CN117151560A - Intelligent endowment digital management system and method based on cloud platform - Google Patents

Abstract

The application discloses an intelligent pension digital management system and method based on a cloud platform, which relate to the technical field of digital management and are used for establishing a digital grid area model based on a service community; binding the terminal equipment of the user with the management platform, and uploading the help seeking information of the terminal equipment to the management platform; the management platform analyzes according to the received help information and the position of the gridding member, and assigns work orders; the intelligent pension management platform is established based on the cloud platform, the service community is divided into a plurality of grids, the grids for service or rescue are provided for each grid, and the digital management is performed for the whole grid area model, so that the pension service is more comprehensive, more attentive and more intelligent.

Description

Intelligent endowment digital management system and method based on cloud platform

Technical Field

The application relates to the technical field of digital management, in particular to an intelligent pension digital management system and method based on a cloud platform.

Background

Population aging refers to the dynamic state that the proportion of the mouths of the middle-aged and the elderly in the general population of the society is correspondingly increased due to the reduction of population fertility rate and the prolongation of life span, and brings various influences and challenges to the society, such as unbalance of labor supply and demand, increase of social security pressure, medical resource shortage, consumption structure change and the like; at the same time, new demands and opportunities such as senior services, health management, cultural entertainment and the like are also induced. Therefore, the aged industry is an important field for coping with population aging, and has wide development prospect and social value;

in the prior art, the old people are often cared by special people, so that the cost is huge, the old people know the old people at the first time when the old people need help, and the special people are scheduled to go to the gate for service or rescue at the first time, so that the technical problem to be solved is urgent;

therefore, a digital intelligent pension management system and method based on a cloud platform are urgently needed to solve the technical problems.

Disclosure of Invention

The application aims to provide an intelligent endowment digital management system and method based on a cloud platform, which are used for solving the problems in the prior art.

In order to achieve the above purpose, the present application provides the following technical solutions: the intelligent pension digital management method based on the cloud platform comprises the following steps:

s1, establishing a digitized grid area model based on a service community; in order to reduce the overall operation of the system, the application adopts a mode of establishing a planar grid area model to realize digital management;

s2, binding the terminal equipment of the user with the management platform, and uploading the help seeking information of the terminal equipment to the management platform;

s3, the management platform analyzes according to the received help information and the position of the gridding member, and assigns work orders;

s4, the gridding member goes to the appointed place to carry out service or rescue according to the information of the appointed work order, and the result is fed back.

According to the above technical solution, in S1, a plane rectangular coordinate system is established on the grid region model, and the region function of any grid is determined as E _(x)i-j The roads of any grid form a line function F _(x)i-j Building function G is formed by buildings of any grid _(x)i-j Wherein i-j represents the ith row and jth column of grids in the grid region model, each grid is provided with at least one grid member, and the position coordinates of the grid member are positioned in real time as (X) _k ,Y _k )；

Solving a solution of a linear function and a building function in any grid according to the following formula:

F _(x)i-j =G _(x)i-j ；

obtaining a coordinate set W;

the purpose of the solution is to facilitate the digital analysis when the assignment of the clan is carried out later, so as to facilitate the assignment of the most suitable clan to the service and rescue;

in S2, when the management platform receives the help seeking information of the terminal equipment, the position coordinate of the terminal equipment is determined as (x) _s ,y _s )；

Solving the coordinates (x) according to the distance formula _s ,y _s ) The distance from each coordinate value in the set W, the minimum value of the distance in the set W corresponds to the coordinate (x _min ,y _min )，(x _min ,y _min ) The connection point of the building to which the terminal device belongs and the road in the grid is indicated, i.e. the building gets the entrance.

According to the above technical solution, in S3, the method includes the following steps:

s301, determining grids to which the recourse places belong according to recourse information, and defining the grids as recourse grids;

s302, calling adjacent grids adjacent to the help calling grid according to the determined help calling, and defining the adjacent grids as auxiliary grids;

s303, locating the real-time coordinates of the assistance grids and the corresponding grid members of the assistance grids, which are called by the S301 and the S302, to form a set P of coordinates;

s304, determining the idle-state gridding members in the set P to form a real-time coordinate set P of the idle-state gridding members ^’ The method comprises the steps of carrying out a first treatment on the surface of the When the gridding member is in a working state, the result is fed back to the management platform, so that the management platform can directly judge whether the gridding member is in an idle state or notThe real-time coordinates of the gridding member form a coordinate set P ^’ ={(X ₁ ,Y ₁ ),(X ₂ ,Y ₂ ),...,(X _m ,Y _m ) M is less than or equal to 5 and is a positive integer;

s305, pair set P ^’ The mesh members in the grid are screened to form a real-time coordinate set P of the available mesh members ^’’ ；

S306, pair set P ^’’ And analyzing the gridding member to determine a final gridding member, and assigning a work order to a terminal of the final gridding member.

According to the above technical solution, in S305, the area function of the help-seeking grid is E _(x)i-j The common coordinates of the assistance grids and the assistance grids are called one by one, and a set Q is combined;

line function F of grid to which set Q belongs is called _(x)i-j And F _(x)e-f Wherein the line function F _(x)e-f Belonging to an assisting grid, the line function F _(x)i-j And F _(x)e-f Traversing the set Q, and if at least one coordinate point exists in the set Q, simultaneously meeting the line function F _(x)i-j And F _(x)e-f Indicating that the corresponding member of the assistance grid can go to the help-seeking grid to perform service or rescue, and the coordinate points satisfying the condition are (x) _u ,y _v )；

If no coordinate point exists in the set Q, the line function F is simultaneously satisfied _(x)i-j And F _(x)e-f Screening out the corresponding gridding member of the assistance grid, so that the gridding member of the assistance grid cannot directly and quickly enter assistance service or rescue of the help seeking grid at the moment;

form set P ^’’ ={(X ₁ ,Y ₁ ),(X ₂ ,Y ₂ ),...,(X _n ,Y _n ) N is less than or equal to m and is a positive integer;

in S306, it is determined that the current coordinates of the mesh member are (X _k ,Y _k ) Endpoint coordinates are (x _min ,y _min ) The midpoint coordinates of the assist grid are (x _u ,y _v )；

For the help grid, calculate (X _k ,Y _k ) To (x) _min ,y _min ) Letter along lineNumber F _(x)i-j Distance L of path _i-j ；

For the assistance grid, calculate (X _k ,Y _k ) To (x) _u ,y _v ) And (x) _u ,y _v ) To (x) _min ,y _min ) Along line function F _(x)e-f Sum line function F _(x)i-j Is the total distance L of (2) _e-f/i-j ；

The distance along the linear function path is calculated by the following ways: determining the starting point on the line function as (X) _k ,Y _k ) Or (x) _u ,y _v ) The end point is (x _u ,y _v ) Or (x) _min ,y _min ) Cutting the distance on the line function into M small sections, including forming M+1 coordinate points from beginning to end, obtaining M distances by using a distance calculation formula between two coordinate points, and adding the M distances to obtain the distance between the two points along the line function path;

and combining the set L, extracting a gridding member corresponding to the minimum value in the set L, and sending the help seeking information to terminal equipment of the gridding member to finish the assignment of the work order.

According to the technical scheme, in S4, the operator receives the work order assignment from the management platform, goes to the appointed place to carry out service or rescue, when the operator receives the work order assignment, the management platform marks the operator as a working state, after the operator finishes the service or rescue, the operator manually adjusts the terminal equipment to be in an idle state, the management platform acquires information that the operator is in the idle state, when the operator starts the service or rescue, the terminal equipment starts timing, until the operator manually adjusts the state of the terminal equipment, the timing is stopped, the management platform receives the service or rescue time length information of the operator, the payment work order is perfected, and the user waits for the payment.

The intelligent pension digital management system comprises a terminal device and a management platform;

the terminal equipment is arranged in a user's home and used for monitoring the state of the old in the home in real time, and sending help seeking information to the management platform when an abnormal situation occurs; the management platform is used for carrying out real-time data analysis on the positions of the gridding member and the recourse place according to recourse information of the terminal equipment, and assigning the most suitable gridding member to the appointed place for service and rescue.

According to the technical scheme, the management platform comprises a right management module, an information management module, a recourse management module, a work order management module, a display management module and a data management module;

the authority management module is used for setting and managing the authorities of users, gridding members and administrators; the information management module is used for managing various information data of the long person, and the recourse management module is used for classifying and managing recourse information uploaded by the terminal equipment; the work order management module is used for sorting work order information after the assignment of the gridding member, including the assignment of the gridding member information, the completion condition, the payment condition and the like; the display management module is used for displaying various information data of the management platform through the visual large screen; the data management module is used for processing the information data of each role and providing timely service and rescue for users.

According to the technical scheme, the data management module comprises a digital model building unit, a function determining unit, an assignment screening unit, a screening analysis unit and an assignment determining unit;

the digital model building unit is used for building a digital grid area model and giving coordinate values to the grid area model; the function determining unit is used for determining a region function, a line function and a building function in the grid region model; the assignment screening unit is used for determining an assignment list, screening the gridding members in the assignment list and selecting the best gridding member to go to service or rescue; the screening analysis unit is used for analyzing a plurality of gridding members according to the positions of the gridding members, determining the optimal gridding member in a distance calculation mode and assigning the optimal gridding member; in the whole process, the grid members of the current grid area are not considered, because the grid members of the current grid area are not necessarily more convenient to service or rescue than the grid members of other adjacent areas due to the change of the positions in the whole assignment process; the assignment determination unit is configured to send an assignment instruction to the clan after determining the assigned clan.

According to the technical scheme, the screening analysis unit comprises a starting point determination unit, a midpoint determination unit, an end point determination unit, a function segmentation unit and a distance calculation unit;

the starting point determining unit is used for determining starting point coordinates of any gridding member; the midpoint determining unit is used for determining midpoint coordinates of other gridding members assisting the grid; the end point determining unit is used for determining end point coordinates of the salvation or the service of the salvation of the gridding member; the function determining unit is used for determining and analyzing line segment functions passed by forward service or rescue of the gridding member; the function segmentation unit is used for carrying out segmentation processing on line segment functions which need to pass through in the service or rescue process of the gridding member; the distance calculation unit is used for calculating the distance of each segment in the segmented functions, and summing the lengths of the calculated segments to obtain the total length.

Compared with the prior art, the application has the beneficial effects that:

1. according to the intelligent pension management platform, the intelligent pension management platform is established based on the cloud platform, the service community is divided into a plurality of grids, the grids are provided with the gridding staff for service or rescue, and the digital management is carried out on the whole grid area model, so that the pension service is more comprehensive, more centered and more intelligent.

2. When the application assigns the grid members, not only the grid members of the affiliated grid are considered, but also the grid members of other grids are fully considered, and comprehensive analysis is performed, because the grid members of the current grid are assigned to be the most suitable grid members in the traditional sense, but the positions of the grid members of the current grid are not as good as those of the grid members of other grids in certain emergency, so that the grid members of the current grid are not the site where the first time arrives under the condition of simultaneous departure, and the application can serve or rescue the user needing help as soon as possible in the range of allowing the call.

3. When the distance analysis and calculation are carried out, the application takes the sectional type into account, and the sectional type calculation is fully carried out for screening and analysis, so that the calculation result is more accurate, and the assignment instruction is issued more timely.

Drawings

Fig. 1 is a schematic flow chart of steps of an intelligent endowment digital management method based on a cloud platform;

fig. 2 is a schematic diagram of the correlation of the intelligent endowment digital management method based on the cloud platform;

fig. 3 is a grid area model schematic diagram of an intelligent endowment digital management system and method based on a cloud platform.

Detailed Description

The following description of the embodiments of the present application will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present application, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

As shown in fig. 1 to 3, the present application provides the following technical solutions, a digital intelligent care management method based on a cloud platform, the digital intelligent care management method includes the following steps:

s1, establishing a digitized grid area model based on a service community; in order to reduce the overall operation of the system, the application adopts a mode of establishing a planar grid area model to realize digital management;

establishing a plane rectangular coordinate system on the grid area model, and determining the area function of any grid as E _(x)i-j The roads of any grid form a line function F _(x)i-j Building function G is formed by buildings of any grid _(x)i-j Wherein i-j represents the ith row and jth column of grids in the grid region model, each grid is provided with at least one grid member, and the position coordinates of the grid member are positioned in real time as (X) _k ,Y _k )；

Solving a solution of a linear function and a building function in any grid according to the following formula:

F _(x)i-j =G _(x)i-j ；

obtaining a coordinate set W;

the purpose of the solution is to facilitate the digital analysis when the assignment of the clan is carried out later, so as to facilitate the assignment of the most suitable clan to the service and rescue;

s2, binding the terminal equipment of the user with the management platform, and uploading the help seeking information of the terminal equipment to the management platform; the terminal device includes, but is not limited to, a monitoring device, an intelligent bracelet, an SOS one-key alarm, an intelligent mattress, and a fire smoke detection, and when the terminal device binds with the management platform, address information of the terminal device needs to be bound, for example: a three-unit 1206, for the purpose that when the terminal device sends the help-seeking information, the management platform can know the position information that needs service or rescue at the first time;

when the management platform receives the help seeking information of the terminal equipment, the position coordinate of the terminal equipment is determined as (x) _s ,y _s )；

Solving the coordinates (x) according to the distance formula _s ,y _s ) The distance from each coordinate value in the set W, the minimum value of the distance in the set W corresponds to the coordinate (x _min ,y _min )，(x _min ,y _min ) The connection point of the building to which the terminal device belongs and the road in the grid is indicated, i.e. the building gets the entrance.

Because the application adopts the analysis mode of the plane grid area model, the analysis of the path after the entrance of the building is not performed any more, and the distance after entering the building is the same for any grid member, mainly the distance before entering the building is analyzed;

s3, the management platform analyzes according to the received help information and the position of the gridding member, and assigns work orders;

the method comprises the following steps:

s301, determining grids to which the recourse places belong according to recourse information, and defining the grids as recourse grids;

s302, calling adjacent grids adjacent to the help calling grid according to the determined help calling, and defining the adjacent grids as auxiliary grids;

s303, locating the real-time coordinates of the assistance grids and the corresponding grid members of the assistance grids, which are called by the S301 and the S302, to form a set P of coordinates; coordinate set p= { (X) ₁ ,Y ₁ ),(X ₂ ,Y ₂ ),(X ₃ ,Y ₃ ),(X ₄ ,Y ₄ ),(X ₅ ,Y ₅ )}；

S304, determining the idle-state gridding members in the set P to form a real-time coordinate set P of the idle-state gridding members ^’ The method comprises the steps of carrying out a first treatment on the surface of the When the gridding member is in a working state, the result is fed back to the management platform, so that the management platform can directly judge whether the gridding member is in an idle state, and real-time coordinates of the gridding member in the idle state form a coordinate set P ^’ ={(X ₁ ,Y ₁ ),(X ₂ ,Y ₂ ),...,(X _m ,Y _m ) M is less than or equal to 5 and is a positive integer;

s305, pair set P ^’ The mesh members in the grid are screened to form a real-time coordinate set P of the available mesh members ^’’ ；

In S305, the area function of the help-seeking grid is E _(x)i-j The common coordinates of the assistance grids and the assistance grids are called one by one, and a set Q is combined;

line function F of grid to which set Q belongs is called _(x)i-j And F _(x)e-f Wherein the line function F _(x)e-f Belonging to an assisting grid, the line function F _(x)i-j And F _(x)e-f Traversing the set Q, and if at least one coordinate point exists in the set Q, simultaneously meeting the line function F _(x)i-j And F _(x)e-f Indicating that the corresponding member of the assistance grid can go to the help-seeking grid to perform service or rescue, and the coordinate points satisfying the condition are (x) _u ,y _v )；

If no coordinate point exists in the set Q, the line function F is simultaneously satisfied _(x)i-j And F _(x)e-f Screening out the corresponding gridding member of the assistance grid, so that the gridding member of the assistance grid cannot directly and quickly enter assistance service or rescue of the help seeking grid at the moment;

form set P ^’’ ={(X ₁ ,Y ₁ ),(X ₂ ,Y ₂ ),...,(X _n ,Y _n ) N is less than or equal to m and is a positive integer;

s306, pair set P ^’’ And analyzing the gridding member to determine a final gridding member, and assigning a work order to a terminal of the final gridding member.

Determining the current coordinates of the gridding member as (X) _k ,Y _k ) Endpoint coordinates are (x _min ,y _min ) The midpoint coordinates of the assist grid are (x _u ,y _v )；

For the help grid, calculate (X _k ,Y _k ) To (x) _min ,y _min ) Along line function F _(x)i-j Distance L of path _i-j ；

For the assistance grid, calculate (X _k ,Y _k ) To (x) _u ,y _v ) And (x) _u ,y _v ) To (x) _min ,y _min ) Along line function F _(x)e-f Sum line function F _(x)i-j Is the total distance L of (2) _e-f/i-j ；

The distance along the linear function path is calculated by the following ways: determining the starting point on the line function as (X) _k ,Y _k ) Or (x) _u ,y _v ) The end point is (x _u ,y _v ) Or (x) _min ,y _min ) Cutting the distance on the line function into M small sections, including forming M+1 coordinate points from beginning to end, obtaining M distances by using a distance calculation formula between two coordinate points, and adding the M distances to obtain the distance between the two points along the line function path;

and combining the set L, extracting a gridding member corresponding to the minimum value in the set L, and sending the help seeking information to terminal equipment of the gridding member to finish the assignment of the work order.

S4, the gridding member goes to the appointed place to carry out service or rescue according to the information of the appointed work order, and the result is fed back.

The method comprises the steps that a gridding member receives work order assignment from a management platform, goes to a designated place to carry out service or rescue, when the gridding member receives the work order assignment, the management platform marks the gridding member as a working state, after the service or rescue is completed, the gridding member manually adjusts a terminal device to be in an idle state, the management platform obtains information of the gridding member in the idle state, when the gridding member starts to carry out service or rescue, the terminal device starts timing until the gridding member manually adjusts the state of the terminal device, the timing is stopped, the management platform receives service or rescue time length information of the gridding member, the payment work order is perfected, and a user waits for payment.

The intelligent pension digital management system comprises a terminal device and a management platform;

the terminal equipment is arranged in a user's home and used for monitoring the state of the old in the home in real time, and sending help seeking information to the management platform when an abnormal situation occurs; the management platform is used for carrying out real-time data analysis on the positions of the gridding member and the recourse place according to recourse information of the terminal equipment, and assigning the most suitable gridding member to the appointed place for service and rescue.

The management platform comprises a right management module, an information management module, a recourse management module, a work order management module, a display management module and a data management module;

the authority management module is used for setting and managing the authorities of users, gridding members and administrators; the information management module is used for managing various information data of the long person, for example: basic information management, household address management, identity card management, social security card number management, photo management, emergency contacts and relations; the help seeking management module is used for carrying out classified management on the help seeking information uploaded by the terminal equipment; the work order management module is used for sorting work order information after the assignment of the gridding member, including the assignment of the gridding member information, the completion condition, the payment condition and the like; the display management module is used for displaying various information data of the management platform through the visual large screen;

the data management module is used for processing the information data of each role and providing timely service and rescue for users.

The data management module comprises a digital model building unit, a function determining unit, an assignment screening unit, a screening analysis unit and an assignment determining unit;

the digital model building unit is used for building a digital grid area model and giving coordinate values to the grid area model; the function determining unit is used for determining a region function, a line function and a building function in the grid region model; the assignment screening unit is used for determining an assignment list, screening the gridding members in the assignment list and selecting the best gridding member to go to service or rescue; the screening analysis unit is used for analyzing a plurality of gridding members according to the positions of the gridding members, determining the optimal gridding member in a distance calculation mode and assigning the optimal gridding member;

the screening analysis unit comprises a starting point determination unit, a midpoint determination unit, an end point determination unit, a function segmentation unit and a distance calculation unit;

the starting point determining unit is used for determining starting point coordinates of any gridding member; the midpoint determining unit is used for determining midpoint coordinates of other gridding members assisting the grid; the end point determining unit is used for determining end point coordinates of the salvation or the service of the salvation of the gridding member; the function determining unit is used for determining and analyzing line segment functions passed by forward service or rescue of the gridding member; the function segmentation unit is used for carrying out segmentation processing on line segment functions which need to pass through in the service or rescue process of the gridding member; the distance calculation unit is used for calculating the distance of each segment in the segmented functions, and summing the lengths of the calculated segments to obtain the total length.

In the whole process, the grid members of the current grid area are not considered, because the grid members of the current grid area are not necessarily more convenient to service or rescue than the grid members of other adjacent areas due to the change of the positions in the whole assignment process; the assignment determination unit is configured to send an assignment instruction to the clan after determining the assigned clan.

Examples

S301, determining grids to which the recourse places belong according to recourse information, and defining the grids as recourse grids;

s302, calling adjacent grids adjacent to the help calling grid according to the determined help calling, and defining the adjacent grids as auxiliary grids;

s303, locating real-time coordinates of a clawing grid and a grid member corresponding to an assisting grid, which are called by S301 and S302, and forming a set of coordinates P = { (X) ₁ ,Y ₁ ),(X ₂ ,Y ₂ ),(X ₃ ,Y ₃ ),(X ₄ ,Y ₄ ),(X ₅ ,Y ₅ )}；

S304, determining the idle-state gridding members in the set P to form a real-time coordinate set P of the idle-state gridding members ^’ ={(X ₁ ,Y ₁ ),(X ₂ ,Y ₂ ),(X ₃ ,Y ₃ ),(X ₄ ,Y ₄ )}；

S305, pair set P ^’ The mesh members in the grid are screened to form a real-time coordinate set P of the available mesh members ^’’ ；

In S305, the area function of the help-seeking grid is E _(x)i-j The common coordinates of the assistance grid and the assistance grid are fetched one by one, and a combination set Q= { (x) ₁ ,y ₁ ),(x ₂ ,y ₂ ),(x ₃ ,y ₃ ),...,(x _N ,y _N )}；

Line function F of grid to which set Q belongs is called _(x)i-j And F _(x)e-f Wherein the line function F _(x)e-f Belonging to an assisting grid, the line function F _(x)i-j And F _(x)e-f Traversing a set Q, wherein one coordinate point exists in the set Q and simultaneously satisfies a line function F _(x)i-j And F _(x)e-f The coordinate point satisfying the condition is (x ₅ ,y ₅ )；

Line function F of grid to which set Q belongs is called _(x)i-j And F _(x)e-f Wherein the line function F _(x)e-f Belonging to an assisting grid, the line function F _(x)i-j And F _(x)e-f Traversing a set Q, wherein one coordinate point exists in the set Q and simultaneously satisfies a line function F _(x)i-j And F _(x)e-f The coordinate point satisfying the condition is (x ₁₅ ,y ₁₅ )；

Form set P ^’’ ={(X ₁ ,Y ₁ ),(X ₂ ,Y ₂ ),(X ₃ ,Y ₃ )}；

S306, pair set P ^’’ And analyzing the gridding member to determine a final gridding member, and assigning a work order to a terminal of the final gridding member.

Determining the current coordinates of the gridding member as (X) ₁ ,Y ₁ )、(X ₂ ,Y ₂ )、(X ₃ ,Y ₃ ) Endpoint coordinates are (x _min ,y _min ) The midpoint coordinates of the assist grid are (x ₅ ,y ₅ )，(x ₁₅ ,y ₁₅ )；

For the help grid, calculate (X ₁ ,Y ₁ ) To (x) _min ,y _min ) Along line function F _(x)i-j Distance L of path _i-j =302m；

For the assistance grid, calculate (X ₂ ,Y ₂ ) To (x) ₅ ,y ₅ ) And (x) ₅ ,y ₅ ) To (x) _min ,y _min ) Along line function F _(x)e-f Sum line function F _(x)i-j Is the total distance L of (2) _e-f/i-j =456m；

For the assistance grid, calculate (X ₃ ,Y ₃ ) To (x) ₁₅ ,y ₁₅ ) And (x) ₁₅ ,y ₁₅ ) To (x) _min ,y _min ) Along line function F _(x)e-f Sum line function F _(x)i-j Is the total distance L of (2) _e-f/i-j =215m；

The combination set l= {302,456,215}, the mesh member corresponding to the minimum value 215 in the set L is extracted, and the coordinate point thereof is (X ₃ ,Y ₃ ) And sending the recourse information to the terminal equipment of the gridding member to finish the assignment of the work order.

It will be evident to those skilled in the art that the application is not limited to the details of the foregoing illustrative embodiments, and that the present application may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the application being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (9)

1. A cloud platform-based intelligent endowment digital management method is characterized by comprising the following steps of: the intelligent pension digital management method comprises the following steps:

s1, establishing a digitized grid area model based on a service community;

s2, binding the terminal equipment of the user with the management platform, and uploading the help seeking information of the terminal equipment to the management platform;

s3, the management platform analyzes according to the received help information and the position of the gridding member, and assigns work orders;

s4, the gridding member goes to the appointed place to carry out service or rescue according to the information of the appointed work order, and the result is fed back.

2. The intelligent endowment digital management method based on the cloud platform as claimed in claim 1, wherein the intelligent endowment digital management method is characterized in that: in S1, a plane rectangular coordinate system is established on a grid area model, and an area function of any grid is determined to be E _(x)i-j The roads of any grid form a line function F _(x)i-j Building function G is formed by buildings of any grid _(x)i-j Wherein i-j represents the ith row and jth column of grids in the grid region model, each grid is provided with at least one grid member, and the position coordinates of the grid member are positioned in real time as (X) _k ,Y _k )；

Solving a solution of a linear function and a building function in any grid according to the following formula:

F _(x)i-j =G _(x)i-j ；

obtaining a coordinate set W;

in S2, when the management platform receives the help seeking information of the terminal equipment, the position coordinate of the terminal equipment is determined as (x) _s ,y _s )；

Solving the coordinates (x) according to the distance formula _s ,y _s ) The distance from each coordinate value in the set W, the minimum value of the distance in the set W corresponds to the coordinate (x _min ,y _min )，(x _min ,y _min ) Representing the connection point of the building to which the terminal device belongs to the road in the grid.

3. The intelligent endowment digital management method based on the cloud platform as claimed in claim 2, wherein the intelligent endowment digital management method is characterized in that: in S3, the following steps are included:

s301, determining grids to which the recourse places belong according to recourse information, and defining the grids as recourse grids;

s302, calling adjacent grids adjacent to the help calling grid according to the determined help calling, and defining the adjacent grids as auxiliary grids;

s303, locating the real-time coordinates of the assistance grids and the corresponding grid members of the assistance grids, which are called by the S301 and the S302, to form a set P of coordinates;

s304, determining the idle-state gridding members in the set P to form a real-time coordinate set P of the idle-state gridding members ^’ ；

S305, pair set P ^’ The mesh members in the grid are screened to form a real-time coordinate set P of the available mesh members ^’’ ；

S306, pair set P ^’’ And analyzing the gridding member to determine a final gridding member, and assigning a work order to a terminal of the final gridding member.

4. The intelligent endowment digital management method based on the cloud platform according to claim 3, wherein the intelligent endowment digital management method is characterized in that: in S305, the area function of the help-seeking grid is E _(x)i-j The common coordinates of the assistance grids and the assistance grids are called one by one, and a set Q is combined;

line function F of grid to which set Q belongs is called _(x)i-j And F _(x)e-f Wherein the line function F _(x)e-f Belonging to an assisting grid, the line function F _(x)i-j And F _(x)e-f Traversing the set Q, and if at least one coordinate point exists in the set Q, simultaneously meeting the line function F _(x)i-j And F _(x)e-f Indicating that the corresponding member of the assistance grid can go to the help-seeking grid to perform service or rescue, and the coordinate points satisfying the condition are (x) _u ,y _v )；

If setNo coordinate point exists in the Q complex while satisfying the line function F _(x)i-j And F _(x)e-f Screening out the corresponding gridding member of the assisting grid;

form set P ^’’ ={(X ₁ ,Y ₁ ),(X ₂ ,Y ₂ ),...,(X _n ,Y _n ) N is less than or equal to m and is a positive integer;

in S306, it is determined that the current coordinates of the mesh member are (X _k ,Y _k ) Endpoint coordinates are (x _min ,y _min ) The midpoint coordinates of the assist grid are (x _u ,y _v )；

For the help grid, calculate (X _k ,Y _k ) To (x) _min ,y _min ) Along line function F _(x)i-j Distance L of path _i-j ；

For the assistance grid, calculate (X _k ,Y _k ) To (x) _u ,y _v ) And (x) _u ,y _v ) To (x) _min ,y _min ) Along line function F _(x)e-f Sum line function F _(x)i-j Is the total distance L of (2) _e-f/i-j ；

And combining the set L, extracting a gridding member corresponding to the minimum value in the set L, and sending the help seeking information to terminal equipment of the gridding member to finish the assignment of the work order.

5. The intelligent endowment digital management method based on the cloud platform as claimed in claim 4, wherein the intelligent endowment digital management method is characterized in that: in S4, the operator receives the work order assignment from the management platform, goes to the designated location to perform service or rescue, and when the operator receives the work order assignment, the management platform marks the operator as a working state, and after the operator finishes the service or rescue, the operator manually adjusts the terminal device to be in an idle state, and the management platform acquires information that the operator is in the idle state.

6. An intelligent pension digital management system for implementing the cloud platform-based intelligent pension digital management method of any one of claims 1-5, characterized in that: the intelligent pension digital management system comprises terminal equipment and a management platform;

the terminal equipment is arranged in a user's home and used for monitoring the state of the old in the home in real time, and sending help seeking information to the management platform when an abnormal situation occurs; the management platform is used for carrying out real-time data analysis on the positions of the gridding member and the recourse place according to recourse information of the terminal equipment, and assigning the gridding member to go to the appointed place for service and rescue.

7. The intelligent pension digital management system of claim 6, wherein: the management platform comprises a right management module, an information management module, a recourse management module, a work order management module, a display management module and a data management module;

the authority management module is used for setting and managing the authorities of users, gridding members and administrators; the information management module is used for managing various information data of the long person, and the recourse management module is used for classifying and managing recourse information uploaded by the terminal equipment; the work order management module is used for sorting work order information after the gridding member is assigned; the display management module is used for displaying various information data of the management platform through the visual large screen; the data management module is used for processing the information data of each role and providing timely service and rescue for users.

8. The intelligent pension digital management system of claim 7, wherein: the data management module comprises a digital model building unit, a function determining unit, an assignment screening unit, a screening analysis unit and an assignment determining unit;

the digital model building unit is used for building a digital grid area model and giving coordinate values to the grid area model; the function determining unit is used for determining a region function, a line function and a building function in the grid region model; the assignment screening unit is used for determining an assignment list, screening the gridding members in the assignment list and selecting the best gridding member to go to service or rescue; the screening analysis unit is used for analyzing a plurality of gridding members according to the positions of the gridding members, determining the optimal gridding member in a distance calculation mode and assigning the optimal gridding member; the assignment determination unit is configured to send an assignment instruction to the clan after determining the assigned clan.

9. The intelligent pension digital management system of claim 8, wherein: the screening analysis unit comprises a starting point determination unit, a midpoint determination unit, an end point determination unit, a function segmentation unit and a distance calculation unit;

the starting point determining unit is used for determining starting point coordinates of any gridding member; the midpoint determining unit is used for determining midpoint coordinates of other gridding members assisting the grid; the end point determining unit is used for determining end point coordinates of the salvation or the service of the salvation of the gridding member; the function determining unit is used for determining and analyzing line segment functions passed by forward service or rescue of the gridding member; the function segmentation unit is used for carrying out segmentation processing on line segment functions which need to pass through in the service or rescue process of the gridding member; the distance calculation unit is used for calculating the distance of each segment in the segmented functions, and summing the lengths of the calculated segments to obtain the total length.