CN116090797A - Intelligent dispatching management system for emergency terminal facilities - Google Patents

Abstract

The invention provides an intelligent scheduling management system for emergency terminal facilities, which relates to the technical field of scheduling management and comprises a scheduling resource analysis module, a supervision and early warning module and a management module, wherein the scheduling resource analysis module comprises a scheduling resource database, scheduling resource information is stored in the scheduling resource database, the scheduling resource information comprises scheduling terminal information and scheduling personnel information, and the scheduling resource analysis module further comprises a scheduling resource analysis unit; the invention can comprehensively plan the dispatching resources in the whole dispatching range in the dispatching process by carrying out the integrated analysis on the dispatching resources in the dispatching range, thereby ensuring the rationality of dispatching and distributing, ensuring the emergency management safety in the whole dispatching range and solving the problems of single functionality and unreasonable dispatching and distributing of the traditional dispatching system.

Description

Intelligent dispatching management system for emergency terminal facilities

Technical Field

The invention relates to the technical field of scheduling management, in particular to an intelligent scheduling management system for emergency terminal facilities.

Background

The emergency command and dispatch system is based on modern communication and network technology, realizes unified command and dispatch of personnel, equipment and resources at all levels, and realizes intelligent early warning, alarm linkage and visual emergency command and dispatch through the solution of the intelligent emergency command system. The intelligent emergency command and dispatch system is based on the existing communication and IT network basic environment of users, adopts a management mode of comprehensive access, unified command and unified dispatch, and can timely distribute management personnel for processing when encountering emergency incidents in the public service process, thereby improving public safety.

However, in the prior art, the emergency command and dispatch system is generally used for communication between command personnel of the command terminal and management personnel distributed in other areas, and the command judgment adopted is based on judgment of command personnel of the command center on emergency events, so that a lot of omission often exists in the process of dispatching by personnel, for example, management personnel are short in a region to be pumped, if emergency occurs in the region to be pumped at the moment, the situation that the management personnel are insufficient in the region to be pumped is caused, and therefore, a method or system capable of carrying out integrated analysis and intelligent allocation on dispatching resources in the dispatching range is needed to solve the problems.

Disclosure of Invention

Aiming at the defects existing in the prior art, the invention can comprehensively plan the dispatching resources in the whole dispatching range in the dispatching process by carrying out the integrated analysis on the dispatching resources in the dispatching range, thereby ensuring the rationality of dispatching and distributing and ensuring the emergency management safety in the whole dispatching range so as to solve the problems of single functionality and unreasonable dispatching and distributing of the existing dispatching system.

In order to achieve the above purpose, the invention provides an intelligent scheduling management system for emergency terminal facilities, which comprises a scheduling resource analysis module, a supervision and early warning module and a management module, wherein the scheduling resource analysis module comprises a scheduling resource database, scheduling resource information is stored in the scheduling resource database, the scheduling resource information comprises scheduling terminal information and scheduling personnel information, the scheduling resource analysis module further comprises a scheduling resource analysis unit, and the scheduling resource analysis unit is used for analyzing the scheduling resource information to obtain static resource allocation quantity and dynamic resource allocation quantity in a scheduling range;

the monitoring and early warning module comprises a monitoring unit and an early warning unit, wherein the monitoring unit is used for monitoring the information of the dispatching terminal in the dispatching range and carrying out risk analysis according to the running state of the dispatching terminal; the early warning unit is used for acquiring alarm information in a dispatching range and analyzing the alarm information to obtain an alarm level;

the management module comprises a conventional scheduling unit and an intelligent scheduling unit, wherein the conventional scheduling unit is used for scheduling conventional static resource allocation quantity and dynamic resource allocation quantity based on the alarm level; the intelligent scheduling unit is used for receiving real-time scheduling information of the conventional scheduling unit and performing scheduling supplement of conventional static resource allocation quantity and dynamic resource allocation quantity in a scheduling range based on the real-time scheduling information.

Further, the scheduling resource analysis unit is configured with a scheduling resource analysis policy, the scheduling resource analysis policy including: acquiring position information of a plurality of scheduling terminals, and marking the positions of the plurality of scheduling terminals in a scheduling range;

counting the number of the scheduling personnel corresponding to each scheduling terminal, solving the average value of the number of the scheduling personnel corresponding to a plurality of scheduling terminals, and setting the average value as the reference number corresponding to the terminals;

setting the number of a plurality of scheduling terminals as the number of the terminals; setting the area of the scheduling range as a scheduling area;

calculating the scheduling area and the number of terminals through a scheduling density calculation formula to obtain a scheduling density value; the scheduling density calculation formula is configured as follows:

the method comprises the steps of carrying out a first treatment on the surface of the Wherein Mdd is a scheduling density value, sdd is a scheduling area, and Kzd is the number of terminals;

taking the dispatching density value as the area of a terminal radiation circle, solving the diameter of the terminal radiation circle, and setting the diameter of the terminal radiation circle as the personnel distribution distance;

dividing the personnel distribution distance by the corresponding reference number of the terminals to obtain dividing intervals;

randomly selecting one scheduling terminal as a division center, and setting the scheduling terminal with the distance from the division center smaller than the personnel distribution distance as a recombination terminal; subtracting the distance between the overlapping terminal and the dividing center from the personnel distribution distance to obtain an overlapping distance, and adding the overlapping distances between the dividing center and the plurality of overlapping terminals to obtain an overlapping total distance; dividing the total overlapping distance by the dividing interval to obtain a basic overlapping value, and setting the integer part of the basic overlapping value as overlapping reference quantity;

sequentially taking each scheduling terminal as a division center to obtain the superposition reference number of each scheduling terminal; the number of the scheduling personnel corresponding to each scheduling terminal is the static resource allocation number, and the superposition reference number of each scheduling terminal is the dynamic resource allocation number.

Further, the supervision unit is configured with a supervision policy, the supervision policy comprising: detecting the opening state of the dispatching terminal, and setting the dispatching terminal as a closing terminal when the dispatching terminal is in a closing state;

acquiring the superposition reference number of the closed terminal;

and outputting a scheduling risk signal for closing the terminal when the coincidence reference number is smaller than or equal to a first number threshold value.

Further, the early warning unit is configured with an early warning strategy, and the early warning strategy comprises: setting alarm levels, wherein the alarm levels comprise a first alarm level, a second alarm level and a third alarm level;

the acquired alarm information is respectively corresponding to a first alarm level, a second alarm level and a third alarm level;

the occurrence position of the alarm information is set as a scheduling point.

Further, the regular scheduling unit is configured with a level configuration policy, the level configuration policy comprising: setting a configuration quantity for the alarm level, and setting a first configuration quantity, a second configuration quantity and a third configuration quantity for the first alarm level, the second alarm level and the third alarm level respectively; wherein the first configuration number is greater than the second configuration number, and the second configuration number is greater than the third configuration number.

Further, the regular scheduling unit is further configured with a regular scheduling policy, the regular scheduling policy comprising: a scheduling terminal with the distance between the scheduling terminals and the scheduling point being less than 1/2 personnel distribution distance is obtained and set as a conventional terminal;

acquiring the total number of static resource allocation numbers of a plurality of conventional terminals, and setting the total number as the conventional scheduling number; acquiring dynamic resource allocation quantity of a plurality of conventional terminals, and setting the dynamic resource allocation quantity as dynamic scheduling quantity;

adding the conventional scheduling number to the dynamic scheduling number to obtain the total scheduling number;

when the total scheduling number is greater than or equal to the configuration number of the alarm levels, scheduling the static resource configuration and the dynamic resource configuration according to the configuration number of the alarm levels;

and outputting real-time scheduling information to the intelligent scheduling unit when the total scheduling number is smaller than the configuration number of the alarm level.

Further, the intelligent scheduling unit is configured with an intelligent scheduling policy, the intelligent scheduling policy including: taking a scheduling point position as a scanning center, taking personnel distribution distance as a diameter, and drawing a basic scanning circle;

taking the dividing interval as a scanning increasing distance, and increasing the scanning increasing distance by one unit for the radius of the basic scanning circle each time to obtain a scanning expanding circle;

adding the static resource allocation quantity and the dynamic resource allocation quantity of the dispatching terminals in the scanning expansion circle to obtain an expansion total quantity;

continuing to expand the scan expansion circle when the total number of expansion is less than the number of configurations of the alarm level; stopping enlarging the scan enlarging circle when the total number of enlarged positions is equal to or greater than the number of configurations of the alarm level;

setting the finally obtained scanning expansion circle as an intelligent adjustment range, and taking the total expansion quantity in the intelligent adjustment range as intelligent adjustment quantity;

and scheduling the static resource configuration and the dynamic resource configuration in the intelligent adjustment quantity according to the configuration quantity of the alarm level.

Further, the intelligent scheduling unit is configured with an intelligent replenishment policy comprising: a scheduling terminal with the distance smaller than 1/2 personnel distribution distance from the intelligent adjustment range is obtained and set as a supplementary terminal;

calculating the diameter of the intelligent adjustment range through a supplementary formula to obtain a supplementary quantity, wherein the supplementary formula is configured as follows:

the method comprises the steps of carrying out a first treatment on the surface of the Wherein Kbc is the number of supplements, rzt is the diameter of the intelligent adjustment range, srf is the personnel distribution distance, and Kjc is the number of intelligent supplements;

sorting a plurality of supplementary terminals according to the distance between the supplementary terminals and the intelligent adjusting range from small to large to obtain supplementary sorting; dividing the number of the supplementary terminals by the number of the supplementary terminals to obtain an average supplementary value, and when the average supplementary value is an integer, carrying out static resource allocation and dynamic resource allocation supplementation on the intelligent adjustment range by the supplementary terminals according to the average supplementary value;

when the average supplementary value is not an integer, the integer bit obtained by dividing the supplementary number by the number of the plurality of supplementary terminals is set as a basic supplementary value, the remainder is set as an independent supplementary value, the independent supplementary value is obtained by adding the independent supplementary value to the basic supplementary value, the first supplementary terminal in the supplementary order carries out the supplementary of the static resource configuration and the dynamic resource configuration according to the independent supplementary value, and other supplementary terminals except the first supplementary terminal in the supplementary order carry out the supplementary of the static resource configuration and the dynamic resource configuration according to the basic supplementary value.

The invention has the beneficial effects that:

1. the invention obtains the static resource allocation quantity and the dynamic resource allocation quantity in the dispatching range by acquiring the dispatching terminal information and the dispatching personnel information in the dispatching resource information and analyzing the dispatching resource information, and the design can perform unified processing on the resource allocation in the dispatching range, thereby being convenient for calculating the dispatching resource in the dispatching process and providing basic data support for rationalized dispatching;

2. the invention can monitor the dispatching terminal information in the dispatching range through the supervision unit and carry out risk analysis according to the running state of the dispatching terminal, the method has the advantages that when the dispatching terminal fails, the resource which can be dispatched can be timely regulated, the alarm information in the dispatching range can be acquired through the early warning unit, the alarm information is analyzed to obtain the alarm level, and the design has the advantages that the level comparison can be carried out according to the alarm level information which is input in advance, so that the resource with different degrees can be dispatched according to different alarms;

3. the invention can schedule the conventional static resource allocation quantity and the dynamic resource allocation quantity based on the alarm level through the conventional scheduling unit, the design can rapidly and accurately schedule the resources with basic requirements, and when the conventional scheduling unit cannot meet the scheduling requirements, the intelligent scheduling unit is executed again, so that the rationality of scheduling allocation can be improved; the intelligent scheduling unit can receive real-time scheduling information of the conventional scheduling unit, and perform scheduling supplement of conventional static resource allocation quantity and dynamic resource allocation quantity in a scheduling range based on the real-time scheduling information, so that missing resources can be supplemented through the intelligent scheduling unit, reasonable supplement can be performed in a scheduled area, and scheduling rationality in the whole scheduling range is improved.

Additional aspects of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

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

FIG. 1 is a schematic block diagram of an intelligent dispatch management system for emergency terminal facilities according to the present invention;

fig. 2 is a schematic view showing the enlarged arrangement of the basic scan circle of the present invention.

Description of the embodiments

It should be noted that the following detailed description is exemplary and is intended to provide further explanation of the invention. Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs.

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of exemplary embodiments according to the present invention.

Embodiments of the invention and features of the embodiments may be combined with each other without conflict.

Referring to fig. 1, the invention provides an intelligent scheduling management system for emergency terminal facilities, which comprises a scheduling resource analysis module, a supervision and early warning module and a management module, wherein scheduling resources in a scheduling range can be comprehensively planned in a scheduling process by carrying out integrated analysis on the scheduling resources in the scheduling range, so that the rationality of scheduling and distribution is ensured, and the emergency management safety in the whole scheduling range is ensured.

The scheduling resource analysis module comprises a scheduling resource database, scheduling resource information is stored in the scheduling resource database, the scheduling resource information comprises scheduling terminal information and scheduling personnel information, the scheduling terminal is terminal equipment in each scheduling point, the management module takes the role of a command scheduling center, the terminal equipment is used for receiving scheduling signals of the management module, the scheduling personnel are management personnel of each scheduling point, in the scheduling process, the scheduling personnel receive the scheduling information through the terminal equipment, and each scheduling point is provided with a plurality of scheduling personnel, so that when one scheduling terminal fails or is closed, the scheduling arrangement of the whole scheduling point can be influenced.

The scheduling resource analysis module further comprises a scheduling resource analysis unit, wherein the scheduling resource analysis unit is used for analyzing the scheduling resource information to obtain the static resource allocation quantity and the dynamic resource allocation quantity in the scheduling range; the scheduling resource analysis unit is configured with a scheduling resource analysis policy, and the scheduling resource analysis policy includes: acquiring position information of a plurality of scheduling terminals, and marking the positions of the plurality of scheduling terminals in a scheduling range; after the positions of the dispatching terminals are marked in the dispatching range, linkage analysis can be carried out with the adjacent dispatching terminals when the radiation range of each dispatching terminal is analyzed;

counting the number of the scheduling personnel corresponding to each scheduling terminal, solving the average value of the number of the scheduling personnel corresponding to a plurality of scheduling terminals, and setting the average value as the reference number corresponding to the terminals; the reference quantity corresponding to the terminal is the average number of the scheduling personnel corresponding to each scheduling terminal in a scheduling range, and the basic resource quantity which can be scheduled in the scheduling range can be reflected;

setting the number of a plurality of scheduling terminals as the number of the terminals; setting the area of the scheduling range as a scheduling area;

calculating the scheduling area and the number of terminals through a scheduling density calculation formula to obtain a scheduling density value; the scheduling density calculation formula is configured as:

the method comprises the steps of carrying out a first treatment on the surface of the Wherein Mdd is a scheduling density value, sdd is a scheduling area, and Kzd is the number of terminals; the scheduling area is usually calculated in square kilometers;

taking the dispatching density value as the area of a terminal radiation circle, solving the diameter of the terminal radiation circle, and setting the diameter of the terminal radiation circle as the personnel distribution distance; the terminal radiation circle is a reference circle which is evenly distributed in a dispatching range;

dividing the personnel distribution distance by the corresponding reference number of the terminals to obtain dividing intervals;

randomly selecting one scheduling terminal as a division center, and setting the scheduling terminal with the distance from the division center smaller than the personnel distribution distance as a recombination terminal; subtracting the distance between the overlapping terminal and the dividing center from the personnel distribution distance to obtain an overlapping distance, and adding the overlapping distances between the dividing center and the plurality of overlapping terminals to obtain an overlapping total distance; dividing the total overlapping distance by the dividing interval to obtain a basic overlapping value, and setting the integer part of the basic overlapping value as overlapping reference quantity; the more the corresponding superposition reference number of a scheduling terminal is, the more the distribution number of the scheduling terminals nearby the scheduling terminal is, the more the corresponding number of scheduling personnel is, and the more the quantity capable of carrying out dynamic allocation is;

sequentially taking each scheduling terminal as a division center to obtain the superposition reference number of each scheduling terminal; the number of the scheduling personnel corresponding to each scheduling terminal is static resource allocation number, the superposition reference number of each scheduling terminal is dynamic resource allocation number, the static resource allocation number reflects the basic allocation resource of one scheduling terminal, and the dynamic resource allocation number reflects the resource which can be rapidly allocated in the range near one scheduling terminal.

The monitoring and early warning module comprises a monitoring unit and an early warning unit, wherein the monitoring unit is used for monitoring the information of the dispatching terminal in the dispatching range and carrying out risk analysis according to the running state of the dispatching terminal; the supervision unit is configured with a supervision policy comprising: detecting the opening state of the dispatching terminal, and setting the dispatching terminal as a closing terminal when the dispatching terminal is in a closing state;

acquiring the superposition reference number of the closed terminal;

when the number of coincidence references is smaller than or equal to a first number threshold, a scheduling risk signal of the closed terminal is output, when one scheduling terminal is in a closed state, as long as the number of coincidence references nearby the scheduling terminal is large, the corresponding resources capable of being rapidly allocated are also large, so that the risk is not too large, under the general condition, the area of a scheduling range is related to the total number of scheduling personnel, and when the scheduling terminal is specifically implemented, the first number threshold is set to be between 5 and 20, and the number of personnel capable of being dynamically allocated is required to be ensured to be not less than 5;

the early warning unit is used for acquiring alarm information in the dispatching range and analyzing the alarm information to obtain an alarm level; the early warning unit is configured with an early warning strategy, and the early warning strategy comprises: setting alarm levels, wherein the alarm levels comprise a first alarm level, a second alarm level and a third alarm level; in specific implementation, the first alarm level, the second alarm level and the third alarm level are correspondingly input according to an actual application scene, for example, a major natural disaster event, a fire event and a traffic accident event can respectively correspond to the first alarm level, the second alarm level and the third alarm level;

the acquired alarm information is respectively corresponding to a first alarm level, a second alarm level and a third alarm level;

the occurrence position of the alarm information is set as a scheduling point.

The management module comprises a conventional scheduling unit and an intelligent scheduling unit, wherein the conventional scheduling unit is used for scheduling conventional static resource allocation quantity and dynamic resource allocation quantity based on the alarm level;

the regular scheduling unit is configured with a level configuration policy comprising: setting a configuration quantity for the alarm level, and setting a first configuration quantity, a second configuration quantity and a third configuration quantity for the first alarm level, the second alarm level and the third alarm level respectively; wherein the first configuration number is greater than the second configuration number, the second configuration number is greater than the third configuration number, and the first configuration number, the second configuration number, and the third configuration number may be set to 50, 10, and 5, respectively, when in implementation;

the regular scheduling unit is further configured with regular scheduling policies, the regular scheduling policies comprising: a scheduling terminal with the distance between the scheduling terminals and the scheduling point being less than 1/2 personnel distribution distance is obtained and set as a conventional terminal;

acquiring the total number of static resource allocation numbers of a plurality of conventional terminals, and setting the total number as the conventional scheduling number; acquiring dynamic resource allocation quantity of a plurality of conventional terminals, and setting the dynamic resource allocation quantity as dynamic scheduling quantity;

adding the conventional scheduling number to the dynamic scheduling number to obtain the total scheduling number;

when the total scheduling number is greater than or equal to the configuration number of the alarm levels, scheduling the static resource configuration and the dynamic resource configuration according to the configuration number of the alarm levels; wherein, in the scheduling process, the scheduling sequence of the static resource allocation is positioned before the dynamic resource allocation;

when the total number of schedules is smaller than the number of configurations of the alarm level, real-time scheduling information is output to the intelligent scheduling unit, and if the total number of schedules is smaller than the number of configurations of the alarm level, it is indicated that the scheduling resources of the conventional terminal are not enough, so that the scheduling range needs to be enlarged.

The intelligent scheduling unit is used for receiving the real-time scheduling information of the conventional scheduling unit and performing scheduling supplement of the conventional static resource allocation quantity and the dynamic resource allocation quantity in the scheduling range based on the real-time scheduling information; referring to fig. 2, jhf in fig. 2 represents a partition interval, and the intelligent scheduling unit is configured with an intelligent scheduling policy, where the intelligent scheduling policy includes: taking a scheduling point position as a scanning center, taking personnel distribution distance as a diameter, and drawing a basic scanning circle;

taking the dividing interval as a scanning increasing distance, and increasing the scanning increasing distance by one unit for the radius of the basic scanning circle each time to obtain a scanning expanding circle; the scanning area is gradually enlarged, so that the scheduling resources can be gradually increased on the basis of saving the scheduling path, and the reasonability of scheduling allocation is improved;

adding the static resource allocation quantity and the dynamic resource allocation quantity of the dispatching terminals in the scanning expansion circle to obtain an expansion total quantity;

continuing to expand the scan expansion circle when the total number of expansion is less than the number of configurations of the alarm level; stopping enlarging the scan enlarging circle when the total number of enlarged positions is equal to or greater than the number of configurations of the alarm level;

setting the finally obtained scanning expansion circle as an intelligent adjustment range, and taking the total expansion quantity in the intelligent adjustment range as intelligent adjustment quantity;

and scheduling the static resource configuration and the dynamic resource configuration in the intelligent adjustment quantity according to the configuration quantity of the alarm level, wherein the scheduling sequence of the static resource configuration is positioned before the dynamic resource configuration in the scheduling process.

The intelligent scheduling unit is configured with an intelligent replenishment strategy comprising: a scheduling terminal with the distance smaller than 1/2 personnel distribution distance from the intelligent adjustment range is obtained and set as a supplementary terminal;

the diameter of the intelligent adjustment range is calculated to obtain the supplementary quantity through a supplementary formula, and the supplementary formula is configured as follows:

the method comprises the steps of carrying out a first treatment on the surface of the Wherein Kbc is the number of supplements, rzt is the diameter of the intelligent adjustment range, srf is the personnel distribution distance, kjc is the number of intelligent supplements, the number of intelligent supplements is set to 10, and when supplementing the intelligent adjustment range, 10 people are supplemented at least;

sorting a plurality of supplementary terminals according to the distance between the supplementary terminals and the intelligent adjusting range from small to large to obtain supplementary sorting; dividing the number of the supplementary terminals by the number of the supplementary terminals to obtain an average supplementary value, and when the average supplementary value is an integer, carrying out static resource allocation and dynamic resource allocation supplementation on the intelligent adjustment range by the supplementary terminals according to the average supplementary value;

when the average supplementary value is not an integer, setting an integer bit obtained by dividing the supplementary number by the number of a plurality of supplementary terminals as a basic supplementary value, setting a remainder as an independent supplementary value, adding the basic supplementary value to the independent supplementary value to obtain an independent supplementary value, carrying out static resource configuration and dynamic resource configuration supplementation on a first supplementary terminal in supplementary ordering according to the independent supplementary value, and carrying out static resource configuration and dynamic resource configuration supplementation on other supplementary terminals except the first supplementary terminal in supplementary ordering according to the basic supplementary value; in the supplementing process, each supplementing terminal needs to reserve the static resource configuration quantity or the dynamic resource configuration quantity of the basic safety quantity, if the sum of the static resource configuration quantity and the dynamic resource configuration quantity of the supplementing terminal is insufficient for supplementing, the quantity of the supplementing terminals close to the intelligent adjusting range is continued after the static resource configuration quantity or the dynamic resource configuration quantity of the basic safety quantity is reserved, so that the quantity of the static resource configuration quantity and the dynamic resource configuration quantity added in the intelligent adjusting range can reach the supplementing quantity.

Working principle: according to the invention, the static resource allocation quantity and the dynamic resource allocation quantity in the scheduling range are obtained by acquiring the scheduling terminal information and the scheduling personnel information in the scheduling resource information, the scheduling terminal information in the scheduling range can be monitored by the monitoring unit, the risk analysis is carried out according to the running state of the scheduling terminal, the alarm information in the scheduling range can be acquired by the early warning unit, the alarm level is obtained by analyzing the alarm information, the conventional scheduling unit can schedule the conventional static resource allocation quantity and the dynamic resource allocation quantity based on the alarm level, the resources of basic demands can be rapidly and accurately scheduled, when the conventional scheduling unit cannot meet the scheduling demands, the intelligent scheduling unit is executed, the intelligent scheduling unit can receive the real-time scheduling information of the conventional scheduling unit, and the scheduling supplement of the conventional static resource allocation quantity and the dynamic resource allocation quantity in the scheduling range is carried out based on the real-time scheduling information, so that the scheduling rationality in the whole scheduling range can be improved.

It will be appreciated by those skilled in the art that embodiments of the present invention may be provided as a method, system, or computer program product. Accordingly, the present invention may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present invention may take the form of a computer program product embodied on one or more computer-usable storage media having computer-usable program code embodied therein. The storage medium may be implemented by any type or combination of volatile or nonvolatile Memory devices, such as static random access Memory (Static Random Access Memory, SRAM), electrically erasable Programmable Read-Only Memory (Electrically Erasable Programmable Read-Only Memory, EEPROM), erasable Programmable Read-Only Memory (Erasable Programmable Read Only Memory, EPROM), programmable Read-Only Memory (PROM), read-Only Memory (ROM), magnetic Memory, flash Memory, magnetic disk, or optical disk. These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

The above examples are only specific embodiments of the present invention, and are not intended to limit the scope of the present invention, but it should be understood by those skilled in the art that the present invention is not limited thereto, and that the present invention is described in detail with reference to the foregoing examples: any person skilled in the art may modify or easily conceive of the technical solution described in the foregoing embodiments, or perform equivalent substitution of some of the technical features, while remaining within the technical scope of the present disclosure; such modifications, changes or substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present invention, and are intended to be included in the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (8)

1. The intelligent scheduling management system for the emergency terminal facility is characterized by comprising a scheduling resource analysis module, a supervision early warning module and a management module, wherein the scheduling resource analysis module comprises a scheduling resource database, scheduling resource information is stored in the scheduling resource database, the scheduling resource information comprises scheduling terminal information and scheduling personnel information, the scheduling resource analysis module further comprises a scheduling resource analysis unit, and the scheduling resource analysis unit is used for analyzing the scheduling resource information to obtain static resource allocation quantity and dynamic resource allocation quantity in a scheduling range;

the monitoring and early warning module comprises a monitoring unit and an early warning unit, wherein the monitoring unit is used for monitoring the information of the dispatching terminal in the dispatching range and carrying out risk analysis according to the running state of the dispatching terminal; the early warning unit is used for acquiring alarm information in a dispatching range and analyzing the alarm information to obtain an alarm level;

the management module comprises a conventional scheduling unit and an intelligent scheduling unit, wherein the conventional scheduling unit is used for scheduling conventional static resource allocation quantity and dynamic resource allocation quantity based on the alarm level; the intelligent scheduling unit is used for receiving real-time scheduling information of the conventional scheduling unit and performing scheduling supplement of conventional static resource allocation quantity and dynamic resource allocation quantity in a scheduling range based on the real-time scheduling information.

2. The intelligent scheduling management system of emergency terminal facility according to claim 1, wherein the scheduling resource analysis unit is configured with a scheduling resource analysis policy, the scheduling resource analysis policy comprising: acquiring position information of a plurality of scheduling terminals, and marking the positions of the plurality of scheduling terminals in a scheduling range;

counting the number of the scheduling personnel corresponding to each scheduling terminal, solving the average value of the number of the scheduling personnel corresponding to a plurality of scheduling terminals, and setting the average value as the reference number corresponding to the terminals;

setting the number of a plurality of scheduling terminals as the number of the terminals; setting the area of the scheduling range as a scheduling area;

calculating the scheduling area and the number of terminals through a scheduling density calculation formula to obtain a scheduling density value; the scheduling density calculation formula is configured as follows:

the method comprises the steps of carrying out a first treatment on the surface of the Wherein Mdd is a scheduling density value, sdd is a scheduling area, and Kzd is the number of terminals;

taking the dispatching density value as the area of a terminal radiation circle, solving the diameter of the terminal radiation circle, and setting the diameter of the terminal radiation circle as the personnel distribution distance;

dividing the personnel distribution distance by the corresponding reference number of the terminals to obtain dividing intervals;

randomly selecting one scheduling terminal as a division center, and setting the scheduling terminal with the distance from the division center smaller than the personnel distribution distance as a recombination terminal; subtracting the distance between the overlapping terminal and the dividing center from the personnel distribution distance to obtain an overlapping distance, and adding the overlapping distances between the dividing center and the plurality of overlapping terminals to obtain an overlapping total distance; dividing the total overlapping distance by the dividing interval to obtain a basic overlapping value, and setting the integer part of the basic overlapping value as overlapping reference quantity;

sequentially taking each scheduling terminal as a division center to obtain the superposition reference number of each scheduling terminal; the number of the scheduling personnel corresponding to each scheduling terminal is the static resource allocation number, and the superposition reference number of each scheduling terminal is the dynamic resource allocation number.

3. The intelligent dispatch management system of emergency terminal facilities according to claim 2, wherein the supervision unit is configured with a supervision policy, the supervision policy comprising: detecting the opening state of the dispatching terminal, and setting the dispatching terminal as a closing terminal when the dispatching terminal is in a closing state;

acquiring the superposition reference number of the closed terminal;

and outputting a scheduling risk signal for closing the terminal when the coincidence reference number is smaller than or equal to a first number threshold value.

4. The intelligent scheduling management system of emergency terminal facility according to claim 3, wherein the early warning unit is configured with an early warning strategy, and the early warning strategy comprises: setting alarm levels, wherein the alarm levels comprise a first alarm level, a second alarm level and a third alarm level;

the acquired alarm information is respectively corresponding to a first alarm level, a second alarm level and a third alarm level;

the occurrence position of the alarm information is set as a scheduling point.

5. The intelligent dispatch management system of emergency terminal facilities of claim 4, wherein the regular dispatch unit is configured with a level configuration policy comprising: setting a configuration quantity for the alarm level, and setting a first configuration quantity, a second configuration quantity and a third configuration quantity for the first alarm level, the second alarm level and the third alarm level respectively; wherein the first configuration number is greater than the second configuration number, and the second configuration number is greater than the third configuration number.

6. The intelligent dispatch management system of emergency terminal facilities of claim 5, wherein the regular dispatch unit is further configured with regular dispatch policies comprising: a scheduling terminal with the distance between the scheduling terminals and the scheduling point being less than 1/2 personnel distribution distance is obtained and set as a conventional terminal;

acquiring the total number of static resource allocation numbers of a plurality of conventional terminals, and setting the total number as the conventional scheduling number; acquiring dynamic resource allocation quantity of a plurality of conventional terminals, and setting the dynamic resource allocation quantity as dynamic scheduling quantity;

adding the conventional scheduling number to the dynamic scheduling number to obtain the total scheduling number;

when the total scheduling number is greater than or equal to the configuration number of the alarm levels, scheduling the static resource configuration and the dynamic resource configuration according to the configuration number of the alarm levels;

and outputting real-time scheduling information to the intelligent scheduling unit when the total scheduling number is smaller than the configuration number of the alarm level.

7. The intelligent dispatch management system of claim 6, wherein the intelligent dispatch unit is configured with an intelligent dispatch policy comprising: taking a scheduling point position as a scanning center, taking personnel distribution distance as a diameter, and drawing a basic scanning circle;

taking the dividing interval as a scanning increasing distance, and increasing the scanning increasing distance by one unit for the radius of the basic scanning circle each time to obtain a scanning expanding circle;

adding the static resource allocation quantity and the dynamic resource allocation quantity of the dispatching terminals in the scanning expansion circle to obtain an expansion total quantity;

continuing to expand the scan expansion circle when the total number of expansion is less than the number of configurations of the alarm level; stopping enlarging the scan enlarging circle when the total number of enlarged positions is equal to or greater than the number of configurations of the alarm level;

setting the finally obtained scanning expansion circle as an intelligent adjustment range, and taking the total expansion quantity in the intelligent adjustment range as intelligent adjustment quantity;

and scheduling the static resource configuration and the dynamic resource configuration in the intelligent adjustment quantity according to the configuration quantity of the alarm level.

8. The intelligent dispatch management system of claim 7, wherein the intelligent dispatch unit is configured with an intelligent replenishment policy comprising: a scheduling terminal with the distance smaller than 1/2 personnel distribution distance from the intelligent adjustment range is obtained and set as a supplementary terminal;

calculating the diameter of the intelligent adjustment range through a supplementary formula to obtain a supplementary quantity, wherein the supplementary formula is configured as follows:

the method comprises the steps of carrying out a first treatment on the surface of the Wherein Kbc is the number of supplements, rzt is the diameter of the intelligent adjustment range, srf is the personnel distribution distance, and Kjc is the number of intelligent supplements;

sorting a plurality of supplementary terminals according to the distance between the supplementary terminals and the intelligent adjusting range from small to large to obtain supplementary sorting; dividing the number of the supplementary terminals by the number of the supplementary terminals to obtain an average supplementary value, and when the average supplementary value is an integer, carrying out static resource allocation and dynamic resource allocation supplementation on the intelligent adjustment range by the supplementary terminals according to the average supplementary value;

when the average supplementary value is not an integer, the integer bit obtained by dividing the supplementary number by the number of the plurality of supplementary terminals is set as a basic supplementary value, the remainder is set as an independent supplementary value, the independent supplementary value is obtained by adding the independent supplementary value to the basic supplementary value, the first supplementary terminal in the supplementary order carries out the supplementary of the static resource configuration and the dynamic resource configuration according to the independent supplementary value, and other supplementary terminals except the first supplementary terminal in the supplementary order carry out the supplementary of the static resource configuration and the dynamic resource configuration according to the basic supplementary value.

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