CN119250803A - Resource management method, device, electronic device, storage medium and program product - Google Patents

Abstract

The application provides a resource management method, a device, electronic equipment, a storage medium and a program product, relates to the technical field of data processing, and is used for providing a user with a richer resource management mode, and can more intuitively and clearly prompt an abnormality under the condition that an abnormal resource point exists on a map. The method comprises the steps of determining a target hot zone associated with a floor plan corresponding to a target resource point in a map under the condition that the target resource point is detected to be in an abnormal state, wherein the map comprises a plurality of hot zones, an association relationship exists among the plurality of hot zones, each hot zone corresponds to an actual geographic area and is associated with at least one floor plan, and performing abnormal prompt based on the target hot zone and the floor plan associated with the target hot zone and/or the association relationship between the target hot zone and other hot zones, wherein the abnormal prompt is used for prompting that the actual geographic area corresponding to the target hot zone is abnormal.

Description

Resource management method, device, electronic equipment, storage medium and program product

Technical Field

The present application relates to the field of data processing technologies, and in particular, to a resource management method, a device, an electronic apparatus, a storage medium, and a program product.

Background

With the advent of the big data age, organizations or individuals sometimes need to manage massive amounts of resource point information. For example, it is necessary to manage and detect a plurality of imaging devices of a building, a plurality of fire fighting equipments, and the like, so as to ensure that each resource point is in a normal state.

In the case where the number of resource points is large, a plurality of resource points may be managed and detected in a unified manner in order to improve management efficiency. For example, after finding that there is a resource point in an abnormal state, reporting the geographic position of the target resource point in the abnormal state uniformly.

However, this way of resource management is too monotonous and not clear and intuitive enough.

Disclosure of Invention

The application provides a resource management method, a device, electronic equipment, a storage medium and a program product, which are used for providing a user with a richer resource management mode, and can more intuitively and clearly prompt an abnormality when detecting that a resource point in an abnormal state exists on a map.

In order to achieve the technical purpose, the application adopts the following technical scheme:

The method comprises the steps of determining a target hot zone associated with a floor plan corresponding to a target resource point in a map under the condition that the target resource point is detected to be in an abnormal state, wherein the map comprises a plurality of hot zones, an association relationship exists among the plurality of hot zones, each hot zone corresponds to an actual geographic area and is associated with at least one floor plan, and performing abnormal prompt based on the target hot zone and the floor plan associated with the target hot zone and/or the association relationship between the target hot zone and other hot zones, wherein the abnormal prompt is used for prompting that the actual geographic area corresponding to the target hot zone is abnormal.

The resource management method provided by the application can be used for carrying out management detection on the resource points on the map to determine whether the target resource points in an abnormal state exist, and the actual geographic areas are connected through the association relations of the hot areas, the floor plan and the like, so that a richer resource management mode is provided.

In some embodiments, the anomaly prompt is performed based on the target hot zone and the associated relation between the target hot zone and other hot zones, and comprises the steps of determining at least one floor plan associated with the target hot zone based on the target hot zone and the associated floor plan of the target hot zone, and displaying the at least one floor plan associated with the target hot zone, wherein in the at least one floor plan associated with the target hot zone, the display form of the floor plan associated with the target resource point is set to be an anomaly prompt form, and the anomaly prompt form is used for prompting the existence of the target resource point.

The resource management method provided by the application can display each floor plan associated with the target hot zone where the target resource point is located, distinguish the floor plan associated with the target resource point in an abnormal prompt mode, and based on the floor plan, more clearly display the position where the target resource point is located, particularly display the relation between the target resource point and each floor plan, thereby carrying out the abnormal prompt more intuitively, vividly and clearly.

In some embodiments, the displaying the at least one floor plan associated with the target hot zone comprises displaying each of the at least one floor plan in the resource management interface, wherein the arrangement order of each of the at least one floor plan in the resource management interface is determined based on any one of a user ordering instruction, a preset arrangement order corresponding to the floor plan, or an altitude of a geographic area corresponding to the floor plan.

The resource management method provided by the application can display the arrangement sequence of the resource management interface according to the arrangement sequence of the plane arrangement diagrams, can flexibly adapt to the requirement of a user under the condition that the arrangement sequence is determined based on a user instruction, can adjust the display condition of the plane arrangement diagrams, can save the arrangement time without additional setting of a user under the condition that the arrangement sequence is a preset arrangement sequence, can enable the geographical positions to be the same under the condition that the arrangement sequence is the altitude determination of the geographical area corresponding to the plane arrangement diagrams, and can enable the plane arrangement diagrams corresponding to a plurality of spaces (such as a plurality of floors in the same building) with different altitudes to be associated to the same hot area (namely a target hot area), so that the uniform management of the hot area can be carried out, a plurality of spaces with the same geographical positions and different altitudes can be prevented from being displayed as the same space, but can be displayed through different plane arrangement diagrams, the distribution of the geographical points in the resource aggregation area can be realized under the condition that the altitude of the geographical area corresponding to the altitude information management interface is determined intuitively, and the visual display of the resource arrangement map can be more visual and more visual in accordance with the actual position of the geographical resource arrangement map.

In some embodiments, the abnormal prompt is carried out based on the target hot zone and the associated floor plan of the target hot zone and/or the association relation between the target hot zone and other hot zones, and comprises the steps of determining at least one abnormal hot zone based on the target hot zone and the association relation between the target hot zone and other hot zones, wherein the at least one abnormal hot zone comprises the target hot zone and/or one or more upper-level hot zones which are associated with each hot zone step by step upwards from the target hot zone, wherein the upper-level hot zone associated with each hot zone is used for managing the hot zone, the display form of the at least one abnormal hot zone is set to be an abnormal prompt form, and the abnormal prompt form is used for prompting the existence of a target resource point.

The resource management method provided by the application can set the display form of the abnormal hot zone as the abnormal prompt form, so that the abnormal hot zone associated with the target resource point can be clearly and intuitively distinguished from other hot zones. Furthermore, such a manner of presentation may also exhibit the location on the map of the abnormal thermal zone associated with the associated target asset point (i.e., the target thermal zone and/or one or more superior thermal zones associated progressively upward from the target thermal zone) as compared to merely providing the geographic location of the target asset point.

In some embodiments, the method further comprises receiving a hot zone selection instruction, selecting one abnormal hot zone from at least one abnormal hot zone in response to the hot zone selection instruction, displaying at least one lower-level hot zone associated with the abnormal hot zone based on an association relation among the hot zones when the selected abnormal hot zone is one or more upper-level hot zones, wherein the lower-level hot zone associated with each hot zone is managed, a display form of the lower-level hot zone belonging to the abnormal hot zone in the at least one lower-level hot zone is set to be an abnormal prompt form, displaying each floor plan associated with the target hot zone based on the floor plan associated with each hot zone when the selected abnormal hot zone is the target hot zone, and wherein the display form of the floor plan associated with the target resource point is set to be the abnormal prompt form.

The resource management method provided by the application can display at least one lower-level hot zone associated with the abnormal hot zone under the condition that the selected abnormal hot zone is one or more upper-level hot zones which are associated with the target hot zone step by step upwards, and display each floor plan graph associated with the target hot zone under the condition that the selected abnormal hot zone is the target hot zone, and based on the floor plan graph, the hot zone and the floor plan graph associated with the target resource point are favorably displayed step by step downwards, and a user can obtain more information in a more visual, clear and image abnormal prompting mode, so that a more abundant resource management mode is provided for the user.

In some embodiments, each of the hot zones includes a hot zone region and/or a hot zone anchor point, wherein the hot zone region is used for indicating a corresponding region of an actual geographic region corresponding to the hot zone on a map, the hot zone anchor point is used for uniquely identifying the hot zone on the map in the form of an icon, and the selecting one of the at least one abnormal hot zone in response to the hot zone selection instruction includes selecting one of the at least one abnormal hot zone in response to the hot zone selection instruction for the hot zone region and/or the hot zone anchor point included in each of the hot zones.

The resource management method provided by the application can clearly and intuitively display the corresponding area of each hot zone on the map through the hot zone area, and can indicate the hot zone through the form of the icon of the hot zone anchor point, so that each hot zone can be marked on the map through a simple icon under the condition that a plurality of hot zones exist on the map, thereby improving the attractiveness of each hot zone on the map, and a richer hot zone selection mode is provided.

In some embodiments, the method comprises the steps of carrying out exception prompting based on the target hot zone and the associated relation between the target hot zone and other hot zones, wherein the exception prompting information is determined based on the target hot zone and the associated relation between each hot zone and the floor plan and/or the associated relation between each hot zone and other hot zones, the exception prompting information comprises at least one of identification of the target hot zone, identification of each upper-level hot zone in one or more upper-level hot zones which are associated upwards step by step from the target hot zone, page links used for displaying at least one floor plan associated with the target hot zone and page links used for displaying the target hot zone and/or one or more upper-level hot zones, the upper-level hot zone associated with each hot zone is used for managing the hot zone, the exception prompting information is stored in target vector data, the target vector data comprises at least one of target resource points, the floor plan associated with the target resource points, the target hot zone and one or more upper-level hot zones which are associated upwards step by step from the target hot zone, and the page links used for displaying at least one floor plan associated with the target hot zone and the page links used for displaying the target hot zone and/or the upper-level hot zone.

The resource management method provided by the application can store the abnormal prompt information in advance in the target vector data (such as the floor plan associated with the target resource point) related to the target resource point in advance, so that the abnormal prompt information is directly displayed under the condition that a user selects any target vector data. On the one hand, a richer abnormal prompting mode is provided, so that no matter how many times each hot zone on the map is displayed step by step, target vector data which can be selected by a user exist, so that the user can acquire abnormal prompting information, and on the other hand, under the condition that a plurality of target resource points are abnormal, the abnormal prompting information corresponding to the plurality of target resource points can be displayed in single target vector data.

In some embodiments, the method further includes receiving an anomaly removal instruction for the target resource point, the anomaly removal instruction indicating that the anomaly state of the target resource point has been removed, and deleting the stored anomaly prompt information in the target vector data in response to the anomaly removal instruction. Based on this, when the abnormal state is eliminated, the abnormality notification information stored in the target vector data is deleted.

In some embodiments, the thermal zones satisfy at least one of a plurality of thermal zones that are geographically unconnected to each other are associated to a same superior thermal zone, wherein the superior thermal zone of each thermal zone is used to manage the thermal zones, a plurality of spatially corresponding floor plans that are geographically identical and have different altitudes are each associated to a same thermal zone, and a same thermal zone is associated to a plurality of different superior thermal zones.

According to the resource management method provided by the application, under the condition that a plurality of hot areas with disconnected geographic positions are associated to the same superior hot area, the plurality of hot areas with disconnected geographic positions can be managed through the same superior hot area. Under the condition that the two or more corresponding floor plans of the plurality of spaces with the same geographic positions and different altitudes are associated to the same hot zone, the plurality of spaces with the same geographic positions and different altitudes can be prevented from being displayed as the same space and displayed through the different floor plans, so that the resource points in the resource aggregation area are displayed in a scattered manner, and the area where the target resource points are located is displayed more clearly and intuitively. In the case that the same hot zone is associated with a plurality of different upper level hot zones, multiple association approaches can be provided for the target hot zone to be associated with the upper level hot zones step by step, so that more management angles are provided for users, for example, the target resource points of the same hot zone can be managed through different upper level hot zones.

In some embodiments, the method further comprises creating at least one hot zone on the map in response to the hot zone creation operation and establishing an association relationship between the hot zones, receiving at least one floor plan entered by a user for each hot zone, respectively, and determining at least one floor plan associated with each hot zone based on the entered at least one floor plan, receiving at least one resource point information entered by the user for each floor plan, and determining at least one resource point associated with each floor plan based on the entered at least one resource point information.

The resource management method provided by the application can be used for creating at least one hot zone with an association relationship on the map, associating each resource point with the floor plan, and associating each floor plan with the hot zone.

In some embodiments, the creating at least one hotspot on the map in response to the hotspot creating operation includes rendering on the map based on the plurality of hotspot endpoints to create the at least one hotspot in response to a user drawing the plurality of hotspot endpoints on the map, or creating the at least one hotspot on the map based on the target area in response to a user selecting or delineating the target area on the map, or creating the at least one hotspot on the map based on an interface center area of a map presentation interface for presenting the map in response to a user confirming operation on the map presentation interface.

The resource management method provided by the application can reduce data required by rendering through rendering of a plurality of hot zone endpoints, improve rendering efficiency, and further improve the speed of creating the hot zone, or can generate the hot zone based on a target area determined by a user, be more attached to the shapes of different hot zones, and improve the accuracy of the created hot zone area, or can create at least one hot zone based on the interface center area of a map display interface, without manually setting the shape of the hot zone by the user, and the like, and can improve the convenience of operation and the experience of the user.

In some embodiments, the types of resource points include at least one of a detection device, an item to be detected, and a tag to be detected.

The application provides a resource management device, which comprises a resource detection module and an abnormality prompting module, wherein the resource detection module is used for determining a target hot zone associated with a floor plan corresponding to a target resource point in a map under the condition that the target resource point is detected to be in an abnormal state, the map comprises a plurality of hot zones, an association relationship exists among the plurality of hot zones, each hot zone corresponds to an actual geographic area and is associated with at least one floor plan, the abnormality prompting module is used for carrying out abnormality prompting based on the target hot zone, the floor plan associated with the target hot zone and/or the association relationship between the target hot zone and other hot zones, and the abnormality prompting is used for prompting a user of the existence of the target resource point in the abnormal state.

In a third aspect, the present application provides a computer readable storage medium, on which computer program instructions are stored, which when run on a computer cause the computer to implement any one of the resource management methods provided by the embodiments of the present application.

In a fourth aspect, the application provides an electronic device comprising a processor and a memory for storing processor-executable instructions, the processor being configured to execute the instructions such that the electronic device implements any of the resource management methods provided by the embodiments of the application.

In a fifth aspect, the present application provides a computer program product comprising computer program instructions which, when run on a computer, cause the computer to implement any one of the resource management methods provided by the embodiments of the present application.

It should be noted that the above-mentioned computer instructions may be stored in whole or in part on a computer-readable storage medium. The computer readable storage medium may be packaged together with the processor of the controller or may be packaged separately from the processor of the controller, which is not limited in the present application.

The detailed descriptions of the second aspect, the fifth aspect and the various implementations thereof in the present application may refer to the detailed descriptions of the first aspect and the various implementations thereof, and the beneficial effects of the second aspect, the fifth aspect and the various implementations thereof may refer to the beneficial effect analysis of the first aspect and the various implementations thereof, which are not repeated herein.

Drawings

Fig. 1 is a schematic structural diagram of a resource management system according to an embodiment of the present application;

FIG. 2 is a schematic flow chart of a resource management method according to an embodiment of the present application;

FIG. 3 is an interface schematic diagram of a resource management method according to an embodiment of the present application;

FIG. 4 is an interface schematic diagram of another resource management method according to an embodiment of the present application;

FIG. 5 is a flowchart illustrating another resource management method according to an embodiment of the present application;

Fig. 6 is a schematic structural diagram of an electronic device according to an embodiment of the present application.

Detailed Description

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

It should be noted that, in the embodiments of the present application, words such as "exemplary" or "such as" are used to mean serving as an example, instance, or illustration. Any embodiment or design described herein as "exemplary" or "e.g." in an embodiment should not be taken as preferred or advantageous over other embodiments or designs. Rather, the use of words such as "exemplary" or "such as" is intended to present related concepts in a concrete fashion. The terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present application, unless otherwise indicated, the meaning of "a plurality" is two or more.

As described in the background art, with the advent of the big data age, various organizations or individuals sometimes need to manage massive amounts of resource point information. For example, it is necessary to manage and detect a plurality of imaging devices of a building, a plurality of fire fighting equipments, and the like, so as to ensure that each resource point is in a normal state.

In the case where the number of resource points is large, a plurality of resource points may be managed and detected in a unified manner in order to improve management efficiency. For example, after finding that there is a resource point in an abnormal state, reporting the geographic position of the target resource point in the abnormal state uniformly.

However, this way of resource management is too monotonous and not clear and intuitive enough.

In contrast, the embodiment of the application provides a resource management method, which comprises the steps of determining target hot areas corresponding to target resource points under the condition that the target resource points in an abnormal state exist in at least one hot area on a map, wherein an association relationship exists between the hot areas, each hot area corresponds to an actual geographic area and is associated with at least one floor plan, each floor plan is associated with at least one resource point, and abnormal prompt is carried out based on the association relationship between the target hot areas and the floor plan and/or the association relationship between each hot area and other hot areas, wherein the abnormal prompt is used for prompting a user of the target resource points in the abnormal state. Therefore, a richer resource management mode is provided for the user, and the abnormal prompt can be intuitively and clearly carried out under the condition that the abnormal resource point exists on the map.

The resource management method provided by the application can be applied to any scene requiring resource point management, and the types of the resource points comprise at least one of a detection device, an article to be detected and a label to be detected, but are not limited to the detection device, the article to be detected and the label to be detected. The resource management method provided by the application can be applied to camera management of a building, fire-fighting equipment management of a park, machine label management of a factory, valuables management of a room and the like, and is not particularly limited.

In order to more clearly illustrate the scheme provided by the application, the embodiment of the application also provides a structural schematic diagram of the resource management system.

Referring to fig. 1, the resource management system includes at least one of a user interaction module 110, a database 120, and a service module 130.

The user interaction module is used for receiving the user instruction and completing the corresponding task based on the user instruction. The user interaction module may also be referred to as a browsing module, or Browser Side (BS), etc.

In some embodiments, the user interaction module is coupled to a display device (not shown) for displaying the resource management interface to the user. For example, the resource management interface includes at least one of a map, at least one hotspot on the map, a floor plan associated with each hotspot, resource points associated with each floor plan, and an operational component for creating the hotspot, etc. As another example, the resource management interface exposes at least one of a target hot zone, one or more superior hot zones associated progressively upward from the target hot zone, at least one floor plan associated with the target hot zone, and the like. The display device may be a liquid crystal display, an organic light-emitting diode (OLED) display, a 3D display, or the like. The present application is not limited to the specific type, size, resolution, etc. of the display device.

In some embodiments, the user interaction module is further configured to prompt the user for an anomaly if it is detected that the target resource point in an abnormal state exists in at least one hot zone on the map. For example, the display device is called to give an abnormality prompt to the user.

The database is used to store relevant data used to perform the resource management method of the present application.

In some embodiments, at least one of anomaly hints, a map, one or more hotspots, one or more floor plans, an order of arrangement of the respective floor plans at a resource management interface, one or more resource points, an association of the hotspots and the floor plans, an association of the resource points and the floor plans, a page link for displaying at least one floor plan associated with a target hotspot, and a page link for displaying the target hotspot and/or one or more superior hotspots is stored in the database. The related content of the anomaly prompt message is described below.

In some embodiments, the resource points, floor plan, and hot zones are stored in a database in the form of vector data.

The service module is in communication with the database and in communication with the user interaction module.

In some embodiments, the service module is configured to detect whether a target resource point in an abnormal state exists in at least one hot zone on the map. Further, under the condition that the target resource point exists, abnormal prompt is carried out to the user through the user interaction module.

In some embodiments, the service module is configured to perform at least one of creating a map, creating at least one hotzone on the map, determining at least one resource point associated with each of the hotzones, determining at least one of the hotmaps associated with each of the hotzones, and the like based on user instructions sent by the user interaction module.

In some embodiments, the service module is configured to at least one of receive related data used by the resource management method sent by the user interaction module and store the related data in the database, store vector data created by the service module itself in the database, generate an anomaly prompt message, and send the anomaly prompt message to the user interaction module and/or store the anomaly prompt message in the database.

In some embodiments, the service module and the user interaction module may be integrated on a processor, which may be a central processing unit (central processing unit, CPU), a general purpose processor network processor (network processor, NP), a digital signal processor (DIGITAL SIGNAL processing, DSP), a microprocessor, a microcontroller, a programmable logic device (programmable logic device, PLD), or any combination thereof, or the processor may be another device having a processing function, such as a circuit, a device, or a software module, which is not limited in this regard.

In some embodiments, the database may also be integrated on the memory.

It should be noted that the architecture shown in fig. 1 is not limiting of the resource management system, and the resource management system may include more or less modules (e.g., display devices) than those shown in fig. 1, or may combine some modules, or may employ a different arrangement of modules. For example, the service module and the user interaction module may be integrated into one module, or the service module, the user interaction module, and the database may be integrated into one module, or the like. The present application is not particularly limited thereto.

It should be understood that the execution body of the resource management method provided by the present application may be the above-mentioned service module, or an integrated module of the above-mentioned service module and the user interaction module, or an integrated module of the above-mentioned service module, database and the user interaction module, or the above-mentioned resource management system, or the above-mentioned processor. In one example, the execution subject may also be a terminal, such as a cell phone, tablet, desktop, laptop, handheld computer, notebook, ultra-mobile personal computer, UMPC, netbook, and cellular phone, personal Digital Assistant (PDA), augmented reality (augmented reality, AR) \virtual reality (VR) device, etc., as the application is not limited in particular.

The following describes embodiments of the present application in detail with reference to the drawings.

As shown in fig. 2, an embodiment of the present application provides a resource management method, and an execution body may be described with reference to the foregoing, the method including the following steps S101 to S102:

S101, under the condition that the target resource point is detected to be in an abnormal state, determining a target hot zone associated with a floor plan corresponding to the target resource point in the map.

The map includes a plurality of hot areas, each hot area corresponds to an actual geographic area, and the hot areas can also be understood as corresponding to an area on the map. For example, a garden, factory building, floor, store, or room on a map. The method of creating the hot zone may be described below.

In some embodiments, the map may be a world map, a campus map, a provincial map, or the like, which is not limited by the present application.

In some embodiments, there is an association between multiple hot zones. For example, a first thermal zone may be upwardly associated with a second thermal zone, which is then an upper level thermal zone referred to as a first thermal zone, for managing the first thermal zone. By way of example, the first thermal zone may also be associated downwardly to a third thermal zone, which is then referred to as the lower level thermal zone of the first thermal zone, managed by the first thermal zone. Further, the second hot zone may be associated with other hot zones up or down, and the third hot zone may be similarly associated to achieve association between the hot zones. Based on the above, the actual geographic areas on the map can be associated by the association relation among the hot areas, so that the resources of the geographic areas can be managed more conveniently.

In some embodiments, the superior hot zone associated with each hot zone is used to manage the hot zone, which may also be referred to as a parent hot zone, or the like. The lower level hot zone associated with each hot zone is managed by the hot zone, which may also be referred to as a sub-hot zone.

It will be appreciated that for a hot zone, the hot zone level of the hot zone is lower than the hot zone level of the upper level hot zone associated with the hot zone and higher than the hot zone level of the lower level hot zone associated with the hot zone. In the case where the hot zone levels are expressed by integers, the difference between the hot zone level of the hot zone and the hot zone level of the upper level hot zone associated with the hot zone is-1, and the difference between the hot zone level of the hot zone and the hot zone level of the lower level hot zone associated with the hot zone is 1.

In some embodiments, one thermal zone is allowed to be absent of an upwardly associated superior thermal zone and/or a downwardly associated inferior thermal zone. In the present application, in the case where one heat zone exists in a lower level heat zone and no upper level heat zone, the heat zone is called a root heat zone or a highest level heat zone, in the case where one heat zone exists in an upper level heat zone and no lower level heat zone, the heat zone is called an end heat zone or a lowest level heat zone, in the case where one heat zone exists in neither an upper level heat zone nor a lower level heat zone, the heat zone is called an isolated heat zone, and the description thereof will be omitted. It should be noted that the above-mentioned names of the hot zones are merely examples, and for example, the root hot zone may be named as a "highest-level hot zone", and the present application is not limited thereto.

In some embodiments, the superior hot zone associated with a hot zone may or may not include some or all of the hot zone. For example, a certain hot zone corresponds to a building of a park, and the upper-level hot zone associated with the hot zone corresponds to the park, where the upper-level hot zone associated with the hot zone includes the hot zone. For another example, a certain hot zone corresponds to a campus, and the higher-level hot zone associated with the campus corresponds to a detection laboratory that is not bordered by the campus, where the detection laboratory is configured to detect each resource point in the campus in real time, and where the higher-level hot zone associated with the hot zone does not include the hot zone.

In some embodiments, one floor plan is associated with each hot zone. Therefore, the resource point layout situation in the actual geographic area corresponding to the hot zone is more clearly and clearly displayed through a plurality of plane layout diagrams.

Illustratively, a hotfield is created on a campus of the map display that associates a plurality of floor plans, each floor plan corresponding to a building on the campus. For example, the floor plan may be an external view of a building, or a building map, etc.

Illustratively, a hot zone is created on a building of the map display, the hot zone associating a plurality of floor plans, each floor plan corresponding to a floor within the building. For example, the floor plan may be a floor plan or the like for showing the layout in the floor.

In other embodiments, for each of the hot zones on the map, each end hot zone is associated with at least one floor plan, and other hot zones other than the non-end hot zone may or may not be associated with floor plans. Wherein the meaning of the terminal hot zone is described above. In this way, the layout corresponding to the bottom-most hot zone can be ensured to be intuitively and clearly reflected through the plane layout.

In some embodiments, the same floor plan is allowed to be imported into multiple hotspots, i.e., the same floor plan is allowed to associate different hotspots.

In some embodiments, each floor plan supports the association of at least one resource point, i.e., the floor plan may or may not be associated with a resource point. After the floor plan is associated with at least one resource point, the resource point to be managed can be associated with a specific geographic position through the floor plan, so that resource management is convenient and uniform.

In some embodiments, one target resource point may be configured on a different floor plan.

The type of the resource point comprises at least one of a detection device, an article to be detected and a label to be detected.

Taking the type of resource point as a detection device as an example, the resource point comprises at least one of a camera device, a temperature detection device, a humidity detection device, a water level detection device, a pressure detection device, an access control system, a smoke detection device and the like.

Taking the type of resource point as an example of the object to be detected, the resource point comprises at least one of computer equipment, factory equipment, fire-fighting equipment, a charging column, a water reservoir, a road gate and the like.

Taking the type of resource point as a label to be detected as an example, the resource point comprises at least one of, but not limited to, a machine label of a factory, a qualified mark of a store and the like.

It should be noted that, in the case that the type of the resource point is an article to be detected or a label to be detected, the resource point may be bound to a certain detection device, so that the bound detection device may detect the state of the resource point. The states of the resource points include normal states and abnormal states.

The status of the resource point includes a normal status and/or an abnormal status. Taking the resource point as the temperature detection device as an example, the temperature detected by the temperature detection device is smaller than the temperature threshold value and can be set to be in a normal state, and the temperature detection device is larger than or equal to the temperature threshold value and can be set to be in an abnormal state. Taking resource points as factory equipment as an example, the factory equipment can be set to be in an abnormal state when faults occur.

The condition for determining the status of each resource point may be preset or determined based on a user instruction.

In some embodiments, the execution body of the present application detects the status of each resource point in real time, or each resource point actively reports its own status. The method for reporting the status of the resource point includes, but is not limited to, periodic reporting and/or event reporting, for example, reporting only in the case of an abnormal status.

In some embodiments, the hot zone on the map satisfies at least one of the following (1) to (3):

(1) Multiple hot zones that are geographically unconnected to each other are associated to the same superior hot zone, wherein the superior hot zone of each hot zone is used to manage the hot zone.

Based on the above, the management of a plurality of hot zones with disconnected geographic positions can be realized through the same upper-level hot zone.

Illustratively, there are three hot zones on the map, which correspond to a first park at province A, a second park at province B, and a third park at province C, respectively. In the case that the provinces a, B, and C are three provinces different from each other and the geographic positions are not connected to each other, the three hot zones may also be associated upward to the hot zones corresponding to the same detection center.

In this way, compared with the traditional scheme that the geographical areas are associated by narrowing the geographical areas from large to small, the method provided by the application is not limited to the geographical areas, and the geographical areas which are not connected with each other can be associated together through the hot zone, so that the association mode is more free.

(2) The geographic locations are the same, and the floor plan corresponding to each of the plurality of spaces having different altitudes is associated with the same hot zone.

Based on the method, a plurality of spaces with the same geographic position and different altitudes can be prevented from being displayed as the same space, and the spaces are displayed through different floor plans, so that the resource points in the resource aggregation area are displayed in a scattered manner, and the area where the target resource points are located is displayed more clearly and intuitively.

(3) The same hot zone is associated with a plurality of different superior hot zones.

In one example, a hot zone corresponding to a restaurant store is associated upward to a hot zone corresponding to a street in which the restaurant store is located, and further, hot zones corresponding to individual stores (e.g., including but not limited to restaurant stores, clothing stores, furniture stores, etc.) on the street are each associated upward to a hot zone corresponding to the street.

Therefore, under the condition that the resource points in the hot areas corresponding to the restaurant shops are in an abnormal state, the resource points in the abnormal state in the hot areas managed by the hot areas corresponding to the streets can be determined based on the association relation among the hot areas, and accordingly unified management of the resource points of the shops in the streets can be achieved.

Further, in the case that the restaurant is located in the province D, the hot zone corresponding to the restaurant may be further associated upward with the hot zone corresponding to the restaurant inspection center in the province D, and in addition, the hot zones corresponding to the restaurant inspection centers in the province D are each associated upward with the hot zone corresponding to the restaurant inspection center.

Therefore, under the condition that the resource points in the hot areas corresponding to the catering shops are in an abnormal state, the resource points in the abnormal state in the hot areas managed by the hot areas corresponding to the catering detection center can be determined based on the association relation among the hot areas, and accordingly unified management of the resource points of all the catering shops in province D can be achieved.

In summary, under the condition that the same hot zone is associated to a plurality of different upper level hot zones, multiple association ways can be provided for the target hot zone to be associated with the upper level hot zone step by step, so that the target resource point of the same hot zone is managed through different upper level hot zones. In addition, the user can manage the resources from multiple angles according to the requirements, a richer resource management angle is provided, and the resource utilization rate is improved.

In some embodiments, each hot zone includes a hot zone region and/or a hot zone anchor point.

The hot zone area is used for indicating a corresponding area of an actual geographic area corresponding to the hot zone on the map, namely an actual range of the hot zone on the map.

The hot zone anchor points are used for uniquely identifying the hot zones on the map in the form of icons, i.e. the hot zone anchor points and the hot zones are in one-to-one correspondence. The hot zone anchor points can be displayed on the map or not, and whether the hot zone anchor points are displayed or not is determined based on user instructions or by default.

In one example, the hot zone region is displayed on the map in the form of a semi-transparent mask superimposed over the corresponding region on the map.

In one example, the hotspots are displayed on the map in the form of a unified icon. For example, the icon 320 as shown in FIG. 3 is used to represent a hotspots anchor.

On the basis, on one hand, the corresponding area of each hot zone on the map can be clearly and intuitively displayed through the hot zone area, and on the other hand, the hot zone can be indicated through the form of an icon, namely a hot zone anchor point, so that when a plurality of hot zones exist on the map, each hot zone can be marked on the map through a simple icon, and the attractiveness of each hot zone on the map is improved.

In some embodiments, each hot zone corresponds to an Identifier (ID) of the hot zone, which is used to uniquely identify the hot zone. The identity of a hot zone may also be referred to as a serial number or identity of the hot zone, etc.

In one example, the identity of the hot zone is a globally unique identifier (globally unique identifier, GUID).

It should be noted that, the association relationship of the hot zones (including the association relationship between each hot zone and the floor plan, the association relationship between each hot zone and other hot zones, and the association relationship between each floor plan and resource points) and the identification of the hot zones may be stored in the hot zones.

For example, in the case where the hot zone itself is stored in the form of vector data, the association relationship of the hot zone, and the identity of the hot zone may be stored in the hot zone as part of the vector data. At this point, a "hot zone" may be understood as a hyperlink that characterizes a logical resource region, corresponding to the identity of a unique hot zone.

Here, the target hot zone is the hot zone associated with the floor plan associated with the target resource point.

In the embodiment of the application, when any resource point is in an abnormal state, a target floor plan graph associated with the resource point needs to be determined, and then all target hot areas associated with the target floor plan graph are found through the target floor plan graph.

In some embodiments, step S101 includes determining that the target resource point in an abnormal state exists under the condition of receiving the abnormal information reported by the target resource point or the detection device bound to the target resource point, and determining a target hot zone corresponding to the target resource point based on the association relationship between each hot zone and the floor plan and the association relationship between each hot zone and other hot zones.

S102, performing exception prompt based on the target hot zone, a floor plan associated with the target hot zone and/or an association relationship between the target hot zone and other hot zones.

The abnormality prompt is used for prompting that abnormality exists in the actual geographic area corresponding to the target hot zone. It should be appreciated that the anomaly prompt may also be referred to as an anomaly alarm, a resource alarm, or a hot zone alarm, etc.

The association relation between each hot zone and the floor plan is used for indicating one or more floor plans associated with each hot zone.

And the association relation between each hot zone and other hot zones is used for indicating the upper-level hot zone and/or the lower-level hot zone associated with each hot zone.

The target resource point is the resource point in an abnormal state. Wherein the types of resource points and possible forms are described above.

In some embodiments, step S102 includes determining at least one floor plan for the target association based on the target hot zone and the floor plan for the target hot zone association, and displaying the at least one floor plan for the target hot zone association. Wherein, in at least one floor plan associated with the target hot zone, the display form of the floor plan associated with the target resource point is set to be an abnormal prompt form, and the abnormal prompt form is used for prompting that the target resource point exists.

The method for setting the display form of the target resource point-associated floor plan to the abnormal prompt form comprises the following steps of setting the border of the target resource point-associated floor plan to be red, superposing a layer of semitransparent red mask on the target resource point-associated floor plan, superposing an icon with an exclamation mark shape on the target resource point-associated floor plan, and the like. It should be understood that the foregoing manner is merely an example, and the present application is not limited to a specific form of an abnormality alert form in which a floor plan is set, where the abnormality alert form is set such that a display form of a floor plan associated with a target resource point is different from a display form of other floor plans in at least one floor plan.

The resource management method provided by the application can display each floor plan associated with the target hot zone where the target resource point is located, distinguish the floor plan associated with the target resource point in an abnormal prompt mode, and based on the floor plan, more clearly display the position where the target resource point is located, particularly display the relation between the target resource point and each floor plan, thereby carrying out the abnormal prompt more intuitively, vividly and clearly.

In some embodiments, the displaying the at least one floor plan associated with the target hot zone comprises displaying each of the at least one floor plan in the resource management interface, wherein the arrangement order of each of the at least one floor plan in the resource management interface is determined based on any one of a user ordering instruction, a preset arrangement order corresponding to the floor plan, or an altitude of a geographic area corresponding to the floor plan.

The arrangement sequence of each floor plan at the resource management interface is determined based on the altitude of the geographic area corresponding to the floor plan, the at least one floor plan associated with the target hot zone comprises floor plans corresponding to a plurality of spaces with the same geographic position and different altitudes, and the displaying of the at least one floor plan associated with the target hot zone comprises displaying the floor plan corresponding to each space in the resource management interface based on the altitude corresponding to each space in the plurality of spaces, wherein the arrangement sequence of the floor plan corresponding to each space at the resource management interface is determined based on the altitude corresponding to the space.

In one example, the respective floor plans associated with the target hot zones are arranged from top to bottom on the resource management interface in order of the respective spatially corresponding altitudes from top to bottom. Under the condition that each space corresponds to different floors of the same building, the altitude corresponding to each space is the floor height of each floor.

In one example, as shown in fig. 3, fig. 3 (3) shows a floor plan 330 corresponding to each floor in a certain building. Wherein the respective floor plan 330 is displayed from top to bottom in the order of altitude from high to low.

The resource management method provided by the application can display the arrangement sequence of the resource management interface according to the arrangement sequence of the plane arrangement diagrams, can flexibly adapt to the requirement of a user under the condition that the arrangement sequence is determined based on a user instruction, can adjust the display condition of the plane arrangement diagrams, can save the arrangement time without additional setting of a user under the condition that the arrangement sequence is a preset arrangement sequence, can enable the geographical positions to be the same under the condition that the arrangement sequence is the altitude determination of the geographical area corresponding to the plane arrangement diagrams, and can enable the plane arrangement diagrams corresponding to a plurality of spaces (such as a plurality of floors in the same building) with different altitudes to be associated to the same hot area (namely a target hot area), so that the uniform management of the hot area can be carried out, a plurality of spaces with the same geographical positions and different altitudes can be prevented from being displayed as the same space, but can be displayed through different plane arrangement diagrams, the distribution of the geographical points in the resource aggregation area can be realized under the condition that the altitude of the geographical area corresponding to the altitude information management interface is determined intuitively, and the visual display of the resource arrangement map can be more visual and more visual in accordance with the actual position of the geographical resource arrangement map.

In other embodiments, step S102 includes determining at least one abnormal hot zone based on the target hot zone and an association between the target hot zone and other hot zones, the at least one abnormal hot zone including the target hot zone and/or one or more superior hot zones associated progressively upward from the target hot zone, and displaying the at least one abnormal hot zone, the abnormal hot zone being displayed in an abnormal prompt form configured to prompt the presence of a target resource point.

The abnormal hot zone is a hot zone in which a target resource point in an abnormal state exists in the managed resource points.

It should be understood that, in the present application, the meaning of "a target resource point exists in a certain hot zone" does not mean that there is a target resource point in an abnormal state in a geographic location corresponding to the hot zone, but means that there is a target resource point in an abnormal state in a resource point managed by the hot zone. That is, the target resource point is a resource point managed by the abnormal hot zone, but the target resource point may be located in an actual geographic area corresponding to the abnormal hot zone or may not be located in an actual geographic area corresponding to the abnormal hot zone, for example, may be located in an actual geographic area corresponding to a lower hot zone managed by the abnormal hot zone. And will not be described in detail below.

For example, when a plurality of campuses are associated with the same hot zone corresponding to a detection laboratory that does not border each campuses, if a target resource point exists in the hot zone corresponding to any of the campuses, the campuses belong to an abnormal hot zone, and the hot zone corresponding to the detection laboratory also belongs to an abnormal hot zone. At this time, the target resource point is a resource point managed by the hot zone corresponding to the detection laboratory, but is not located in the actual geographic area corresponding to the abnormal hot zone.

In addition, the application does not limit the specific form of the abnormality prompting form set in each abnormal heat zone, and the setting of the abnormality prompting form can make the display form of the abnormal heat zone different from the display form of the non-abnormal heat zone.

The resource management method provided by the application can set the display form of the abnormal hot zone as the abnormal prompt form, so that the abnormal hot zone associated with the target resource point can be clearly and intuitively distinguished from other hot zones. Furthermore, such a manner of presentation may also exhibit the location on the map of the abnormal thermal zone associated with the associated target asset point (i.e., the target thermal zone and/or one or more superior thermal zones associated progressively upward from the target thermal zone) as compared to merely providing the geographic location of the target asset point.

It will be appreciated that in the case where the abnormal hot zone includes one or more superior hot zones that are associated progressively upward from the target hot zone, the layer-by-layer reporting of the target resource point may actually be considered to be achieved. The abnormal prompting mode enables a user to accurately find an abnormal hot zone with the target resource point in each level, and based on the abnormal hot zone, visual display and positioning tracing of the target resource point are facilitated.

In addition, in the determination of the abnormal heat zone, in consideration of that some abnormal situations are not serious and the report to the upper level heat zone of each layer is unnecessary, therefore, the maximum level of the abnormal heat zone can be defined, so that all the upper level heat zones associated with the target heat zone are not necessarily determined as the abnormal heat zone, but only part of the abnormal heat zone is set as the abnormal heat zone.

The method for determining at least one abnormal hot zone based on the target hot zone and the association relation between each hot zone and other hot zones includes determining one or more upper hot zones associated step by step upwards from the target hot zone based on a preset reporting level threshold, the target hot zone and the association relation between each hot zone and other hot zones, wherein the difference between the determined hot zone level of the one or more upper hot zones and the hot zone level of the target hot zone is smaller than or equal to the preset reporting level threshold.

Taking the preset report level threshold as 3 as an example, in a specific example, the one or more upper level hot zones determined based on the preset report level threshold, the target hot zone, and the association relationship between each hot zone and other hot zones includes one or more fourth hot zones, one or more fifth hot zones, and one or more sixth hot zones. The fourth hot zone is an upper-level hot zone associated with the target hot zone. The fifth hot zone is an upper-level hot zone associated with a certain fourth hot zone. The sixth hot zone is an upper level hot zone associated with a fifth hot zone.

It should be understood that even if there is a seventh hot zone on the map at this time and the seventh hot zone is an upper level hot zone associated with a certain sixth hot zone, the seventh hot zone is no longer determined as an abnormal hot zone. In this way, the level of exception reporting can be reduced based on user demand, simplifying resource management.

In some embodiments, the method further comprises receiving a hot zone selection instruction, selecting one abnormal hot zone from at least one abnormal hot zone in response to the hot zone selection instruction, displaying at least one lower-level hot zone associated with the abnormal hot zone based on an association relation among the hot zones when the selected abnormal hot zone is one or more upper-level hot zones, wherein the lower-level hot zone associated with each hot zone is managed, a display form of the lower-level hot zone belonging to the abnormal hot zone in the at least one lower-level hot zone is set to be an abnormal prompt form, displaying each floor plan associated with the target hot zone based on the floor plan associated with each hot zone when the selected abnormal hot zone is the target hot zone, and wherein the display form of the floor plan associated with the target resource point is set to be the abnormal prompt form.

Illustratively, as shown in FIG. 3, the resource management interface shown in FIG. 3 (1) displays a plurality of hotspots 310 for each of the parks.

Among the hot zones 310 corresponding to the parks, the abnormal hot zone is displayed in a different form from the other hot zones. Each of the campuses corresponds to a hotspot anchor 320 to uniquely identify the hotspot by a simple icon.

For example, the hot zone displayed in the form of filling the diamond grid among the plurality of hot zones is an abnormal hot zone, and the hot zone displayed in the form of filling the diagonal line is not an abnormal hot zone.

For example, the hot zone anchor points displayed in a shadow filling form in the plurality of hot zones are hot zone anchor points of abnormal hot zones, and the hot zone anchor points without shadow filling are hot zone anchor points of non-abnormal hot zones.

If the abnormal hot zone shown in fig. 3 (1) is selected based on the hot zone selection instruction, if the abnormal hot zone includes at least one lower hot zone, as shown in fig. 3 (2), the plurality of building-corresponding hot zones 311 associated downward with the corresponding hot zone of the park are displayed.

Similarly, in the thermal zones 311 corresponding to the plurality of buildings, the abnormal thermal zone is displayed in a different form from the other thermal zones. Each of the campuses corresponds to a hotspot anchor 320 to uniquely identify the hotspot by a simple icon.

If the abnormal thermal zone is selected and the abnormal thermal zone is the target thermal zone, at least one floor plan 330 associated with the target thermal zone is displayed as shown in fig. 3 (3).

In a specific example, the floor plan 330 in fig. 3 corresponds to four floors, three floors, two floors, and one floor, respectively, from top to bottom.

Similarly, the display form of the floor plan associated with the target resource point is set to be an abnormality prompting form, which is different from the display form of the other floor plan.

In the case where the floor plan displayed in the filling form of the diamond grid among the plurality of floor plan is the floor plan associated with the target resource point, if the floor plan associated with the target resource point is selected, the layout condition of each resource point 340 in the floor plan associated with the target resource point is displayed as shown in (4) of fig. 3.

For example, referring to the floor plan, it can be seen that one resource point is provided in the kitchen and one resource point is provided in the living room.

Further, the target resource point may also be indicated by a different display format. For example, where the resource point of the icon display bit "x" is the target resource point in the abnormal state, the resource point of the icon display bit "v" is the resource point in the normal state.

In some examples, where each of the thermal zones includes a thermal zone region and/or a thermal zone anchor, selecting one of the at least one abnormal thermal zone in response to the thermal zone selection instruction includes selecting one of the at least one abnormal thermal zone in response to the thermal zone selection instruction for the thermal zone region and/or the thermal zone anchor included in the respective thermal zone. Based on this, a richer choice of hot zone is provided.

The resource management method provided by the application can display at least one lower-level hot zone associated with the abnormal hot zone under the condition that the selected abnormal hot zone is one or more upper-level hot zones which are associated with the target hot zone step by step upwards, and display each floor plan graph associated with the target hot zone under the condition that the selected abnormal hot zone is the target hot zone, and based on the floor plan graph, the hot zone and the floor plan graph associated with the target resource point are favorably displayed step by step downwards, and a user can obtain more information in a more visual, clear and image abnormal prompting mode, so that a more abundant resource management mode is provided for the user.

In still other embodiments, step S102 includes determining exception hint information based on the target hot zone and a floor plan associated with the target hot zone and/or an association between the target hot zone and other hot zones, storing the exception hint information in the target vector data, and presenting the exception hint information stored in the target vector data in response to a selected instruction to the target vector data.

The target vector data comprises at least one of a target resource point, a target resource point associated floor plan, a target hot zone and one or more superior hot zones which are associated step by step upwards from the target hot zone.

Further, if a certain vector data on the map is selected and no abnormality prompting information is stored in the selected vector data, it means that no target resource point in an abnormal state exists in the resource points related to the vector data. And when the vector data is a floor plan, the resource points related to the vector data are the resource points related to the floor plan.

It should be appreciated that where the individual resource points, floor plans, and hot zones are stored and/or presented in the form of vector data, the target resource points, floor plans associated with the target resource points, target hot zones, and one or more upper level hot zones associated progressively upward from the target hot zone are also vector data.

The anomaly prompt information includes at least one of an identification of the target hot zone, an identification of each of one or more upper level hot zones associated step-by-step upward from the target hot zone, a page link for displaying at least one floor plan associated with the target hot zone, and a page link for displaying the target hot zone and/or the one or more upper level hot zones.

Further, in the case that the anomaly prompt information includes a page link for displaying at least one floor plan associated with the target hot zone, the at least one floor plan associated with the target hot zone is expanded to be displayed in response to the user clicking the link.

In some examples, the anomaly prompt further includes at least one of an identification of the anomaly prompt, an identification of the target resource point, an identification of a floor plan associated with the target resource point, a geographic location of the target hot zone, and a geographic location of each of the one or more superior hot zones associated progressively upward from the target hot zone.

In one example, as shown in FIG. 4, a plurality of hot zones 310 are illustrated, each hot zone corresponding to a set of vector data.

And under the condition that the abnormal hot zone is displayed in a diamond grid filling form, responding to a selected instruction of the abnormal hot zone, and displaying the stored abnormal prompt information.

As shown in fig. 4, an anomaly prompt box 400 is popped up, where the anomaly prompt box 400 is used for displaying the identification, the resource point state, the hot zone association relationship and the anomaly details of the hot zone corresponding to the anomaly hot zone. The resource point status of the hot zone shown in fig. 4 is that there is an anomaly. In addition, a locating component for locating directly to the target resource point, that is, a component corresponding to the text description of fig. 4 as "tracing back the target resource point" may also be displayed.

The resource management method provided by the application can store the abnormal prompt information in advance in the target vector data (such as the target resource point, the floor plan associated with the target resource point, the target hot zone and at least one of one or more upper hot zones which are associated step by step upwards from the target hot zone) related to the target resource point, so that the abnormal prompt information is directly displayed under the condition that a user selects any target vector data. Based on the method, a richer abnormal prompting mode is provided, so that no matter how many times each hot zone on the map is displayed step by step, target vector data which can be selected by a user exist, and the user can acquire abnormal prompting information.

Further, the method further comprises the steps of receiving an abnormality elimination instruction aiming at the target resource point, wherein the abnormality elimination instruction is used for indicating that the abnormality state of the target resource point is eliminated, and deleting the stored abnormality prompt information in the target vector data in response to the abnormality elimination instruction.

Illustratively, as also shown in FIG. 4, the exception prompt box 400 also includes an resource point status setting component 410. In the event that the exception state of the target resource point has been resolved, the stored exception hint information may be deleted from the target vector data based on user instructions acting on the resource point state setting component 410.

Based on this, when the abnormal state is eliminated, the abnormality notification information stored in the target vector data is deleted.

The resource management method provided by the application can be used for carrying out management detection on the resource points on the map to determine whether the target resource points in an abnormal state exist or not, and the actual geographic areas are connected through the association relations of the hot areas, the floor plan and the like, so that the coverage range of abnormal prompt is improved, a richer resource management mode is provided, and on the other hand, the association relation between the floor plan associated with the target hot areas and/or the target hot areas and other hot areas carries out abnormal prompt instead of only prompting the geographic positions of the single target resource points, so that the relationship between the target resource points and other actual geographic areas can be more intuitively, vividly and clearly reflected when the abnormal prompt is carried out.

Furthermore, it can be seen that the association of the present application is more free. For example, if a park needs to be covered, only one more building hot zone is required to be downward associated with the park, and if a detection laboratory needs to be added to detect each resource point in the park, only one more detection laboratory hot zone is required to be upward associated with the park. On the one hand, the method does not need to support the existing database when in association, namely, the association of the newly added hot areas can be realized without acquiring the existing hot area association condition, on the other hand, the method does not need to restrict the association direction of the hot areas, and compared with the method which determines the association relation of each hot area from top to bottom or from bottom to top in the related technology, the method does not limit the association direction of the hot areas, and can associate any hot area upwards or downwards at any time under the condition of not affecting the existing hot areas.

In order to more clearly illustrate the solution provided by the present application, the manner in which each hot zone is created is illustrated below in several brief examples.

In some embodiments, the method further comprises creating at least one hot zone on the map in response to the hot zone creation operation and establishing an association relationship between the hot zones, receiving at least one floor plan entered by a user for each hot zone, respectively, and determining at least one floor plan associated with each hot zone based on the entered at least one floor plan, receiving at least one resource point information entered by the user for each floor plan, and determining at least one resource point associated with each floor plan based on the entered at least one resource point information.

In one example, for at least one floor plan entered by a user for one hotzone, the order of entry of each floor plan corresponds to the order in which each floor plan is displayed from top to bottom on the resource management interface, respectively.

In another example, the method further includes receiving an altitude of each of the floor plans entered by the user, and determining an order in which each of the floor plans is displayed top-to-bottom on the resource management interface in the at least one floor plan associated with each of the hotspots based on the altitude of each of the floor plans.

The resource management method provided by the application can be used for creating at least one hot zone with an association relationship on the map, associating each resource point with the floor plan, and associating each floor plan with the hot zone.

In some embodiments, creating at least one hotspot on the map in response to the hotspot creation operation described above includes rendering on the map based on the plurality of hotspot endpoints in response to a user's operation to draw the plurality of hotspot endpoints on the map to create the at least one hotspot.

In some examples, the number of hot zone endpoints does not exceed a hot zone endpoint threshold.

In some examples, the hot zone endpoint threshold is less than or equal to a maximum endpoint number that can be rendered by the computing capabilities of the executing body.

In one specific example, the hot zone endpoint threshold is 16.

According to the resource management method provided by the application, the data required by rendering can be reduced in a manner of rendering and generating the hot zone through the plurality of hot zone endpoints, and the rendering efficiency is improved, so that the speed of creating the hot zone is improved.

In other embodiments, the creating at least one hotspot on the map in response to the hotspot creation operation includes rendering on the map based on the target area to create the at least one hotspot in response to a user selecting or delineating the target area on the map.

Specifically, the user may click, drag, or otherwise define a closed polygonal area (or other shape, such as a circle, rectangle, etc.) in the map as the target area. In turn, boundary points in the target area may be captured and identified, and the user-defined boundary points converted to map coordinates (e.g., latitude and longitude) by which the boundary of the hot zone is defined.

It should be appreciated that, as a feasible implementation, since the computing capability of executing the subject is limited, when the target area is irregularly shaped (such as a circle), the boundary points thereof are more, and the computing capability of executing the subject may be exceeded when the subsequent rendering is performed. Therefore, after the target area is obtained, the target area is converted into an N-sided polygon which approximates to the target area according to the preset number N of boundary points, and each vertex of the N-sided polygon is used as a hot area anchor point to generate a hot area.

According to the resource management method provided by the application, the hot zone is generated based on the target area determined by the user, so that the method can be more attached to the shapes of different hot zones, and the accuracy of the created hot zone area can be improved.

In still other embodiments, the creating at least one hotspot on the map in response to the hotspot creation operation includes creating the at least one hotspot based on an interface center area of the map presentation interface in response to a confirmation operation by a user on the map presentation interface. The map display interface is used for displaying the map.

It will be appreciated that the human visual system will be more prone to focus on the central region of the visual scene. This effect also exists in image viewing, i.e. the interface center is easily the focus of the user's vision. Therefore, after receiving the confirmation operation (such as touching a confirmation button, selecting a confirmation option or triggering a specific gesture, etc.) of the user on the map display interface, the interface center area of the map display interface can be considered as the area of interest of the user, and at least one hot zone is created based on the interface center area.

It should be understood that the interface center area may be an area of a preset size and a preset shape of the interface center, or may be an area corresponding to an actual geographic location where the interface center is located, which is not limited in the embodiment of the present application.

According to the resource management method provided by the application, after the confirmation operation of the user on the map display interface is received, at least one hot zone is created based on the interface center area of the map display interface, the user does not need to manually set the shape of the hot zone and the like, and the convenience of operation and the experience of use of the user can be improved.

In the case that the hot zone includes a hot zone anchor point, the present application also provides several ways of creating the hot zone anchor point, as follows:

In some embodiments, the creation mode of the hot zone anchor points included in each hot zone comprises the steps of receiving a hot zone anchor point selection operation of a user, wherein the hot zone anchor point selection operation is an operation of marking hot zone anchor point coordinates on a map by the user, and creating the hot zone anchor points based on the hot zone anchor point coordinates marked in the hot zone anchor point selection operation.

In other embodiments, the creation mode of the hot zone anchor points included in each hot zone comprises automatically creating the hot zone anchor points at the edges of the generated hot zone or any position of the generated hot zone after the hot zone to be created is generated.

In order to more clearly illustrate the solution, the resource management method provided by the present application is described below by taking several specific examples as examples.

Referring to the resource management system shown in fig. 1, as shown in fig. 5, the resource management method includes the steps of:

the user interaction module sends an abnormality detection instruction to the service module, wherein the abnormality detection instruction is used for instructing the service module to detect the state of each resource point.

In response to receiving the anomaly detection indication, the service module detects each resource point to determine whether a target resource point in an anomaly state exists. The method comprises the steps of detecting each resource point actively, and/or receiving the status actively reported by each resource point. In addition, the triggering conditions of the reporting state of the resource point comprise but are not limited to periodic triggering and/or event triggering, for example, the reporting of the state is triggered when the target resource point in an abnormal state is detected.

The user interaction module receives the input of the user, the information of each floor plan and each resource point and the association relation between the floor plan and the resource point, and sends the information of each floor plan and each resource point and the association relation between the floor plan and the resource point to the service module.

After receiving each floor plan, each resource point information and the association relation between the floor plan and the resource points, the service module determines at least one resource point associated with each floor plan and sends the at least one resource point associated with each floor plan to the database.

After receiving and storing the association relation between Chu Ping floor plan and the resource point, the database feeds back first storage response information to the service module, wherein the first storage response information is used for indicating whether the storage is successful or not. In some examples, the first stored response information includes floor plan rendering information indicating data information required to render each floor plan. For example, the floor plan rendering information may include, but is not limited to, at least one of image information of each floor plan, and image locations of resource points on the floor plan, rendering parameters of each floor plan, and rendering parameters of each resource point, etc.

The service module feeds back the rendering information of the floor plan to the user interaction module.

And further, displaying the rendered various floor plans to a user, wherein each floor plan is associated with at least one resource point.

The user interaction module receives user instructions and creates at least one hotzone based on the user instructions. It should be appreciated that the geographic location information corresponding to each hot zone is obtained as the hot zone is created.

The user interaction module receives the association relation between each hot zone and the floor plan (such as the identification ID of the floor plan associated with each hot zone) and the arrangement sequence of the floor plan, which are input by a user, and sends the geographic position information corresponding to each hot zone, the association relation between each hot zone and the floor plan and the arrangement sequence of the floor plan to the service module. In the case that the floor plan is displayed on the resource management interface, the arrangement order of the floor plan, that is, the arrangement order of the floor plan on the resource management interface, may be determined in the above-described manner.

The service module determines at least one floor plan associated with each hot zone according to the received geographic position information corresponding to each hot zone, the association relation between each hot zone and the floor plan and the arrangement sequence of the floor plan. And storing the geographic position information corresponding to each hot zone and at least one floor plan associated with each hot zone into a database.

The database receives and stores the geographic position information corresponding to each hot zone, at least one floor plan associated with each hot zone and the arrangement sequence of the floor plans, and then feeds back second storage response information to the service module, wherein the second storage response information is used for indicating whether the storage is successful or not.

In some examples, the second stored response information includes hotspot rendering information indicating data information required to render each hotspot. For example, the hotspot rendering information may include, but is not limited to, at least one of an identification of a hotspot, image information of the hotspot, rendering parameters of each floor plan, and the like.

The service module feeds back hot zone rendering information to the user interaction module, wherein the hot zone rendering information comprises at least one floor plan associated with each hot zone.

The user interaction module renders each hotzone based on at least one floor plan associated with each hotzone.

Under the condition that the target resource points in the abnormal state exist in the resource points, the resource points or the detection equipment bound with the resource points send prompt information to the service module, wherein the prompt information is used for indicating that the target resource points in the abnormal state exist.

The service module sends first request information to the database, wherein the first request information is used for requesting to inquire a floor plan associated with the target resource point.

The database feeds back first response information to the service module, wherein the first response information comprises data corresponding to the floor plan associated with the target resource point. The data corresponding to the target resource point-associated floor plan includes, but is not limited to, at least one of an ID of the target resource point-associated floor plan and other resource point information associated on the target resource point-associated floor plan.

The service module sends second request information to the database, wherein the second request information is used for requesting to query the abnormal hot zone, and the abnormal hot zone comprises a target hot zone associated with the floor plan associated with the target resource point and/or one or more superior hot zones associated step by step upwards from the target hot zone.

The database feeds back second response information to the service module, wherein the second response information comprises data corresponding to the abnormal hot zone. The data corresponding to the abnormal hot zone includes, but is not limited to, at least one item of geographical location information corresponding to each abnormal hot zone, association relation between the abnormal hot zones, identification of each abnormal hot zone, and the like.

And the service module sends data corresponding to the target resource point-associated floor plan and data corresponding to the abnormal hot zone to the user interaction module.

The user interaction module carries out abnormal prompt based on the data corresponding to the planar layout diagram associated with the target resource point and the data corresponding to the abnormal hot zone.

The method of exception prompting may refer to the description in step S102 of the above method embodiment.

In view of this, the resource management method provided by the present application can be implemented based on a resource management system.

In the second example, taking the execution subject as a computer as an example, the resource management method includes the following steps:

step one, displaying a map.

And step two, creating at least one hot zone on the map according to the user instruction, and establishing the association relation among the hot zones.

And determining at least one floor plan associated with each hot zone based on the input at least one floor plan.

And step four, receiving at least one piece of resource point information input by a user aiming at each floor plan, and determining at least one resource point associated with each floor plan based on the input at least one piece of resource point information.

And step five, under the condition that the target resource point in an abnormal state exists in at least one hot zone on the map, determining a target hot zone corresponding to the target resource point, and after determining the target hot zone corresponding to the target resource point, executing the following steps six to ten or eleven to fourteen.

And step six, determining at least one abnormal hot zone based on the target hot zone and the association relation between each hot zone and other hot zones. Wherein the at least one abnormal hot zone comprises a target hot zone and/or one or more superior hot zones associated step-wise upward from the target hot zone.

And step seven, displaying at least one abnormal hot zone, wherein the display form of the abnormal hot zone is set to be an abnormal prompt form, and the abnormal prompt form is used for prompting the existence of the target resource point.

And step eight, receiving a hot zone selection instruction, and selecting one abnormal hot zone from at least one abnormal hot zone in response to the hot zone selection instruction.

And step nine, displaying each floor plan associated with the target hot zone based on the floor plan associated with each hot zone when the selected abnormal hot zone is the target hot zone, wherein the display form of the floor plan associated with the target resource point is set to be an abnormal prompt form, or displaying at least one lower-level hot zone associated with the abnormal hot zone based on the association relation among the hot zones when the selected abnormal hot zone is one or more hot zones which are associated step by step upwards from the target hot zone, wherein the display form of the lower-level hot zone belonging to the abnormal hot zone in the at least one lower-level hot zone is set to be an abnormal prompt form.

And step ten, receiving an abnormality elimination instruction aiming at the target resource point, and in response to the abnormality elimination instruction, canceling the setting of the abnormality prompt form.

Step eleven, determining abnormal prompt information based on the target hot areas, the association relation between each hot area and the floor plan and/or the association relation between each hot area and other hot areas, wherein the related content of the abnormal prompt information is described above.

And step twelve, storing the abnormal prompt information in the target vector data.

The target vector data comprises at least one of a target resource point, a target resource point associated floor plan, a target hot zone and one or more superior hot zones which are associated step by step upwards from the target hot zone.

And thirteenth, responding to the selected instruction of the target vector data, and displaying the abnormal prompt information stored in the target vector data.

And fourteen, receiving an abnormality elimination instruction aiming at the target resource point, and deleting the stored abnormality prompt information in the selected abnormality hot zone in response to the abnormality elimination instruction.

Based on the information, management of each resource point on the map is completed.

It can be seen that the foregoing description of the solution provided by the embodiments of the present application has been presented mainly from a method perspective. To achieve the above-mentioned functions, embodiments of the present application provide corresponding hardware structures and/or software modules that perform the respective functions. Those of skill in the art will readily appreciate that the various illustrative modules and algorithm steps described in connection with the embodiments disclosed herein may be implemented as hardware or combinations of hardware and computer software. Whether a function is implemented as hardware or computer software driven hardware depends upon the particular application and design constraints imposed on the solution. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present application.

In addition, the embodiment of the application provides a resource management device for executing the resource management method provided by the application. The resource management device comprises a resource detection module and an abnormality prompting module.

The resource detection module is used for determining target hot areas associated with the floor plan corresponding to the target resource point in the map under the condition that the target resource point is detected to be in an abnormal state, wherein the map comprises a plurality of hot areas, association relations exist among the plurality of hot areas, each hot area corresponds to an actual geographic area, and at least one floor plan is associated.

The abnormality prompting module is used for prompting abnormality based on the target hot zone, a floor plan associated with the target hot zone and/or an association relation between the target hot zone and other hot zones, wherein the abnormality prompting is used for prompting that abnormality exists in an actual geographic area corresponding to the target hot zone.

In some embodiments, the anomaly prompting module is specifically configured to determine at least one target associated floor plan based on the target hot zone and the target hot zone associated floor plan, and display the target hot zone associated at least one floor plan, wherein in the target hot zone associated at least one floor plan, a display form of the target resource point associated floor plan is set to an anomaly prompting form, and the anomaly prompting form is used for prompting that the target resource point exists.

In some embodiments, the anomaly prompting module is specifically configured to display each of the at least one floor plan in the resource management interface, where an arrangement order of each of the at least one floor plan in the resource management interface is determined based on any one of a user ordering instruction, a preset arrangement order corresponding to the floor plan, or an altitude of a geographic area corresponding to the floor plan.

In some embodiments, the anomaly prompting module is specifically configured to display, on the resource management interface, a floor plan corresponding to each space based on an altitude corresponding to each space in the plurality of spaces, where an arrangement order of the floor plan corresponding to each space on the resource management interface is determined based on the altitude corresponding to the space.

In some embodiments, the anomaly prompting module is specifically configured to determine at least one anomaly hot zone based on the target hot zone and an association relationship between the target hot zone and other hot zones, wherein the at least one anomaly hot zone includes the target hot zone and/or one or more upper hot zones associated step by step upwards from the target hot zone, wherein the upper hot zone associated with each hot zone is used for managing the hot zone, and display the at least one anomaly hot zone, wherein a display form of the anomaly hot zone is set to an anomaly prompting form, and the anomaly prompting form is used for prompting the existence of a target resource point.

In some embodiments, the anomaly prompt module is further configured to receive a hot zone selection instruction, select one anomaly hot zone from at least one anomaly hot zone in response to the hot zone selection instruction, display at least one lower-level hot zone associated with the anomaly hot zone based on an association relationship between the hot zones in the case that the selected anomaly hot zone is a hot zone in one or more upper-level hot zones, wherein a lower-level hot zone associated with each hot zone is managed, a display form of a lower-level hot zone belonging to the anomaly hot zone in the at least one lower-level hot zone is set to be an anomaly prompt form, and display each floor plan associated with the target hot zone based on the floor plan associated with the respective hot zone in the case that the selected anomaly hot zone is a target hot zone, wherein a display form of the floor plan associated with the target resource point is set to be an anomaly prompt form.

In some embodiments, each hot zone comprises a hot zone region and/or a hot zone anchor point, wherein the hot zone region is used for indicating a corresponding region of an actual geographic region corresponding to the hot zone on a map, the hot zone anchor point is used for uniquely identifying a hot zone anomaly prompting module on the map in the form of an icon, and the hot zone anomaly prompting module is specifically used for selecting one anomaly hot zone from at least one anomaly hot zone in response to a hot zone selection instruction aiming at the hot zone region and/or the hot zone anchor point included in each hot zone.

In some embodiments, the anomaly prompt module is specifically configured to determine anomaly prompt information based on a target hot zone and a floor plan associated with the target hot zone and/or an association relationship between the target hot zone and other hot zones, wherein the anomaly prompt information includes at least one of an identification of the target hot zone, an identification of each of one or more upper level hot zones associated step-by-step upward from the target hot zone, a page link for displaying at least one floor plan associated with the target hot zone, and a page link for displaying the target hot zone and/or the one or more upper level hot zones, wherein the upper level hot zone associated with each hot zone is configured to manage the hot zone, and store the anomaly prompt information in target vector data, wherein the target vector data includes at least one of a target resource point, a floor plan associated with the target resource point, the target hot zone, and one or more upper level hot zones associated step-by-step upward from the target hot zone, and display the anomaly prompt information stored in the target vector data in response to a selected instruction for the target vector data.

In some embodiments, the anomaly hint module is further configured to receive an anomaly elimination instruction for the target resource point, the anomaly elimination instruction being configured to indicate that the anomaly state of the target resource point has been eliminated, and delete the stored anomaly hint information in the target vector data in response to the anomaly elimination instruction.

In some embodiments, the resource management device further comprises a hot zone creation module, wherein the hot zone creation module is used for creating at least one hot zone on a map and establishing an association relation among the hot zones in response to a hot zone creation operation, receiving at least one floor plan which is respectively input by a user for the hot zones, determining at least one floor plan which is associated with each hot zone based on the input at least one floor plan, receiving at least one resource point information which is input by the user for each floor plan, and determining resource points which are associated with each floor plan based on the input at least one resource point information.

In some embodiments, the hot zone creation module is specifically configured to create at least one hot zone based on rendering on a map of the plurality of hot zone endpoints in response to a user's operation of drawing the plurality of hot zone endpoints on the map, or create at least one hot zone based on a target area in response to a user's operation of selecting or demarcating the target area on the map, or create at least one hot zone based on an interface center area of a map presentation interface in response to a user's confirmation operation on the map presentation interface, where the map presentation interface is used to present the map.

It should be noted that the above division of the modules is merely a logic function division, and other division manners may be implemented in practice. For example, two or more functions may also be integrated in one processing module. The integrated modules may be implemented in hardware or in software functional modules.

In the case of implementing the functions of the integrated modules in the form of hardware, the embodiment of the application also provides a schematic structural diagram of the electronic device. As shown in fig. 6, the electronic device 600 includes a processor 602, a bus 604. Optionally, the electronic device may further comprise a memory 601, optionally the electronic device may further comprise a communication interface 603.

The processor 602 may be any means for implementing or executing the various exemplary logic blocks, modules and circuits described in connection with the present application. The processor 602 may be a central processing unit, a general purpose processor, a digital signal processor, an application specific integrated circuit, a field programmable gate array or other programmable logic device, a transistor logic device, a hardware component, or any combination thereof. Which may implement or perform the various exemplary logic blocks, modules and circuits described in connection with this application. The processor 602 may also be a combination that performs computing functions, such as including one or more microprocessors, a combination of a DSP and a microprocessor, and the like.

A communication interface 603 for connecting with other devices via a communication network. The communication network may be an ethernet, a radio access network, a wireless local area network (wireless local area networks, WLAN), etc.

The memory 601 may be, but is not limited to, a read-only memory (ROM) or other type of static storage device that can store static information and instructions, a random access memory (random access memory, RAM) or other type of dynamic storage device that can store information and instructions, or an electrically erasable programmable read-only memory (ELECTRICALLY ERASABLE PROGRAMMABLE READ-only memory, EEPROM), magnetic disk storage or other magnetic storage device, or any other medium that can be used to carry or store desired program code in the form of instructions or data structures and that can be accessed by a computer.

As a possible implementation, the memory 601 may exist separately from the processor 602, and the memory 601 may be connected to the processor 602 through the bus 604 for storing instructions or program codes. The processor 602, when calling and executing instructions or program code stored in the memory 601, is capable of implementing the resource management method provided by the embodiment of the present application.

In another possible implementation, the memory 601 may also be integrated with the processor 602.

Bus 604, which may be an extended industry standard architecture (extended industry standard architecture, EISA) bus, or the like. The bus 604 may be divided into an address bus, a data bus, a control bus, and the like. For ease of illustration, only one thick line is shown in fig. 6, but not only one bus or one type of bus.

From the foregoing description of the embodiments, it will be apparent to those skilled in the art that, for convenience and brevity of description, only the above-described division of functional modules is illustrated, and in practical application, the above-described functional allocation may be performed by different functional modules according to needs, i.e. the internal structure of the electronic device is divided into different functional modules to perform all or part of the functions described above.

The embodiment of the application also provides a computer readable storage medium. All or part of the above-described method embodiments may be implemented by computer instructions to instruct related hardware, and the program may be stored in a computer readable storage medium, where the program, when executed, may include the above-described method embodiments. The computer readable storage medium may be any of the foregoing embodiments or memory. The computer-readable storage medium may be the external storage device of the electronic device, for example, a plug-in hard disk, a smart memory card (SMART MEDIA CARD, SMC), a Secure Digital (SD) card, a flash memory card (FLASH CARD) or the like. Further, the computer readable storage medium may include both an internal storage unit and/or an external storage device of the electronic device. Furthermore, the computer-readable storage medium may be used to store a computer program product as well as other programs and data required by the above-described electronic device. The above-described computer-readable storage medium may also be used to temporarily store data that has been output or is to be output.

Embodiments of the present application also provide a computer program product which, when run on a computer, causes the computer to perform any of the resource management methods provided in the embodiments above. The computer program product may also be referred to as report authoring software, resource management software, or report editor, etc.

Although the application is described herein in connection with various embodiments, other variations to the disclosed embodiments can be understood and effected by those skilled in the art in practicing the claimed application, from a study of the drawings, the disclosure, and the appended claims. The word "comprising" (Comprising) does not exclude other elements or steps, and the "a" or "an" does not exclude a plurality. A single processor or other unit may fulfill the functions of several items recited in the claims. The mere fact that certain measures are recited in mutually different dependent claims does not indicate that a combination of these measures cannot be used to advantage.

Although the application has been described in connection with specific features and embodiments thereof, it will be apparent that various modifications and combinations can be made without departing from the spirit and scope of the application. Accordingly, the specification and drawings are merely exemplary illustrations of the present application as defined in the appended claims and are considered to cover any and all modifications, variations, combinations, or equivalents that fall within the scope of the application. It will be apparent to those skilled in the art that various modifications and variations can be made to the present application without departing from the spirit or scope of the application. Thus, it is intended that the present application also include such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.

The present application is not limited to the above embodiments, and any changes or substitutions within the technical scope of the present application should be covered by the scope of the present application. Therefore, the protection scope of the present application should be subject to the protection scope of the claims.

Claims (14)

1. A resource management method, characterized in that the method comprises: In the case where it is detected that the target resource point is in an abnormal state, determining in the map a target hot zone associated with the floor plan corresponding to the target resource point; wherein the map includes a plurality of hot zones, and there is an association relationship between the plurality of hot zones; each of the hot zones corresponds to an actual geographical area and is associated with at least one floor plan; Based on the target thermal zone, and the floor plan associated with the target thermal zone and/or the association relationship between the target thermal zone and other thermal zones, an abnormality prompt is performed; wherein the abnormality prompt is used to prompt that an abnormality exists in the actual geographical area corresponding to the target thermal zone. 2. The method according to claim 1, characterized in that the abnormal prompt based on the target thermal zone, the floor plan associated with the target thermal zone and/or the association relationship between the target thermal zone and other thermal zones comprises: Determining at least one floor plan associated with the target thermal zone based on the target thermal zone and the floor plan associated with the target thermal zone; At least one floor plan associated with the target hot zone is displayed; wherein, in the at least one floor plan associated with the target hot zone, the display form of the floor plan associated with the target resource point is set to an abnormal prompt form, and the abnormal prompt form is used to prompt the existence of the target resource point. 3. The method according to claim 2, wherein the at least one floor plan diagram showing the association of the target hot zone comprises: Displaying each of the at least one floor plan layout in a resource management interface; Among them, the arrangement order of each of the at least one floor plan in the resource management interface is determined based on any one of the following: user sorting instructions, a preset arrangement order corresponding to the floor plan, or the altitude of the geographical area corresponding to the floor plan. 4. The method according to claim 1, characterized in that the abnormal prompt based on the target thermal zone, the floor plan associated with the target thermal zone and/or the association relationship between the target thermal zone and other thermal zones comprises: Based on the target thermal zone and the association relationship between the target thermal zone and other thermal zones, at least one abnormal thermal zone is determined; the at least one abnormal thermal zone includes the target thermal zone and/or one or more upper-level thermal zones associated with the target thermal zone step by step upward, wherein the upper-level thermal zone associated with each thermal zone is used to manage the thermal zone; The at least one abnormal hot zone is displayed, and the display form of the abnormal hot zone is set to an abnormal prompt form, and the abnormal prompt form is used to prompt the existence of the target resource point. 5. The method according to claim 4, characterized in that the method further comprises: receiving a hot zone selection instruction; and selecting an abnormal hot zone from the at least one abnormal hot zone in response to the hot zone selection instruction; In the case where the selected abnormal hot zone is a hot zone in the one or more upper-level hot zones, at least one lower-level hot zone associated with the abnormal hot zone is displayed based on the association relationship between the hot zones; wherein the lower-level hot zones associated with each hot zone are managed by the hot zone, and the display form of the lower-level hot zones belonging to the abnormal hot zone in the at least one lower-level hot zone is set to an abnormal prompt form; In the case where the selected abnormal hot zone is the target hot zone, the various plan layout drawings associated with the target hot zone are displayed based on the plan layout drawings associated with each of the hot zones; wherein the display form of the plan layout drawing associated with the target resource point is set to the abnormal prompt form. 6. The method according to claim 5, characterized in that each of the hot zones comprises: a hot zone area and/or a hot zone anchor point; wherein the hot zone area is used to indicate a corresponding area of an actual geographical area corresponding to the hot zone on the map, and the hot zone anchor point is used to uniquely identify the hot zone on the map in the form of an icon; The step of selecting an abnormal hot zone from the at least one abnormal hot zone in response to the hot zone selection instruction comprises: In response to a hot zone selection instruction for a hot zone region and/or a hot zone anchor point included in each of the hot zones, an abnormal hot zone is selected from the at least one abnormal hot zone. 7. The method according to claim 1, characterized in that the abnormal prompt based on the target thermal zone, the floor plan associated with the target thermal zone and/or the association relationship between the target thermal zone and other thermal zones comprises: Based on the target hot zone, the floor plan associated with the target hot zone and/or the association relationship between the target hot zone and other hot zones, abnormal prompt information is determined; the abnormal prompt information includes at least one of the following: an identifier of the target hot zone, an identifier of each of the one or more upper-level hot zones associated with the target hot zone step by step upward, a page link for displaying at least one floor plan associated with the target hot zone, and a page link for displaying the target hot zone and/or the one or more upper-level hot zones; wherein the upper-level hot zone associated with each hot zone is used to manage the hot zone; Storing the abnormal prompt information in target vector data; wherein the target vector data includes the target resource point, the floor plan associated with the target resource point, the target hot zone, and at least one of one or more upper-level hot zones associated with the target hot zone step by step upward; In response to an instruction to select the target vector data, abnormal prompt information stored in the target vector data is displayed. 8. The method according to claim 1, characterized in that the hot zone satisfies at least one of the following conditions: Multiple hot zones that are geographically unconnected are associated with the same upper-level hot zone, wherein the upper-level hot zone of each hot zone is used to manage the hot zone; The floor plans corresponding to multiple spaces with the same geographical location and different altitudes are associated with the same hot zone; The same thermal zone is associated with multiple different parent thermal zones. 9. The method according to claim 1, characterized in that the method further comprises: In response to the hot zone creation operation, creating at least one hot zone on the map and establishing associations between the hot zones; receiving at least one floor plan inputted by a user for each of the thermal zones; and determining at least one floor plan associated with each of the thermal zones based on the at least one floor plan inputted; Receive at least one resource point information input by a user for each of the floor plan layouts; and determine the resource point associated with each of the floor plan layouts based on the at least one resource point information input. 10. The method according to claim 9, wherein in response to the hot zone creation operation, creating the at least one hot zone on the map comprises: In response to a user's operation of drawing a plurality of hot zone endpoints on the map, rendering is performed on the map based on the plurality of hot zone endpoints to create the at least one hot zone; or, In response to a user selecting or delimiting a target area on the map, creating the at least one hot zone on the map based on the target area; or, In response to a confirmation operation of the user on a map display interface, at least one hot zone is created based on a central area of an interface of the map display interface, and the map display interface is used to display the map. 11. A resource management device, comprising: A resource detection module, configured to determine, in a map, a target hot zone associated with a floor plan corresponding to the target resource point when a target resource point is detected to be in an abnormal state; wherein the map includes a plurality of hot zones, and there is an association relationship between the plurality of hot zones; each of the hot zones corresponds to an actual geographical area and is associated with at least one floor plan; The abnormal prompt module is used to provide abnormal prompts based on the target hot zone, the floor plan associated with the target hot zone and/or the association relationship between the target hot zone and other hot zones; wherein the abnormal prompt is used to prompt the user that there is a target resource point in an abnormal state. 12. An electronic device comprising a memory, a processor and a computer program stored in the memory, wherein the processor executes the computer program to implement the steps of the method according to any one of claims 1 to 10. 13. A computer-readable storage medium having computer instructions stored thereon, wherein the computer instructions, when executed by a processor, implement the steps of the method according to any one of claims 1 to 10. 14. A computer program product, comprising computer instructions, characterized in that when the computer instructions are executed, the steps of the method according to any one of claims 1 to 10 are implemented.