CN113779323A - Method for checking mutation of spatial data of territorial space planning, application system and cloud platform - Google Patents

Abstract

The invention discloses a method for checking mutation of spatial data of a territorial space planning, an application system and a cloud platform, wherein the method comprises the following steps of S1: the superior user sends an execution command to the subordinate according to the latest index of the territorial space planning, and the subordinate receives the command, synchronously executes and reports the territorial space data inspection planning rule to the superior; s2: when the lower level execution starts, the upper level user calls corresponding territorial planning space data in the database and prepares for receiving the receiving preparation of the lower level data submission; s3: the lower level sets periodic processing data and feeds back the data to the upper level user in a wireless network data transmission mode; the invention changes the spatial data mutation processing mode of service and territorial space planning in the prior art, so that the processing mode is more on-line, convenience is provided for data transmission of upper and lower stages, and the processing speed of the spatial mutation data is improved.

Description

Method for checking mutation of spatial data of territorial space planning, application system and cloud platform

Technical Field

The invention relates to the technical field of homeland space data planning, in particular to a homeland space planning space data mutation inspection method, an application system and a cloud platform.

Background

The homeland space planning business system transversely covers various departments such as surveying and mapping, natural resources, development and modification, environmental protection, residential and construction, traffic, water conservancy, agriculture, forestry and the like; the vertical direction runs through five levels of the state, province, city, county and county. In the process of using the territorial space planning space data, due to the fact that version control is disordered, data editing is misoperated or a user is maliciously tampered, the same territorial space planning space data in different levels or different departments are often inconsistent in the contents of graphic shapes, attribute information, the number of records, a space coordinate system and the like, and the situation is called as territorial space planning space data mutation. The method effectively carries out the homeland planning space data mutation inspection work, ensures the consistency and the accuracy of the homeland space planning data of all levels, is the premise for carrying out the homeland space planning of all levels, and is an important basic work penetrating through the front, middle and later stages of the homeland space planning work. The land and soil space planning space data in the invention mainly refers to the third national land and soil survey result, one picture of forest resource management, national geographical national condition general survey result, ecological protection red line, permanent basic farmland, town development boundary and other five-level synchronously used space vector graph layer data in the state, province, city, county and county.

In the prior art, the method for checking the mutation of the national soil space planning space data is single, the timeliness is poor, the upper and lower level calls are not timely, the survey period is long, time and labor are wasted, and meanwhile, data loss or data leakage is easy to occur in the data arrangement and reporting process, so that the national soil safety and the accuracy of the national soil space planning data are directly influenced greatly.

Disclosure of Invention

Solves the technical problem

Aiming at the defects in the prior art, the invention provides a method for checking spatial data mutation of a territorial space planning, an application system and a cloud platform, and solves the problems that in the prior art, the checking mode of the territorial space planning spatial data mutation is single, the timeliness is poor, the upper-level and lower-level responses are not timely, the survey period is long, time and labor are wasted, and data loss or data leakage is easy to occur in the data arrangement and reporting process.

Technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme:

a method for checking spatial data mutation of a territorial space planning comprises the following steps:

s1: the superior user sends an execution command to the subordinate according to the latest index of the territorial space planning, and the subordinate receives the command, synchronously executes and reports the territorial space data inspection planning rule to the superior;

s2: when the lower level execution starts, the upper level user calls corresponding territorial planning space data in the database and prepares for receiving the receiving preparation of the lower level data submission;

s3: the lower level sets periodic processing data and feeds back the data to the upper level user in a wireless network data transmission mode;

s4: the upper user performs space vector layer analysis on data transmitted from the lower user;

s5: performing classification analysis, namely performing shape characteristic value coordinate recording on the point layer, performing shape characteristic value length calculation on the line layer, and performing shape characteristic value area calculation on the surface layer;

s6: comparing the obtained result with old data of the territorial planning space in a sectional type domain value manner, and rechecking the generated shape characteristic difference value and the old data;

s7: the superior user sends the execution command to the homeland space data with large mutation value of the space data in a packaging and distributing mode, and returns to the step S3 again for execution;

s8: no large value of spatial data mutation occurs, including the end of the consumption of the large value of spatial data mutation, which is used as a trigger and generates jump;

s9: and finally performing interaction mixing on the new and old homeland space data to form the latest homeland space data content, and storing the latest homeland space data content into the database.

Further, in step S3, the lower level report feedback cycle reports to the upper level in the unit of the collected data amount or the working time.

Further, in step S5, the layer shape feature value calculation records are performed in order of dot-line plane within the period range.

Furthermore, the upper and lower levels share the result information in real time in the process of the homeland space planning survey, and the lower level performs corresponding adaptive adjustment according to the data comparison processing speed of the upper level user.

An application system for mutation inspection of spatial data in territorial space planning comprises:

the control center of the national and local bureau is a main control end of the national and local bureau;

the execution command issuing unit is used for issuing an execution command issued in the control center of the state and soil bureau for the next-level user to receive and execute;

the reporting module is used for reporting the lower-level work and feeding back the development plan of the upper-level work;

the mapping equipment warehouse-in and warehouse-out recording unit is used for recording warehouse-in and warehouse-out records of instruments used by a subordinate in the process of executing a surveying task;

the feedback module is used for feeding the survey data back to the upper level from the lower level;

the comparison module and the new and old data exchange and replacement unit are used for comparing data transmitted from a lower stage with old data and performing final processing, finishing the exchange of the new and old data and replacing and recording mutation data to form latest homeland space planning data;

and the filing module is used for filing and storing the nearest homeland space planning data obtained by the upper-level and lower-level cooperation.

Furthermore, a feedback period setting unit is mounted in the feedback module, and is used as a setting program of the feedback module to set an upward feedback period of the feedback module.

Furthermore, the feedback module is correspondingly provided with a data transmission encryption module which serves as the feedback module and is used for encrypting the feedback data so as to ensure that the latest survey data of the homeland space planning is not leaked.

Furthermore, the data transmission encryption module comprises the following subsystems:

the data output and input independent channel is used for establishing an independent channel for surveying data transmission, so that the data transmission channel cannot be searched and found by non-working personnel;

the signal interference source blocking module is used for maintaining stability of the independent transmission channel and preventing the independent transmission channel from being interfered by external signals;

exchange code adding unit for encrypting survey data;

and the exchange code eliminating unit is used for decrypting the data by the upper level after the user data transmission is finished.

A homeland space planning space data mutation inspection cloud platform comprises:

the cloud client is used for deploying the homeland space planning space data mutation inspection application system;

the cloud data processing terminal deploys the application system for checking the spatial data mutation of the territorial space planning and provides data comparison service for the cloud client;

and the stability maintaining program is used for maintaining the operation stability of the cloud client and the cloud data processing end, and providing new and old data storage, periodic replacement stability maintaining service and technical support for the cloud client and the cloud data processing end.

Furthermore, the stability maintaining program comprises a data recording module and a resource recycling station, and the stability maintaining program can store old data of the territorial planning space for a long time.

Advantageous effects

Compared with the known public technology, the technical scheme provided by the invention has the following beneficial effects:

1. the invention changes the spatial data mutation processing mode of service and territorial space planning in the prior art, so that the processing mode is more on-line, convenience is provided for data transmission of upper and lower stages, the processing speed of the spatial mutation data is increased, and more efficient use experience is brought to users.

2. The invention attaches the function of data transmission encryption on the improved basis, can effectively prevent the leakage problem of the data transmission of the homeland surveying and mapping, and simultaneously assists the timeliness of the data transmission accelerated by the mode of establishing the independent channel for the mutation data obtained by the homeland space surveying and mapping.

Drawings

In order to more clearly illustrate the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It is obvious that the drawings in the following description are only some embodiments of the invention, and that for a person skilled in the art, other drawings can be derived from them without inventive effort.

FIG. 1 is a schematic flow chart of a method for checking spatial data mutation in a territorial space planning according to the present invention;

FIG. 2 is a schematic diagram of an application system for checking spatial data mutation in a territorial space planning according to the present invention;

FIG. 3 is a schematic diagram of a cloud platform program for checking spatial data mutation in a territorial space planning according to the present invention;

the reference numerals in the drawings denote: 1. a State and soil administration control center; 2. executing the command issuing unit; 3. a reporting module; 4. a recording unit for the mapping equipment to enter and exit the warehouse; 5. a feedback module; 6. a feedback period setting unit; 7. a data transmission encryption module; 71. data input and output independent channels; 72. a signal interference source blocking module; 73. an exchange code adding unit; 74. an exchange code eliminating unit; 8. a comparison module and a new and old data interactive replacement unit; 9. and a gear entering module.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings. It is to be understood that the embodiments described are only a few embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The present invention will be further described with reference to the following examples.

Example 1

In this embodiment, as shown in fig. 1, the method for checking abrupt change of spatial data in a territorial space planning includes:

s1: the superior user sends an execution command to the subordinate according to the latest index of the territorial space planning, and the subordinate receives the command, synchronously executes and reports the territorial space data inspection planning rule to the superior;

s2: when the lower level execution starts, the upper level user calls corresponding territorial planning space data in the database and prepares for receiving the receiving preparation of the lower level data submission;

s3: the lower level sets periodic processing data and feeds back the data to the upper level user in a wireless network data transmission mode;

s4: the upper user performs space vector layer analysis on data transmitted from the lower user;

s5: performing classification analysis, namely performing shape characteristic value coordinate recording on the point layer, performing shape characteristic value length calculation on the line layer, and performing shape characteristic value area calculation on the surface layer;

s6: comparing the obtained result with old data of the territorial planning space in a sectional type domain value manner, and rechecking the generated shape characteristic difference value and the old data;

s7: the superior user sends the execution command to the homeland space data with large mutation value of the space data in a packaging and distributing mode, and returns to the step S3 again for execution;

s8: no large value of spatial data mutation occurs, including the end of the consumption of the large value of spatial data mutation, which is used as a trigger and generates jump;

s9: and finally performing interaction mixing on the new and old homeland space data to form the latest homeland space data content, and storing the latest homeland space data content into the database.

After the mode is put into use, the upper and lower stages can be effectively linked, so that the purposes of accurate data, high timeliness and low probability of careless mistakes are achieved.

As shown in fig. 1, in step S3, the lower level report feedback cycle reports to the upper level in units of collected data amount or job time.

The timeliness that so set up can effectual promotion data feedback for the upper and lower level coordination work is more synchronous, guarantees that homework that the homeland space surveyed normally develops.

As shown in fig. 1, in step S5, the layer shape feature value calculation record is performed in order of dot-line planes within the cycle range.

This setting, the processing that the homeland survey data can be by brief to numerous when handling for reasonable high efficiency during data processing more.

As shown in fig. 1, the results of the upper and lower levels are shared in real time during the homeland space planning and surveying process, and the lower level performs corresponding adaptive adjustment according to the data comparison processing speed of the upper level user.

Through the information sharing of the superior to the subordinate, the accuracy of survey data of the subordinate during field work can be effectively improved, and the occurrence of common inertial diseases during field survey can be avoided.

Example 2

An application system for checking spatial data mutation in a territorial space planning, as shown in fig. 2, includes:

the control center 1 of the national and local bureau is a main control end of the national and local bureau;

the execution command issuing unit 2 is used for issuing the execution command issued in the control center of the state and soil bureau 1 for the next-level user to receive and execute;

the reporting module 3 is used for reporting the lower-level work and feeding back the development plan of the upper-level work;

the mapping equipment warehouse-in and warehouse-out recording unit 4 is used for recording the warehouse-in and warehouse-out record of instruments used by a lower level in the process of executing a surveying task;

the feedback module 5 is used for feeding the survey data back to the upper level from the lower level;

the comparison module and the new and old data exchange and replacement unit 8 are used for comparing data transmitted from a lower stage with old data for final processing, completing the exchange of the new and old data, and replacing and recording mutation data to form latest homeland space planning data;

and the filing module 9 is used for filing and storing the nearest homeland space planning data obtained by the upper-level and lower-level cooperation.

When the system is actually put into use, the soil administration control center 1 receives and executes an issued command and an execution command issuing unit 2, and reports an operation plan to the upper level while executing, a surveying instrument used in the operation takes out the recorded data from an accurate surveying instrument in and out of a storage recording unit 4, the lower level starts the operation and feeds back a surveying result to the upper level periodically in real time, the surveying result is transmitted through a data transmission encryption module 7, the safety in the data transmission process is ensured, and the upper level finally compares the transmitted results, so that the interaction of new and old soil space planning data mutation is formed, and the brand-new and most accurate soil space planning data is formed through the data transmission encryption module 7.

As shown in fig. 2, a feedback cycle setting unit 6 is mounted in the feedback module 5, and is used as a setting program of the feedback module 5 to set a cycle of the feedback module 5 for upward feedback.

Through the periodic setting and adjustment, the superior-inferior cooperation matching degree can be effectively improved, and the domestic and foreign surveying and mapping work of the homeland space planning can be more stably carried out.

As shown in fig. 2, the feedback module 5 is correspondingly provided with a data transmission encryption module 7, which serves as the feedback module 5 and is used for encrypting the feedback data to ensure that the latest survey data of the homeland space planning is not leaked.

As shown in fig. 2, the data transmission encryption module 7 is composed of the following subsystems:

the data input and output independent channel 71 is used for establishing an independent channel for surveying data transmission, so that the data transmission channel cannot be searched and found by non-working personnel;

the signal interference source blocking module 72 is used for maintaining stability of the independent transmission channel and preventing the independent transmission channel from being interfered by external signals;

an interchange code adding unit 73 for encrypting the survey data;

and an exchange code removing unit 74 for decrypting the data by the upper layer after the user data transmission is finished.

The system can ensure that the homeland space planning field survey data is safer when being transmitted through the network, thereby preventing the data from being lost and leaked and improving the speed of network data transmission.

Example 3

A homeland space planning space data mutation inspection cloud platform, as shown in fig. 3, includes:

the cloud client deploys an application system for checking the mutation of the territorial space planning spatial data;

the cloud data processing terminal is used for deploying an application system for checking the mutation of the spatial data of the territorial space planning and providing data comparison service for the cloud client;

and the stability maintaining program is used for maintaining the operation stability of the cloud client and the cloud data processing end, and providing new and old data storage, periodic replacement stability maintaining service and technical support for the cloud client and the cloud data processing end.

The cloud platform system is mainly used for a system for checking and applying mutation of the territorial space planning space data, so that a user can be free from the influence of external conditions as far as possible during operation, and convenient processing and control are carried out on the territorial space planning space mutation data.

As shown in fig. 3, the stability maintenance program includes a data recording module and a resource recycling station, which can store old data of the territorial planning space for a long time.

The device can transfer and store old data of the territorial space planning for a certain time, provides emergency reference data guarantee for the territorial space planning data, and prevents embarrassment situations of data loss or misinterpretation.

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

Claims (10)

1. A method for checking spatial data mutation of a territorial space planning comprises the following steps:

s1: the superior user sends an execution command to the subordinate according to the latest index of the territorial space planning, and the subordinate receives the command, synchronously executes and reports the territorial space data inspection planning rule to the superior;

s2: when the lower level execution starts, the upper level user calls corresponding territorial planning space data in the database and prepares for receiving the receiving preparation of the lower level data submission;

s3: the lower level sets periodic processing data and feeds back the data to the upper level user in a wireless network data transmission mode;

s4: the upper user performs space vector layer analysis on data transmitted from the lower user;

s5: performing classification analysis, namely performing shape characteristic value coordinate recording on the point layer, performing shape characteristic value length calculation on the line layer, and performing shape characteristic value area calculation on the surface layer;

s6: comparing the obtained result with old data of the territorial planning space in a sectional type domain value manner, and rechecking the generated shape characteristic difference value and the old data;

s7: the superior user sends the execution command to the homeland space data with large mutation value of the space data in a packaging and distributing mode, and returns to the step S3 again for execution;

s8: no large value of spatial data mutation occurs, including the end of the consumption of the large value of spatial data mutation, which is used as a trigger and generates jump;

s9: and finally performing interaction mixing on the new and old homeland space data to form the latest homeland space data content, and storing the latest homeland space data content into the database.

2. The method according to claim 1, wherein in step S3, the lower level reports the feedback cycle to the upper level in units of collected data amount or working time.

3. The method according to claim 1, wherein in step S5, the layer shape feature value computation record is performed in a periodic range in order of dot-line plane.

4. The method according to claim 1, wherein the upper and lower levels share the result information in real time during the homeland space planning and surveying process, and the lower level performs corresponding adaptive adjustment according to the processing speed of the upper level user data.

5. An application system for checking spatial data mutation of a territorial space planning, which is used for data processing by the method for checking spatial data mutation of a territorial space planning described in claim 1, and comprises:

the control center (1) of the national and local bureau is a main control end of the national and local bureau;

the execution command issuing unit (2) is used for issuing the execution command issued in the control center of the state and soil bureau (1) for the next-level user to receive and execute;

the reporting module (3) is used for reporting the lower-level work and feeding back the development plan of the upper-level work;

the mapping equipment warehouse-in and warehouse-out recording unit (4) is used for recording warehouse-in and warehouse-out records of instruments used by a subordinate in the process of executing a surveying task;

a feedback module (5) for feeding back survey data from a lower level to an upper level;

the comparison module and the new and old data exchange and replacement unit (8) are used for comparing data transmitted from a lower stage with old data for final processing, completing the exchange of the new and old data and replacing and recording mutation data to form latest homeland space planning data;

and the filing module (9) is used for filing and storing the nearest homeland space planning data obtained by the upper-level and lower-level cooperation.

6. The system for applying abrupt change inspection on spatial data in territorial space planning according to claim 5, wherein a feedback period setting unit (6) is installed in the feedback module (5) and used as a setting program of the feedback module (5) in a matching manner for setting an upward feedback period of the feedback module (5).

7. The system according to claim 5, wherein the feedback module (5) is correspondingly provided with a data transmission encryption module (7) serving as the feedback module (5) and used for encrypting the feedback data to ensure that the latest survey data of the territorial space planning is not leaked.

8. The system for checking abrupt change of spatial data in territorial space planning according to claim 7, wherein the data transmission encryption module (7) comprises the following subsystems:

the data input and output independent channel (71) is used for establishing an independent channel for surveying data transmission, so that the data transmission channel cannot be searched and found by non-working personnel;

the signal interference source blocking module (72) is used for maintaining stability of the independently constructed transmission channel and preventing the independently constructed channel from being interfered by external signals;

an exchange code adding unit (73) for encrypting survey data;

and an exchange code eliminating unit (74) for decrypting the data by the upper level after the user data transmission is finished.

9. An homeland space planning space data mutation inspection cloud platform, which is deployed with the application system of any one of claims 5 to 8, and is characterized by comprising:

the cloud client is used for deploying the homeland space planning space data mutation inspection application system;

the cloud data processing terminal deploys the application system for checking the spatial data mutation of the territorial space planning and provides data comparison service for the cloud client;

and the stability maintaining program is used for maintaining the operation stability of the cloud client and the cloud data processing end, and providing new and old data storage, periodic replacement stability maintaining service and technical support for the cloud client and the cloud data processing end.

10. The cloud platform for data mutation inspection in a territorial space planning space according to claim 9, wherein the stability maintaining program comprises a data recording module and a resource recycling station, and the data recording module can store old data in the territorial space planning space for a long time.

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