CN116233896B - Method and system for transmitting message by user equipment in wireless communication system - Google Patents

Abstract

The invention relates to the technical field of wireless communication, in particular to a method and a system for transmitting a message by user equipment in a wireless communication system, comprising the following steps: the control terminal is a main control terminal of the system and is used for sending out an execution command; the signal receiving and transmitting module is used for transmitting and receiving signals in the wireless communication system and analyzing the maximum load of a communication channel of the wireless communication system; the monitoring module is used for monitoring the communication behavior of a communication user in the wireless communication system; in the running process of the system, the attribute analysis can be carried out according to the communication behaviors of the communication users, so that the communication habits of the communication users are known, the communication channels in the wireless communication system are further configured for the communication users according to the communication habits of the communication users, and the communication experience balance of each communication user in the same wireless communication system is improved to a certain extent.

Description

Method and system for transmitting message by user equipment in wireless communication system

Technical Field

The present invention relates to the field of wireless communication technologies, and in particular, to a method and a system for transmitting a message by a user equipment in a wireless communication system.

Background

A wireless data communication system is a communication mode for transmitting data information by radio waves. The method is developed on the basis of wired data communication, and can realize data communication in a mobile state. Data communication is a communication mode generated by combining computers with communication, and is mainly used for realizing communication between people and computers and between computers.

Currently, the variety of wireless mobile data communication systems is rapidly increasing, and mobile data communication systems of various systems such as circuit-switched cellular mobile communication, cellular digital packet data communication, microcellular spread spectrum communication, dedicated packet wireless communication, and two-way satellite data communication are being used.

However, when communication users communicate with each other in a wireless communication system, the priority configuration of the communication channel is always performed on the communication users by adopting the time sent by the communication request, and the communication habit of the communication users is not specifically analyzed, so that when the communication users in the same wireless communication system communicate with each other, the communication channel allocation is unbalanced, and the communication experience difference of the communication users in the same wireless communication system in the communication process is large.

Disclosure of Invention

Technical problem to be solved

In view of the above drawbacks of the prior art, the present invention provides a method and a system for transmitting a message by a user equipment in a wireless communication system, which solve the technical problems set forth in the background art.

Technical proposal

In order to achieve the above purpose, the invention is realized by the following technical scheme:

in a first aspect, a system for transmitting a message by a user equipment in a wireless communication system, comprising:

the control terminal is a main control terminal of the system and is used for sending out an execution command;

the signal receiving and transmitting module is used for transmitting and receiving signals in the wireless communication system and analyzing the maximum load of a communication channel of the wireless communication system;

the monitoring module is used for monitoring the communication behavior of a communication user in the wireless communication system;

the logic module is used for acquiring the communication attribute in the communication behavior of the communication user from the sub-module arranged at the lower level of the monitoring module, and generating communication channel configuration logic by applying the communication attribute in the communication behavior of the communication user;

the optimizing module is used for acquiring the communication behavior data of the communication user monitored in the monitoring module, identifying the current communication network state of the communication user and the wireless communication system, and optimizing the communication behavior of the communication user by applying the identified communication network state;

and when the communication is optimized, the optimal calculation node quantity distribution is carried out, and the method concretely comprises the following steps:

；

wherein B is ^（t） Is a model parameter, A _G Is an update function, Z is the number of cycles, A _G The function obtains the model parameter B under the current state each time ^（t） And training data D _P ^（t） As input, calculate and return an updated value and add the updated value directly to the current parameter B ^（t） Thereby updating the parameters to the new state B ^（t+1） The method is continuously circulated until the maximum iteration number T given in advance is reached, and the data is divided into P parts by assuming P calculation nodes and distributed to the P nodes, and each node is then allowed to independently execute A on the divided data _G Function and calculate updated value;

the recording module is used for recording communication behaviors between a communication user and the wireless communication system;

and when the processing results are inconsistent, the communication behavior of the communication user recorded by the recording module is synchronous to the processing of the sub-module arranged at the lower level of the monitoring module, and the signal receiving and transmitting module is skipped to refresh operation.

Furthermore, the signal transceiver modules are provided with a plurality of groups, the signal transceiver modules send digital signals to each other and receive the digital signals, and when the signal transceiver modules send the digital signals, the number of the digital signals sent by the current signal transceiver modules is obtained when the digital signals are in a waiting state, namely, the maximum load of the communication channel of the wireless communication system is obtained by analysis of the signal transceiver modules.

Still further, the monitoring module is provided with a sub-module at a lower level, including:

the metering unit is used for metering the communication behavior source communication user monitored by the operation of the monitoring module;

the setting unit is used for setting the operation period of the monitoring module and the load of the maximum simultaneous service communication user of the wireless communication system;

the monitoring module running period set in the setting unit is manually set by a system end user, the monitoring module running period is initially set to be h by default, and the maximum simultaneous service communication user load number of the wireless communication system set in the setting unit is smaller than the maximum communication channel load number of the wireless communication system analyzed by the signal receiving and transmitting module.

Furthermore, the metering unit synchronously operates according to the operation period of the monitoring module set by the setting unit, and after the metering unit meters the communication users in the period, the metering unit acquires the communication behaviors of the communication users and identifies the communication attribute in the communication behaviors of the communication users;

wherein, the communication attribute in the communication behavior of the communication user comprises: the communication start time stamp, the communication end time stamp and the communication times in the period are measured, and the measuring unit further sends the communication attribute in the communication behavior of the communication user to the logic module after identifying the communication attribute in the communication behavior of the communication user.

Further, when the logic module operates, after the communication attribute in the communication behavior of the communication user is obtained, the communication attribute in the communication behavior of the communication user is applied to calculate the average communication time and the communication frequency of the communication user, and the confidence level of the communication behavior of the communication user in the wireless communication system is calculated according to the following formula:

；

wherein: i is the ith communication user; z number of communication channels, z > i; w is the communication frequency; m is communication time;is the ithTransmission rates of different network types used by communication subscribers in a wireless communication system; />Presence of a time duration in the wireless communication system for the ith communication subscriber, for example>The value of (2) is manually input by a system end user;

when a communication user sends a communication request to establish communication connection with other communication users in the wireless communication system, the communication channel is configured according to the degree of certainty of the communication user sending the communication request in the wireless communication system.

Furthermore, the metering unit and the logic module manually control the reset operation through a system end user, and the communication channel configuration logic generated in the logic module is as follows: the communication channel is configured preferentially according to the degree of certainty of the communication user in the wireless communication system, and the configuration logic refreshing frequency of the communication channel generated in the logic module is 0.5-1 s/time.

Further, in the operation stage of the optimizing module, when the current communication network states of the communication user and the wireless communication system are identified, the channel capacity of the communication channel used by the communication user is calculated according to the following formula:

；

wherein: b is the communication channel bandwidth; sigma is Gaussian white noise power; ph (t) is the average power between the communication destination P and the communication channel t;

when a communication user communicates with a target communication user through a communication channel, the communication user is provided with the communication channel with large channel capacity as a priority configuration target.

Furthermore, the logic module and the optimizing module autonomously set whether to participate in the system operation or not through a user at the system end, and at least one group of the logic module and the optimizing module participate in the system operation.

Furthermore, the control terminal is electrically connected with the signal receiving and transmitting module and the monitoring module through a medium, the lower level of the monitoring module is electrically connected with the metering unit and the setting unit through the medium, the monitoring module is electrically connected with the logic module through the medium, the logic module is electrically connected with the metering unit through the medium, and the logic module is electrically connected with the optimizing module and the recording module through the medium.

In a second aspect, a method for transmitting a message by a user equipment in a wireless communication system comprises the steps of:

step 1: analyzing the maximum communication channel load of the wireless communication system by using the signal receiving and transmitting module;

step 2: monitoring communication users existing in the wireless communication system, and judging whether the maximum communication channel load of the wireless communication system is greater than half of the number of the communication users existing in the wireless communication system;

step 3: step 2, judging whether the result is negative, reporting errors, and carrying out adaptive debugging on the wireless communication system;

wherein, the step 3 of adaptively debugging the wireless communication system includes: newly-built communication base stations, and modifying communication paths of communication users in a wireless communication system when the communication users communicate, so as to eliminate the communication users in the wireless communication system;

step 4: if the judgment result of the step 2 is yes, analyzing the communication attribute of the communication behavior of the communication user, and configuring a communication channel of the communication user when the communication is performed according to the communication attribute of the communication behavior of the communication user;

step 5: and analyzing the channel capacity of the communication channel used by the communication user when the communication is performed, and further optimally configuring the communication channel used by the communication user when the communication is performed according to the channel capacity of the communication channel used by the communication user.

Advantageous effects

Compared with the known public technology, the technical scheme provided by the invention has the following beneficial effects:

the invention provides a system for transmitting information by user equipment in a wireless communication system, which can analyze attributes according to communication behaviors of communication users in the running process, so as to know communication habits of the communication users, further configure communication channels in the wireless communication system for the communication users according to the communication habits of the communication users, and improve the communication experience balance of each communication user in the same wireless communication system to a certain extent.

In the running process of the system, the system brings continuous two-time communication optimization to the communication users in the wireless communication system, ensures the stability of the communication process of the communication users, can carry out the optimal configuration to the communication channels used by the communication users in the configuration stage of the communication channels used by the communication users, and brings better communication experience to the communication users in the wireless communication system.

The invention provides a method for transmitting information by user equipment in a wireless communication system, which can further maintain the stability of system operation by executing the steps in the method, effectively assist a system end user to better know the logic of system operation, and further judge whether the wireless communication system meets the use requirement of a communication user or not in the executing process of the steps of the method, so that the implementation of the technical scheme is more feasible.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It is evident that the drawings in the following description are only some embodiments of the present invention and that other drawings may be obtained from these drawings without inventive effort for a person of ordinary skill in the art.

Fig. 1 is a schematic diagram of a system for transmitting a message by a user equipment in a wireless communication system;

fig. 2 is a flow chart of a method for a user equipment to transmit a message in a wireless communication system;

reference numerals in the drawings represent respectively: 1. a control terminal; 2. a signal receiving and transmitting module; 3. a monitoring module; 31. a metering unit; 32. a setting unit; 4. a logic module; 5. an optimization module; 6. and (5) recording a module.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more clear, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. It will be apparent that the described embodiments are some, but not all, embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The invention is further described below with reference to examples.

Example 1

The system for transmitting a message by a user equipment in the wireless communication system of this embodiment, as shown in fig. 1, includes:

the control terminal 1 is a main control end of the system and is used for sending out an execution command;

the signal receiving and transmitting module 2 is used for transmitting and receiving signals in a wireless communication system and analyzing the maximum load of a communication channel of the wireless communication system;

a monitoring module 3, configured to monitor a communication behavior of a communication user in the wireless communication system;

the logic module 4 is used for acquiring the communication attribute in the communication behavior of the communication user from the sub-module arranged at the lower level of the monitoring module 3, and generating the communication channel configuration logic by applying the communication attribute in the communication behavior of the communication user;

the optimizing module 5 is used for acquiring the communication behavior data of the communication user monitored in the monitoring module 3, identifying the current communication network state in the communication user and the wireless communication system, and optimizing the communication behavior of the communication user by applying the identified communication network state;

and when the communication is optimized, the optimal calculation node quantity distribution is carried out, and the method concretely comprises the following steps:

；

wherein B is ^（t） Is a model parameter, A _G Is an update function, Z is the number of cycles, A _G The function obtains the model parameter B under the current state each time ^（t） And training data D _P ^（t） As input, calculate and return an updated value and add the updated value directly to the current parameter B ^（t） Thereby updating the parameters to the new state B ^（t+1） The method is continuously circulated until the maximum iteration number T given in advance is reached, and the data is divided into P parts by assuming P calculation nodes and distributed to the P nodes, and each node is then allowed to independently execute A on the divided data _G Function and calculate updated value;

a recording module 6 for recording communication actions between the communication user and the wireless communication system;

the operation period of the recording module 6 is consistent with the operation period of the monitoring module 3, the communication behavior of the communication user recorded by the recording module 6 is synchronously processed by a sub-module arranged at the lower level of the monitoring module 3, and when the processing results are inconsistent, the jump signal receiving and transmitting module 2 refreshes and operates;

the monitoring module 3 is provided with the submodule in the next stage, includes:

a metering unit 31, configured to meter the communication source communication user monitored by the monitoring module 3;

a setting unit 32, configured to set an operation period of the monitoring module 3 and a maximum simultaneous service communication user load of the wireless communication system;

the operation period of the monitoring module 3 set in the setting unit 32 is manually set by a user at a system end, the operation period of the monitoring module 3 is initially set to 72h by default, and the maximum simultaneous service communication user load number of the wireless communication system set in the setting unit 32 is smaller than the maximum communication channel load number of the wireless communication system analyzed by the signal receiving and transmitting module 2;

the metering unit 31 synchronously operates according to the operation period of the monitoring module 3 set by the setting unit 32, and after the metering unit 31 meters the communication users in the period, the metering unit acquires the communication behaviors of the communication users and identifies the communication attribute in the communication behaviors of the communication users;

wherein, the communication attribute in the communication behavior of the communication user comprises: the metering unit 31 further transmits the communication attribute in the communication behavior of the communication user to the logic module 4 after recognizing the communication attribute in the communication behavior of the communication user;

the control terminal 1 is electrically connected with the signal receiving and transmitting module 2 and the monitoring module 3 through a medium, the lower level of the monitoring module 3 is electrically connected with the metering unit 31 and the setting unit 32 through the medium, the monitoring module 3 is electrically connected with the logic module 4 through the medium, the logic module 4 is electrically connected with the metering unit 31 through the medium, and the logic module 4 is electrically connected with the optimizing module 5 and the recording module 6 through the medium.

In this embodiment, the control terminal 1 controls the signal transceiver module 2 to transmit and receive signals in the wireless communication system, analyzes the maximum load of the communication channel of the wireless communication system, monitors the communication behavior of the communication user in the wireless communication system synchronously by the monitoring module 3, and the logic module 4 operates in a post-operation mode to acquire the communication attribute in the communication behavior of the communication user from the sub-module arranged in the lower stage of the monitoring module 3, and generates the communication channel configuration logic by applying the communication attribute in the communication behavior of the communication user; the optimizing module 5 operates and acquires the communication behavior data of the communication user monitored in the monitoring module 3, identifies the current communication network state of the communication user and the wireless communication system, applies the identified communication network state to optimize the communication behavior of the communication user, and finally the recording module 6 operates and records the communication behavior of the communication user in the wireless communication system;

it should be noted that, through the operation of the sub-module at the lower level of the monitoring module 3, the communication behavior of the communication user monitored by the monitoring module 3 can be further analyzed, so as to provide necessary data support for the operation of the subsequent modules in the system.

Example 2

In a specific implementation aspect, on the basis of embodiment 1, this embodiment further specifically describes a system for transmitting a message by a user equipment in a wireless communication system in embodiment 1 with reference to fig. 1:

the signal transceiver module 2 is provided with a plurality of groups, the signal transceiver module 2 of the plurality of groups mutually transmits digital signals and mutually receives, when the signal transceiver module 2 transmits the digital signals, the number of the digital signals transmitted by the current signal transceiver module 2 is obtained when the digital signals are in a waiting state, namely, the maximum load of a communication channel of the wireless communication system obtained by the analysis of the signal transceiver module 2.

When the logic module 4 operates, after the communication attribute in the communication behavior of the communication user is obtained, the communication attribute in the communication behavior of the communication user is applied to calculate the average communication time and communication frequency of the communication user, and the degree of certainty of the communication behavior of the communication user in the wireless communication system is calculated by the following formula:

；

wherein: i is the ith communication user; z number of communication channels, z > i; w is the communication frequency; m is communication time;transmission rates for the ith communication subscriber for different network types used in the wireless communication system; />Presence of a time duration in the wireless communication system for the ith communication subscriber, for example>The value of (2) is manually input by a system end user;

when a communication user sends a communication request to establish communication connection with other communication users in the wireless communication system, the communication channel is configured according to the degree of certainty of the communication user sending the communication request in the wireless communication system.

The metering unit 31 and the logic module 4 manually control the reset operation through a system end user, and the communication channel configuration logic generated in the logic module 4 is as follows: the communication channel is configured preferentially according to the degree of certainty of the communication user in the wireless communication system, and the configuration logic refreshing frequency of the communication channel generated in the logic module 4 is 0.5-1 s/time.

And in the operation stage of the optimizing module 5, when the current communication network states of the communication user and the wireless communication system are identified, the channel capacity of the communication channel used by the communication user is calculated by the following formula:

；

wherein: b is the communication channel bandwidth; sigma is Gaussian white noise power; ph (t) is the average power between the communication destination P and the communication channel t;

when a communication user communicates with a target communication user through a communication channel, the communication user is provided with the communication channel with large channel capacity as a priority configuration target.

The logic module 4 and the optimizing module 5 are set to be in operation or not independently through a user at the system end, and at least one group of the logic module 4 and the optimizing module 5 is in operation.

Example 3

In a specific implementation aspect, on the basis of embodiment 1, this embodiment further specifically describes a system for transmitting a message by a user equipment in a wireless communication system in embodiment 1 with reference to fig. 2:

a method for a user equipment to transmit a message in a wireless communication system, comprising the steps of:

step 1: analyzing the maximum communication channel load of the wireless communication system by using the signal receiving and transmitting module;

step 2: monitoring communication users existing in the wireless communication system, and judging whether the maximum communication channel load of the wireless communication system is greater than half of the number of the communication users existing in the wireless communication system;

step 3: step 2, judging whether the result is negative, reporting errors, and carrying out adaptive debugging on the wireless communication system;

wherein, the step 3 of adaptively debugging the wireless communication system includes: newly-built communication base stations, and modifying communication paths of communication users in a wireless communication system when the communication users communicate, so as to eliminate the communication users in the wireless communication system;

step 4: if the judgment result of the step 2 is yes, analyzing the communication attribute of the communication behavior of the communication user, and configuring a communication channel of the communication user when the communication is performed according to the communication attribute of the communication behavior of the communication user;

step 5: and analyzing the channel capacity of the communication channel used by the communication user when the communication is performed, and further optimally configuring the communication channel used by the communication user when the communication is performed according to the channel capacity of the communication channel used by the communication user.

The above embodiments are only for illustrating the technical solution of the present invention, and are not limiting; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims (9)

1. A system for transmitting messages by a user equipment in a wireless communication system, comprising:

the control terminal (1) is a main control end of the system and is used for sending out an execution command;

the signal receiving and transmitting module (2) is used for transmitting and receiving signals in the wireless communication system and analyzing the maximum load of a communication channel of the wireless communication system;

a monitoring module (3) for monitoring communication behavior of communication subscribers in the wireless communication system;

the logic module (4) is used for acquiring the communication attribute in the communication behavior of the communication user from the sub-module arranged at the lower level of the monitoring module (3), and generating the communication channel configuration logic by applying the communication attribute in the communication behavior of the communication user;

the optimizing module (5) is used for acquiring the communication behavior data of the communication user monitored in the monitoring module (3), identifying the current communication network state of the communication user and the wireless communication system, and optimizing the communication behavior of the communication user by applying the identified communication network state;

and when the communication is optimized, the optimal calculation node quantity distribution is carried out, and the method concretely comprises the following steps:

；

wherein B is ^（t） Is a model parameter, A _G Is an update function, Z is the number of cycles, A _G The function obtains the model parameter B under the current state each time ^（t） And training data D _P ^（t） As input, calculate and return an updated value and add the updated value directly to the current parameter B ^（t） Thereby updating the parameters to the new state B ^（t+1） The method is continuously circulated until the maximum iteration number T given in advance is reached, and the data is divided into P parts by assuming P calculation nodes and distributed to the P nodes, and each node is then allowed to independently execute A on the divided data _G Function and calculate updated value;

a recording module (6) for recording communication behaviors of communication users in the wireless communication system;

wherein the operation period of the recording module (6) is consistent with that of the monitoring module (3), the communication behavior of the communication user recorded by the recording module (6) is synchronously processed by a sub-module arranged at the lower stage of the monitoring module (3), and when the processing results are inconsistent, the jump signal receiving and transmitting module (2) refreshes and operates,

when the logic module (4) operates, after the communication attribute in the communication behavior of the communication user is obtained, the communication attribute in the communication behavior of the communication user is applied to calculate the average communication time and communication frequency of the communication user, and the confidence level of the communication behavior of the communication user in the wireless communication system is calculated by the following formula:

；

wherein: i is the ith communication user; z number of communication channels, z > i; w is the communication frequency; m is communication time;transmission rates for the ith communication subscriber for different network types used in the wireless communication system; />Presence of a time duration in the wireless communication system for the ith communication subscriber, for example>The value of (2) is manually input by a system end user;

when a communication user sends a communication request to establish communication connection with other communication users in the wireless communication system, the communication channel is configured according to the degree of certainty of the communication user sending the communication request in the wireless communication system.

2. The system for transmitting messages by user equipment in a wireless communication system according to claim 1, wherein the signal transceiver modules (2) are provided with a plurality of groups, the signal transceiver modules (2) of the plurality of groups transmit digital signals mutually and receive the digital signals mutually, and when the signal transceiver modules (2) transmit the digital signals, the number of the digital signals transmitted by the current signal transceiver module (2), namely, the maximum load of a communication channel of the wireless communication system obtained by analysis of the signal transceiver modules (2), is obtained when the digital signals are in a waiting state.

3. A system for transmitting messages by a user equipment in a wireless communication system according to claim 1, characterized in that said monitoring module (3) is provided with sub-modules at a lower level, comprising:

the metering unit (31) is used for metering the communication source communication user monitored by the monitoring module (3);

the setting unit (32) is used for setting the operation period of the monitoring module (3) and the maximum simultaneous service communication user load of the wireless communication system;

the operation period of the monitoring module (3) set in the setting unit (32) is manually set by a system end user, the operation period of the monitoring module (3) is initially set to 72h by default, and the maximum simultaneous service communication user load number of the wireless communication system set in the setting unit (32) is smaller than the maximum communication channel load number of the wireless communication system analyzed by the signal receiving and transmitting module (2).

4. A system for transmitting a message by a user equipment in a wireless communication system according to claim 3, wherein the metering unit (31) synchronously operates according to the operation period of the monitoring module (3) set by the setting unit (32), and the metering unit (31) acquires the communication behaviors of each communication user after metering the communication user in the period, and identifies the communication attribute in the communication behaviors of the communication user;

wherein, the communication attribute in the communication behavior of the communication user comprises: the metering unit (31) further transmits the communication attribute in the communication behavior of the communication user to the logic module (4) after recognizing the communication attribute in the communication behavior of the communication user.

5. The system for transmitting messages by a ue in a wireless communication system according to claim 4, wherein the metering unit (31) and the logic module (4) are configured to manually control the reset operation by a system end user, and the communication channel configuration logic generated in the logic module (4) is configured to: the communication channel is configured preferentially according to the degree of certainty of the communication user in the wireless communication system, and the configuration logic refreshing frequency of the communication channel generated in the logic module (4) is 0.5-1 s/time.

6. The system for transmitting messages by a user equipment in a wireless communication system according to claim 1, wherein the optimizing module (5) is configured to perform a calculation of a channel capacity of a communication channel used by a communication user when identifying a current communication network state in the wireless communication system and the communication user by a formula:

；

wherein: b is the communication channel bandwidth; sigma is Gaussian white noise power; ph (t) is the average power between the communication destination P and the communication channel t;

when a communication user communicates with a target communication user through a communication channel, the communication user is provided with the communication channel with large channel capacity as a priority configuration target.

7. The system for transmitting messages by a user equipment in a wireless communication system according to claim 1, wherein the logic module (4) and the optimization module (5) autonomously set whether to participate in the system operation by a system end user, and at least one group of the logic module (4) and the optimization module (5) participate in the system operation.

8. The system for transmitting messages by a user equipment in a wireless communication system according to claim 1, wherein the control terminal (1) is electrically connected with the signal transceiver module (2) and the monitoring module (3) through a medium, the lower stage of the monitoring module (3) is electrically connected with the metering unit (31) and the setting unit (32) through a medium, the monitoring module (3) is electrically connected with the logic module (4) through a medium, the logic module (4) is electrically connected with the metering unit (31) through a medium, and the logic module (4) is electrically connected with the optimizing module (5) and the recording module (6) through a medium.

9. A method for transmitting a message by a user equipment in a wireless communication system, the method being implemented in a system for transmitting a message by a user equipment in a wireless communication system according to any of claims 1-8, comprising the steps of:

step 1: analyzing the maximum communication channel load of the wireless communication system by using the signal receiving and transmitting module;

step 2: monitoring communication users existing in the wireless communication system, and judging whether the maximum communication channel load of the wireless communication system is greater than half of the number of the communication users existing in the wireless communication system;

step 3: step 2, judging whether the result is negative, reporting errors, and carrying out adaptive debugging on the wireless communication system;

wherein, the step 3 of adaptively debugging the wireless communication system includes: newly-built communication base stations, and modifying communication paths of communication users in a wireless communication system when the communication users communicate, so as to eliminate the communication users in the wireless communication system;

step 4: if the judgment result of the step 2 is yes, analyzing the communication attribute of the communication behavior of the communication user, and configuring a communication channel of the communication user when the communication is performed according to the communication attribute of the communication behavior of the communication user;

step 5: and analyzing the channel capacity of the communication channel used by the communication user when the communication is performed, and further optimally configuring the communication channel used by the communication user when the communication is performed according to the channel capacity of the communication channel used by the communication user.