WO2021109026A1 - Scheduling system resource tree generation method and apparatus, and scheduling apparatus and computer storage medium - Google Patents

Abstract

A scheduling system resource tree generation method and apparatus, and a scheduling apparatus and a computer storage medium. The method comprises: acquiring geographic information of a pre-monitoring region, and dividing, according to a first preset condition, the pre-monitoring region to acquire a plurality of sub-regions, wherein each sub-region corresponds to one position range (S1); generating a resource tree according to the sub-regions, wherein each node of the resource tree corresponds to each sub-region (S2); for any terminal in the pre-monitoring region, acquiring current position information of the terminal and taking same as first position information (S3); and confirming, according to the first position information of the terminal, the current sub-region corresponding to the terminal, and configuring the terminal to be under a node, corresponding to the current sub-region, of the resource tree (S4). Generating a resource tree using geographic information of a terminal can intuitively display the real-time number of terminals in a set region without using a map, such that the perception experience of a user is enhanced, and the application function is enriched.

Description

Resource tree generation method, device, scheduling device and computer storage medium of scheduling system Technical field

The present invention relates to the field of communication technology, and more specifically, to a method, a device, a scheduling device and a computer storage medium for generating a resource tree of a scheduling system.

Background technique

The trunk communication system (Trunk Communication, referred to as the trunk communication system), also known as the trunk wireless communication, is to gather a certain number of professional users of various types of sparse capacity, and use the wireless channel of the same bus to perform multi-purpose, notification and scheduling as the theme. High-performance dedicated wireless communication. Trunking communication has the characteristics of dynamic signal allocation and multi-user sharing of channel resources to make full use of limited wireless channel resources, so that members participating in trunking communications can share a wealth of special functions and services.

With the long-term evolution (LTE, Long Term Evolution) The continuous development of trunking services. In the private network trunking network, the services provided by the trunking communication system are becoming more and more abundant, including call services, such as one-to-one individual calls, and non-call services, such as short data, positioning and other services. In addition, the trunking communication system supports non-calling services and provides comprehensive services for trunking users.

In the trunking communication system, usually on the visual interface of the scheduling system, there will be a resource tree list that displays the terminal hierarchical structure and organizational structure information. With the continuous development of the overall business, the application expansion of the resource tree list has emerged Infinite possibilities, especially in daily command and dispatch work, there will be situations where the corresponding terminal information needs to be obtained from the map, and the resource tree in the existing dispatch system has no way to visually display this data. It needs to be carried out from the map. Manual statistics. In the statistical process, when the amount of data is large, large data deviations will occur, resulting in missing information.

Moreover, most of the existing scheduling system resource tree display and update methods use the resource tree displayed by the scheduling console to be consistent with the organizational node of the account opened in the network management. The display method is too single, only the hierarchical relationship set by the user, and the business relationship is relatively short. Poor, and the node relationship changes that appear on the network management system cannot be updated to the scheduling system in real time.

technical problem

The technical problem to be solved by the present invention is to provide a method, a device, a scheduling device and a computer storage medium for generating a resource tree of a scheduling system in view of the above-mentioned partial technical defects of the prior art.

Technical solutions

The technical solution adopted by the present invention to solve its technical problem is: constructing a scheduling system resource tree generation method, including the following steps:

S1. Acquire geographic information of a pre-monitoring area, and divide the pre-monitoring area to obtain multiple sub-areas, each of the sub-areas corresponds to a location range;

S2. Generate a resource tree according to the sub-region, and each node of the resource tree corresponds to the sub-region;

S3. For any terminal in the pre-monitoring area, obtain its current location information and use it as the first location information;

S4. Confirm the current subregion corresponding to the terminal according to the first location information of the terminal, and set the terminal under the node of the resource tree corresponding to the current subregion.

Preferably, the method further includes:

S5. Acquire real-time location information of the terminal and use it as second location information of the terminal;

S6. When the second location information of the terminal meets the preset condition, determine whether the terminal is in the current sub-area according to the second location information of the terminal, if not, perform step S7, if yes, perform The step S5;

S7. Delete the terminal from the current node of the resource tree, set the second location information of the terminal as the new first location information, and execute the step S4.

Preferably, in the step S1, the acquiring a plurality of sub-regions includes: acquiring at least one of the first sub-region, the second sub-region...the N-1th sub-region, the N-th sub-region, wherein each of the first sub-regions, the second sub-region, and the N-th sub-region A sub-region includes a plurality of the second sub-regions, and so on, each of the N-1 th sub-region includes a plurality of the N-th sub-regions;

In the step S2, the node includes at least one first node, a second node... the Nth node, the first node corresponds to the first sub-area, and the second node corresponds to the second node. Corresponding to the sub-region, ... the Nth node corresponds to the Nth sub-region, and N is an integer greater than 2.

Preferably, in the step S1, the dividing the pre-monitoring area includes:

Divide according to the administrative jurisdiction division of the pre-monitoring area, divide according to the regional function of the pre-monitoring area, divide and divide according to the pattern shape of the pre-monitoring area, and divide the pre-monitoring area according to user-defined One or more of.

Preferably, the node name of the resource tree includes a preset name.

Preferably, in the step S6, that the second location information of the terminal satisfies a preset condition includes: the second location information of the terminal changes relative to the first location information of the terminal.

Preferably, in the step S6, that the second location information of the terminal satisfies a preset condition includes: the change value of the second location information of the terminal relative to the first location information of the terminal is greater than a preset value .

Preferably, the first location information of the terminal includes two-dimensional location information or three-dimensional location information, and the second location information of the terminal includes two-dimensional location information or three-dimensional location information.

The present invention also constructs a scheduling system resource tree generation device, which includes:

The first acquiring unit is used to acquire geographic information of the pre-monitored area;

An area dividing unit, configured to divide the pre-monitoring area to obtain a plurality of sub-areas, and each of the sub-areas corresponds to a location range;

A generating unit, configured to generate a resource tree according to the sub-region, and each node of the resource tree corresponds to the sub-region;

The second acquiring unit is configured to acquire the current location information of any terminal in the pre-monitoring area as the first location information;

The first execution unit is configured to confirm the current subregion corresponding to the terminal according to the first location information of the terminal, and set the terminal under the node of the resource tree corresponding to the current subregion.

Preferably, the resource tree generation device of the scheduling system of the present invention further includes:

The third acquiring unit is configured to acquire the real-time location information of the terminal as the second location information of the terminal;

The judging unit is configured to determine whether the terminal is in the current sub-area according to the second location information of the terminal when the second location information of the terminal meets a preset condition, and when the output result is no, control The second execution unit action, when the output result is yes, control the third acquisition unit action,

The second execution unit is configured to delete the terminal from the current node of the resource tree, set the second location information of the terminal as new first location information, and control the first execution Unit action.

Preferably, in the resource tree generation device of the scheduling system of the present invention, the multiple sub-regions acquired by the area dividing unit include: acquiring at least one of the first sub-region, the second sub-region...the N-1th sub-region, the N-th sub-region Regions, wherein each of the first subregions includes a plurality of the second subregions, and so on, each of the N-1th subregions includes a plurality of the Nth subregions;

The nodes generated by the generating unit include at least one first node, a second node, ... the Nth node, the first node corresponds to the first sub-region, and the second node corresponds to the second sub-region ,... The Nth node corresponds to the Nth subregion, and N is an integer greater than 2.

Preferably, in the device for generating a resource tree for a scheduling system of the present invention, the area dividing unit includes one or more of a first dividing unit, a second dividing unit, a third dividing unit, and a fourth dividing unit;

The first division unit is configured to divide according to the administrative jurisdiction division of the pre-monitoring area;

The second dividing unit is configured to divide according to the regional function of the pre-monitoring area;

The third dividing unit is configured to divide according to the pattern shape of the pre-monitoring area;

The fourth dividing unit is configured to divide the pre-monitoring area according to user definition.

Preferably, in the resource tree generated by the generating unit, the node name of the resource tree includes a preset name.

Preferably, the judging unit judging that the second location information of the terminal satisfies a preset condition includes: judging that the second location information of the terminal has changed relative to the first location information of the terminal.

Preferably, the judging unit judging that the second location information of the terminal satisfies a preset condition includes: judging that a change value of the second location information of the terminal relative to the first location information of the terminal is greater than a preset value.

Preferably, the first location information of the terminal acquired by the first acquiring unit includes two-dimensional location information or three-dimensional location information, and the second location information of the terminal acquired by the second acquiring unit includes two-dimensional location information. Or three-dimensional location information.

The present invention also constructs a scheduling device, including: a processor, a memory,

The memory is used to store program instructions;

The processor is configured to execute any one of the above scheduling system resource tree generation methods according to program instructions stored in the memory.

The present invention also constructs a computer storage medium on which a computer program is stored, and when the computer program is executed by a processor, the scheduling system resource tree generation method as described in any one of the above is realized.

Beneficial effect

Implementing the resource tree generation method, device, scheduling device and computer storage medium of the scheduling system of the present invention has the following beneficial effects: using the geographic information of the terminal to generate the resource tree, without using a map, intuitively displaying the number of real-time terminals in the set area , Improve the user's perception experience and enrich the application functions.

Description of the drawings

The present invention will be further described below in conjunction with the accompanying drawings and embodiments. In the accompanying drawings:

Fig. 1 is a program flow chart of the first embodiment of the resource tree generation method of the scheduling system of the present invention;

2 is a program flow chart of the second embodiment of the resource tree generation method of the scheduling system of the present invention;

Fig. 3 is a logical block diagram of the first embodiment of the resource tree generation device of the scheduling system of the present invention;

Fig. 4 is a logical block diagram of the second embodiment of the resource tree generation device of the scheduling system of the present invention.

Embodiments of the present invention

In order to have a clearer understanding of the technical features, objectives and effects of the present invention, the specific embodiments of the present invention will now be described in detail with reference to the accompanying drawings.

As shown in Fig. 1, in the first embodiment of the resource tree generation method of the scheduling system of the present invention, the method includes:

S1. Obtain the geographic information of the pre-monitoring area, and divide the pre-monitoring area to obtain multiple sub-areas. Each sub-area corresponds to a location range; specifically, the pre-monitoring area will be divided on the map based on the preset geographic information Into several sub-regions of different scopes. It is understood that the map can be displayed or not. The boundary of the corresponding sub-region can be displayed on the map or not. The pre-monitoring area here can be set according to the coverage of a communication system such as a trunking system. For example, the coverage of a base station or the coverage of a functional network composed of multiple base stations can be set as the pre-monitoring area.

S2. Generate a resource tree based on sub-regions, and each node of the resource tree corresponds to a sub-region; specifically, generate a resource tree based on the divided sub-regions, where each sub-region is named or numbered, and the name of each node of the resource tree Both correspond to the name or number of the sub-area.

S3. For any terminal in the pre-monitoring area, obtain its current location information and use it as the first location information; specifically, obtain the current location information of the terminal in the pre-monitoring area.

S4. Confirm the current subregion corresponding to the terminal according to the first location information of the terminal, and set the terminal under the node of the resource tree corresponding to the current subregion. Specifically, according to the current location information of the terminal acquired previously, that is, the first position information, the location information is compared with the location range corresponding to the sub-region to determine the sub-region to which the terminal currently belongs, and the terminal is set accordingly Under the node of the resource tree corresponding to the current subarea. In this way, the terminal is set under the appropriate node according to its location information. It can also be understood that the number of terminals under a node can be obtained intuitively, that is, the number of terminals in an area. When derived into practical applications, for example, it can be implemented in the field of command and dispatch. During daily dispatch and major security activities, the police force distribution in the corresponding area can be directly obtained from the resource tree for dynamic dispatch. In addition, in the event of a sudden alarm, by viewing the resource tree list, you can intuitively view the police force distribution in the area where the alarm occurred and the adjacent area, so as to quickly dispatch according to the actual situation. At the same time, after the terminal corresponds to each sub-area, the location of the terminal can be obtained even when there is no map display, and reasonable scheduling can be performed according to the location of the terminal, which simplifies the user operation process.

Further, as shown in FIG. 2, in the second embodiment of the resource tree generation method of the scheduling system of the present invention, on the basis of the foregoing, it further includes: S5. Acquire real-time location information of the terminal and use it as the second location of the terminal Information; S6. When the second location information of the terminal meets the preset condition, determine whether the terminal is in the current subarea according to the second location information of the terminal, if not, perform step S7; S7, remove the terminal from the current node of the resource tree Delete and set the second location information of the terminal as the new first location information, and execute step S4. Specifically, the real-time location information of the terminal is acquired, and the real-time location information obtained is used as the second location information of the terminal. When the second location information of the terminal meets a preset condition, it is determined that the second location information of the terminal is different from the second location information of the terminal. Whether the location information corresponding to the current corresponding sub-area is consistent, that is, it is determined whether the terminal is still within the range corresponding to the current sub-area. When it is determined that the terminal is no longer in the current sub-area, then under the current sub-area node in the resource tree, Delete the terminal, confirm the sub-region corresponding to the terminal according to the second location information of the terminal, and set the terminal under the node of the resource tree corresponding to the sub-region. In addition, the real-time location information of the terminal can be acquired according to a certain rule, for example, according to a certain time period. Accordingly, the resource tree can be updated dynamically and in real time according to the real-time location information of the terminal, and the number of terminals in each sub-area can be obtained or monitored more accurately, so as to carry out the command and dispatch service more accurately. At the same time, in the absence of a map display, when a terminal enters from one sub-area to another sub-area, because the relationship between the sub-area and the sub-area is already known at some point, the node from the resource tree to which it belongs The corresponding change of can also get the approximate motion trajectory of the terminal. At the same time, step S6 also includes, if yes, execute step S5. When the second location information of the terminal meets the preset conditions, it is determined that the terminal is still in the current sub-area based on the second location information of the terminal, then there is no need to operate the terminal on the resources, and only need to continue to monitor and obtain the real-time information of the terminal. Location information for subsequent steps.

Further, in step S1, acquiring a plurality of sub-regions includes: acquiring at least one first sub-region, second sub-region...N-1th sub-region, N-th sub-region, wherein each first sub-region includes a plurality of first sub-regions. Two sub-regions, and so on, each N-1th sub-region contains a number of N-th sub-regions; in step S2, the nodes include the first node, the second node... the N-th node, the first node and the first sub-region The region corresponds, the second node corresponds to the second subregion, ... the Nth node corresponds to the Nth subregion, and N is an integer greater than 2. Specifically, when performing area division in the map, multiple levels of area division may be performed. For example, first-level sub-area division may be performed first, and each first-level sub-area includes multiple second-level sub-areas. In this way, sub-regions including N levels can be obtained in sequence, so that when the nodes of the resource tree are generated, multi-level nodes can be formed correspondingly, for example, first-level nodes are generated based on the first-level sub-regions, and generated according to the second-level sub-regions The second-level nodes, and so on, generate multi-level nodes.

Further, in some embodiments, in step S1, dividing the pre-monitoring area includes: dividing the pre-monitoring area according to the administrative jurisdiction division of the pre-monitoring area. Specifically, for some domestic and foreign public safety users, according to the normal administrative geographic area Divide. For example, each locality divides cities and streets according to their jurisdiction and administrative regions. For example, the administrative region of a provincial capital city is divided into seven districts and nine counties. Each district is subdivided into various streets, for example, Xiang'an Street , Songbei Street, etc., all small areas can be put together to cover the entire city. In some other embodiments, in step S1, dividing the pre-monitoring area includes: dividing the pre-monitoring area according to the regional function of the pre-monitoring area. Specifically, some industry users divide regions according to their own needs. For example, airport users can be divided according to the area of the terminal building, each waiting hall, passage area, etc. This category divides the three-dimensional area by way of indoor positioning. To carry out the corresponding business. It can be understood that the regional division method is not fixed, and the geographic information presentation method is not fixed. The geographic information here includes but is not limited to GPS information, which can be divided according to user needs to meet the requirements of the small areas to cover the entire area. can. Of course, in some other embodiments, the pre-monitoring area can be divided according to user definition, or the pre-monitoring area can be divided according to a specific pattern shape, etc., and it is not limited to the specific division operations listed above. Various division methods can also be combined here to realize the division of the entire pre-monitoring area.

Further, the node name of the resource tree includes a preset name. Specifically, in the node name of the resource tree, in order to be intuitive, it can directly correspond to the preset name of the respective area. The preset name may be the geographic name of the sub-area. For example, in the above area division, the node name corresponds to For a certain district, a certain street, etc., it can also be named a certain terminal building, a certain waiting hall, or a certain passage area. Of course, in other scenarios, the geographic location number can also be used directly. When dividing according to the itinerary management area, the node name of the resource tree can be the name of the administrative management area. When the monitoring area is divided by other users themselves, the name of the resource tree node can also be set according to the user’s convenience. In the case of multiple resource trees, different resource nodes can also be set according to multiple preset names of different categories.

In some embodiments, in step S6, that the second location information of the terminal satisfies the preset condition includes: the second location information of the terminal changes relative to the first location information of the terminal. Specifically, when the real-time location information of the terminal changes, it is determined that the second location information of the terminal meets the preset condition. For example, when the terminal starts to move, the location information of the terminal changes. At this time, it is determined whether the terminal is still in the corresponding sub-area according to the real-time location information of the terminal, and corresponding operations are performed according to the determination result.

In other embodiments, in step S6, that the second location information of the terminal satisfies the preset condition includes: the change value of the second location information of the terminal relative to the first location information of the terminal is greater than a preset value. Specifically, when the real-time location information of the terminal changes and when the change value satisfies a condition, for example, when the location of the terminal changes sufficiently, it is determined whether the terminal is still in the corresponding sub-area according to the real-time location information of the terminal, and Perform corresponding operations according to the judgment results. Here, through the setting of the preset value, it can be more accurately determined that the terminal has changed and may exceed its corresponding subarea. At this time, it is judged whether the terminal has exceeded its corresponding subarea, which can reduce the resource calculation process.

Further, the first location information of the terminal includes two-dimensional location information or three-dimensional location information, and the second location information of the terminal includes two-dimensional location information or three-dimensional location information. Specifically, according to the foregoing description, according to different areas to be monitored, it can also be understood that the location information corresponding to the sub-region can be two-dimensional location information or three-dimensional location information. The current location information of the terminal corresponds to the first location information as two-dimensional The location information of may also be three-dimensional location information, and the real-time location information of the terminal, that is, the second location information, may be two-dimensional location information or three-dimensional location information. For example, when dividing the administrative jurisdiction of the pre-monitoring area, two-dimensional location information can be used, and when dividing the pre-monitoring area according to the regional function, three-dimensional location information can be used. For example, an airport should also contain floors. information.

In addition, as shown in FIG. 3, in an embodiment, a resource tree generation device of a scheduling system of the present invention includes:

The first acquiring unit 310 is configured to acquire geographic information of the pre-monitored area;

The area dividing unit 320 is configured to divide the pre-monitoring area to obtain multiple sub-areas, and each sub-area corresponds to a location range;

The generating unit 330 is configured to generate a resource tree according to the sub-region, and each node of the resource tree corresponds to the sub-region;

The second acquiring unit 340 is configured to acquire current location information of any terminal in the pre-monitoring area as the first location information;

The first execution unit 350 is configured to confirm the current subregion corresponding to the terminal according to the first location information of the terminal, and set the terminal under the node of the resource tree corresponding to the current subregion.

Optionally, as shown in FIG. 4, in an embodiment, the device for generating a resource tree of a scheduling system of the present invention further includes:

The third acquiring unit 360 is configured to acquire real-time location information of the terminal as the second location information of the terminal;

The judging unit 370 is configured to determine whether the terminal is in the current subarea according to the second location information of the terminal when the second location information of the terminal meets the preset condition, and when the output result is no, control the second execution unit 380 to act, When the output result is yes, control the third acquisition unit 360 to act,

The second execution unit 380 is configured to delete the terminal from the current node of the resource tree, set the second location information of the terminal as the new first location information, and control the action of the first execution unit.

Optionally, in the device for generating a resource tree of a scheduling system of the present invention, the multiple sub-areas acquired by the area dividing unit include: acquiring at least one of the first sub-areas, the second sub-areas... the N-1th sub-areas, the Nth sub-areas, Sub-regions, where each first sub-region includes several second sub-regions, and so on, each N-1th sub-region includes several N-th sub-regions;

The nodes generated by the generating unit include at least one first node, second node...Nth node, the first node corresponds to the first sub-area, the second node corresponds to the second sub-area,...the Nth node and the Nth child Area corresponds to, N is an integer greater than 2.

Optionally, in the device for generating a resource tree for a scheduling system of the present invention, the area dividing unit includes one or more of a first dividing unit, a second dividing unit, a third dividing unit, and a fourth dividing unit;

The first division unit is used to divide the pre-monitoring area according to the administrative jurisdiction division;

The second division unit is used to divide the pre-monitoring area according to the regional function;

The third dividing unit is used for dividing according to the pattern shape of the pre-monitoring area;

The fourth dividing unit is used to divide the pre-monitoring area according to user definition.

Optionally, in the resource tree generated by the generating unit, the node name of the resource tree includes a preset name.

Optionally, the determining unit determining that the second location information of the terminal satisfies a preset condition includes: determining that the second location information of the terminal has changed relative to the first location information of the terminal.

Optionally, determining that the second location information of the terminal satisfies a preset condition by the determining unit includes: determining that a change value of the second location information of the terminal relative to the first location information of the terminal is greater than a preset value.

Optionally, the first location information of the terminal acquired by the first acquiring unit includes two-dimensional location information or three-dimensional location information, and the second location information of the terminal acquired by the second acquiring unit includes two-dimensional location information or three-dimensional location information. Specifically, for the specific cooperative operation process between the units of the scheduling system resource tree generation apparatus herein, reference may be made to the foregoing scheduling system resource tree generation method, which will not be repeated here.

In addition, a scheduling device of the present invention includes: a processor, a memory, and a memory for storing program instructions; the processor is configured to execute any one of the above scheduling system resource tree generation methods according to the program instructions stored in the memory. Specifically, a scheduling device of the present invention can perform resource tree generation according to the method described above. And the corresponding resource tree and the corresponding map can be displayed on the display interface.

In addition, a computer storage medium of the present invention has a computer program stored thereon, and when the computer program is executed by a processor, any one of the above scheduling system resource tree generation methods is implemented. Specifically, it should be noted that the above-mentioned computer-readable medium of the present invention may be a computer-readable signal medium or a computer-readable storage medium, or any combination of the two. The computer-readable storage medium may be, for example, but not limited to, an electrical, magnetic, optical, electromagnetic, infrared, or semiconductor system, device, or device, or a combination of any of the above. More specific examples of computer-readable storage media may include, but are not limited to: electrical connections with one or more wires, portable computer disks, hard disks, random access memory (RAM), read-only memory (ROM), erasable Programmable read-only memory (EPROM or flash memory), optical fiber, portable compact disk read-only memory (CD-ROM), optical storage device, magnetic storage device, or any suitable combination of the above. In the present invention, the computer-readable storage medium may be any tangible medium that contains or stores a program, and the program may be used by or in combination with an instruction execution system, apparatus, or device. In the present invention, a computer-readable signal medium may include a data signal propagated in a baseband or as a part of a carrier wave, and a computer-readable program code is carried therein. This propagated data signal can take many forms, including but not limited to electromagnetic signals, optical signals, or any suitable combination of the foregoing. The computer-readable signal medium may also be any computer-readable medium other than the computer-readable storage medium. The computer-readable signal medium may send, propagate or transmit the program for use by or in combination with the instruction execution system, apparatus, or device . The program code contained on the computer-readable medium can be transmitted by any suitable medium, including but not limited to: wire, optical cable, RF (radio frequency), etc., or any suitable combination of the above.

The above-mentioned computer-readable medium may be included in the above-mentioned electronic device; or it may exist alone without being assembled into the electronic device.

It is understandable that the above examples only express the preferred embodiments of the present invention, and the descriptions are more specific and detailed, but they should not be construed as limiting the scope of the patent of the present invention; it should be pointed out that for those of ordinary skill in the art In other words, without departing from the concept of the present invention, the above technical features can be freely combined, and several modifications and improvements can be made. These all belong to the scope of protection of the present invention; therefore, everything that follows the scope of the claims of the present invention All equivalent changes and modifications shall fall within the scope of the claims of the present invention.

Claims (18)

1. A method for generating a resource tree of a scheduling system is characterized in that it comprises the following steps:

   S1. Acquire geographic information of a pre-monitoring area, and divide the pre-monitoring area to obtain multiple sub-areas, each of the sub-areas corresponds to a location range;

   S2. Generate a resource tree according to the sub-region, and each node of the resource tree corresponds to the sub-region;

   S3. For any terminal in the pre-monitoring area, obtain its current location information and use it as the first location information;

   S4. Confirm the current subregion corresponding to the terminal according to the first location information of the terminal, and set the terminal under the node of the resource tree corresponding to the current subregion.
2. The method for generating a resource tree of a scheduling system according to claim 1, wherein the method further comprises:

   S5. Acquire real-time location information of the terminal and use it as second location information of the terminal;

   S6. When the second location information of the terminal meets the preset condition, determine whether the terminal is in the current sub-area according to the second location information of the terminal, if not, perform step S7, if yes, perform The step S5;

   S7. Delete the terminal from the current node of the resource tree, set the second location information of the terminal as the new first location information, and execute the step S4.
3. The method for generating a resource tree of a scheduling system according to claim 1, wherein in said step S1, said acquiring a plurality of sub-regions comprises: acquiring at least one of a first sub-region, a second sub-region... 1 sub-region, N-th sub-region, wherein each of the first sub-regions includes a plurality of the second sub-regions, and so on, each of the N-1th sub-regions includes a plurality of the N-th sub-regions;

   In the step S2, the node includes at least one first node, a second node... the Nth node, the first node corresponds to the first sub-area, and the second node corresponds to the second node. Corresponding to the sub-region, ... the Nth node corresponds to the Nth sub-region, and N is an integer greater than 2.
4. The method for generating a resource tree of a scheduling system according to claim 1, wherein in the step S1, the dividing the pre-monitoring area comprises:

   Divide according to the administrative jurisdiction division of the pre-monitoring area, divide according to the regional function of the pre-monitoring area, divide according to the pattern shape of the pre-monitoring area, and divide the pre-monitoring area according to user-defined One or more.
5. The method for generating a resource tree of a scheduling system according to claim 4, wherein the node name of the resource tree includes a preset name.
6. The scheduling system resource tree generation method according to claim 2, wherein in the step S6, the second location information of the terminal satisfies a preset condition: including that the second location information of the terminal is relative to The first location information of the terminal changes.
7. The method for generating a resource tree of a scheduling system according to claim 2, wherein, in the step S6, the second location information of the terminal satisfies a preset condition: including:

   The change value of the second location information of the terminal relative to the first location information of the terminal is greater than a preset value.
8. The scheduling system resource tree generation method according to claim 2, wherein the first location information of the terminal includes two-dimensional location information or three-dimensional location information, and the second location information of the terminal includes two-dimensional location information or Three-dimensional location information.
9. A resource tree generation device for a scheduling system, which is characterized in that it comprises:

   The first acquiring unit is used to acquire geographic information of the pre-monitored area;

   An area dividing unit, configured to divide the pre-monitoring area to obtain a plurality of sub-areas, and each of the sub-areas corresponds to a location range;

   A generating unit, configured to generate a resource tree according to the sub-region, and each node of the resource tree corresponds to the sub-region;

   The second acquiring unit is configured to acquire the current location information of any terminal in the pre-monitoring area as the first location information;

   The first execution unit is configured to confirm the current subregion corresponding to the terminal according to the first location information of the terminal, and set the terminal under the node of the resource tree corresponding to the current subregion.
10. The device for generating a resource tree in a scheduling system according to claim 9, characterized in that it comprises:

    The third acquiring unit is configured to acquire the real-time location information of the terminal as the second location information of the terminal;

    The judging unit is configured to determine whether the terminal is in the current sub-area according to the second location information of the terminal when the second location information of the terminal meets a preset condition, and when the output result is no, control The second execution unit action, when the output result is yes, control the third acquisition unit action,

    The second execution unit is configured to delete the terminal from the current node of the resource tree, set the second location information of the terminal as new first location information, and control the first execution Unit action.
11. The device for generating a resource tree in a scheduling system according to claim 9, wherein:

    The multiple sub-regions acquired by the area dividing unit include: acquiring at least one first sub-region, second sub-region...N-1th sub-region, N-th sub-region, wherein each of the first sub-regions contains several The second subregion, and so on, each of the N-1th subregions includes a plurality of the Nth subregions;

    The nodes generated by the generating unit include at least one first node, a second node, ... the Nth node, the first node corresponds to the first sub-region, and the second node corresponds to the second sub-region ,... The Nth node corresponds to the Nth subregion, and N is an integer greater than 2.
12. The device for generating a resource tree in a scheduling system according to claim 9, wherein:

    The area dividing unit includes one or more of a first dividing unit, a second dividing unit, a third dividing unit, and a fourth dividing unit;

    The first division unit is configured to divide according to the administrative jurisdiction division of the pre-monitoring area;

    The second dividing unit is configured to divide according to the regional function of the pre-monitoring area;

    The third dividing unit is configured to divide according to the pattern shape of the pre-monitoring area;

    The fourth dividing unit is configured to divide the pre-monitoring area according to user definition.
13. The device for generating a resource tree of a scheduling system according to claim 12, wherein in the resource tree generated by the generating unit, the node name of the resource tree includes a preset name.
14. The scheduling system resource tree generation device according to claim 10, wherein the determining unit determining that the second location information of the terminal satisfies a preset condition comprises: determining that the second location information of the terminal is relative to the The first location information of the terminal changes.
15. The scheduling system resource tree generation device according to claim 10, wherein the judging unit judging that the second location information of the terminal satisfies a preset condition comprises: judging that the second location information of the terminal is relative to the The change value of the first location information of the terminal is greater than a preset value.
16. The scheduling system resource tree generation device according to claim 10, wherein the first location information of the terminal acquired by the first acquiring unit includes two-dimensional location information or three-dimensional location information, and the second acquiring unit The acquired second location information of the terminal includes two-dimensional location information or three-dimensional location information.
17. A scheduling device, characterized by comprising: a processor, a memory,

    The memory is used to store program instructions;

    The processor is configured to execute the method for generating a resource tree of a scheduling system according to any one of claims 1-8 according to program instructions stored in the memory.
18. A computer storage medium having a computer program stored thereon, wherein the computer program implements the resource tree generation method of a scheduling system according to any one of claims 1-8 when the computer program is executed by a processor.