CN112651567B - A method, system and storage medium for supervising and managing the implementation of national land space planning - Google Patents

Abstract

The present application relates to a method, system and storage medium for supervising and managing the implementation of national land space planning, and relates to the technical field of national land space planning. It solves the problem that supervisors cannot effectively control whether the progress of building construction in the current construction area complies with the plan, and includes obtaining the construction area of the national land space planning and the planning progress of building construction in the corresponding construction area; starting a suitable drone to fly regularly to the corresponding construction area to photograph and obtain the real-time construction progress of the building, and comparing and analyzing whether the real-time construction progress is slower than the planning progress of the building construction; when the real-time process is slower than the planning progress of the building construction, the cause of the delay is analyzed, and the cause of the delay is sent in the form of information to the terminal device of the person in charge of the general supervision of the building construction in the corresponding construction area; otherwise, no notification is made. The present application facilitates the general supervisor to promptly understand whether the construction progress of the buildings in the construction area complies with the plan.

Description

Method, system and storage medium for implementing supervision and management of homeland space planning

Technical Field

The application relates to the technical field of homeland space planning, in particular to a method, a system and a storage medium for implementing supervision and management of homeland space planning.

Background

The homeland space planning is a national space development guide and a sustainable development space blueprint, and is a basic basis for various development, protection and construction activities.

After the existing homeland space planning is completed, the construction is unfolded according to the building required to be constructed at the planned site and the planned construction time, and the progress in the construction process is controlled to be mainly obtained by a mode that supervision personnel periodically go to the site for investigation.

Aiming at the related technology, the inventor considers that the defects are that the inspection of the building construction progress by the supervisory personnel depends on the site report of the construction site responsible person more, and the report of the construction site responsible person has the deviation of personal subjective cognition and is not necessarily accurate, so that the supervisory personnel cannot effectively control whether the building construction progress of the current building area accords with the planning.

Disclosure of Invention

In order to facilitate a general supervision staff to know whether the construction process of a building in a construction area accords with planning or not in time, the application provides a method, a system and a storage medium for implementing supervision and management of homeland space planning.

In a first aspect, the application provides a method for implementing supervision and management of homeland space planning, which adopts the following technical scheme:

A method for implementing supervision and management of homeland space planning comprises the following steps:

acquiring a planning process of building construction of a building area planned by a homeland space and a corresponding building area;

Starting a proper unmanned aerial vehicle to regularly fly to a corresponding building area to shoot and acquire a real-time building process of a building, and comparing whether the real-time building process is slower than a planning process of building construction or not;

When the real-time process is slower than the planning process of building construction, analyzing the delay reason, and sending the delay reason to terminal equipment of a general supervision manager responsible for building construction of a corresponding building area in the form of information; otherwise, no notification is made.

By adopting the technical scheme, the buildings of the building area planned by the homeland space can be supervised by the unmanned aerial vehicle in time and effectively process, and the main supervision responsible person can be timely informed when the real-time process is slower, so that the main supervision responsible person is paid attention to, and the promotion of the building construction process is better ensured.

Optionally, the steps of starting a suitable unmanned aerial vehicle to fly to a corresponding building area periodically to shoot and acquire a real-time building process of a building are as follows:

Searching unmanned aerial vehicle shooting time of a corresponding building plan from a preset first database of the building with the building area stored and unmanned aerial vehicle shooting time of the corresponding building plan;

Searching the consumed electric quantity, the position and the real-time electric quantity of each numbered unmanned aerial vehicle unit flight distance from a preset first database storing the unmanned aerial vehicle number, the consumed electric quantity of the corresponding numbered unmanned aerial vehicle unit flight distance, the position of the corresponding numbered unmanned aerial vehicle and the electric quantity of the corresponding numbered unmanned aerial vehicle;

The method comprises the steps of planning a building from the position of each numbering unmanned aerial vehicle to a building area and finishing a shortest route shot by the position of each numbering unmanned aerial vehicle and a preset building, obtaining the shortest route distance, taking the shortest route distance from each numbering unmanned aerial vehicle to the building as a dividend, sequentially taking the electric quantity consumed by the unit flight distance of the corresponding numbering unmanned aerial vehicle as the dividend, analyzing and calculating the electric quantity required by each numbering unmanned aerial vehicle to reach the building of the building area one by one, synchronously taking the shortest route distance from each numbering unmanned aerial vehicle to the building as the dividend, taking the preset unmanned aerial vehicle flight speed as the divisor, and obtaining the consumption time of each numbering unmanned aerial vehicle to reach the building of the building area;

Screening unmanned aerial vehicles with the electricity quantity exceeding the required electricity quantity, selecting the unmanned aerial vehicle with the shortest time consuming time as the unmanned aerial vehicle which is actually started, and starting the unmanned aerial vehicle with the time consuming time of reaching the building of the building area before the shooting time of the unmanned aerial vehicle planned by the corresponding building;

The unmanned aerial vehicle flies to the corresponding building area along the planned shortest route to shoot and acquire the real-time building progress of the building.

Through adopting above-mentioned technical scheme, can be to the building shooting time of certainty, comprehensive consideration unmanned aerial vehicle self charge and every unmanned aerial vehicle arrive the time consuming of building, can effectively analyze out the unmanned aerial vehicle that can accomplish the shooting task to select wherein the unmanned aerial vehicle that takes time the shortest as the unmanned aerial vehicle that practical application shot, also can in time effectively accomplish the task of building progress supervision when reducing consuming time and consuming electricity.

Optionally, the analysis of the delay cause is as follows:

Comparing a photo shot by an unmanned aerial vehicle with an effect diagram of a building in a second database one by one to obtain the working procedure of the current building, and synchronously obtaining the delay reason and the delay average time of the corresponding working procedures, wherein the construction of the building can be divided into a plurality of working procedures according to the sequence;

If the real-time progress of the building, which is shot and acquired by the unmanned aerial vehicle last time, is not slower than the planning progress of building construction, and the real-time progress of the building, which is shot and acquired at this time, is slower than the planning progress of building construction, the overall delay time and the procedures which are passed in the building construction process between shooting of the unmanned aerial vehicle are acquired;

And selecting a delay reason corresponding to the delay average time closest to the overall delay time as a reason for predicting delay construction of the building.

Through adopting above-mentioned technical scheme, can effectively confirm the process of the time delay of specifically causing based on unmanned aerial vehicle twice shooting's condition to can be through the time consuming condition that causes the reason of building time delay, further confirm specific time delay reason.

Optionally, the method for performing supervision and management on homeland space planning further includes a step of, after analyzing the delay cause and before sending the delay cause in the form of information to a terminal device of a general supervision manager responsible for building construction of the corresponding building area:

Searching a procedure after the procedure confirmed by the current unmanned aerial vehicle shooting from a second database;

and searching for the follow-up procedures with the same reasons as the predicted reasons of the delay construction of the building from the follow-up procedures, and loading the corresponding follow-up procedures into information sent to a master supervision manager.

Through adopting above-mentioned technical scheme, can be after confirming the reason that causes whole time delay, whether analysis follow-up process has the same reason, also can in time inform the general supervision pipe responsible person with follow-up process under the condition that has the same reason to better draw general supervision pipe responsible person's attention, avoid the follow-up same problem that appears.

Optionally, the method for implementing supervision and management of homeland space planning further includes the step of synchronizing with loading the corresponding process in the information sent to the master supervision manager:

Searching the labeling color which is inclined by the total supervision responsible person corresponding to the building from a third database which is preset and stores the labeling color which is inclined by the total supervision responsible person corresponding to the building and the corresponding total supervision responsible person of the corresponding building;

and labeling the follow-up procedures which are the same as the reasons of the delay construction of the predicted building at this time with labeling colors which are prone to the main supervision manager.

Through adopting above-mentioned technical scheme, through adopting the label color that the main supervision responsible person tended to mark to the label of this prediction building time delay reason, can let the main supervision responsible person draw more attention to the reason.

Optionally, the method for implementing supervision and management of the homeland space planning further includes the step of sending the delay reason to a terminal device of a master supervision responsible person responsible for building construction of the corresponding building area in the form of information, wherein the steps are performed synchronously: the terminal equipment of the synchronous voice dialing user makes voice notification.

By adopting the technical scheme, the user can be better attracted by synchronizing the voice notification mode when the information is sent.

In a second aspect, the application provides a system for supervising and managing the implementation of homeland space planning, which adopts the following technical scheme:

A homeland space planning implementation supervision management system comprising a memory, a processor and a program stored on the memory and executable on the processor, which program, when loaded and executed by the processor, is capable of implementing a homeland space planning implementation supervision management method as claimed in any one of the preceding claims.

Through adopting above-mentioned technical scheme, through the accent of procedure, can be to the building of the regional building of territory space planning through unmanned aerial vehicle time effectual progress supervision to can in time inform the master supervision responsible person when real-time process is slower, with the attention that arouses the master supervision responsible person, with the promotion of better guarantee building construction process.

In a third aspect, the present application provides a computer storage medium, which adopts the following technical scheme:

A computer storage medium comprising a program capable of implementing a homeland space planning implementation supervision method as defined in any one of the preceding claims when loaded for execution by a processor.

Through adopting above-mentioned technical scheme, through the accent of procedure, can be to the building of the regional building of territory space planning through unmanned aerial vehicle time effectual progress supervision to can in time inform the master supervision responsible person when real-time process is slower, with the attention that arouses the master supervision responsible person, with the promotion of better guarantee building construction process.

In summary, the beneficial technical effects of the application are as follows:

1. The construction process of the building area can be effectively supervised, and the master supervision manager can be timely notified when the construction process of the building area is slower.

2. The unmanned aerial vehicle which is suitable for monitoring the building construction process of the building area on site can be effectively selected.

Drawings

Fig. 1 is a schematic diagram of the overall steps of a supervision and management method for homeland space planning implementation according to an embodiment of the present application.

Fig. 2 is a schematic diagram of the steps mentioned in step S200 in fig. 1 for starting a real-time building process for capturing a building by periodically flying a suitable unmanned aerial vehicle to a corresponding building area.

Fig. 3 is a schematic diagram of a specific analysis step of the delay cause mentioned in step S300 in fig. 1.

Fig. 4 is a schematic diagram of the steps in step S300 in fig. 1 after analyzing the cause of the delay and before transmitting the cause of the delay in the form of information to the terminal device of the principal responsible person in charge of the general supervision of the building construction of the corresponding building area.

Fig. 5 is a schematic diagram of the step of step S300 in fig. 1, in which the loading of the corresponding process is performed synchronously with the information sent to the master supervisor.

Detailed Description

The present application will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1, a supervision and management method, system and storage medium for homeland space planning disclosed by the application comprise steps S100 to S300.

In step S100, a planning process for building construction of a construction area planned by a homeland space and a corresponding construction area is acquired.

The planning process for building construction mentioned in step S100 may be implemented by retrieving the relevant database to obtain a specific plan.

In step S200, a suitable unmanned aerial vehicle is started to fly to a corresponding building area periodically to capture a real-time building process of a building, and whether the real-time building process is slower than a planning process of building construction is compared with the analysis.

Wherein the unmanned aerial vehicle mentioned in step S200 is a unmanned aerial vehicle operated by a radio remote control device and a self-contained program control means, or is operated autonomously, either entirely or intermittently, by an on-board computer.

Referring to fig. 2, the steps mentioned in step S200 for starting the real-time construction process of the suitable unmanned aerial vehicle to periodically fly to the corresponding construction area to capture the building may be divided into steps S2a0 to S2e0.

In step S2a0, the unmanned aerial vehicle photographing time of the corresponding building plan is found out from a first database of unmanned aerial vehicle photographing times of the corresponding building plan and the preset building stored with the building area.

In step S2b0, the power consumption, the position and the real-time power consumption of each numbered unmanned aerial vehicle unit flight distance are found out from a preset first database storing the unmanned aerial vehicle numbers, the power consumption of the corresponding numbered unmanned aerial vehicle unit flight distances, the positions of the corresponding numbered unmanned aerial vehicles and the power conditions of the corresponding numbered unmanned aerial vehicles.

In step S2c0, the position of each numbered unmanned aerial vehicle and the preset position of the building are used for planning a shortest route from each numbered unmanned aerial vehicle to the building in the building area, completing shooting, obtaining the shortest route distance, taking the shortest route distance from each numbered unmanned aerial vehicle to the building as a dividend, sequentially taking the electric quantity consumed by the unit flight distance of the corresponding numbered unmanned aerial vehicle as a dividend, analyzing and calculating the electric quantity required by each numbered unmanned aerial vehicle to reach the building in the building area one by one, synchronously taking the distance from each numbered unmanned aerial vehicle to the shortest route of the building as a dividend, taking the preset flight speed of the unmanned aerial vehicle as a divisor, and obtaining the time consumed by each numbered unmanned aerial vehicle to reach the building in the building area.

In step S2d0, the unmanned aerial vehicle with the current electric quantity exceeding the required electric quantity is screened out, the unmanned aerial vehicle with the shortest time consuming time is selected as the unmanned aerial vehicle which is actually started, and the time consuming unmanned aerial vehicle which reaches the building of the building area before the shooting time of the unmanned aerial vehicle planned by the corresponding building is advanced.

In step S2e0, the unmanned aerial vehicle flies along the planned shortest route to the corresponding building area to capture a real-time building progress of the building.

For example, there are three unmanned aerial vehicles of a first, a second and a third, assuming that the consumed electric quantity of the first reaching the building site to complete shooting is a, and the residual electric quantity of the first is 0.9a; the consumed electric quantity of the shot of the building site arriving at the second building site is 1.1a, and the residual electric quantity of the second building site is 1.2a; the electricity consumption of the shooting of the building site, which is completed by the C, is 1.2a, and the residual electricity of the C is 1.3a.

Then the unmanned aerial vehicle with the electric quantity exceeding the required electric quantity is the unmanned aerial vehicle B and C, and the unmanned aerial vehicle with the shorter distance is selected as the unmanned aerial vehicle for practical application.

In addition, step S2d0 refers to starting the unmanned aerial vehicle in time consuming for the unmanned aerial vehicle to reach the building in the building area before the unmanned aerial vehicle shooting time planned by the corresponding building, assuming that the unmanned aerial vehicle selected takes 20 minutes to reach the building in the building area and the planned shooting time of the building is 11 a.m., the time to start the unmanned aerial vehicle is 10 a.40 a.

In step S300, when the real-time process is slower than the planning process of building construction, analyzing the delay reason, and sending the delay reason to the terminal equipment of the main supervision responsible person in charge of building construction of the corresponding building area in the form of information; otherwise, no notification is made.

Referring to fig. 3, the analysis steps of the delay cause mentioned in step S300 may be divided into steps Sa00 to Sc00.

In step Sa00, from a second database storing preset effect graphs of buildings, corresponding processes of the corresponding effect graphs, and reasons for delay caused by corresponding building processes and time delayed by corresponding reasons, taking photos taken by unmanned aerial vehicles as query objects, comparing the photos with the effect graphs of the buildings in the second database one by one to obtain the process of the current building, and synchronously obtaining delay reasons and average delay time of the corresponding processes, wherein building construction can be divided into a plurality of processes according to sequence.

In step Sb00, if the real-time progress of the building captured by the unmanned aerial vehicle last time is not slower than the planning progress of building construction and the real-time progress of the building captured by the current time is slower than the planning progress of building construction, the overall delay time and the procedures undergone in the building construction process between two times of capturing by the unmanned aerial vehicle are obtained.

In step Sc00, a delay cause corresponding to a delay average time closest to the overall delay time is selected as a cause of delay construction of the expected building.

Assuming that the overall delay time is 30 minutes, two procedures are performed between two shots of the unmanned aerial vehicle, and the time for the delay reasons caused by the two procedures is 20 minutes, 28 minutes and 33 minutes respectively, in this case, the reason corresponding to 28 minutes is selected as the reason for the delay.

Referring to fig. 4, further considering that the same reason for delay may exist in the subsequent process, the method for implementing supervision and management in homeland space planning further includes steps after analyzing the delay reason and before sending the delay reason in the form of information to the terminal device of the master supervisor responsible for building construction of the corresponding building area, which may be divided into steps S3a0 to S3b0.

In step S3a0, a step subsequent to the step confirmed by the current unmanned aerial vehicle shooting is found from the second database.

In step S3b0, the subsequent process for which the same cause as the cause of the delay construction of the present predicted building exists is searched for from among the subsequent processes, and the corresponding subsequent process is loaded in the information transmitted to the principal of the main supervision.

For example, if there is a process that matches the cause of the delay in the subsequent process, the corresponding process is sent to the master supervisor by a short message.

Referring to fig. 5, in addition, considering that the main supervisory responsible person can better pay attention to the main supervisory responsible person when notifying the main supervisory responsible person, the method for implementing supervision and management by homeland space planning further includes a step of synchronizing with loading the corresponding process in the information sent to the main supervisory responsible person, and may be divided into steps S3A0 to S3B0.

In step S3A0, the labeling color that the total supervision responsible person corresponding to the building tends to is found out from the third database of labeling colors that the preset building storing the building area and the total supervision responsible person corresponding to the corresponding building tend to.

In step S3B0, the following steps, which are the same as the cause of the delay construction of the present predicted building, are marked with the marking color that the general supervision manager tends to.

For example, the color of the label that the master supervisor tends to be red is marked with the reason red, so as to ensure that the master supervisor is notified of the reason.

The method for supervising and managing the territory space planning implementation further comprises the step of synchronously transmitting the delay reasons to terminal equipment of a master supervisor responsible for building construction of the corresponding building area in the form of information: the terminal equipment of the synchronous voice dialing user makes voice notification.

The manner of voice notification may be implemented by a voice prompt.

Embodiments of the present application also provide a computer readable storage medium comprising a program capable of implementing a method as any of fig. 1-5 when loaded and executed by a processor.

The computer-readable storage medium includes, for example: a usb disk, a removable hard disk, a Read-only memory (ROM), a random access memory (RandomAccessMemory, RAM), a magnetic disk, or an optical disk, or other various media capable of storing program codes.

Based on the same inventive concept, the embodiment of the application also provides a system for implementing supervision and management of homeland space planning, which comprises a memory and a processor, wherein the memory stores a program capable of running on the processor to realize any one of the methods shown in fig. 1 to 5.

It will be apparent to those skilled in the art that, for convenience and brevity of description, only the above-described division of the 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 apparatus is divided into different functional modules to perform all or part of the functions described above. The specific working processes of the above-described systems, devices and units may refer to the corresponding processes in the foregoing method embodiments, which are not described herein.

In the several embodiments provided in the present application, it should be understood that the disclosed systems, devices, and methods may be implemented in other manners. For example, the apparatus embodiments described above are merely illustrative, e.g., the division of modules or units is merely a logical functional division, and there may be additional divisions when actually implemented, e.g., multiple units or components may be combined or integrated into another system, or some features may be omitted or not performed. Alternatively, the coupling or direct coupling or communication connection shown or discussed with each other may be an indirect coupling or communication connection via some interfaces, devices or units, which may be in electrical, mechanical or other form.

The units described as separate units may or may not be physically separate, and units shown as units may or may not be physical units, may be located in one place, or may be distributed over a plurality of network units. Some or all of the units may be selected according to actual needs to achieve the purpose of the solution of this embodiment.

In addition, each functional unit in the embodiments of the present application may be integrated in one processing unit, or each unit may exist alone physically, or two or more units may be integrated in one unit. The integrated units may be implemented in hardware or in software functional units.

The integrated units, if implemented in the form of software functional units and sold or used as stand-alone products, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present application may be embodied in essence or a part contributing to the prior art or all or part of the technical solution in the form of a software product stored in a storage medium, including several instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) or a processor (processor) to execute all or part of the steps of the method according to the embodiments of the present application. And the aforementioned storage medium includes: various media capable of storing program codes, such as a U disk, a mobile hard disk, a read-only memory, a random access memory, a magnetic disk or an optical disk.

The embodiments of the present invention are all preferred embodiments of the present invention, and are not intended to limit the scope of the present invention in this way, therefore: all equivalent changes in structure, shape and principle of the invention should be covered in the scope of protection of the invention.

Claims (6)

1. A method for supervising and managing the planning implementation of a homeland space is characterized in that:

acquiring a planning process of building construction of a building area planned by a homeland space and a corresponding building area;

Starting a proper unmanned aerial vehicle to regularly fly to a corresponding building area to shoot and acquire a real-time building process of a building, and comparing whether the real-time building process is slower than a planning process of building construction or not;

When the real-time process is slower than the planning process of building construction, analyzing the delay reason, and sending the delay reason to terminal equipment of a general supervision manager responsible for building construction of a corresponding building area in the form of information; otherwise, no notification is made;

The method for starting the suitable unmanned aerial vehicle to regularly fly to the corresponding building area to shoot and acquire the real-time building process of the building comprises the following steps:

Searching unmanned aerial vehicle shooting time of a corresponding building plan from a preset first database of the building with the building area stored and unmanned aerial vehicle shooting time of the corresponding building plan;

Searching the consumed electric quantity, the position and the real-time electric quantity of each numbered unmanned aerial vehicle unit flight distance from a preset first database storing the unmanned aerial vehicle number, the consumed electric quantity of the corresponding numbered unmanned aerial vehicle unit flight distance, the position of the corresponding numbered unmanned aerial vehicle and the electric quantity of the corresponding numbered unmanned aerial vehicle;

The method comprises the steps of planning a building from the position of each numbering unmanned aerial vehicle to a building area and finishing a shortest route shot by the position of each numbering unmanned aerial vehicle and a preset building, obtaining the shortest route distance, taking the shortest route distance from each numbering unmanned aerial vehicle to the building as a dividend, sequentially taking the electric quantity consumed by the unit flight distance of the corresponding numbering unmanned aerial vehicle as the dividend, analyzing and calculating the electric quantity required by each numbering unmanned aerial vehicle to reach the building of the building area one by one, synchronously taking the shortest route distance from each numbering unmanned aerial vehicle to the building as the dividend, taking the preset unmanned aerial vehicle flight speed as the divisor, and obtaining the consumption time of each numbering unmanned aerial vehicle to reach the building of the building area;

Screening unmanned aerial vehicles with the electricity quantity exceeding the required electricity quantity, selecting the unmanned aerial vehicle with the shortest time consuming time as the unmanned aerial vehicle which is actually started, and starting the unmanned aerial vehicle with the time consuming time of reaching the building of the building area before the shooting time of the unmanned aerial vehicle planned by the corresponding building;

The unmanned aerial vehicle flies to the corresponding building area along the planned shortest route to shoot and acquire the real-time building process of the building;

The analysis of the cause of the delay is as follows:

Comparing a photo shot by an unmanned aerial vehicle with an effect diagram of a building in a second database one by one to obtain the working procedure of the current building, and synchronously obtaining the delay reason and the delay average time of the corresponding working procedures, wherein the construction of the building can be divided into a plurality of working procedures according to the sequence;

If the real-time progress of the building, which is shot and acquired by the unmanned aerial vehicle last time, is not slower than the planning progress of building construction, and the real-time progress of the building, which is shot and acquired at this time, is slower than the planning progress of building construction, the overall delay time and the procedures which are passed in the building construction process between shooting of the unmanned aerial vehicle are acquired;

And selecting a delay reason corresponding to the delay average time closest to the overall delay time as a reason for predicting delay construction of the building.

2. The method according to claim 1, further comprising the step of, after analyzing the delay cause and before sending the delay cause in the form of information to a terminal device of a master manager responsible for building construction of the corresponding building area:

Searching a procedure after the procedure confirmed by the current unmanned aerial vehicle shooting from a second database;

and searching for the follow-up procedures with the same reasons as the predicted reasons of the delay construction of the building from the follow-up procedures, and loading the corresponding follow-up procedures into information sent to a master supervision manager.

3. The homeland space planning implementation supervision method according to claim 2, further comprising the step of synchronizing with loading the corresponding process in the information sent to the master supervisor:

Searching the labeling color which is inclined by the total supervision responsible person corresponding to the building from a third database which is preset and stores the labeling color which is inclined by the total supervision responsible person corresponding to the building and the corresponding total supervision responsible person of the corresponding building;

and labeling the follow-up procedures which are the same as the reasons of the delay construction of the predicted building at this time with labeling colors which are prone to the main supervision manager.

4. The method for performing supervision and management on a homeland space planning according to claim 1, wherein the method comprises the following steps: the method for supervising and managing the homeland space planning implementation further comprises the step of sending the delay reasons to terminal equipment of a master supervision responsible person responsible for building construction of the corresponding building area in the form of information, wherein the terminal equipment is synchronously carried out: the terminal equipment of the synchronous voice dialing user makes voice notification.

5. A homeland space planning implementation supervision and management system comprising a memory, a processor and a program stored on the memory and executable on the processor, the program being capable of implementing the homeland space planning implementation supervision and management method as claimed in any one of claims 1 to 4 when loaded and executed by the processor.

6. A computer storage medium, characterized by: comprising a program capable of implementing the homeland space planning implementation supervision method as defined in any one of claims 1 to 4 when loaded and executed by a processor.