CN114330809A

CN114330809A - Global optimal distribution method based on real-time positioning

Info

Publication number: CN114330809A
Application number: CN202111217311.XA
Authority: CN
Inventors: 柏智
Original assignee: Hunan Pengcheng Information Technology Co ltd
Current assignee: Hunan Pengcheng Information Technology Co ltd
Priority date: 2021-10-19
Filing date: 2021-10-19
Publication date: 2022-04-12

Abstract

The invention discloses a global optimal allocation method based on real-time positioning, which comprises a resource allocation system, wherein the resource allocation system consists of a background server and a positioning server, a client is arranged at the connecting end of the background server, and the background server comprises an information indication system and a resource scheduling system. The invention divides the geographic space region into multiple levels of regions, distributes resource equipment of different levels to each level of region, optimizes the resource distribution condition, reasonably arranges the regions, avoids resource redundancy and resource shortage region incompatibility, is convenient to observe and distribute resources by regional resource library data management and marking on an electronic map, realizes reasonable allocation of the resources by matching with experience of patients, and in addition, provides a client resource guiding method, selects idle resources nearby, combines reasonable allocation of the resources and reasonable allocation of the patients, realizes high-speed transparency and high-speed communication of medical information, and enables the patients to see medical treatment in time.

Description

Global optimal distribution method based on real-time positioning

Technical Field

The invention relates to the technical field of resource allocation, in particular to a global optimal allocation method based on real-time positioning.

Background

Medical problems are closely related to people's lives, and thus the medical field is always one of the most important fields in today's society. In recent years, along with the rapid development of the internet of things, the popularization of intelligent equipment develops an intelligent medical concept in order to more effectively utilize medical resources and improve the working efficiency of academists. The intelligent medical treatment utilizes the technology of the Internet of things, and realizes information intercommunication among patients, medical institutions, medical equipment and medical personnel, so that the resource distribution is more reasonable.

Therefore, it is necessary to invent a global optimal allocation method based on real-time localization to solve the above problems.

Disclosure of Invention

The invention aims to provide a global optimal distribution method based on real-time positioning, which optimizes the resource distribution condition by dividing a geographic space region into multiple levels of regions and distributing resource equipment with different levels to each level of region, distributes resources uniformly, reasonably and comprehensively, avoids resource redundancy and regional incompatibility of resource shortage, is convenient to observe and distribute resources by performing data management on a regional resource library and marking the regional resource library on an electronic map, is matched with experience of patients, realizes reasonable configuration of the resources, and provides a client resource guide method, selects idle resources nearby, combines reasonable distribution of the resources and reasonable distribution of the patients, realizes high-speed transparency and high-speed communication of medical information, enables the patients to see medical advice in time, and solves the defects in the technology.

In order to achieve the above purpose, the invention provides the following technical scheme: a global optimal allocation method based on real-time positioning comprises a resource allocation system, wherein the resource allocation system is composed of a background server and a positioning server, a client is arranged at the connecting end of the background server, the background server comprises an information indicating system and a resource scheduling system, the information indicating system comprises a target guide module, a resource reservation module and a service evaluation module, the resource scheduling system comprises a resource integration module, a resource retrieval module and a resource processing module, a plurality of regional resource libraries are arranged at the connecting end of the background server, the regional resource libraries are the sum of all distributed resources in a geographic region, and the allocation mode is as follows:

dividing geographical space areas in each region according to the region position, performing system entry on medical institutions in each geographical space area and marking on an electronic map, reporting medical resources to the system by each medical institution for resource statistics, and constructing a regional resource library by the reported resources;

after the medical resource distribution situation is received by the background server, the resource integration module counts the total amount of resources and integrates the information of each resource, combs out the similar products which are mutually replaced and the matching products which are complementary in function in the resources, and then codes the resources according to the type and the matching attribute of the function to construct regional resource library data;

thirdly, distributing the regional resource library data marks on an electronic map, constructing a regional resource distribution model, detecting resource vacancy, resource redundancy and distribution unbalance conditions in a regional resource library of the regional resource distribution model by a resource detection module, scheduling a coding position on the regional resource distribution model to change the coordination of the resource vacancy and the resource redundancy, and continuously verifying whether the distribution unbalance condition still exists or not until the resource distribution is reasonable, so as to obtain an optimal distribution reasonable scheme;

step four, sending the optimal allocation reasonable scheme to a resource processing module, optimizing a resource distribution structure by the resource processing module, scheduling redundant resources to the resource vacancy and supplementing the insufficient resources;

connecting the client with the background server through the positioning server to obtain electronic distribution information of the medical institution in the area where the client is located, and searching the required resources by the client to obtain the distribution condition and the use condition of the specified resources in the resource library of the area where the client is located;

step six, the background server recommends a real-time optimal route scheme to the client through the target guide module, and provides route selection items of other available resources;

step seven, the client selects one route and contacts with a destination mechanism in time, and the resource using time is reserved through a resource reservation module;

and step eight, after the client enjoys the resource service, the service evaluation module evaluates the service experience of the resource, and the evaluation information is directionally transmitted to the background server to serve as the basis for reasonably scheduling the resource.

Preferably, in the first step, the geospatial region is set to be a multi-level region, the multi-level region includes a first-level large region, a second-level middle region and three-level cells, the number of the first-level large region, the number of the second-level middle region and the number of the third-level cells are sequentially increased, the first-level large region includes a plurality of second-level middle regions, the second-level middle region includes a plurality of third-level cells, the resources at the same level in the first-level large region, the second-level middle region and the third-level cells are complementary in resource layout, and the larger level is compatible with the smaller level.

Preferably, the resource integration module is internally provided with a coding unit, the coding unit is used for coding the resources, when the resources are coded, different attributes are marked according to different types and functions of the resources, one of the A-Z marks is used for marking the type of the resources, the replaceability among different resources is shown according to any combination of the A-Z marks, and suffixes 0-9 in the A-Z marks indicate complementarity among the resources in the same type.

Preferably, the resource usage status in the fifth step includes idle time of the medical equipment and work and rest time of the staff.

Preferably, in the sixth step, the target guiding module selects a suitable mechanism nearby, and retrieves the resource allocation of the nearby mechanism recorded in the regional resource library and the resource adaptation degree retrieved by the client, so as to obtain the electronic map landmark of the nearby feasible mechanism.

Preferably, after the target mechanism receives the resource reservation in the seventh step, the idle resource utilization information is adjusted in time, and the display state is updated.

In the technical scheme, the invention provides the following technical effects and advantages:

through dividing the multi-level region to the geographic space region, and to the regional resource equipment of different grades of distribution at all levels, optimize the resource distribution condition, evenly distribute the resource, reasonable overall planning, avoid the regional incoordination of resource redundancy and resource shortage, through regional resource storehouse data ization management, and mark on electronic map, conveniently observe and distribute the resource, cooperation patient experiences, realize the rational allocation of resource, in addition, provide customer end resource guide method, select idle resource nearby, combine together the rational distribution of resource and the rational distribution of patient, realize medical information's high-speed transparency and high speed and communicate, real-time location distribution guide, make patient can in time seek medical advice.

Drawings

In order to more clearly illustrate the embodiments of the present application or technical solutions in the prior art, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the present invention, and other drawings can be obtained by those skilled in the art according to the drawings.

FIG. 1 is a block diagram of the system architecture of the present invention.

Description of reference numerals:

the system comprises a background server 1, a positioning server 2, a client 3, an information indication system 4, a target guide module 41, a resource reservation module 42, a service evaluation module 43, a resource scheduling system 5, a resource integration module 51, a resource retrieval module 52, a resource processing module 53 and a resource library 54.

Detailed Description

In order to make the technical solutions of the present invention better understood, those skilled in the art will now describe the present invention in further detail with reference to the accompanying drawings.

The invention provides a global optimal allocation method based on real-time positioning as shown in figure 1, which comprises a resource allocation system, wherein the resource allocation system is composed of a background server 1 and a positioning server 2, a client 3 is arranged at the connecting end of the background server 1, the background server 1 comprises an information indicating system 4 and a resource scheduling system 5, the information indicating system 4 comprises a target guide module 41, a resource reservation module 42 and a service evaluation module 43, the resource scheduling system 5 comprises a resource integration module 51, a resource retrieval module 52 and a resource processing module 53, a plurality of regional resource libraries 54 are arranged at the connecting end of the background server 1, the regional resource libraries 54 are the sum of all distributed resources in a geographical region, a coding unit is arranged in the resource integration module 51 and used for coding the resources, the distribution mode is as follows:

step one, dividing geographical space areas in each area according to the region position, wherein the geographical space areas are set to be multi-level areas, each multi-level area comprises a first-level large area, a second-level middle area and three-level cells, the number of the first-level large area, the number of the second-level middle areas and the number of the third-level cells are sequentially increased, the first-level large area comprises a plurality of second-level middle areas, the second-level middle areas comprise a plurality of third-level cells, the resources of the same level in the first-level large area, the second-level middle areas and the third-level cells are complementary in resource layout, the larger level is compatible with the smaller level, medical institutions in each geographical space area are systematically recorded and marked on an electronic map, each medical institution reports the medical resources to the system for resource statistics, and a regional resource library 54 is constructed by reporting the resources;

step two, when the resources are coded, according to the different marks of the types and the functions of the resources, different attributes are marked, one of A-Z is used for marking the type of the resources, the replaceability among different resources is shown according to any combination of A-Z, the suffix 0-9 is added in the mark of A-Z to show the complementarity among the resources in the same type, after the distribution condition of the medical resources is received by the background server 1, the resource integration module 51 counts the total amount of the resources and integrates the information of each resource, the similar products which are replaced mutually and the matching products which are complementary with the functions in the resources are combed, then the resources are coded according to the matching attributes of the types and the functions, and the data of a regional resource library 54 are constructed;

thirdly, data marks of the regional resource library 54 are distributed on an electronic map, a regional resource distribution model is constructed, a resource detection module detects resource vacancy, resource redundancy and distribution unbalance conditions in the regional resource distribution model and the regional resource library 54, a coding position is scheduled on the regional resource distribution model to change the coordination of the resource vacancy and the resource redundancy, whether the distribution unbalance condition still exists is continuously verified until the resource distribution is reasonable, and an optimal distribution reasonable scheme is obtained;

step four, sending the optimal allocation reasonable scheme to the resource processing module 53, optimizing the resource distribution structure by the resource processing module 53, scheduling the redundant resources to the resource vacancy and supplementing the shortage of the resources;

connecting the client 3 with the background server 1 through the positioning server 2 to obtain electronic distribution information of the medical institution in the region where the client is located, retrieving the required resources by the client 3 to obtain a specified resource distribution condition and a resource use condition in the resource library 54 of the region where the client is located, wherein the resource use condition comprises idle time of medical instruments and work and rest time of workers;

step six, the background server 1 recommends a real-time optimal route scheme for the client 3 through the target guide module 41, simultaneously provides other available resource route selection items, selects a proper mechanism nearby by the target guide module, and retrieves the resource allocation of the nearby mechanism recorded in the regional resource library 54 and the resource adaptation degree retrieved by the client 3 to obtain the electronic map punctuations of the nearby feasible mechanism;

step seven, the client 3 selects one route and contacts with a destination mechanism in time, the resource reservation module 42 reserves the resource use time, and the destination mechanism adjusts the resource idle use information in time after receiving the resource reservation and updates the display state;

step eight, after the client 3 enjoys the resource service, the service evaluation module 43 evaluates the service experience of the resource, and the evaluation information is directionally transmitted to the background server 1 as the basis for reasonably scheduling the resource.

The method comprises the steps of dividing a geographic space region into multiple levels, distributing resource equipment of different levels to all levels of regions, optimizing resource distribution conditions, uniformly distributing resources, reasonably arranging the resources, avoiding regional incompatibility of resource redundancy and resource shortage, managing the resources in a data mode through a regional resource library 54, marking the resources on an electronic map, facilitating observation and resource distribution, matching experience of patients, achieving reasonable allocation of the resources, additionally, providing a client resource guiding method, selecting idle resources nearby, combining reasonable allocation of the resources with reasonable allocation of the patients, achieving high-speed transparency and high-speed communication of medical information, locating, distributing and guiding in real time, enabling the patients to see a doctor in time, and solving the problem of poor patient seeing experience.

While certain exemplary embodiments of the present invention have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that the described embodiments may be modified in various different ways without departing from the spirit and scope of the invention. Accordingly, the drawings and description are illustrative in nature and should not be construed as limiting the scope of the invention.

Claims

1. A global optimal allocation method based on real-time positioning comprises a resource allocation system, and is characterized in that: the resource allocation system is composed of a background server (1) and a positioning server (2), a client (3) is arranged at the connecting end of the background server (1), the background server (1) comprises an information indicating system (4) and a resource scheduling system (5), the information indicating system (4) comprises a target guide module (41), a resource reservation module (42) and a service evaluation module (43), the resource scheduling system (5) comprises a resource integration module (51), a resource retrieval module (52) and a resource processing module (53), a plurality of regional resource libraries (54) are arranged at the connecting end of the background server (1), the regional resource libraries (54) are the sum of all distributed resources in a geographical region, and the allocation mode is as follows:

step one, dividing geographic space areas in each region according to the region position, carrying out system input on medical institutions in each geographic space area and marking on an electronic map, reporting medical resources to the system by each medical institution for resource statistics, and constructing a regional resource library (54) by the reported resources;

after the medical resource distribution situation is received by the background server (1), the resource integration module (51) counts the total amount of resources and integrates the information of each resource, combs the similar products and the matching products with complementary functions which are mutually replaced in the resources, and then codes the resources according to the type and the function matching attributes to construct the data of a regional resource library (54);

thirdly, data of the regional resource library (54) are marked and distributed on the electronic map, a regional resource distribution model is constructed, a resource detection module detects resource vacancy, resource redundancy and distribution unbalance conditions in the regional resource library (54) of the regional resource distribution model, a coding position is scheduled on the regional resource distribution model to change the coordination of the resource vacancy and the resource redundancy, whether the distribution unbalance condition still exists or not is continuously verified until the resource distribution is reasonable, and an optimal distribution reasonable scheme is obtained;

step four, sending the optimal allocation reasonable scheme to a resource processing module (53), wherein the resource processing module (53) optimizes a resource distribution structure, schedules redundant resources to the resource vacancy and supplements the resource shortage;

connecting the client (3) with the background server (1) through the positioning server (2) to obtain electronic distribution information of the medical institution in the area where the client is located, and searching the required resources by the client (3) to obtain the specified resource distribution condition and the resource use condition in the resource library (54) of the area where the client is located;

step six, the background server (1) recommends a real-time optimal route scheme for the client (3) through the target guide module (41), and simultaneously provides route selection items of other available resources;

step seven, the client (3) selects one route and contacts with a destination mechanism in time, and reserves the resource use time through the resource reservation module (42);

and step eight, after the client (3) enjoys the resource service, the service evaluation module (43) evaluates the service experience of the resource, and the evaluation information is directionally transmitted to the background server (1) to serve as the basis for reasonably scheduling the resource.

2. The method of claim 1, wherein the method comprises: in the first step, the geographic space region is set to be a multi-level region, the multi-level region comprises a first-level large region, a second-level middle region and three-level cells, the number of the first-level large region, the number of the second-level middle region and the number of the third-level cells are sequentially increased, the first-level large region comprises a plurality of second-level middle regions, the second-level middle regions comprise a plurality of third-level cells, resources at the same level in the first-level large region, the second-level middle regions and the third-level cells are complementary in resource layout, and larger levels are compatible with smaller levels.

3. The method of claim 1, wherein the method comprises: the resource integration module (51) is internally provided with a coding unit, the coding unit is used for coding resources, when the resources are coded, different attributes are marked according to different types and functions of the resources, the types of the resources are marked by one of A-Z, the replaceability among different resources is shown according to any combination of A-Z, and the suffixes 0-9 in the A-Z marks indicate the complementarity among the resources in the same type.

4. The method of claim 1, wherein the method comprises: and in the fifth step, the resource use condition comprises the idle time of the medical apparatus and the work and rest time of the staff.

5. The method of claim 1, wherein the method comprises: and in the sixth step, the target guide module selects a proper mechanism nearby, and retrieves the resource allocation of the nearby mechanism recorded in the regional resource library (54) and the resource adaptation degree retrieved by the client (3) to obtain the electronic map marking point of the nearby feasible mechanism.

6. The method of claim 1, wherein the method comprises: and seventhly, after the target mechanism receives the resource reservation, adjusting the resource idle use information in time and updating the display state.