CN113270180A

CN113270180A - Dispatching management system for emergency medical treatment

Info

Publication number: CN113270180A
Application number: CN202110619491.8A
Authority: CN
Inventors: 吕传柱
Original assignee: Chongqing Dongdeng Technology Co ltd
Current assignee: Lv Chuanzhu; Sichuan Peoples Hospital of Sichuan Academy of Medical Sciences
Priority date: 2021-06-03
Filing date: 2021-06-03
Publication date: 2021-08-17
Anticipated expiration: 2041-06-03
Also published as: CN113270180B

Abstract

The invention relates to the technical field of emergency medical dispatching, in particular to a dispatching management system for emergency medical treatment, which comprises a front terminal system and a rear terminal system, wherein the front terminal system comprises an acquisition module, a processing module and a communication module, the acquisition module acquires body data of an emergency medical target and transmits the body data to the processing module, and the processing module forms dispatching requests of departments and personnel according to the body data and transmits the dispatching requests to the rear terminal system; the processing module receives department information of the rear terminal system, the processing module identifies abnormal data and abnormal types in the body data, the processing module matches the department information according to the abnormal data and the abnormal types to form a scheduling request, the rear terminal system matches the scheduling request with a pre-stored department and pre-stored personnel, and when the scheduling request is not matched with the pre-stored department and the pre-stored personnel, the rear terminal system adjusts the same department and the same department personnel according to the scheduling request. The invention arranges dispatching before entering the medical institution and gets timely treatment after entering the medical institution.

Description

Dispatching management system for emergency medical treatment

Technical Field

The invention relates to the technical field of emergency medical treatment scheduling, in particular to a scheduling management system for emergency medical treatment.

Background

Emergency medical treatment refers to the fact that resources such as vehicles, medical supplies and medical staff are dispatched to rescue after emergency requests are received, and when the emergency requests are large, if the vehicles, the medical supplies and the medical staff are not dispatched, the staff possibly requiring the emergency can not be rescued in time.

To address the dispatch problem of emergency medical, a resistance with publication number CN109935339A discloses a medical terminal comprising: the environment control module is used for controlling the starting or closing of the environment equipment; the operation center module is used for acquiring and processing first information of an operating room and evaluating the current operation according to a processing result; the famous and old traditional Chinese medicine module is used for acquiring and processing second information of a famous and old traditional Chinese medicine room to generate clinical experience and a literature database; the general practitioner training module is used for acquiring and processing third information of a first general practitioner in all rotary departments to generate processing result information of the first general practitioner; evaluating the first general practitioner in the first department according to the processing result information of the first general practitioner; and the rescue supervision module is used for determining the target vehicle and establishing the connection between the target vehicle and the medical institution after receiving the dispatching command of the dispatching center. All modules are matched with each other, so that the switching time is saved, and the working efficiency is improved.

When the terminal is used for scheduling, as more medical departments and medical supplies to be prepared are arranged in the medical institution, after first-aid personnel are conveyed to the medical institution, if body data suddenly changes and needs to be assisted by other departments, other departments need to be scheduled temporarily, the dispatching of departments is promoted, or the problem that medical rescue is delayed exists, so that emergency is not timely.

Disclosure of Invention

The invention aims to provide a dispatching management system for emergency medical treatment, which aims to solve the problem that emergency treatment is not timely after emergency personnel enter a medical institution.

The dispatching management system for emergency medical treatment comprises a front terminal system and a rear terminal system, wherein the front terminal system comprises an acquisition module, a processing module and a communication module, the acquisition module acquires body data of an emergency medical target and sends the body data to the processing module, and the processing module forms dispatching requests of departments and personnel according to the body data and sends the dispatching requests to the rear terminal system through the communication module;

the processing module receives department information of the rear terminal system, the processing module identifies abnormal data and abnormal types in the body data, the processing module matches the department information according to the abnormal data and the abnormal types to form a scheduling request, the rear terminal system matches the scheduling request with a pre-stored department and pre-stored personnel, and when the scheduling request is not matched with the pre-stored department and the pre-stored personnel, the rear terminal system adjusts the same department and the personnel in the same department according to the scheduling request.

The beneficial effect of this scheme is:

in the emergency medical process, the body data of the emergency medical target is collected through the collection module, the abnormal data and the abnormal type, such as abnormal heart rate and over-slow type of the body data of blood routine, heart rate, blood pressure, blood sugar, blood fat and the like, in the body data are identified through the processing module, the department information is matched according to the abnormal data and the abnormal type to form a scheduling request, for example, the over-slow type department information of abnormal heart rate is the scheduling request of a king doctor in the cardiology department, the scheduling request is sent to the rear terminal system, the scheduling request is matched with a pre-stored department and pre-stored personnel through the rear terminal system, when the scheduling request is not matched with the pre-stored department and the pre-stored personnel, the rear terminal system adjusts the same department and the same department personnel according to the scheduling request to schedule before the emergency medical target enters a medical institution, the emergency medical target can be timely treated after entering the medical institution.

Further, the front-end subsystem further comprises a field case module for recording historical conditions of the emergency medical target, and the processing module acquires the field historical conditions when the abnormal data and the abnormal type are identified and matches the supplementary information of the department according to the field historical conditions.

The beneficial effects are that: the case module is used for recording the field historical illness state of the emergency medical target, the field historical illness state is acquired more directly and rapidly without other resources, and then the field historical illness state is acquired when the body data is abnormal to form department supplementary information, so that the department information is more accurately and completely scheduled.

Further, the front-end subsystem also comprises a network module which is linked with the medical information network, when the on-site historical illness state is not acquired, the processing module sends networking information to the network module, the networking information comprises a networking request and personal information, and the network module is linked with the medical information network according to the networking information to acquire and store the historical illness state.

The beneficial effects are that: the network module can be used for networking and obtaining when the stored historical illness state is not obtained, for example, the emergency medical target is unconscious and has no accompanying person or the accompanying person does not know the on-site historical illness state, the stored historical illness state can be accurately obtained, and the operation amount of the system is reduced.

Further, the front terminal system further comprises a positioning module for positioning the real-time position, the processing module obtains the real-time position at equal intervals and calculates the distance value between the real-time position and the pre-stored position of the medical institution in real time, the processing module compares the distance value with a threshold value, and when the distance value is smaller than the threshold value, the processing module sends the scheduling request to the rear terminal system through the communication module.

The beneficial effects are that: by positioning the real-time position of the emergency medical target and calculating the distance value between the emergency medical target and the medical institution, the scheduling request is sent only after the emergency medical target is a small distance away from the medical institution, so that the situation that the scheduling request needs to be changed repeatedly due to body data change in the process of driving to the medical institution is avoided.

Further, when the processing module does not acquire the stored historical condition from the network module, the processing module sends a scheduling request to the back-end subsystem through the communication module, the processing module adds a time tag when calculating a distance value, the processing module obtains a driving distance by subtracting the distance values of adjacent time tags and compares the driving distance with a preset distance, when the driving distance is smaller than the preset distance, the processing module judges that the road is congested, and when the road is congested, the processing module sends a congestion signal to the back-end subsystem through the communication module.

The beneficial effects are that: when any historical state of an illness is not acquired, a scheduling request is sent to a rear terminal system so as to be scheduled in advance, the time after the emergency medical treatment is carried out is more sufficient, the distance value obtained by adjacent time point calculation is used for obtaining the running distance, the road congestion is judged when the running distance is smaller, a congestion signal is sent to a rear terminal system, the road congestion condition is judged by the running distance, the data quantity which is needed to be acquired by independently acquiring related data for judging can be reduced, and when an emergency medical target cannot rapidly reach the medical treatment, personnel scheduled by the rear terminal system do not need to wait all the time to delay other treatment.

Further, when the driving distance is smaller than the preset distance, the processing module sequentially judges whether the driving distance is smaller than the set distance, the set distance is smaller than the preset distance, when the driving distance is smaller than the set distance, the processing module adds a first identifier to the driving distance, when the set distance is larger than the set distance, the processing module adds a second identifier to the driving distance, the processing module sequentially judges whether the second identifiers of the multiple driving distances are continuous, if the second identifiers are continuous, the processing module judges that the congestion degree is light, the processing module judges that the congestion degree is heavy if the first identifiers exist among the second identifiers of the multiple driving distances or the driving distance only has the first identifier, and the processing module sends the congestion degree to the rear terminal system through the communication module.

The beneficial effects are that: when a road is congested, the distance value is judged, the corresponding identification is added, the congestion degree is judged according to the identification, namely, the rule of the running distance is judged, and the congestion degree is sent to the rear terminal system, so that the rear terminal system can accurately know the condition of an emergency medical target when adjusting and dispatching departments and personnel, and the accuracy of adjustment and dispatching of the departments and the personnel is improved.

Further, when the congestion degree is light, the processing module sends the real-time position to the rear terminal system through the communication module in real time to be displayed.

The beneficial effects are that: the congestion degree is slight, the emergency medical target can quickly reach the medical institution at any time for treatment, if the congestion condition is not concerned all the time, the instant treatment that the emergency medical target reaches the medical institution can be missed, and when the congestion degree is slight, the real-time position is sent to the rear terminal system, so that the position of the emergency medical target can be known in time, and adjustment and scheduling of departments and personnel can be carried out.

Furthermore, the case module records the field historical state of an illness by collecting voice information, and the processing module identifies keywords of the state of the illness as the field historical state of the illness after acquiring the voice information.

The beneficial effects are that: the voice information is recorded as the site historical illness state, so that the voice information can be traced conveniently in the follow-up process, the accuracy of the site historical illness state is determined, and errors caused by the fact that the site historical illness state is transferred are prevented.

Drawings

Fig. 1 is a schematic block diagram of a first embodiment of an emergency medical dispatch management system of the present invention;

FIG. 2 is a schematic block diagram of a second embodiment of an emergency medical dispatch management system of the present invention;

fig. 3 is a schematic block diagram of a third embodiment of the emergency medical dispatch management system of the present invention.

Detailed Description

The following is a more detailed description of the present invention by way of specific embodiments.

Example one

Dispatch management system for emergency medical treatment, as shown in fig. 1: including front end subsystem and rear end terminal system, front end terminal system installs on the emergency tender of first aid front end, front end terminal system includes collection module, processing module and communication module, collection module gathers emergency medical treatment target's health data and sends to processing module, emergency medical treatment target is promptly for the injured patient of health in the accident, output signal behind collection module through receiving medical equipment monitoring emergency medical treatment target's the health index is as health data, processing module forms the dispatch request of administrative or technical offices and personnel and sends to rear end terminal system through communication module according to health data, communication module can use current 4G mobile communication module, processing module can use current microcomputer.

The processing module receives department information of a rear terminal system, the department information comprises department names, medical staff and treatment symptoms, the rear terminal system is a medical management system of a medical institution, the processing module identifies abnormal data and abnormal types in body data, the processing module compares various values in the body data with a set normal range, when the various values in the body data are outside the normal range, the abnormal data are identified, the abnormal types are determined according to the abnormal data, the processing module matches the department information according to the abnormal data and the abnormal types to form a scheduling request, the department information corresponding to the abnormal data and the abnormal types is stored in advance, the rear terminal system matches the scheduling request with a pre-stored department and pre-stored personnel, namely, whether the department in the scheduling request is the same as the pre-stored department or not is judged, and whether the personnel in the scheduling request is the same as the pre-stored personnel is judged, when the scheduling request is not matched with the pre-stored department and the pre-stored personnel, the back terminal system adjusts personnel of the same department and the same department according to the scheduling request, replaces the department in the scheduling request with the same department of the pre-stored department, and replaces the personnel in the scheduling request with the same personnel of the pre-stored personnel.

The specific implementation process is as follows:

in the emergency medical treatment process, the body data of the emergency medical treatment target is collected through the collection module, and the processing module identifies abnormal data and abnormal types in the body data according to whether the numerical values are in a normal range, wherein the abnormal data and the abnormal types include whether the numerical values of the body data such as blood routine, heart rate, blood pressure, blood sugar and blood fat are in the normal range, and the abnormal types include an over-slow type and an over-fast type when the heart rate is abnormal; matching department information according to the abnormal data and the abnormal types to form a scheduling request, wherein the too-slow type department information of abnormal heart rate is the scheduling request of a king doctor in the cardiology department; and finally, the processing module sends the scheduling request to the rear terminal system through the communication module, the rear terminal system compares information in the scheduling request with prestored departments and prestored personnel to determine whether the information is the same as the prestored departments and the prestored personnel, and when the scheduling request is not matched with the prestored departments and the prestored personnel, the rear terminal system adjusts the similar departments and the similar department personnel according to the scheduling request so as to arrange and schedule the emergency medical target before the emergency medical target enters the medical institution, so that the emergency medical target can be timely treated and treated after the emergency medical target enters the medical institution.

Example two

The difference from the first embodiment is that, as shown in fig. 2, the front-end subsystem further includes a field case module for recording historical conditions of the emergency medical target and a network module linked to the medical information network, the case module records the field historical conditions by collecting voice information, and the processing module identifies keywords of the conditions as keywords of the field historical conditions, such as hypertension, blood sugar, etc., after acquiring the voice information; the processing module acquires the field historical illness state when the abnormal data and the abnormal type are identified, and matches department supplementary information according to the field historical illness state, such as an endocrinology department matched with blood sugar; when the processing module does not acquire the field historical illness state, the processing module sends networking information to the network module, the network module can use an existing NPM301 type server, the networking information comprises a networking request and personal information, the personal information can be uniquely identified through face information, the network module links a medical information network according to the networking information to acquire and store the historical illness state, the field historical illness state and the stored historical illness state are only two nouns, and the storage is not a verb.

Acquiring voice information of an emergency medical target through a case module, recording a field historical illness state, recognizing an illness state keyword in the voice information as the field historical illness state when abnormal data and abnormal types are recognized by a processing module, and matching department supplementary information according to the field historical illness state; when the processing module does not acquire the field historical illness state from the case module, the processing module sends networking information to the network module, and the network module is used for linking the medical information network according to the networking information to acquire and store the historical illness state, so that the traceability and the accuracy of the acquired stored historical illness state are improved.

EXAMPLE III

The difference from the second embodiment is that, as shown in fig. 3, the front end subsystem further includes a positioning module for positioning the real-time position, the processing module obtains the real-time position at equal intervals and calculates the distance value between the real-time position and the pre-stored position of the medical institution in real time, the calculation of the distance value can be performed by using the existing longitude and latitude calculation distance, the processing module compares the distance value with the threshold, and when the distance value is smaller than the threshold, the processing module sends the scheduling request to the rear end subsystem through the communication module; when the processing module does not acquire the stored historical condition from the network module, the processing module sends a scheduling request to the rear-end subsystem through the communication module, the processing module adds a time tag when calculating a distance value, the processing module obtains a driving distance by subtracting the distance values of adjacent time tags and compares the driving distance with a preset distance, when the driving distance is smaller than the preset distance, the processing module judges road congestion, and when the road congestion occurs, the processing module sends a congestion signal to the rear-end subsystem through the communication module.

The real-time position of the emergency medical target is positioned through the positioning module, the distance value between the emergency medical target and the medical institution is calculated through the processing module, and the scheduling request is sent only after the emergency medical target is in a small distance from the medical institution, so that the situation that the scheduling request needs to be changed repeatedly due to body data change in the process of driving to the medical institution is avoided; meanwhile, a time label is added to the calculated distance value, then the distance value of the adjacent time point is differed to obtain the driving distance, the driving distance is compared with the preset distance, road congestion is judged when the driving distance is smaller, a congestion signal is sent to a rear-end subsystem, and when the emergency medical target cannot reach a medical institution quickly, personnel scheduled by a rear terminal system do not need to wait all the time to delay other treatment.

Example four

The difference from the third embodiment is that when the driving distance is smaller than the preset distance, the processing module sequentially judges whether the driving distance is smaller than the set distance, the set distance is smaller than the preset distance, the set distance and the preset are set according to actual requirements, when the driving distance is smaller than the set distance, the processing module adds a first identifier to the driving distance, when the set distance is larger than the set distance, the processing module adds a second identifier to the driving distance, the first identifier and the second identifier can be added by different letters, the processing module sequentially judges whether the second identifiers of the plurality of driving distances are continuous, for example, ten second identifiers, if the second identifiers are continuous, the processing module judges that the congestion degree is slight, and when the congestion degree is slight, the processing module transmits the real-time position to the rear-end system through the communication module in real time to display; the processing module judges that a first mark exists between second marks of the multiple running distances or the running distances are only the first marks, the congestion degree is judged to be severe, and the processing module sends the congestion degree to the rear terminal system through the communication module.

When the driving distance is smaller than the preset distance, namely when the displacement of the movement of the emergency medical target is small, the processing module sequentially judges whether the driving distance is smaller than the set distance, if the driving distance is smaller than the set distance, the processing module adds a first identifier to the driving distance, if the driving distance is larger than the set distance, the processing module adds a second identifier to the driving distance, then the congestion degree is judged according to the arrangement rule of the first identifier and the second identifier added by the plurality of driving distances, and the congestion degree is sent to the rear terminal system, so that the rear terminal system can accurately know the condition of the emergency medical target when adjusting and dispatching departments and personnel, and the accuracy of adjusting and dispatching the emergency departments and the personnel is improved; the congestion degree is slight, the emergency medical target can rapidly arrive at the medical institution at any time for treatment, the real-time position is sent to the rear terminal system at the moment so as to know the position of the emergency medical target, if the congestion condition is not concerned all the time, the instant treatment that the emergency medical target arrives at the medical institution can be missed after the congestion condition is dredged, and the real-time position is sent to the rear terminal system when the congestion degree is slight, so that the position of the emergency medical target can be known in time, and the department and personnel can be adjusted and dispatched.

The foregoing is merely an example of the present invention and common general knowledge of known specific structures and features of the embodiments is not described herein in any greater detail. It should be noted that, for those skilled in the art, without departing from the structure of the present invention, several changes and modifications can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent. The scope of the claims of the present application shall be determined by the contents of the claims, and the description of the embodiments and the like in the specification shall be used to explain the contents of the claims.

Claims

1. The dispatching management system for emergency medical treatment comprises a front terminal system and a rear terminal system, wherein the front terminal system comprises an acquisition module, a processing module and a communication module, the acquisition module acquires body data of an emergency medical target and sends the body data to the processing module, and the processing module forms dispatching requests of departments and personnel according to the body data and sends the dispatching requests to the rear terminal system through the communication module; the method is characterized in that:

2. The emergency medical dispatch management system of claim 1, wherein: the front terminal system further comprises a field case module for recording historical illness states of the emergency medical target, and the processing module acquires the field historical illness states when the abnormal data and the abnormal types are identified and matches the supplementary information of the department according to the field historical illness states.

3. The emergency medical dispatch management system of claim 2, wherein: the front terminal system further comprises a network module which is linked with the medical information network, when the on-site historical illness state is not acquired, the processing module sends networking information to the network module, the networking information comprises a networking request and personal information, and the network module is linked with the medical information network according to the networking information to acquire and store the historical illness state.

4. The emergency medical dispatch management system of claim 3, wherein: the front terminal system further comprises a positioning module for positioning the real-time position, the processing module obtains the real-time position at equal intervals and calculates the distance value between the real-time position and the pre-stored position of the medical institution in real time, the processing module compares the distance value with a threshold value, and when the distance value is smaller than the threshold value, the processing module sends a scheduling request to the rear terminal system through the communication module.

5. The emergency medical dispatch management system of claim 4, wherein: when the processing module does not acquire the stored historical condition from the network module, the processing module sends a scheduling request to the back-end subsystem through the communication module, the processing module adds a time tag when calculating a distance value, the processing module obtains a driving distance by subtracting the distance values of adjacent time tags and compares the driving distance with a preset distance, when the driving distance is smaller than the preset distance, the processing module judges road congestion, and when the road congestion occurs, the processing module sends a congestion signal to the back-end subsystem through the communication module.

6. The emergency medical dispatch management system of claim 5, wherein: when the driving distance is smaller than the preset distance, the processing module sequentially judges whether the driving distance is smaller than the set distance, the set distance is smaller than the preset distance, when the driving distance is smaller than the set distance, the processing module adds a first identification to the driving distance, when the set distance is larger than the set distance, the processing module adds a second identification to the driving distance, the processing module sequentially judges whether the second identifications of the multiple driving distances are continuous, if the second identifications are continuous, the processing module judges that the congestion degree is slight, the processing module judges that the congestion degree is severe if the first identifications are arranged between the second identifications of the multiple driving distances or the driving distance is only the first identification, and the processing module sends the congestion degree to a rear terminal system through the communication module.

7. The emergency medical dispatch management system of claim 6, wherein: and when the congestion degree is slight, the processing module sends the real-time position to the rear terminal system for displaying in real time through the communication module.

8. The emergency medical dispatch management system of claim 2, wherein: the case module records the field historical state of an illness by collecting voice information, and the processing module identifies the keywords of the state of an illness as the field historical state of an illness after acquiring the voice information.