CN113642927A

CN113642927A - Emergency resource management method, device, equipment and storage medium

Info

Publication number: CN113642927A
Application number: CN202111017029.7A
Authority: CN
Inventors: 张蒙
Original assignee: Ping An Medical and Healthcare Management Co Ltd
Current assignee: Shenzhen Ping An Medical Health Technology Service Co Ltd
Priority date: 2021-08-31
Filing date: 2021-08-31
Publication date: 2021-11-12
Anticipated expiration: 2041-08-31

Abstract

The invention relates to the field of data processing and artificial intelligence technology, and discloses an emergency resource management method, an emergency resource management device, emergency resource management equipment and a storage medium, wherein the method comprises the following steps: acquiring an emergency resource acquisition request, determining the type of a corresponding resource acquisition mechanism, and further determining a target resource acquisition mechanism according to accident position information; calculating a first current inventory of each emergency resource in the target resource acquisition mechanism; and if the emergency resources which cannot meet the corresponding resource demand exist, the emergency resources are used as the emergency resources to be scheduled, the position information of each resource acquisition mechanism in the preset area and the second current stock of the emergency resources to be scheduled in each resource acquisition mechanism are acquired, the total available scheduling stock of the emergency resources to be scheduled is calculated, and the resources are scheduled according to the emergency resource acquisition requests corresponding to the total available scheduling stock. The method can reasonably arrange the inventory of the organization resources according to factors such as management expense, transportation cost and the like, and comprehensively reduce the regional inventory management cost.

Description

Emergency resource management method, device, equipment and storage medium

Technical Field

The present invention relates to the field of data processing, and in particular, to an emergency resource management method, apparatus, device, and storage medium.

Background

The emergency resources refer to various rescue goods and materials prepared for dealing with emergencies or emergencies, the common emergencies or emergencies comprise natural disasters such as earthquakes, tsunamis, floods and debris flows caused by severe weather, the common emergency resources comprise drinking water, medical drugs, food and the like, under the common conditions, the emergency resources are stored in various emergency resource warehouses, and when unforeseen emergencies or emergencies occur, various emergency goods and materials need to be dispatched to the incident place.

In general, during the emergency resource storage process, unexpected disastrous results can be caused when an emergency is encountered; excessive inventory may cause resource waste during normal operation at ordinary times, occupy more capital, and increase various expenses including storage fees, insurance fees, maintenance fees, and manager wages, so a reasonable resource early warning system is particularly important. The existing resource early warning is basically developed for a warehouse in a certain area, inventory management and early warning are carried out on the quantity information of the existing inventory in a single warehouse, and unified management and early warning on all emergency resources in the area are lacked, so that the problems of high material scheduling difficulty and low efficiency are caused.

Disclosure of Invention

The invention mainly aims to solve the technical problem that the unified management and early warning of all emergency resources in an area are lacked in the existing emergency resource management process.

The invention provides an emergency resource management method in a first aspect, which comprises the following steps: acquiring an emergency resource acquisition request, wherein the emergency resource acquisition request comprises accident position information, accident type information and resource demand of each emergency resource; determining a corresponding resource acquisition mechanism type according to the accident type information, and determining a target resource acquisition mechanism according to the accident position information and the resource acquisition mechanism type; acquiring emergency resource data of the target resource acquisition mechanism and corresponding historical resource scheduling data; calculating a first current stock of each emergency resource in the target resource acquiring mechanism according to the emergency resource data and the historical resource scheduling data, and judging whether emergency resources of which the first current stock cannot meet corresponding resource demand exist in the target resource acquiring mechanism; if the emergency resources exist, taking the emergency resources of which the first current stock cannot meet the corresponding resource demand as the emergency resources to be scheduled, and acquiring the position information of each resource acquisition mechanism in the preset area and the second current stock of the emergency resources to be scheduled in each resource acquisition mechanism; calculating the total stock available for scheduling of the emergency resources to be scheduled according to the position information, the first current stock and the second current stock of each resource acquisition mechanism; judging whether the total stock available for scheduling meets the corresponding resource demand quantity; if the condition is not met, generating an early warning signal, and sending the early warning signal to a corresponding management mechanism terminal; and if so, generating a resource scheduling instruction according to the total available scheduling inventory, and sending the resource scheduling instruction to all resource acquisition mechanisms in the region for resource scheduling.

Optionally, in a first implementation manner of the first aspect of the present invention, the historical resource scheduling data includes a consumption amount per unit time and a replenishment amount per unit time; the calculating a first current stock of each emergency resource in the target resource acquiring mechanism according to the emergency resource data and the historical resource scheduling data, and judging whether the emergency resource of which the first current stock cannot meet the corresponding resource demand exists in the target resource acquiring mechanism comprises the following steps: calculating to obtain unit time storage according to the unit time consumption of each emergency resource and the corresponding unit time supplement amount; adding the unit time stock to the corresponding emergency resource data to obtain the first current stock; and judging whether emergency resources of which the first current inventory cannot meet the corresponding resource demand exist in the target resource acquisition mechanism or not.

Optionally, in a second implementation manner of the first aspect of the present invention, the calculating, according to the location information of each resource obtaining mechanism, the first current inventory amount, and the second current inventory amount, a total inventory available for scheduling of the emergency resources to be scheduled includes: respectively calculating the unit time reachable coefficients of the target resource acquisition mechanism and each resource acquisition mechanism according to the position information; multiplying the reachable coefficient of each resource acquisition mechanism in unit time by the second current stock of the corresponding emergency resource to be scheduled to obtain the available stock of each resource acquisition mechanism in unit time corresponding to the emergency resource to be scheduled; and adding the first current inventory to the unit time available scheduling inventory corresponding to each resource acquisition mechanism to obtain the available scheduling total inventory of the emergency resources to be scheduled.

Optionally, in a third implementation manner of the first aspect of the present invention, the location information includes a longitude coordinate and a latitude coordinate; the calculating the unit time reachable coefficients of the target resource acquisition mechanism and each resource acquisition mechanism respectively according to the position information includes: traffic road information between the target resource acquisition mechanism and each resource acquisition mechanism is respectively acquired, and corresponding traffic convenience coefficients are acquired according to a preset traffic mapping table; calculating the linear distance between the target resource acquisition mechanism and each resource acquisition mechanism according to the longitude coordinate and the latitude coordinate; and acquiring the actual distance and a preset deviation value between the target resource acquisition mechanism and each resource acquisition mechanism, and calculating to obtain an reachable coefficient per unit time according to the traffic convenience coefficient, the linear distance, the actual distance and the deviation value.

Optionally, in a fourth implementation manner of the first aspect of the present invention, after the generating a resource scheduling instruction according to the total available scheduling inventory and sending the resource scheduling instruction to all resource obtaining mechanisms in the area for resource scheduling, the method further includes: calculating the dispatching transportation cost of each resource acquisition mechanism according to the available dispatching inventory in unit time corresponding to the emergency resource to be dispatched of each resource acquisition mechanism and the position information of each resource acquisition mechanism; calculating the inventory management cost of the target resource acquisition mechanism according to the first current inventory; judging whether the dispatching transportation cost is less than the inventory management cost; and if so, reducing the first current inventory amount.

Optionally, in a fifth implementation manner of the first aspect of the present invention, before generating a resource scheduling instruction according to the total available scheduling inventory and sending the resource scheduling instruction to all resource obtaining mechanisms in the area for resource scheduling, the method further includes: associating the target resource acquisition mechanism and each resource acquisition mechanism to a geographic information system; and the geographic information system loads a first current stock corresponding to each emergency resource in the target resource acquisition mechanism and a second stock corresponding to each resource acquisition mechanism into the geographic information system for real-time display.

A second aspect of the present invention provides an emergency resource management apparatus, including: the system comprises a request acquisition module, a resource management module and a resource management module, wherein the request acquisition module is used for acquiring an emergency resource acquisition request, and the emergency resource acquisition request comprises accident position information, accident type information and resource demand of each emergency resource; the target mechanism determining module is used for determining the corresponding resource acquiring mechanism type according to the accident type information and determining a target resource acquiring mechanism according to the accident position information and the resource acquiring mechanism type; the data acquisition module is used for acquiring emergency resource data of the target resource acquisition mechanism and corresponding historical resource scheduling data; the first judgment module is used for calculating a first current stock of each emergency resource in the target resource acquisition mechanism according to the emergency resource data and the historical resource scheduling data, and judging whether the target resource acquisition mechanism has an emergency resource of which the first current stock cannot meet the corresponding resource demand; the scheduling resource determining module is used for taking the emergency resource of which the first current stock cannot meet the corresponding resource demand as the emergency resource to be scheduled and acquiring the position information of each resource acquiring mechanism in the preset area and the second current stock of the emergency resource to be scheduled in each resource acquiring mechanism when the emergency resource of which the first current stock cannot meet the corresponding resource demand exists; the calculation module is used for calculating the total available scheduling stock of the emergency resources to be scheduled according to the position information, the first current stock and the second current stock of each resource acquisition mechanism; the second judgment module is used for judging whether the total available scheduling inventory meets the corresponding resource demand; the early warning module is used for generating an early warning signal when the total stock available for scheduling does not meet the corresponding resource demand and sending the early warning signal to a corresponding management mechanism terminal; and the scheduling module is used for generating a resource scheduling instruction according to the total available scheduling inventory and sending the resource scheduling instruction to all resource acquisition mechanisms in the region for resource scheduling when the total available scheduling inventory meets the corresponding resource demand.

Optionally, in a first implementation manner of the second aspect of the present invention, the historical resource scheduling data includes a consumption amount per unit time and a replenishment amount per unit time; the first judging module is specifically configured to: calculating to obtain unit time storage according to the unit time consumption of each emergency resource and the corresponding unit time supplement amount; adding the unit time stock to the corresponding emergency resource data to obtain the first current stock; and judging whether emergency resources of which the first current inventory cannot meet the corresponding resource demand exist in the target resource acquisition mechanism or not.

Optionally, in a second implementation manner of the second aspect of the present invention, the calculation module specifically includes: a coefficient calculation unit for calculating the reachable coefficients of the target resource acquisition mechanism and each resource acquisition mechanism in unit time, respectively, according to the position information; the multiplying unit is used for multiplying the reachable coefficient of each resource acquisition mechanism in unit time by the second current stock of the corresponding emergency resource to be scheduled to obtain the schedulable stock of each resource acquisition mechanism in unit time corresponding to the emergency resource to be scheduled; and the total inventory calculating unit is used for adding the first current inventory to the unit time available scheduling inventory corresponding to each resource acquisition mechanism to obtain the available scheduling total inventory of the emergency resources to be scheduled.

Optionally, in a third implementation manner of the second aspect of the present invention, the location information includes longitude coordinates and latitude coordinates; the coefficient calculation unit is specifically configured to: traffic road information between the target resource acquisition mechanism and each resource acquisition mechanism is respectively acquired, and corresponding traffic convenience coefficients are acquired according to a preset traffic mapping table; calculating the linear distance between the target resource acquisition mechanism and each resource acquisition mechanism according to the longitude coordinate and the latitude coordinate; and acquiring the actual distance and a preset deviation value between the target resource acquisition mechanism and each resource acquisition mechanism, and calculating to obtain an reachable coefficient per unit time according to the traffic convenience coefficient, the linear distance, the actual distance and the deviation value.

Optionally, in a fourth implementation manner of the second aspect of the present invention, the emergency resource management device further includes an inventory management module, where the inventory management module is specifically configured to: calculating the dispatching transportation cost of each resource acquisition mechanism according to the available dispatching inventory in unit time corresponding to the emergency resource to be dispatched of each resource acquisition mechanism and the position information of each resource acquisition mechanism; calculating the inventory management cost of the target resource acquisition mechanism according to the first current inventory; judging whether the dispatching transportation cost is less than the inventory management cost; and if so, reducing the first current inventory amount.

Optionally, in a fifth implementation manner of the second aspect of the present invention, the emergency resource management device further includes a display module, where the display module is specifically configured to: determining a task type corresponding to the task generation request according to the task execution content; associating the target resource acquisition mechanism and each resource acquisition mechanism to a geographic information system; and the geographic information system loads a first current stock corresponding to each emergency resource in the target resource acquisition mechanism and a second stock corresponding to each resource acquisition mechanism into the geographic information system for real-time display.

A third aspect of the present invention provides an emergency resource management apparatus, including: a memory having instructions stored therein and at least one processor, the memory and the at least one processor interconnected by a line; the at least one processor invokes the instructions in the memory to cause the emergency resource management device to perform the steps of the emergency resource management method described above.

A fourth aspect of the present invention provides a computer-readable storage medium having stored therein instructions, which, when run on a computer, cause the computer to perform the steps of the above-described emergency resource management method.

According to the technical scheme, the emergency resource acquisition request is acquired, wherein the emergency resource acquisition request comprises accident position information, accident type information and resource demand of each emergency resource; determining the corresponding resource acquisition mechanism type according to the accident type information, and determining a target resource acquisition mechanism according to the accident position information and the resource acquisition mechanism type; acquiring emergency resource data of a target resource acquisition mechanism and corresponding historical resource scheduling data; calculating a first current inventory of each emergency resource in the target resource acquisition mechanism according to the emergency resource data and the historical resource scheduling data, and judging whether the emergency resource of which the first current inventory cannot meet the corresponding resource demand exists; if the first current stock quantity does not meet the corresponding resource demand quantity, taking the emergency resource of which the first current stock quantity cannot meet the corresponding resource demand quantity as the emergency resource to be scheduled, and acquiring the position information of each resource acquisition mechanism in the preset area and a second current stock quantity of the emergency resource to be scheduled in each resource acquisition mechanism; calculating the available scheduling total inventory of the emergency resources to be scheduled according to the position information of each resource acquisition mechanism, the first current inventory and the second current inventory; judging whether the total inventory available for scheduling meets the corresponding resource demand; if the condition is not met, generating an early warning signal, and sending the early warning signal to a corresponding management mechanism terminal; and if so, generating a resource scheduling instruction according to the total available scheduling inventory, and sending the resource scheduling instruction to all resource acquisition mechanisms in the region for resource scheduling. The method integrates the inventory management of the same or similar resources in one region, can calculate additional inventory according to space accessibility to deal with temporary resource shortage in case of emergency, and can reasonably arrange the inventory of mechanism resources according to factors such as management expense, transportation cost and the like, thereby integrally reducing the inventory management cost of the region.

Drawings

Fig. 1 is a schematic diagram of a first embodiment of an emergency resource management method according to an embodiment of the present invention;

FIG. 2 is a diagram of a second embodiment of an emergency resource management method according to an embodiment of the invention;

FIG. 3 is a diagram of a third embodiment of an emergency resource management method according to an embodiment of the present invention;

FIG. 4 is a diagram of a fourth embodiment of an emergency resource management method according to an embodiment of the present invention;

fig. 5 is a schematic diagram of a fifth embodiment of an emergency resource management method according to an embodiment of the present invention;

FIG. 6 is a schematic diagram of an embodiment of an emergency resource management device according to an embodiment of the invention;

FIG. 7 is a schematic diagram of another embodiment of an emergency resource management device according to an embodiment of the invention;

fig. 8 is a schematic diagram of an embodiment of an emergency resource management device in an embodiment of the present invention.

Detailed Description

The terms "first," "second," "third," "fourth," and the like in the description and in the claims, as well as in the drawings, if any, are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It will be appreciated that the data so used may be interchanged under appropriate circumstances such that the embodiments described herein may be practiced otherwise than as specifically illustrated or described herein. Furthermore, the terms "comprises," "comprising," or "having," and any variations thereof, are intended to cover non-exclusive inclusions, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

For convenience of understanding, a specific flow of the embodiment of the present invention is described below, and referring to fig. 1, a first embodiment of the emergency resource management method in the embodiment of the present invention includes:

101. acquiring an emergency resource acquisition request, wherein the emergency resource acquisition request comprises accident position information, accident type information and resource demand of each emergency resource;

it is to be understood that the executing entity of the present invention may be an emergency resource management device, and may also be a terminal or a server, which is not limited herein. The embodiment of the present invention is described by taking a server as an execution subject. The server may be an independent server, or may be a cloud server that provides basic cloud computing services such as a cloud service, a cloud database, cloud computing, a cloud function, cloud storage, a Network service, cloud communication, a middleware service, a domain name service, a security service, a Content Delivery Network (CDN), and a big data and artificial intelligence platform.

In this embodiment, when various emergencies such as fire, explosion, earthquake, poison leakage, collapse of high-rise building, traffic accident, etc. occur, after the emergency command and dispatch center receives the alarm signal, for example, when the emergency command and dispatch center receives an alarm call of help-seeking personnel at the emergency event site, the emergency command and dispatch center dispatches workers or video terminal equipment to the site according to the accident position information of the emergency event provided by the call-seeking, collects site information including site video information or image information and the like, the workers presume the demand of each emergency resource according to the site conditions, or the emergency command dispatching center conjectures the accident type and the resource demand of each emergency resource according to the video information and the image information of the site, and sending an emergency resource acquisition request according to the accident position information, the accident type information and the resource demand of each emergency resource.

In this embodiment, an emergency plan may be set in advance according to the accident type, where the emergency plan includes types and amounts of emergency resources required by different time scales, and the types and amounts of the emergency resources may be determined by referring to the types and amounts of emergency resources used in the same or similar time in the historical data, and may also be adjusted correspondingly according to the actual situation.

102. Determining the corresponding resource acquisition mechanism type according to the accident type information, and determining a target resource acquisition mechanism according to the accident position information and the resource acquisition mechanism type;

in this embodiment, the corresponding resource acquiring mechanism types are determined according to different accident type information, different resource acquiring mechanism types store different emergency resources, for example, when plague occurs, medical supplies such as medicines and disinfection medicines are main emergency resources, the resource acquiring mechanism type requiring material scheduling is a hospital, when snow disaster occurs, heat-insulating articles such as food and cotton quilts are main emergency resources, and the resource acquiring mechanism type requiring material scheduling is a warehouse in which food and cotton are stored.

In the embodiment, according to the type of the resource acquisition mechanism, the distribution situation of the emergency resources around the accident site is determined, the distribution situation comprises the types and the distribution positions of emergency resources, and aiming at some emergency resources with smaller scale, the types and the quantity of the required emergency resources are less, the target resource acquisition mechanism can be directly selected according to the nearby principle, for the emergency with larger influence range, the quantity and the types of the needed emergency resources are more, the resource acquisition mechanisms which can be determined can be used for preliminary screening according to the types of the emergency resources, the resource acquisition mechanisms which store the emergency resource types required by the accident as much as possible are screened out, and meanwhile, according to the accident position information and the screened position information of the resource acquisition mechanism, determining the resource acquisition mechanism closest to the accident position as a target resource acquisition mechanism.

103. Acquiring emergency resource data of a target resource acquisition mechanism and corresponding historical resource scheduling data;

104. calculating a first current inventory of each emergency resource in the target resource acquisition mechanism according to the emergency resource data and the historical resource scheduling data;

105. judging whether emergency resources of which the first current inventory can not meet the corresponding resource demand exist in the target resource acquisition mechanism or not;

in the embodiment, the inventory information of each resource acquisition mechanism, namely the emergency resource data, is accessed into the system, wherein, the emergency resource data comprises the types of the emergency resources and the corresponding inventory, when an emergency occurs, the inventory information in the historical data can not reflect the real-time situation, therefore, after the system is accessed, corresponding historical resource scheduling data is determined according to the historical data, and the historical resource scheduling data comprises corresponding consumption (O) in unit time and supplement (P) in unit time, and the previous stock quantity (N), the calculated actual stock quantity M0(M0 ═ N + (P-Q)), each resource acquisition mechanism accessing the system needs to count the current actual stock quantity in real time, and when a certain resource acquisition mechanism is determined to be a target resource acquisition mechanism, acquiring the current actual stock as a first stock in real time.

In this embodiment, for some emergency resources with a smaller scale, the types and the number of the required emergency resources are smaller, the emergency materials stored in the target resource acquisition mechanism can meet the resource demand of the emergency event, and for the emergency event with a larger influence range, a plurality of emergency resources with a large number are required, while the emergency resources stored in one resource acquisition mechanism are usually not enough, and a plurality of resource acquisition mechanisms are required to jointly provide the emergency resources, at this time, the emergency materials which cannot meet the requirements in each item of emergency materials are determined, and joint scheduling is performed according to the emergency resource distribution conditions of all resource acquisition mechanisms around the accident occurrence place.

106. If the first current stock quantity does not meet the corresponding resource demand quantity, taking the emergency resource of which the first current stock quantity cannot meet the corresponding resource demand quantity as the emergency resource to be scheduled, and acquiring the position information of each resource acquisition mechanism in the preset area and a second current stock quantity of the emergency resource to be scheduled in each resource acquisition mechanism;

in this embodiment, for an emergency with a large influence range, a large number of multiple emergency resources are needed, a plurality of resource acquisition mechanisms are needed to jointly provide emergency resources, for the emergency resources that can meet the requirements of the target resource acquisition mechanism, the emergency resources are directly transported to the accident occurrence place through the target resource acquisition mechanism, and for the emergency resources that cannot meet the requirements of the target resource acquisition mechanism, the plurality of resource acquisition mechanisms are required to be dispatched to the target resource acquisition mechanisms and then transported to the accident occurrence place in a unified manner.

107. Calculating the available scheduling total inventory of the emergency resources to be scheduled according to the position information of each resource acquisition mechanism, the first current inventory and the second current inventory;

in this embodiment, the geographical position coordinates of each resource acquisition mechanism that needs to be managed in an area corresponding to an accident occurrence location are recorded in advance, and a reachability coefficient per unit time before each resource acquisition mechanism is calculated, where the formula is as follows:

wherein beta is a traffic convenience coefficient, and has a value of 1 when the speed is high and is direct; the value of the first-level road is 0.9, the value of the second-level road is 0.8, and the like, when no traffic route exists, the value of the second-level road is 0, the reachability of the two resource acquisition mechanisms in unit time is 0, and the value needs to be adjusted according to the local actual traffic condition; v: the higher the speed of a vehicle used for transporting the resources is, the higher the accessibility coefficient is; γ: because the longitude and latitude are in a conversion relation with the actual distance, the longitude and latitude coordinates are used for direct calculation, errors can be generated, and the errors are extracted to be used as a constant;

in this embodiment, the distance of the longitude and latitude calculation processing is a straight line distance, the distance v × t is an actual distance, in general, the ratio is a decimal smaller than 1 and larger than 0, the integer 1 is subtracted after the decimal is multiplied by the traffic convenience coefficient, the reachability coefficient in unit time is finally obtained, if the reachability coefficient is smaller than 0, 0 is taken out, and the stock of the medical institution is considered to have no utilization value on the stock of the warehouse;

and calculating the total inventory available for dispatching for all other medical institutions according to the data accessed by the system, wherein the formula is as follows:

M₀and acquiring the first inventory of the mechanism for the target resource, and adding the summed inventories of other mechanisms to finally obtain the total inventory which can be allocated by the mechanism in unit time.

108. Judging whether the total inventory available for scheduling meets the corresponding resource demand;

109. if the condition is not met, generating an early warning signal, and sending the early warning signal to a corresponding management mechanism terminal;

in this embodiment, if the total inventory available for scheduling in the whole area cannot meet the demand of the emergency event, the resource needs to be sent out of the area for resource scheduling, a resource gap is calculated according to the demand of the resource and the total inventory available for scheduling, an early warning signal is generated, and the resource is sent to a resource command scheduling center in other areas for resource scheduling outside the area.

110. And if so, generating a resource scheduling instruction according to the total available scheduling inventory, and sending the resource scheduling instruction to all resource acquisition mechanisms in the region for resource scheduling.

In this embodiment, if the total stock available for scheduling in the area can meet the demand of the emergency event, scheduling information is generated according to the number of scheduling resources of each resource acquisition mechanism, and at this time, the scheduling information includes the type and number of emergency resources that each resource acquisition mechanism should provide, and a scheduling route from each resource acquisition mechanism to a target resource acquisition mechanism, and the scheduling information is sent to the corresponding resource acquisition mechanism, so that each resource acquisition mechanism schedules emergency materials to the target resource acquisition mechanism according to the scheduling information, and the target resource acquisition mechanism schedules emergency resources scheduled by other resource acquisition mechanisms and emergency resources stored by the target resource acquisition mechanism to an accident occurrence place.

In the embodiment, the emergency resource acquisition request is acquired, and the emergency resource acquisition request comprises accident position information, accident type information and resource demand of each emergency resource; determining the corresponding resource acquisition mechanism type according to the accident type information, and determining a target resource acquisition mechanism according to the accident position information and the resource acquisition mechanism type; acquiring emergency resource data of a target resource acquisition mechanism and corresponding historical resource scheduling data; calculating a first current inventory of each emergency resource in the target resource acquisition mechanism according to the emergency resource data and the historical resource scheduling data, and judging whether the emergency resource of which the first current inventory cannot meet the corresponding resource demand exists; if the first current stock quantity does not meet the corresponding resource demand quantity, taking the emergency resource of which the first current stock quantity cannot meet the corresponding resource demand quantity as the emergency resource to be scheduled, and acquiring the position information of each resource acquisition mechanism in the preset area and a second current stock quantity of the emergency resource to be scheduled in each resource acquisition mechanism; calculating the available scheduling total inventory of the emergency resources to be scheduled according to the position information of each resource acquisition mechanism, the first current inventory and the second current inventory; judging whether the total inventory available for scheduling meets the corresponding resource demand; if the condition is not met, generating an early warning signal, and sending the early warning signal to a corresponding management mechanism terminal; and if so, generating a resource scheduling instruction according to the total available scheduling inventory, and sending the resource scheduling instruction to all resource acquisition mechanisms in the region for resource scheduling. The method integrates the inventory management of the same or similar resources in one region, can calculate additional inventory according to space accessibility to deal with temporary resource shortage in case of emergency, and can reasonably arrange the inventory of mechanism resources according to factors such as management expense, transportation cost and the like, thereby integrally reducing the inventory management cost of the region.

Referring to fig. 2, a second embodiment of the emergency resource management method according to the embodiment of the present invention includes:

201. acquiring an emergency resource acquisition request, wherein the emergency resource acquisition request comprises accident position information, accident type information and resource demand of each emergency resource;

202. determining the corresponding resource acquisition mechanism type according to the accident type information, and determining a target resource acquisition mechanism according to the accident position information and the resource acquisition mechanism type;

203. acquiring emergency resource data of a target resource acquisition mechanism and corresponding historical resource scheduling data;

204. calculating to obtain unit time storage according to the unit time consumption of each emergency resource and the corresponding unit time supplement amount;

205. adding the unit time stock to corresponding emergency resource data to obtain a first current stock;

206. judging whether emergency resources of which the first current inventory can not meet the corresponding resource demand exist in the target resource acquisition mechanism or not;

in this embodiment, the inventory information of each resource acquiring mechanism, that is, the emergency resource data, is accessed into the system, wherein the emergency resource data includes the type and the corresponding inventory amount of the emergency resource, and when an emergency occurs, the current inventory information cannot reflect the real-time situation, so after the system is accessed, it is necessary to determine the corresponding historical resource scheduling data according to the historical data, which includes the corresponding consumption (O) per unit time and the replenishment (P) per unit time, wherein the consumption per unit time can be obtained by dividing the resource consumption of the resource acquiring mechanism by the time 24 hours of one day in the historical data, or can count and calculate the average value of the consumption per unit time at the same time in one month, for example, counting the consumption per unit time in one hour from two points in the afternoon to three points in the afternoon in 7 months, and subsequently, according to the accident occurrence time, determining the corresponding unit time consumption and unit time supplement amount. And the previous stock (N), the calculated actual stock M0(M0 ═ N + (P-Q)), each resource acquisition mechanism accessing the system needs to count the current actual stock in real time, and when a certain resource acquisition mechanism is determined to be the target resource acquisition mechanism, the current actual stock is acquired in real time as the first stock.

207. If the first current stock quantity does not meet the corresponding resource demand quantity, taking the emergency resource of which the first current stock quantity cannot meet the corresponding resource demand quantity as the emergency resource to be scheduled, and acquiring the position information of each resource acquisition mechanism in the preset area and a second current stock quantity of the emergency resource to be scheduled in each resource acquisition mechanism;

208. calculating the available scheduling total inventory of the emergency resources to be scheduled according to the position information of each resource acquisition mechanism, the first current inventory and the second current inventory;

209. judging whether the total inventory available for scheduling meets the corresponding resource demand;

210. if the condition is not met, generating an early warning signal, and sending the early warning signal to a corresponding management mechanism terminal;

211. and if so, generating a resource scheduling instruction according to the total available scheduling inventory, and sending the resource scheduling instruction to all resource acquisition mechanisms in the region for resource scheduling.

This embodiment describes in detail a process of calculating a first current inventory of each emergency resource in a target resource obtaining mechanism according to emergency resource data and historical resource scheduling data on the basis of the previous embodiment, where the historical resource scheduling data includes consumption per unit time and replenishment amount per unit time, and the inventory per unit time is calculated according to the consumption per unit time of each emergency resource and the corresponding replenishment amount per unit time; and adding the unit time stock to the corresponding emergency resource data to obtain a first current stock. According to the embodiment, the current inventory of the emergency resources can be accurately obtained by calculating the consumption per unit time and the supplement per unit time.

Referring to fig. 3, a third embodiment of the emergency resource management method according to the embodiment of the present invention includes:

301. acquiring an emergency resource acquisition request, wherein the emergency resource acquisition request comprises accident position information, accident type information and resource demand of each emergency resource;

302. determining the corresponding resource acquisition mechanism type according to the accident type information, and determining a target resource acquisition mechanism according to the accident position information and the resource acquisition mechanism type;

303. acquiring emergency resource data of a target resource acquisition mechanism and corresponding historical resource scheduling data;

304. calculating a first current inventory of each emergency resource in the target resource acquisition mechanism according to the emergency resource data and the historical resource scheduling data;

305. judging whether emergency resources of which the first current inventory can not meet the corresponding resource demand exist in the target resource acquisition mechanism or not;

306. if the first current stock quantity does not meet the corresponding resource demand quantity, taking the emergency resource of which the first current stock quantity cannot meet the corresponding resource demand quantity as the emergency resource to be scheduled, and acquiring the position information of each resource acquisition mechanism in the preset area and a second current stock quantity of the emergency resource to be scheduled in each resource acquisition mechanism;

307. traffic road information between the target resource acquisition mechanism and each resource acquisition mechanism is respectively acquired, and corresponding traffic convenience coefficients are acquired according to a preset traffic mapping table;

in the embodiment, traffic road information between a target resource acquisition mechanism and other resource acquisition mechanisms is acquired, mainly the type of a traffic road, and the value of the high-speed direct time is 1; the value of the first-level road is 0.9, the value of the second-level road is 0.8, and the like, the value of the first-level road is 0 when no traffic route exists, the accessibility of the two resource acquisition mechanisms in unit time is 0 at the moment, the value needs to be adjusted according to the local actual traffic condition, and the adjustment of the traffic convenience coefficient can be performed according to the length of different types of traffic roads between two points, for example, the type of the traffic road between two points comprises a highway and the first-level road, the proportion of the first-level road is higher than that of the highway, the value of the traffic convenience coefficient is between 0.9 and 1, meanwhile, the value is biased to 0.9, and the specific value can be determined according to the proportion of the first-level road and the highway.

308. Calculating the linear distance between the target resource acquisition mechanism and each resource acquisition mechanism according to the longitude coordinate and the latitude coordinate;

in this embodiment, according to the longitude and latitude coordinates of the two points, the straight-line distance between the target resource acquisition mechanism and each resource acquisition mechanism is directly calculated by the pythagorean theorem, and the calculation formula is as follows:

wherein lng is a longitude coordinate and lat is a latitude coordinate.

309. Acquiring actual distances and preset deviation values between a target resource acquisition mechanism and each resource acquisition mechanism, and calculating to obtain an achievable coefficient per unit time according to the traffic convenience coefficient, the linear distance, the actual distances and the deviation values;

in the embodiment, the deviation value is that the longitude and latitude and the actual distance have a conversion relation, and the longitude and latitude coordinates are used for direct calculation to generate an error, so that the error is extracted as a constant, and the constant is used as a preset deviation value.

310. Multiplying the unit time reachable coefficient of each resource acquisition mechanism by the second current stock of the corresponding emergency resource to be scheduled to obtain the unit time available scheduling stock corresponding to the emergency resource to be scheduled of each resource acquisition mechanism;

in this embodiment, since other resource acquiring mechanisms cannot simultaneously dispatch all the materials to the target resource acquiring mechanism, by calculating the reachable coefficient per unit time, and multiplying the reachable coefficient per unit time by the second current inventory amount, the scheduling available inventory per unit time corresponding to the emergency resource to be scheduled of the resource acquiring mechanism can be obtained, wherein the more the reachable coefficient per unit time is, the less the materials can be delivered per unit time is as the distance between the two points is farther.

311. Adding the first current inventory amount to the unit time available dispatching inventory corresponding to each resource acquisition mechanism to obtain the available dispatching total inventory of the emergency resources to be dispatched;

in this embodiment, the first current inventory amount is added to the unit time available scheduling inventory corresponding to each resource acquisition mechanism, which represents that all other resource acquisition mechanisms schedule the emergency materials to be scheduled in the unit time in the same time, and the first current inventory amount of the target resource acquisition mechanism is added, so that the total available scheduling inventory of the emergency resources to be scheduled can be obtained.

312. Judging whether the total inventory available for scheduling meets the corresponding resource demand;

313. if the condition is not met, generating an early warning signal, and sending the early warning signal to a corresponding management mechanism terminal;

314. and if so, generating a resource scheduling instruction according to the total available scheduling inventory, and sending the resource scheduling instruction to all resource acquisition mechanisms in the region for resource scheduling.

On the basis of the previous embodiment, the present embodiment describes in detail a process of calculating a total available scheduling inventory of the emergency resources to be scheduled according to the location information, the first current inventory and the second current inventory of each resource acquisition mechanism, and calculates the reachable coefficients of the target resource acquisition mechanism and each resource acquisition mechanism in unit time according to the location information; multiplying the reachable coefficient of each resource acquisition mechanism in unit time by the second current stock of the corresponding emergency resource to be scheduled to obtain the available stock of each resource acquisition mechanism in unit time corresponding to the emergency resource to be scheduled; and adding the first current inventory to the unit time available scheduling inventory corresponding to each resource acquisition mechanism to obtain the available scheduling total inventory of the emergency resources to be scheduled. The method has the advantages that the inventory management of the same emergency resources to be scheduled in one area is integrated, and when an emergency situation occurs, extra inventory can be calculated according to the space accessibility so as to cope with temporary resource shortage.

Referring to fig. 4, a fourth embodiment of the emergency resource management method according to the embodiment of the present invention includes:

401. acquiring an emergency resource acquisition request, wherein the emergency resource acquisition request comprises accident position information, accident type information and resource demand of each emergency resource;

402. determining the corresponding resource acquisition mechanism type according to the accident type information, and determining a target resource acquisition mechanism according to the accident position information and the resource acquisition mechanism type;

403. acquiring emergency resource data of a target resource acquisition mechanism and corresponding historical resource scheduling data;

404. calculating a first current inventory of each emergency resource in the target resource acquisition mechanism according to the emergency resource data and the historical resource scheduling data;

405. judging whether emergency resources of which the first current inventory can not meet the corresponding resource demand exist in the target resource acquisition mechanism or not;

406. if the first current stock quantity does not meet the corresponding resource demand quantity, taking the emergency resource of which the first current stock quantity cannot meet the corresponding resource demand quantity as the emergency resource to be scheduled, and acquiring the position information of each resource acquisition mechanism in the preset area and a second current stock quantity of the emergency resource to be scheduled in each resource acquisition mechanism;

407. calculating the available scheduling total inventory of the emergency resources to be scheduled according to the position information of each resource acquisition mechanism, the first current inventory and the second current inventory;

408. judging whether the total inventory available for scheduling meets the corresponding resource demand;

409. if the condition is not met, generating an early warning signal, and sending the early warning signal to a corresponding management mechanism terminal;

410. if so, generating a resource scheduling instruction according to the available scheduling total inventory, and sending the resource scheduling instruction to all resource acquisition mechanisms in the region for resource scheduling;

411. calculating the dispatching transportation cost of each resource acquisition mechanism according to the available dispatching inventory in unit time corresponding to the emergency resource to be dispatched of each resource acquisition mechanism and the position information of each resource acquisition mechanism;

412. calculating the inventory management cost of the target resource acquisition mechanism according to the first current inventory;

413. judging whether the dispatching transportation cost is less than the inventory management cost;

414. if so, reducing the first current inventory amount.

In this embodiment, in addition to emergency resource scheduling in the event of an emergency, inventory management may be performed on each resource acquisition mechanism, an additional calculation factor may be added according to the unit distance usage cost of the transportation vehicle, if the current mechanism inventory management cost is greater than the cost required for scheduling, it indicates that the storage amount of emergency resources in the current resource acquisition mechanism is too large, inventory may be reasonably reduced to reduce the daily cost expenditure, and the inventory may be adjusted by adjusting the resource replenishment amount per unit time, and meanwhile, if the current mechanism inventory management cost is less than the cost required for scheduling, the inventory amount of emergency resources in the current resource acquisition mechanism may be appropriately increased.

On the basis of the previous embodiment, the method and the system for managing the emergency resources increase the process of managing the stock of the emergency resources, and calculate the scheduling transportation cost of each resource acquisition mechanism according to the available scheduling stock of the emergency resources to be scheduled of each resource acquisition mechanism in unit time and the position information of each resource acquisition mechanism; calculating the inventory management cost of the target resource acquisition mechanism according to the first current inventory; judging whether the dispatching transportation cost is less than the inventory management cost; and if so, reducing the first current inventory amount. The method can reasonably arrange the inventory of the organization resources according to factors such as management expense, transportation cost and the like, and comprehensively reduce the regional inventory management cost.

Referring to fig. 5, a fifth embodiment of the emergency resource management method according to the embodiment of the present invention includes:

501. acquiring an emergency resource acquisition request, wherein the emergency resource acquisition request comprises accident position information, accident type information and resource demand of each emergency resource;

502. determining the corresponding resource acquisition mechanism type according to the accident type information, and determining a target resource acquisition mechanism according to the accident position information and the resource acquisition mechanism type;

503. acquiring emergency resource data of a target resource acquisition mechanism and corresponding historical resource scheduling data;

504. calculating a first current inventory of each emergency resource in the target resource acquisition mechanism according to the emergency resource data and the historical resource scheduling data;

505. judging whether emergency resources of which the first current inventory can not meet the corresponding resource demand exist in the target resource acquisition mechanism or not;

506. if the first current stock quantity does not meet the corresponding resource demand quantity, taking the emergency resource of which the first current stock quantity cannot meet the corresponding resource demand quantity as the emergency resource to be scheduled, and acquiring the position information of each resource acquisition mechanism in the preset area and a second current stock quantity of the emergency resource to be scheduled in each resource acquisition mechanism;

507. calculating the available scheduling total inventory of the emergency resources to be scheduled according to the position information of each resource acquisition mechanism, the first current inventory and the second current inventory;

508. judging whether the total inventory available for scheduling meets the corresponding resource demand;

509. if the condition is not met, generating an early warning signal, and sending the early warning signal to a corresponding management mechanism terminal;

510. if yes, associating the target resource acquisition mechanism and each resource acquisition mechanism to a geographic information system;

511. loading a first current stock corresponding to each emergency resource in the target resource acquisition mechanism and a second stock corresponding to each resource acquisition mechanism into a geographic information system for real-time display;

in this embodiment, the target resource acquisition mechanism and each resource acquisition mechanism are associated with a geographic information system, the geographic information system is a technical system that collects, stores, manages, calculates, analyzes, displays and describes relevant geographic distribution data in the earth surface layer under the support of a computer software and hardware system, the target resource acquisition mechanism and each resource acquisition mechanism are associated with the geographic information system to display the distribution situation of each emergency resource in the resource acquisition mechanism, including the distribution position, the type, the number and the like of the emergency resource, and through the geographic information system, the emergency resource command center can conveniently master the situation of each emergency resource and perform adjustment and management.

512. And generating a resource scheduling instruction according to the total inventory available for scheduling, and sending the resource scheduling instruction to all resource acquisition mechanisms in the region for resource scheduling.

On the basis of the previous embodiment, the process of displaying the distribution and the inventory of the emergency resources is added, and the target resource acquisition mechanism and each resource acquisition mechanism are associated to the geographic information system; and the geographic information system loads a first current stock corresponding to each emergency resource in the target resource acquisition mechanism and a second stock corresponding to each resource acquisition mechanism into the geographic information system for real-time display, and loads the first current stock corresponding to each emergency resource in the target resource acquisition mechanism and the second stock corresponding to each resource acquisition mechanism into the geographic information system for real-time display. Through the first current stock corresponding to each emergency resource in the target resource acquisition mechanism and the second stock corresponding to each resource acquisition mechanism, managers can conveniently perform visual management and scheduling on the emergency resources.

In the above description of the emergency resource management method in the embodiment of the present invention, referring to fig. 6, an emergency resource management device in the embodiment of the present invention is described below, where an embodiment of the emergency resource management device in the embodiment of the present invention includes:

a request obtaining module 601, configured to obtain an emergency resource obtaining request, where the emergency resource obtaining request includes accident location information, accident type information, and resource demand of each emergency resource;

a target mechanism determining module 602, configured to determine a corresponding resource obtaining mechanism type according to the accident type information, and determine a target resource obtaining mechanism according to the accident position information and the resource obtaining mechanism type;

a data obtaining module 603, configured to obtain emergency resource data of the target resource obtaining mechanism and corresponding historical resource scheduling data;

a first determining module 604, configured to calculate a first current inventory of each emergency resource in the target resource obtaining mechanism according to the emergency resource data and the historical resource scheduling data, and determine whether there is an emergency resource in the target resource obtaining mechanism, where the first current inventory cannot meet a corresponding resource demand;

a scheduling resource determining module 605, configured to, when there is an emergency resource whose first current inventory cannot meet the corresponding resource demand, take the emergency resource whose first current inventory cannot meet the corresponding resource demand as an emergency resource to be scheduled, and obtain location information of each resource obtaining mechanism in a preset area and a second current inventory of the emergency resource to be scheduled in each resource obtaining mechanism;

a calculating module 606, configured to calculate a total available scheduling inventory of the emergency resources to be scheduled according to the location information, the first current inventory, and the second current inventory of each resource obtaining mechanism;

a second determining module 607, configured to determine whether the total available scheduling inventory meets the corresponding resource demand;

the early warning module 608 is configured to generate an early warning signal when the total available scheduling inventory does not meet the corresponding resource demand, and send the early warning signal to a corresponding management mechanism terminal;

and the scheduling module 609 is configured to generate a resource scheduling instruction according to the total available scheduling inventory and send the resource scheduling instruction to all resource acquiring mechanisms in the area for resource scheduling when the total available scheduling inventory meets the corresponding resource demand.

In the embodiment of the invention, the emergency resource management device operates the emergency resource management method, and the emergency resource management device acquires a request by acquiring emergency resources, wherein the request comprises accident position information, accident type information and resource demand of each emergency resource; determining the corresponding resource acquisition mechanism type according to the accident type information, and determining a target resource acquisition mechanism according to the accident position information and the resource acquisition mechanism type; acquiring emergency resource data of a target resource acquisition mechanism and corresponding historical resource scheduling data; calculating a first current inventory of each emergency resource in the target resource acquisition mechanism according to the emergency resource data and the historical resource scheduling data, and judging whether the emergency resource of which the first current inventory cannot meet the corresponding resource demand exists; if the first current stock quantity does not meet the corresponding resource demand quantity, taking the emergency resource of which the first current stock quantity cannot meet the corresponding resource demand quantity as the emergency resource to be scheduled, and acquiring the position information of each resource acquisition mechanism in the preset area and a second current stock quantity of the emergency resource to be scheduled in each resource acquisition mechanism; calculating the available scheduling total inventory of the emergency resources to be scheduled according to the position information of each resource acquisition mechanism, the first current inventory and the second current inventory; judging whether the total inventory available for scheduling meets the corresponding resource demand; if the condition is not met, generating an early warning signal, and sending the early warning signal to a corresponding management mechanism terminal; and if so, generating a resource scheduling instruction according to the total available scheduling inventory, and sending the resource scheduling instruction to all resource acquisition mechanisms in the region for resource scheduling. The method integrates the inventory management of the same or similar resources in one region, can calculate additional inventory according to space accessibility to deal with temporary resource shortage in case of emergency, and can reasonably arrange the inventory of mechanism resources according to factors such as management expense, transportation cost and the like, thereby integrally reducing the inventory management cost of the region.

Referring to fig. 7, a second embodiment of the emergency resource management device according to the embodiment of the present invention includes:

In the present embodiment, the historical resource scheduling data includes a consumption amount per unit time and a replenishment amount per unit time; the first determining module 604 is specifically configured to: calculating to obtain unit time storage according to the unit time consumption of each emergency resource and the corresponding unit time supplement amount; adding the unit time stock to the corresponding emergency resource data to obtain the first current stock; and judging whether emergency resources of which the first current inventory cannot meet the corresponding resource demand exist in the target resource acquisition mechanism or not.

In this embodiment, the calculating module 606 specifically includes: a coefficient calculation unit 6061 configured to calculate, based on the position information, the unit time reachable coefficients of the target resource acquisition mechanism and each resource acquisition mechanism, respectively; a multiplying unit 6062, configured to multiply the reachable coefficient per unit time of each resource acquiring mechanism by the second current inventory amount of the corresponding emergency resource to be scheduled, to obtain a reachable inventory per unit time corresponding to the emergency resource to be scheduled of each resource acquiring mechanism; a total inventory calculating unit 6063, configured to add the first current inventory to the unit-time available scheduling inventory corresponding to each resource obtaining mechanism, so as to obtain a total available scheduling inventory of the emergency resources to be scheduled.

In this embodiment, the location information includes longitude and latitude coordinates; the coefficient calculation unit 6061 is specifically configured to: traffic road information between the target resource acquisition mechanism and each resource acquisition mechanism is respectively acquired, and corresponding traffic convenience coefficients are acquired according to a preset traffic mapping table; calculating the linear distance between the target resource acquisition mechanism and each resource acquisition mechanism according to the longitude coordinate and the latitude coordinate; and acquiring the actual distance and a preset deviation value between the target resource acquisition mechanism and each resource acquisition mechanism, and calculating to obtain an reachable coefficient per unit time according to the traffic convenience coefficient, the linear distance, the actual distance and the deviation value.

In this embodiment, the emergency resource management apparatus further includes an inventory management module 610, where the inventory management module 610 is specifically configured to: calculating the dispatching transportation cost of each resource acquisition mechanism according to the available dispatching inventory in unit time corresponding to the emergency resource to be dispatched of each resource acquisition mechanism and the position information of each resource acquisition mechanism; calculating the inventory management cost of the target resource acquisition mechanism according to the first current inventory; judging whether the dispatching transportation cost is less than the inventory management cost; and if so, reducing the first current inventory amount.

In this embodiment, the emergency resource management apparatus further includes a display module 611, where the display module 611 is specifically configured to: determining a task type corresponding to the task generation request according to the task execution content; associating the target resource acquisition mechanism and each resource acquisition mechanism to a geographic information system; and the geographic information system loads a first current stock corresponding to each emergency resource in the target resource acquisition mechanism and a second stock corresponding to each resource acquisition mechanism into the geographic information system for real-time display.

On the basis of the previous embodiment, the specific functions of each module and the unit composition of part of the modules are described in detail, stock management of the same or similar resources in one area is planned through the newly added modules, when an emergency situation occurs, extra stock can be calculated according to space accessibility so as to deal with temporary resource shortage, meanwhile, the stock of organization resources can be reasonably arranged according to factors such as management cost and transportation cost, and the area stock management cost is reduced in a planned mode.

Fig. 6 and fig. 7 describe the middle emergency resource management device in the embodiment of the present invention in detail from the perspective of the modular functional entity, and the emergency resource management device in the embodiment of the present invention is described in detail from the perspective of hardware processing.

Fig. 8 is a schematic structural diagram of an emergency resource management device according to an embodiment of the present invention, where the emergency resource management device 800 may generate a relatively large difference due to different configurations or performances, and may include one or more processors (CPUs) 810 (e.g., one or more processors) and a memory 820, and one or more storage media 830 (e.g., one or more mass storage devices) storing an application 833 or data 832. Memory 820 and storage medium 830 may be, among other things, transient or persistent storage. The program stored in the storage medium 830 may include one or more modules (not shown), each of which may include a series of instruction operations for the emergency resource management device 800. Further, the processor 810 may be configured to communicate with the storage medium 830, and execute a series of instruction operations in the storage medium 830 on the emergency resource management device 800 to implement the steps of the emergency resource management method described above.

The emergency resource management device 800 may also include one or more power supplies 840, one or more wired or wireless network interfaces 850, one or more input-output interfaces 860, and/or one or more operating systems 831, such as Windows Server, Mac OS X, Unix, Linux, FreeBSD, etc. Those skilled in the art will appreciate that the emergency resource management device configuration shown in fig. 8 does not constitute a limitation of the emergency resource management devices provided herein, and may include more or fewer components than shown, or some components in combination, or a different arrangement of components.

The present invention also provides a computer readable storage medium, which may be a non-volatile computer readable storage medium, and which may also be a volatile computer readable storage medium, having stored therein instructions, which, when run on a computer, cause the computer to perform the steps of the emergency resource management method.

It is clear to those skilled in the art that, for convenience and brevity of description, the specific working processes of the above-described systems, apparatuses, and units may refer to the corresponding processes in the foregoing method embodiments, and are not described herein again.

The integrated unit, if implemented in the form of a software functional unit and sold or used as a stand-alone product, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present invention may be embodied in the form of a software product, which is stored in a storage medium and includes instructions for causing a computer device (which may be a personal computer, a server, or a network device) to execute all or part of the steps of the method according to the embodiments of the present invention. And the aforementioned storage medium includes: various media capable of storing program codes, such as a usb disk, a removable hard disk, a read-only memory (ROM), a Random Access Memory (RAM), a magnetic disk, or an optical disk.

The above-mentioned embodiments are only used for illustrating the technical solutions of the present invention, and not for limiting the same; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims

1. An emergency resource management method, characterized in that the emergency resource management method comprises:

acquiring an emergency resource acquisition request, wherein the emergency resource acquisition request comprises accident position information, accident type information and resource demand of each emergency resource;

determining a corresponding resource acquisition mechanism type according to the accident type information, and determining a target resource acquisition mechanism according to the accident position information and the resource acquisition mechanism type;

acquiring emergency resource data of the target resource acquisition mechanism and corresponding historical resource scheduling data;

calculating a first current stock of each emergency resource in the target resource acquiring mechanism according to the emergency resource data and the historical resource scheduling data, and judging whether emergency resources of which the first current stock cannot meet corresponding resource demand exist in the target resource acquiring mechanism;

if the emergency resources exist, taking the emergency resources of which the first current stock cannot meet the corresponding resource demand as the emergency resources to be scheduled, and acquiring the position information of each resource acquisition mechanism in the preset area and the second current stock of the emergency resources to be scheduled in each resource acquisition mechanism;

calculating the total stock available for scheduling of the emergency resources to be scheduled according to the position information, the first current stock and the second current stock of each resource acquisition mechanism;

judging whether the total stock available for scheduling meets the corresponding resource demand quantity;

if the condition is not met, generating an early warning signal, and sending the early warning signal to a corresponding management mechanism terminal;

and if so, generating a resource scheduling instruction according to the total available scheduling inventory, and sending the resource scheduling instruction to all resource acquisition mechanisms in the region for resource scheduling.

2. The method according to claim 1, wherein the historical resource scheduling data includes a consumption amount per unit time and a replenishment amount per unit time; the calculating a first current stock of each emergency resource in the target resource acquiring mechanism according to the emergency resource data and the historical resource scheduling data, and judging whether the emergency resource of which the first current stock cannot meet the corresponding resource demand exists in the target resource acquiring mechanism comprises the following steps:

calculating to obtain unit time storage according to the unit time consumption of each emergency resource and the corresponding unit time supplement amount;

adding the unit time stock to the corresponding emergency resource data to obtain the first current stock;

and judging whether emergency resources of which the first current inventory cannot meet the corresponding resource demand exist in the target resource acquisition mechanism or not.

3. The method according to claim 1, wherein the calculating a total inventory available for scheduling of the emergency resources to be scheduled according to the location information, the first current inventory amount, and the second current inventory amount of each resource acquisition mechanism comprises:

respectively calculating the unit time reachable coefficients of the target resource acquisition mechanism and each resource acquisition mechanism according to the position information;

multiplying the reachable coefficient of each resource acquisition mechanism in unit time by the second current stock of the corresponding emergency resource to be scheduled to obtain the available stock of each resource acquisition mechanism in unit time corresponding to the emergency resource to be scheduled;

and adding the first current inventory to the unit time available scheduling inventory corresponding to each resource acquisition mechanism to obtain the available scheduling total inventory of the emergency resources to be scheduled.

4. The method of emergency resource management of claim 3, wherein the location information comprises longitude and latitude coordinates;

the calculating the unit time reachable coefficients of the target resource acquisition mechanism and each resource acquisition mechanism respectively according to the position information includes:

traffic road information between the target resource acquisition mechanism and each resource acquisition mechanism is respectively acquired, and corresponding traffic convenience coefficients are acquired according to a preset traffic mapping table;

calculating the linear distance between the target resource acquisition mechanism and each resource acquisition mechanism according to the longitude coordinate and the latitude coordinate;

and acquiring the actual distance and a preset deviation value between the target resource acquisition mechanism and each resource acquisition mechanism, and calculating to obtain an reachable coefficient per unit time according to the traffic convenience coefficient, the linear distance, the actual distance and the deviation value.

5. The emergency resource management method according to claim 3, wherein after the generating a resource scheduling instruction according to the total available scheduling inventory and sending the resource scheduling instruction to all resource acquiring organizations in the area for resource scheduling, the method further comprises:

calculating the dispatching transportation cost of each resource acquisition mechanism according to the available dispatching inventory in unit time corresponding to the emergency resource to be dispatched of each resource acquisition mechanism and the position information of each resource acquisition mechanism;

calculating the inventory management cost of the target resource acquisition mechanism according to the first current inventory;

judging whether the dispatching transportation cost is less than the inventory management cost;

and if so, reducing the first current inventory amount.

6. The emergency resource management method according to any one of claims 1 to 5, wherein before generating the resource scheduling instruction according to the total available scheduling inventory and sending the resource scheduling instruction to all resource acquiring organizations in the area for resource scheduling, the method further comprises:

associating the target resource acquisition mechanism and each resource acquisition mechanism to a geographic information system;

and loading a first current stock corresponding to each emergency resource in the target resource acquisition mechanism and a second stock corresponding to each resource acquisition mechanism into the geographic information system for real-time display.

7. An emergency resource management device, comprising:

the system comprises a request acquisition module, a resource management module and a resource management module, wherein the request acquisition module is used for acquiring an emergency resource acquisition request, and the emergency resource acquisition request comprises accident position information, accident type information and resource demand of each emergency resource;

the target mechanism determining module is used for determining the corresponding resource acquiring mechanism type according to the accident type information and determining a target resource acquiring mechanism according to the accident position information and the resource acquiring mechanism type;

the data acquisition module is used for acquiring emergency resource data of the target resource acquisition mechanism and corresponding historical resource scheduling data;

the first judgment module is used for calculating a first current stock of each emergency resource in the target resource acquisition mechanism according to the emergency resource data and the historical resource scheduling data, and judging whether the target resource acquisition mechanism has an emergency resource of which the first current stock cannot meet the corresponding resource demand;

the scheduling resource determining module is used for taking the emergency resource of which the first current stock cannot meet the corresponding resource demand as the emergency resource to be scheduled and acquiring the position information of each resource acquiring mechanism in the preset area and the second current stock of the emergency resource to be scheduled in each resource acquiring mechanism when the emergency resource of which the first current stock cannot meet the corresponding resource demand exists;

the calculation module is used for calculating the total available scheduling stock of the emergency resources to be scheduled according to the position information, the first current stock and the second current stock of each resource acquisition mechanism;

the second judgment module is used for judging whether the total available scheduling inventory meets the corresponding resource demand;

the early warning module is used for generating an early warning signal when the total stock available for scheduling does not meet the corresponding resource demand and sending the early warning signal to a corresponding management mechanism terminal;

and the scheduling module is used for generating a resource scheduling instruction according to the total available scheduling inventory and sending the resource scheduling instruction to all resource acquisition mechanisms in the region for resource scheduling when the total available scheduling inventory meets the corresponding resource demand.

8. The apparatus according to claim 7, wherein the historical resource scheduling data includes a consumption amount per unit time and a replenishment amount per unit time;

the first judging module is specifically configured to:

9. An emergency resource management apparatus, comprising: a memory having instructions stored therein and at least one processor, the memory and the at least one processor interconnected by a line;

the at least one processor invoking the instructions in the memory to cause the emergency resource management device to perform the steps of the emergency resource management method of any of claims 1-6.

10. A computer-readable storage medium, having a computer program stored thereon, which, when being executed by a processor, carries out the steps of the emergency resource management method according to any one of claims 1-6.