CN107731312B - Diagnostic data transmission and processing method - Google Patents

Abstract

The invention provides a diagnosis data transmission and processing method, which comprises the following steps: a. setting a plurality of feature codes corresponding to a plurality of triage modules; b. the main control mobile terminal sends a control instruction to the data distribution module based on the case data, the control instruction comprises a command symbol for sending the case data to at least one diagnosis distribution module, and the command symbol corresponds to at least one characteristic code; c. the data distribution module sends case data to at least one triage module, and the triage module receives the case data and obtains corresponding diagnosis and treatment data based on the case data. The invention can realize the purpose of data distribution and ordered transmission, and further improves the efficiency of data transmission and the efficiency of data processing.

Description

Diagnostic data transmission and processing method

Technical Field

The invention relates to the technical field of computers, in particular to a diagnosis data transmission and processing method.

Background

The mobile diagnosis and treatment technology has become popular with the increasing development of the mobile computer field. The patient and the doctor can carry out information interaction through the mobile device or the computer device, and the remote medical examination and inquiry can be realized. In the prior art, a common mobile diagnosis and treatment scheme includes the following technical means:

the user inputs disease information, personal information and other patient information to the user end;

the user side sends the patient information to a server;

the server pushes the patient information to a doctor end according to the background operation logic;

the doctor confirms reply information based on the patient information pushed by the doctor end, and the doctor end sends the reply information to the server;

the server pushes the reply message to the user side.

However, in the prior art, only a point-to-point connection between a doctor and a patient is established, the matching mode between the doctor and the patient is simple, the patient actively selects the doctor through the system, or the doctor selects the patient through the system, and the data transmission and processing mode is focused on how to realize the interaction between one terminal and another terminal.

At present, the mobile diagnosis and treatment field lacks connection mainly based on doctors, the connection mainly based on doctors emphasizes data interaction among a plurality of terminals, and besides traditional time sequence control, the data interaction among the doctors needs to establish access right control.

Disclosure of Invention

In order to solve the defects of the prior art, the invention provides a triage data transmission and processing method, which is implemented by the interaction of a data distribution module and a plurality of independent triage modules, and comprises the following steps:

a. setting a plurality of feature codes corresponding to a plurality of triage modules;

b. the main control mobile terminal sends a control instruction to the data distribution module based on case data, wherein the control instruction comprises a command symbol for sending the case data to at least one diagnosis division module, and the command symbol corresponds to at least one characteristic code;

c. the data distribution module sends the case data to at least one triage module, and the triage module receives the case data and obtains corresponding diagnosis and treatment data based on the case data.

Preferably, in the step b, the main control mobile terminal determines the control instruction by:

b1. the master control mobile terminal retrieves a historical diagnosis and treatment index and determines index data matched with the case data, the historical diagnosis and treatment index is generated based on all diagnosis and treatment data obtained by all diagnosis and treatment modules, and the index data corresponds to the diagnosis and treatment modules;

b2. the main control mobile terminal generates the command symbol based on the feature code of the triage module corresponding to the index data matched with the case data, and the main control mobile terminal generates the control instruction based on the command symbol.

Preferably, the following steps are further performed after the step b:

b3. the master control mobile terminal sends a communication request to all the diagnosis modules in the step b, wherein the communication request at least comprises the equipment code of the master control mobile terminal;

b4. the triage module calculates an efficiency value z of the master control mobile terminal according to a formula z (f (x, y) ═ x/(x + y), wherein x represents the number of case data successfully interacted between the master control mobile terminal and all the triage modules in the step a, and y represents the number of case data unsuccessfully interacted between the master control mobile terminal and all the triage modules in the step a;

b5. judging whether the efficiency value z is greater than a first threshold value, and if the efficiency value z is greater than the first threshold value, receiving a communication request of the master control mobile terminal by the triage module; and if the efficiency value z is smaller than the first threshold value, the triage module refuses the communication request of the master control mobile terminal.

Preferably, the step c includes the steps of:

c1. executing logic sequencing steps on all triage modules serving as sending objects of the data distribution module;

c2. based on the result of the logic sorting, all the triage modules execute the step of extracting the characteristic data of the case data one by one;

c3. the triage module judges whether the characteristic data is matched with the triage module based on a database of the triage module;

c4. and if the triage module is matched with the characteristic data, the triage module obtains corresponding diagnosis and treatment data based on the case data.

Preferably, if the triage module does not match the feature data, the triage module sends the case data to the next triage module, and the method is executed according to any one of the following manners:

c5. if the next triage module belongs to all the triage modules in the step b, the next triage module restarts to execute the step c 3;

c 5' if the next triage module is not among all the triage modules in the step b, the next triage module performs a +1 operation on the case data and restarts the step c2.

Preferably, if the next triage module is not included in all the triage modules in the step b and the next triage module determines that the case data has been executed at least three times by +1 operation, the next triage module stops executing the step c3.

Preferably, the step c further comprises the steps of:

c21. the triage module judges whether the command symbol is matched with the feature code of the triage module;

c22. if the command symbol is matched with the feature code of the triage module, the triage module receives the case data;

c23. if the command symbol does not match the feature code of the triage module, the triage module refuses to receive the case data, and the data triage module sends the case data to the next triage module, and the next triage module restarts to execute the step c21.

Preferably, the step c23 is performed according to any one of the following manners:

if the next triage module belongs to all the triage modules in the step b, the next triage module restarts to execute the step c 21;

if the next triage module is not included in all the triage modules in the step b, the next triage module performs a +1 operation on the case data and restarts the step c21.

Preferably, if the next triage module is not included in all the triage modules in the step b and the next triage module determines that the case data has been executed at least three times by +1 operation, the next triage module stops executing the step c21.

Preferably, the step c further comprises the steps of:

if the next diagnosis module does not belong to all the diagnosis modules in the step b, the main control mobile terminal sends a communication request to the next diagnosis module, wherein the communication request at least comprises the equipment code of the main control mobile terminal, and the next diagnosis module identifies the equipment code and then establishes communication with the main control mobile terminal.

Preferably, the step c further comprises the steps of:

c6. and the triage module establishing communication with the master control mobile terminal sends all real-time data streams to the master control mobile terminal.

Preferably, the step c6 is further followed by the steps of:

c7. and the master control mobile terminal actively executes the step of cutting off the communication so as to terminate the communication with the triage module.

Preferably, in the step b, if a plurality of the master control mobile terminals simultaneously send the control instruction to the data offloading module, the data offloading module determines a sequence according to a score of the master control mobile terminal, where the score is proportional to the number of times of interaction between the master control mobile terminal and the offloading module and the data transmission amount.

According to the invention, through the interaction between the data distribution module and the diagnosis distribution module and through the instruction control of the main control mobile terminal, the purposes of data distribution and ordered transmission can be realized, the data transmission efficiency and the data processing efficiency are further improved, and when a plurality of main control mobile terminals request synchronously, the interference among the plurality of main control mobile terminals can be avoided.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic flow chart of a diagnostic data transmission and processing method according to an embodiment of the present invention;

FIG. 2 is a detailed flow diagram of a method for diagnostic data transmission and processing according to an embodiment of the present invention;

FIG. 3 illustrates a flow diagram of the triage module processing case data, according to an embodiment of the invention; and

fig. 4 shows a flow chart of the triage module receiving the case data, according to an embodiment of the invention.

Detailed Description

In order to better and clearly show the technical scheme of the invention, the invention is further described with reference to the attached drawings.

Fig. 1 shows a detailed flowchart of a diagnosis data transmission and processing method according to an embodiment of the present invention, and those skilled in the art understand that in the existing mobile diagnosis and treatment technology field, data splitting and processing are mostly implemented through one control center, which greatly increases the load of the control center, on one hand, increases the cost, and on the other hand, faster data splitting and processing cannot be implemented. The invention establishes a multi-center processing system by matching a data processing module with a triage module, and realizes high-efficiency data transmission and processing based on the following steps, which specifically comprises the following steps:

first, step S101 is executed to set a plurality of feature codes corresponding to the plurality of triage modules. Specifically, the plurality of diagnosis modules related to the present invention are independent of each other, and in the process of the whole system operation, the function addresses of the plurality of diagnosis modules and the corresponding programs may be changed, so that feature codes are required to be located to determine the positions of the diagnosis modules, and if the function addresses or global variables are memorized by using absolute addresses, and if the corresponding programs are updated, the addresses are invalid, and then the addresses can be located by means of the feature codes, so that the probability of address invalidation is reduced. More specifically, the feature code in the present invention may be set in any one of the following manners: for example, the feature code has a special constant, and the constant is not the memory address of the target program; as another example, the feature code is a code with a short jump; for another example, a signature code with a corresponding offset of a structure or class variable; as another example, the feature code may be a special instruction that does not have the code for an absolute address.

Further, step S102 is executed, in which the main control mobile terminal sends a control instruction to the data offloading module based on the case data, the control instruction includes a command symbol for sending the case data to at least one of the offloading modules, and the command symbol corresponds to at least one of the feature codes. Specifically, the triage module and the data offloading module are preferably integrated in one data processing system, and the master control mobile terminal is independent of the data processing system and is registered in the data processing system. The main control mobile terminal can directly send an instruction to the data distribution module, and the data distribution module and the main control mobile terminal complete data decoding through a specific communication protocol. More specifically, the control instruction sent by the master control mobile terminal does not include case data, the case data can be sent to the data offloading module in advance by other mobile terminals and cached, and the control instruction only includes an instruction to instruct the data offloading module to process the case data.

Further, in step S102, the control instruction is determined based on the case data, after the master mobile terminal analyzes the case data, at least relevant information such as a disease type, a patient history, and a region where the patient is located related to the case data may be obtained, and the master mobile terminal generates the control instruction according to information included in the case data, which aims to improve matching between the case data and the triage module, so as to further improve accuracy and efficiency of data processing. Specifically, the triage module generates diagnosis and treatment data in practical application, a plurality of the triage modules accumulate a large amount of diagnosis and treatment data, the data transmission module can generate the historical diagnosis and treatment index based on a large amount of diagnosis and treatment data, the index data contained in the historical diagnosis and treatment index can establish a corresponding relationship with the triage modules, and then the master control mobile terminal can search the historical diagnosis and treatment index, screen out index data matched with the case data, and determine the corresponding triage module according to the index data. For example, if the main control mobile terminal decodes the case data to determine that the disease type is hypertension, the location is in the south of china, and no other medical history exists, the main control mobile terminal searches and determines the index data containing hypertension information from the historical index data, then determines the triage module corresponding to the index data, and sends a control instruction to the data transmission center, where the control instruction includes a command symbol for sending the case data to the triage module.

Further, step S103 is executed, in which the data distribution module sends the case data to at least one triage module, and the triage module receives the case data and obtains corresponding diagnosis and treatment data based on the case data. Specifically, the data distribution module sends the case data to one or more diagnosis distribution modules based on the control instruction, which is specifically described in step S102 and is not described herein again. The simplest mode is that no access restriction rule is set between the data distribution module and the triage module, so that the data distribution module and the triage module can perform data transmission more freely, which is suitable for a situation with a small data processing amount and a small number of main control mobile terminals, that is, as long as the data distribution module sends the case data to the triage module, the triage module passively starts to perform the step of obtaining the diagnosis and treatment data. More specifically, the process of obtaining the diagnosis and treatment data may be completed based on an intelligent robot or artificial intelligence, which is not the key point of the present invention and is not described herein again.

Fig. 2 shows another triage data transmission and processing method as an embodiment of the present invention, which includes the following steps:

first, step S201 is executed to set a plurality of feature codes corresponding to a plurality of triage modules, which is similar to step S101 and is not described herein again.

Further, step S202 is executed, in which the main control mobile terminal retrieves a historical clinical index generated based on all the clinical data obtained by all the triage modules and determines index data matched with the case data, where the index data corresponds to the triage modules. Specifically, this step can be understood in conjunction with the contents of step S202.

Further, step S203 is executed, the main control mobile terminal generates a command symbol based on the feature code of the triage module corresponding to the index data matched with the case data, and the main control mobile terminal generates the control instruction based on the command symbol and sends the control instruction to the data offloading module. Specifically, the command symbol at least includes a working prompt symbol for prompting the main control mobile terminal to input the diagnosis module feature code, and the control instruction may include the command symbol, an indicator for instructing the data offloading module to transmit the case data according to a time sequence or a specific sequence, and information such as a transmission path. More specifically, those skilled in the art may also add other auxiliary information to the prior art as part of the control instruction to further increase the accuracy of the control instruction.

Further, step S204 is executed, in which the master mobile terminal sends a communication request to all the triage modules in step S203, where the communication request at least includes the device code of the master mobile terminal. Specifically, the number of all the triage modules pointed by the control instruction may be one or multiple, and may include all the triage modules involved in step S201, and also start a part of all the triage modules involved in step S201. More specifically, the purpose of the communication request including the device code is to enable the triage module to identify the master mobile terminal, and to memorize the device code.

Further, in this embodiment, the main control mobile terminal is independent of the triage module and the data offloading module, and the main control mobile terminal selectively establishes communication with the triage module so as to obtain a data stream of the triage module when processing the case data, and preferably, the triage module establishing communication with the main control mobile terminal sends all real-time data streams to the main control mobile terminal. The technical personnel in the field understand that most of the existing mobile diagnosis and treatment systems are integrated systems, all data storage, transmission and processing are integrated in one system, the system load is overlarge, through the embodiment, the data stream of the triage module can be led into the main control mobile terminal, and the main control mobile terminal can also establish data transmission with other external third party terminals, so that the data stream of the triage module is stored. Those skilled in the art understand that, in most data interaction processes, the storage of data interaction results is particularly important, but in the field of mobile diagnosis and treatment, the data interaction process is more important, and if a data stream of the whole data interaction process needs to be stored, the data interaction process puts higher requirements on system storage and grouping capability, and the problem is well solved by the method of the embodiment.

Further, step S205 is executed, and the triage module calculates an efficiency value z of the master mobile terminal according to a formula z ═ f (x, y) ═ x/(x + y), where x represents the number of case data successfully interacted between the master mobile terminal and all the triage modules in step S201, and y represents the number of case data unsuccessfully interacted between the master mobile terminal and all the triage modules in step S201. In this embodiment, an access restriction is set for the communication between the main control mobile terminal and the triage module, that is, the main control mobile terminal cannot establish a connection with the triage module in a single way and obtain a data stream of the triage module, the main control mobile terminal itself needs to have a certain condition, the specific condition is the historical interaction frequency of the main control mobile terminal and the triage module, and the historical interaction frequency is effective when needed, and the embodiment represents the historical interaction frequency by an efficiency value z, and according to the algorithm formula of this step, the efficiency value z is finally a ratio, where x and y are based on all the triage modules in step S201, but not all the triage modules in step S203, the reason is that x and y are actually obtained based on big data, that is, the main control mobile terminal only needs to effectively interact with any one of the triage modules, the counting can be performed once, the total number of the counts is stored in the system, and the triage module directly reads the x value and the y value corresponding to the main control mobile terminal from the system when the step is performed. Those skilled in the art will appreciate that the triage module can determine the master mobile terminal based on the device code in step S204, and the x and y values are continuously updated. .

Further, step S206 is executed to determine whether the efficiency value z is greater than a first threshold, and if the efficiency value z is greater than the first threshold, the triage module receives a communication request of the master control mobile terminal; and if the efficiency value z is smaller than the first threshold value, the triage module refuses the communication request of the master control mobile terminal. Specifically, the first threshold may be modified according to actual application, and the triage module establishes communication with the master control mobile terminal after receiving the communication request of the master control mobile terminal, so as to share the data stream with the master control mobile terminal.

Further, step S207 is executed, the data distribution module sends the case data to at least one triage module, the triage module receives the case data and obtains corresponding diagnosis and treatment data based on the case data, and the step is understood by specifically combining with step S103. Preferably, in the process of processing the case data by the triage module, the triage module establishing communication with the master control mobile terminal sends all real-time data streams to the master control mobile terminal.

Further, during or after the step S207 is executed, the main control mobile terminal actively executes a step of cutting off communication to terminate communication with the triage module. Namely, the main control mobile terminal can terminate the data interaction with the triage module at any time to control the whole data interaction process.

As a variation of the present invention, fig. 3 shows a flowchart of case data processing by the triage module, and both of the steps S103 and S206 can be implemented by the following steps:

first, step S301 is executed to execute a logical sorting step for all the triage modules to be transmitted by the data offloading module, which is a step to be executed by each of the following triage modules. The specific logic sequencing mode can be determined by combining the actual situation of the triage module. For example, the sorting from 1 can be completed in the simplest random sorting manner, that is, the sorting from 1 can be completed directly according to the sequence of the triage modules when the logic sorting time point is executed, without considering the characteristics of the triage modules themselves; for another example, the logical sorting may be completed according to a specific standard, the sorting may be performed according to the data processing capability of the triage module, and the sorting may also be performed according to the interaction frequency of the triage module and the master control mobile terminal. More specifically, in this step, only the sorting is performed on all the triage modules pointed by the control instruction, and the result of the completion of the sorting may be kept unchanged or may be continuously updated.

Further, step S302 is executed, and based on the result of the logical sorting, all the triage modules execute the step of extracting the feature data of the case data one by one. Specifically, this step is performed on the basis of step S301, and the purpose of this step is that a plurality of triage modules can perform this step in order. More specifically, the feature data of the case data may be related to information, such as a disease type, a medical history of the patient, and an area where the patient is located, included in the case data, and the extraction manner of the feature data of the case data is similar to the generation manner of the control command in combination with the description of step S102, and is not repeated herein.

Further, step S303 is executed, and the triage module determines whether the feature data is matched with the triage module based on its own database. Specifically, the triage module may generate diagnosis and treatment data in practical application, and then a plurality of the triage modules may accumulate a large amount of diagnosis and treatment data, in step S102, the historical diagnosis and treatment index is generated based on the diagnosis and treatment data, except that the database involved in this step may be directly composed of a large amount of diagnosis and treatment data, and preferably, the diagnosis and treatment data only include diagnosis and treatment result information corresponding to case data, so as to reduce the data storage amount of the triage modules. More specifically, the matching in this step is different from the matching in step S202, and the data size of the database on which the matching in this step is based is far larger than the data included in the historical diagnosis and treatment index, so that the matching accuracy is higher. In connection with the embodiment shown in fig. 2, if the present variation is applied, it can greatly improve the matching degree between the triage module and the main control mobile terminal, and improve the accuracy of data processing.

Further, if the triage module determines that the triage module matches the feature data based on its own database, step S304 is executed, the triage module matching the feature data obtains corresponding diagnosis and treatment data based on the case data, and the process of obtaining the diagnosis and treatment data can be completed based on an intelligent robot or artificial intelligence, which is not the key point of the present invention and is not described herein again.

Further, if the triage module determines that the triage module does not match the feature data based on its own database, step S305 is executed, the triage module sends the case data to the next triage module, and then step S306 is executed to determine whether the next triage module belongs to all the triage modules in step S301:

if the next triage module belongs to all the triage modules in step S301, the next triage module restarts to execute step S303. That is, the next triage module has already performed the sorting step in step S301, which has two features: one is that it has been selected by the master mobile terminal but has itself performed step S302, so it has the basis to re-perform step S303.

If the next triage module does not belong to all the triage modules in step S301, step S307 is executed, and the next triage module executes +1 operation on the case data and restarts to execute step S302. That is, the next triage module does not perform the sorting step in step S301, and has two features: firstly, it is not selected by the master mobile terminal, which is actually selected by the triage module, and secondly, it itself does not perform step S302, so it does not have the basis to re-perform step S303, and therefore, it needs to perform step +1, on one hand, it can mark the newly added triage module, on the other hand, it can be used as the basis to add it into the logic sorting array, and then it may need to finish the cost variation example from step S302. Preferably, in this embodiment, if the next triage module determines that the case data has been executed for at least three times by +1 operation, the next triage module stops executing the step S302, and those skilled in the art understand that the general idea of the present invention is to complete transmission of the triage data under the control of the main control mobile terminal, and in this embodiment, the next triage module is not included in the control instruction of the main control mobile terminal, in order to prevent active interaction between the triage modules from falling into an endless state, and thus two control centers exist, when the triage module performs interaction by itself, the number of interactions is limited, so as to improve the ordering of data interaction. More specifically, if the main control mobile terminal needs to communicate with the next triage module, the main control mobile terminal sends a communication request to the next triage module, the communication request at least includes a device code of the main control mobile terminal, and the next triage module establishes communication with the main control mobile terminal after recognizing the device code.

As another variation of the present invention, the implementation of steps S103, S206, and S302 is based on the triage module receiving the case data, and as a preferred implementation of step S302, fig. 4 shows a flowchart of the triage module receiving the case data, which includes the following steps:

step S401 is executed first, and the triage module determines whether the command symbol matches with the feature code of the triage module. The purpose of this step is to prevent the main control mobile terminal from sending control instructions by mistake, or the data shunting module from executing control instructions by mistake, so that the step of active verification by the triage module is added. That is, the triage module does not passively receive the case data, but realizes that whether an error condition exists in a transmission path from the main control mobile terminal to the data distribution module and then to the triage module needs to be verified. The implementation of this step can be understood by those skilled in the art in conjunction with the preceding sections regarding the command symbol and feature code.

Further, if the command symbol matches with the feature code of the triage module, step S402 is executed, and the triage module receives the case data, which is an extension step in step S401 and is not described herein again.

Further, if the command symbol does not match the feature code of the triage module, step S403 is executed, the triage module refuses to receive the case data, and the data offloading module sends the case data to the next triage module, and then step S404 is executed to determine whether the next triage module belongs to all the triage modules pointed by the control instruction:

if the next triage module belongs to all the triage modules pointed by the control instruction, the next triage module restarts to execute the step S401. The person skilled in the art can understand this step in conjunction with the foregoing description regarding step S305.

If the next triage module does not belong to all the triage modules pointed by the control instruction, step S405 is executed, and the next triage module executes +1 operation on the case data and starts to execute step S401 again. The person skilled in the art can understand this step in conjunction with the foregoing description regarding step S305. Similarly, in order to prevent the active interaction between the triage modules from falling into an endless state, and thus two control centers exist, when the triage modules perform interaction by themselves, the number of times of interaction is limited, that is, if the next triage module does not belong to all the triage modules pointed by the control instruction, and the next triage module determines that the case data has been executed for at least three times by +1 operation, the next triage module stops executing the step 401, so as to improve the ordering of data interaction. More specifically, if the main control mobile terminal needs to communicate with the next triage module, the main control mobile terminal sends a communication request to the next triage module, the communication request at least includes a device code of the main control mobile terminal, and the next triage module establishes communication with the main control mobile terminal after recognizing the device code.

As another variation of the present invention, in step S102 or step S203, if a plurality of the main control mobile terminals simultaneously send the control instruction to the data offloading module, the data offloading module determines a sequence according to a score value of the main control mobile terminal, where the score value is proportional to the number of interactions between the main control mobile terminal and the offloading module and the data transmission amount. Specifically, if there is a situation where a plurality of master control mobile terminals send control instructions simultaneously, the control instructions may be sequentially processed in a time-series control manner, and in this variation, the sorting is completed based on the characteristics of the master control mobile terminals.

The foregoing description of specific embodiments of the present invention has been presented. It is to be understood that the present invention is not limited to the specific embodiments described above, and that various changes and modifications may be made by one skilled in the art within the scope of the appended claims without departing from the spirit of the invention.

Claims (13)

1. A triage data transmission and processing method is characterized in that the triage data transmission and processing method is completed through interaction of a data distribution module and a plurality of independent triage modules, and comprises the following steps:

a. setting a plurality of feature codes corresponding to a plurality of triage modules;

b. the main control mobile terminal sends a control instruction to the data distribution module based on case data, wherein the control instruction comprises a command symbol for sending the case data to at least one diagnosis division module, and the command symbol corresponds to at least one characteristic code;

c. the data distribution module sends the case data to at least one triage module, and the triage module receives the case data and obtains corresponding diagnosis and treatment data based on the case data.

2. The triage data transmission and processing method according to claim 1, wherein in the step b, the master mobile terminal determines the control command by:

b1. the master control mobile terminal retrieves a historical diagnosis and treatment index, and determines index data matched with the case data in the historical diagnosis and treatment index, wherein the historical diagnosis and treatment index is generated based on all diagnosis and treatment data obtained by all diagnosis and treatment modules, and the index data corresponds to the diagnosis and treatment modules;

b2. the main control mobile terminal generates the command symbol based on the feature code of the triage module corresponding to the index data matched with the case data, and the main control mobile terminal generates the control instruction based on the command symbol.

3. The triage data transmission and processing method according to claim 1, wherein the step b is further followed by the steps of:

b3. the master control mobile terminal sends a communication request to all the diagnosis modules in the step b, wherein the communication request at least comprises the equipment code of the master control mobile terminal;

b4. the triage module calculates an efficiency value z of the master control mobile terminal according to a formula z (f (x, y) ═ x/(x + y), wherein x represents the number of case data successfully interacted between the master control mobile terminal and all the triage modules in the step a, and y represents the number of case data unsuccessfully interacted between the master control mobile terminal and all the triage modules in the step a;

b5. judging whether the efficiency value z is greater than a first threshold value, and if the efficiency value z is greater than the first threshold value, receiving a communication request of the master control mobile terminal by the triage module; and if the efficiency value z is smaller than the first threshold value, the triage module refuses the communication request of the master control mobile terminal.

4. The triage data transmission and processing method according to any one of claims 1 to 3, wherein the step c comprises the steps of:

c1. b, all the triage modules in the step b execute a logic sequencing step;

c2. based on the result of the logic sorting, all the triage modules execute the step of extracting the characteristic data of the case data one by one;

c3. the triage module judges whether the characteristic data is matched with the triage module based on a database of the triage module;

c4. and if the triage module is matched with the characteristic data, the triage module obtains corresponding diagnosis and treatment data based on the case data.

5. The triage data transmission and processing method according to claim 4, wherein if the triage module does not match the feature data, the triage module sends the case data to the next triage module and performs any one of the following:

c5. if the next triage module belongs to all the triage modules in the step b, the next triage module restarts to execute the step c 3;

c 5' if the next triage module is not among all the triage modules in the step b, the next triage module performs a +1 operation on the case data and restarts the step c2.

6. The triage data transmission and processing method according to claim 5, wherein if the next triage module is not included in all the triage modules in the step b and the next triage module determines that the case data has been executed at least three times by +1 operation, the next triage module stops executing the step c3.

7. The triage data transmission and processing method according to claim 6, wherein the step c further comprises the steps of:

c21. the triage module judges whether the command symbol is matched with the feature code of the triage module:

c22. if the command symbol is matched with the feature code of the triage module, the triage module receives the case data;

c23. if the command symbol does not match the feature code of the triage module, the triage module refuses to receive the case data, and the data triage module sends the case data to the next triage module, and the next triage module restarts to execute the step c21.

8. The triage data transmission and processing method according to claim 7, wherein the step c23 is performed according to any one of the following manners:

if the next triage module belongs to all the triage modules in the step b, the next triage module restarts to execute the step c 21;

if the next triage module is not included in all the triage modules in the step b, the next triage module performs a +1 operation on the case data and restarts the step c21.

9. The triage data transmission and processing method according to claim 8, wherein if the next triage module is not included in all the triage modules in the step b and the next triage module determines that the case data has been executed at least three times by +1 operation, the next triage module stops executing the step c21.

10. The triage data transmission and processing method according to claim 9, wherein the step c further comprises the steps of:

if the next diagnosis module does not belong to all the diagnosis modules in the step b, the main control mobile terminal sends a communication request to the next diagnosis module, wherein the communication request at least comprises the equipment code of the main control mobile terminal, and the next diagnosis module identifies the equipment code and then establishes communication with the main control mobile terminal.

11. The triage data transmission and processing method according to claim 10, wherein the step c further comprises the steps of:

c6. and the triage module establishing communication with the master control mobile terminal sends all real-time data streams to the master control mobile terminal.

12. The triage data transmission and processing method according to claim 11, further comprising the following step after the step c 6:

c7. and the master control mobile terminal actively executes the step of cutting off the communication so as to terminate the communication with the triage module.

13. The triage data transmission and processing method according to claim 12, wherein in the step b, if the plurality of main control mobile terminals send the control instruction to the data offloading module at the same time, the data offloading module determines a sequence according to a score of the main control mobile terminals, and the score is proportional to the number of times of interaction between the main control mobile terminals and the triage module and a data transmission amount.

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