to judge whether the electronic device further has a condition for connecting the 5G network according to a third 5G signal connected with the electronic device and the signal disconnection threshold reported by the electronic device, that is, when the third 5G signal is smaller than the signal disconnection threshold, it indicates that the 5G network signal connected with the current electronic device does not satisfy the condition for connecting the 5G network, the 5G network is disconnected, the transmission of the communication signal is realized through the 2G network, the 3G network or the 4G network, when the third 5G signal is larger than the signal disconnection threshold, it indicates that the quality of the 5G network signal connected with the current electronic device is good, the connection condition of the 5G network is satisfied, and the transmission of the communication signal of the electronic device is realized through the 5G signal. For example, if the signal disconnection threshold is calculated to be-75 dBm and the third 5G signal value is-78 dBm, the 5G network signal connected with the electronic device does not satisfy the condition of connecting with the 5G network, so that the 5G network is disconnected, and the power consumption of the electronic device is reduced.

In some embodiments, the signal disconnection threshold may be further calculated according to the residual electric quantity value obtained periodically, the second 5G signal value, and the third compensation value is calculated in a manner similar to that in the foregoing embodiments, and the signal disconnection threshold may be adjusted according to a user requirement.

In some embodiments, after the electronic device is connected to the 5G network, since the electronic device is in a moving state and the distance from the base station changes, the 5G network signal received by the electronic device fluctuates, so that a signal fluctuation threshold needs to be set, and the situation that the electronic device is continuously connected to the 5G network or disconnected from the 5G network when the fourth 5G signal received by the electronic device fluctuates up and down in the signal connection threshold or the signal disconnection threshold is avoided. Thus, the second compensation value can be acquired; calculating to obtain a signal stability threshold according to the signal connection threshold and the second compensation value; acquiring a fourth 5G signal value of the current connection after preset time; and reporting the signal stability threshold to a base station, wherein the base station is used for realizing the transmission of the communication signals through a 5G network when the fourth 5G signal is smaller than the signal connection threshold and larger than the signal stability threshold, and realizing the transmission of the communication signals through a 2G network, a 3G network or a 4G network when the second 5G signal is smaller than the signal stability threshold. The second compensation value can be set according to user requirements and can also be set according to signal fluctuation conditions, a signal fluctuation threshold value is calculated according to the formula RSRPR-RSRPc-C, wherein, RSRPR is a signal fluctuation threshold, RSRPc is a signal connection threshold, C is a second compensation value, when the calculated signal connection threshold is-98.5 dBm and C is 1, the signal fluctuation threshold is-99.5 dBm, then the fourth 5G signal value obtained after the preset time is-98.6 dBm, and when the electric quantity is not changed greatly, the fourth 5G signal value of-98.6 dBm is less than the signal connection threshold of-98.5 dBm, but is larger than the signal fluctuation threshold value of-99.5 dBm, so the 5G network connected with the current electronic equipment is still maintained, and the ping-pong effect caused by the fluctuation of the 5G signal of the electronic equipment, namely the repeated connection and disconnection of the 5G network, can be avoided, thereby increasing the power consumption of the electronic equipment.

In some embodiments, after obtaining the first signal value currently received by the electronic device and the current electric quantity value, an electric quantity threshold is further obtained, and when the current electric quantity value of the electronic device is smaller than the electric quantity threshold, step 102 is executed, step 104 is executed, or step 202 is executed, step 205 is executed, for example, when the current electric quantity value of the electronic device is 90%, 90% of the electric quantity is still in a situation where the electric quantity is sufficient for the electronic device, the problem of the power consumption of the electronic device connected to 5G does not need to be considered, the electric quantity threshold may be user-defined, or may be set according to the power consumption habit of the user, the electric quantity threshold may be 50%, and the subsequent steps are executed when the current electric quantity of the electronic device is smaller than 50%.

In some embodiments, after searching the 5G network signal to enable the base station to obtain the first 5G signal value, the method further includes obtaining a signal threshold of the 5G network signal, and when the obtained first 5G signal value is smaller than the signal threshold, step 104 is executed or step 205 is executed, for example, obtaining the first 5G signal value as-65 dBm in a situation where the signal coverage is good and the problem of signal power emitted by the electronic device due to a distance between the electronic device and the base station is not considered, so that the signal threshold may be-60 dBm, and the subsequent steps are performed only when the first 5G signal value is smaller than the signal threshold.

It is to be understood that the values of the power threshold and the signal threshold may be set according to the user requirement or the actual situation, and the magnitudes of the power threshold and the signal threshold should not be construed as limiting the application.

Namely, according to the embodiment provided by the application, a method for adjusting a signal connection threshold is provided, in which the signal connection threshold is associated with the current electric quantity of the electronic device and the electricity utilization habit of the user, and when the electric quantity is low, the signal connection threshold of the 5G network is adjusted, so that the electronic device is connected under the condition that the 5G signal is good under the condition that the electric quantity of the electronic device is low and the signal is poor, and the power consumption of the electronic device can be effectively reduced.

An embodiment of the present application further provides a storage medium, where a computer program is stored in the storage medium, and when the computer program runs on a computer, the computer executes the communication control method according to any one of the above embodiments.

It should be noted that, all or part of the steps in the methods of the above embodiments may be implemented by hardware related to instructions of a computer program, which may be stored in a computer-readable storage medium, which may include, but is not limited to: read Only Memory (ROM), Random Access Memory (RAM), magnetic or optical disks, and the like.

It should be noted that in the description of the present application, terms such as "first", "second", and the like are used only for distinguishing similar objects, and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated.

The communication control method, the communication control device, the storage medium, and the electronic device provided in the embodiments of the present application are described in detail above. The principle and the implementation of the present application are explained herein by applying specific examples, and the above description of the embodiments is only used to help understand the method and the core idea of the present application; meanwhile, for those skilled in the art, according to the idea of the present application, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present application.

Claims (10)

1. A communication control method applied to an electronic device, the method comprising:

acquiring a first signal value currently received by the electronic equipment and a current electric quantity value, wherein the first signal value is related to the signal quality of the electronic equipment and/or the power consumption of the electronic equipment;

calculating a signal connection threshold according to the current electric quantity value and the first signal value;

searching for a 5G network signal so that a base station acquires a first 5G signal value;

and reporting the signal connection threshold to a base station, wherein the base station is used for realizing transmission of communication signals through a 5G network when the first 5G signal value is greater than the signal connection threshold, and realizing transmission of communication signals through a 2G network, a 3G network or a 4G network when the first 5G signal value is less than the signal connection threshold.

2. The communication control method according to claim 1, wherein the calculating a signal connection threshold value from the current electric quantity value and the first signal value includes:

obtaining a first compensation value according to the power utilization habit of a user;

and calculating the signal connection threshold according to the first compensation value, the current electric quantity value and the first signal value.

3. The communication control method according to claim 2, wherein the obtaining the first compensation value according to the power usage habit of the user comprises:

acquiring historical data flow use information when the electric quantity of the electronic equipment is smaller than a preset electric quantity;

obtaining a data flow value of a user in a preset time period according to the use information;

and obtaining a corresponding first compensation value according to the data flow value.

4. The communication control method according to claim 2, wherein the obtaining the first compensation value according to the power usage habit of the user comprises:

acquiring historical electricity utilization data;

training a model according to the historical electricity utilization data;

and when the current electric quantity value is smaller than the preset electric quantity, calculating to obtain a first compensation value according to the trained model and the current electric quantity data.

5. The communication control method according to any one of claims 2 to 4, wherein the calculating the signal connection threshold value according to the first compensation value, the current electric quantity value, and the first signal value includes:

according to the formula RSRP ═ RSRP' -10log (B)^1/2) -calculating said signal connection threshold value by a, wherein RSRPc is said signal connection threshold value, RSRP' is said first signal value, B is said current power value, a is said first compensation value.

6. The communication control method according to claim 1, wherein after the transmission of the electronic device communication signal is realized by the 5G first signal, the method further comprises:

periodically acquiring the residual electric quantity value of the electronic equipment and a currently connected second 5G signal value;

calculating to obtain a signal disconnection threshold value according to the residual electric quantity value and the second 5G signal value;

acquiring a currently received third 5G signal value after preset time;

reporting the signal disconnection threshold to a base station, wherein the base station is used for realizing transmission of communication signals through the 2G network, the 3G network or the 4G network when the third 5G signal is smaller than the signal disconnection threshold, and realizing transmission of the communication signals of the electronic equipment through the 5G signal when the third 5G signal is larger than the signal disconnection threshold.

7. The communication control method according to claim 1, wherein after the transmission of the electronic device communication signal is realized by the 5G first signal, the method further comprises:

acquiring a second compensation value;

calculating a signal stability threshold according to the signal connection threshold and the second compensation value, wherein the signal stability threshold is greater than the signal connection threshold;

acquiring a fourth 5G signal value of the current connection after preset time;

reporting the signal stability threshold to a base station, so as to implement transmission of a communication signal through the 5G network when the fourth 5G signal is smaller than the signal connection threshold and larger than the signal stability threshold, and implement transmission of a communication signal through the 2G network or the 3G network or the 4G network when the fourth 5G signal is smaller than the signal stability threshold.

8. A radio frequency circuit, comprising:

a processing module;

a transmit-receive antenna;

one end of the first modem is connected with the processing module, the other end of the first modem is connected with the transceiving antenna, and the first modem is used for processing 5G radio frequency signals;

one end of the second modem is connected with the processing module, the other end of the second modem is connected with the transceiving antenna, and the second modem is used for processing 4G radio frequency signals;

the processing module is used for acquiring a first signal value currently received by the electronic equipment and a current electric quantity value, wherein the first signal value is related to the signal quality of the electronic equipment and/or the power consumption of the electronic equipment; calculating a signal connection threshold according to the current electric quantity value and the first signal value; searching for a 5G network signal so that a base station acquires a first 5G signal value; and reporting the signal connection threshold to a base station, wherein the base station is used for realizing transmission of communication signals through a 5G network when the first 5G signal value is greater than the signal connection threshold, and realizing transmission of communication signals through a 2G network, a 3G network or a 4G network when the first 5G signal value is less than the signal connection threshold.

9. The radio frequency circuit according to claim 8, wherein the processing module is further configured to obtain a first compensation value according to a power usage habit of a user; and calculating the signal connection threshold according to the first compensation value, the current electric quantity value and the first signal value.

10. An electronic device comprising a housing and radio frequency circuitry as claimed in claim 8 or 9, the radio frequency circuitry being disposed within the housing.

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