CN111192480A

CN111192480A - Distributed airspace use information processing and synchronizing method and system

Info

Publication number: CN111192480A
Application number: CN202010028663.XA
Authority: CN
Inventors: 关礼安; 程晓航; 朱立彬; 张海; 汤锦辉; 韩颖; 刘铭; 周臣; 邵欣
Original assignee: 93209 Troops Of Chinese People's Liberation Army
Current assignee: 93209 Troops Of Chinese People's Liberation Army
Priority date: 2020-01-11
Filing date: 2020-01-11
Publication date: 2020-05-22
Anticipated expiration: 2040-01-11
Also published as: CN111192480B

Abstract

The invention provides a distributed airspace use information processing and synchronizing method and a system, wherein the method comprises the following steps: determining user side levels, wherein the user side levels comprise a first user side, a second user side and a third user side; broadcasting the use information of the airspace in the whole network; processing the airspace use information; and distributing the spatial domain use information processing result. The system comprises: a level determination module; a broadcast module; the device comprises a processing module and a result distribution module. The distributed airspace use information processing and synchronizing method and the distributed airspace use information processing and synchronizing system fully consider the distribution performance, the survivability, the integrity and other factors of the method and the system, comprehensively consider the practical situations of system function positioning, capacity, practical application requirements and the like, divide the whole network system into different levels according to the capacity and the function, standardize the distribution and processing rules of the airspace use information, and can improve the utilization efficiency of the airspace use information.

Description

Distributed airspace use information processing and synchronizing method and system

Technical Field

The invention belongs to the field of air traffic management information systems, and particularly relates to a distributed airspace use information processing and synchronizing method and system.

Background

Modern activities are combined activities performed in a limited area using a variety of advanced systems for land, sea, air, sky, electricity, etc. The empty system equipment in the action area has various performances, and various empty domain use information is generated. At present, the problems of slow effectiveness, inequality, low utilization rate and the like of the airspace use information updating in an information system are prominent, the utilization efficiency of the airspace use information is seriously reduced, the decision is influenced, and the performance and the capacity are restricted and improved. Therefore, effectively transmitting, processing and synchronizing airspace usage information is a real problem facing combat power improvement.

Disclosure of Invention

The invention provides a distributed airspace use information processing and synchronizing method and system aiming at the defects related in the background technology, and aims to solve the problems of slow effectiveness, inequality, low utilization rate and the like of the conventional airspace use information updating.

In order to solve the technical problems, the invention adopts the following technical scheme:

according to one aspect of the invention, a distributed airspace usage information processing and synchronizing method is provided, which comprises the following steps: determining user side levels, wherein the user side levels comprise a first user side, a second user side and a third user side; broadcasting the use information of the airspace in the whole network; processing the airspace use information; and distributing the spatial domain use information processing result.

Specifically, the first user end is used for receiving airspace usage requests sent by the second user end and the third user end, processing airspace usage information and distributing airspace usage information processing results; the second user end is used for sending an airspace use request to the first user end, receiving the airspace use request uploaded by the third user end and assisting the first user end in processing the airspace use information; the third user end is used for uploading the airspace use request to the first user end and/or the second user end and receiving the airspace use information sent by the first user end.

Further, after determining the user side level, the method further includes: and judging the validity of the user side, specifically, broadcasting the query message to all the user sides, reselecting the first user side from the second user side if the feedback message of the first user side is not received within the preset time, and rejecting the second user side and/or the third user side if the feedback message of the second user side and/or the third user side is not received within the preset time.

Specifically, the processing of the airspace usage information specifically includes: and the first user terminal displays, calculates and deduces the received airspace use information and stores the result.

Specifically, the distributing the airspace usage information processing result specifically includes: and the first client side carries out full network distribution on the processing result of the airspace use information or sends the processing result to a specified client side according to actual requirements.

According to a second aspect of the present invention, there is provided a distributed spatial domain usage information processing and synchronization system, comprising: the system comprises a level determining module, a broadcasting module, a processing module and a result distributing module, wherein the level determining module is used for determining the level of a user side module, and the level of the user side module comprises a first user side module, a second user side module and a third user side module; the broadcasting module is used for broadcasting the airspace use information in the whole network; the processing module is used for processing the airspace use information; and the result distribution module is used for distributing the airspace use information processing result.

Specifically, the first user end module is used for receiving airspace use requests sent by the second user end module and the third user end module, processing airspace use information and synchronizing the airspace use information in the whole network; the second user end module is used for sending an airspace use request to the first user end module, receiving the airspace use request uploaded by the third user end module and assisting the first user end module in processing the airspace use information; the third user end module is used for uploading the airspace use request to the first user end module and/or the second user end module and receiving the airspace use information sent by the first user end module.

Further, the system further comprises: the validity judging module is used for judging the validity of the user side modules, specifically, the validity judging module broadcasts a query message to all the user side modules, if a feedback message of the first user side module is not received within the preset time, the first user side module is reselected from the second user side module, and if the feedback message of the second user side module and/or the third user side module is not received within the preset time, the second user side module and/or the third user side module is rejected.

Specifically, the processing module is located at the first user side module, and specifically, the processing module displays, calculates, and deduces the received airspace usage information, and stores the result.

Specifically, the result distribution module is located at the first user side module, and specifically, the result distribution module performs full network distribution on the processing result of the airspace usage information or sends the processing result to the specified user side module according to actual requirements.

The invention has the following beneficial effects: the invention provides a distributed airspace use information processing and synchronizing method and a distributed airspace use information processing and synchronizing system, which fully consider the distribution, the survivability, the effectiveness and the integrity of the airspace use information and other factors of the method and the system, comprehensively consider the practical situations of system function positioning, capacity, practical application requirements and the like, divide the whole network system into different levels according to the capacity and the function, standardize the distribution and processing rules of the airspace use information, and can improve the utilization efficiency of the airspace use information.

Drawings

FIG. 1 is a flow chart of a distributed airspace usage information processing and synchronization method according to a first embodiment of the present invention;

fig. 2 is a schematic diagram of a user end in a distributed spatial domain usage information processing and synchronization method according to a second embodiment of the present invention;

FIG. 3 is a flow chart of a distributed airspace usage information processing and synchronization method according to a third embodiment of the present invention;

FIG. 4 is a block diagram of a distributed spatial domain usage information processing and synchronization system according to a fourth embodiment of the present invention;

fig. 5 is a structural diagram of a distributed spatial domain usage information processing and synchronization system according to a fifth embodiment of the present invention.

Detailed Description

The present invention will be described in further detail below with reference to the drawings and examples. It should be understood that the specific embodiments described herein are merely illustrative of the invention and do not limit the invention.

Example one

In this embodiment, the present invention discloses a distributed airspace usage information processing and synchronizing method, which divides a user side into different levels according to the capability and function of an information system in a network, and efficiently generates usage information that is practical for use according to formulated usage information processing and synchronizing rules, and a flow chart is shown in fig. 1, and the specific steps are as follows:

step S11: and determining the user side level.

According to the actual deployment and capability of the system, the on-line user sides are divided into different levels for system identification and working mode switching. Generally, the higher the organization level of the ue is, the stronger the system capability is, and vice versa, the weaker the system capability is, therefore, after performance evaluation, the ue with the highest organization level is determined as the first ue, the ue with the next level is determined as the second ue, and the other ues are determined as the third ues.

According to the capacity, the functions and the like of the actual user sides, different authorities are set for the user sides in different levels, and the first user side is highest in level and optimal in computing performance, so that the authority is highest, the first user side can receive airspace use requests sent by the second user side and the third user side, process airspace use information and distribute airspace use information processing results.

Since the second user terminal is second to the first user terminal, the second user terminal has better computing performance, and is second to the first user terminal, so that the second user terminal has lower authority than the first user terminal, the second user terminal can assist the first user terminal to process the spatial domain usage information, but cannot distribute the spatial domain usage information processing result. That is, the second user terminal may send the airspace usage request to the first user terminal, receive the airspace usage request uploaded by the third user terminal, and assist the first user terminal in processing the airspace usage information.

The third user side has the lowest level, the worst calculation performance and no airspace information processing capacity, so that the permission of the third user side is the lowest, and the third user side can upload an airspace use request to the first user side and/or the second user side and receive the airspace use information sent by the first user side.

Step S12: and broadcasting the use information of the airspace in the whole network.

After the user terminal level is determined, the first user terminal can initiate an airspace usage information synchronization instruction according to the requirement, and each user terminal broadcasts the airspace usage information in the whole network after receiving the synchronization instruction sent by the first user. In order to ensure the consistency and effectiveness of information transmission, each user side respectively transmits information according to the corresponding level and authority, that is, the third user side can upload an airspace use request to the first user side and/or the second user side, the second user side can receive the airspace use request uploaded by the third user side and send the airspace use request to the first user side, and the first user side receives the airspace use requests sent by the second user side and the third user side.

And if the user terminal does not send effective airspace use request information to the first user terminal within the time specified by the system, judging that the user terminal is disconnected.

Step S13: and processing spatial domain usage information.

After receiving the airspace use requests sent by the second user end and the third user end, the first user end can process the airspace use information, including displaying, calculating and deducing the received airspace use information, and storing the result.

The first user terminal displays the received airspace use request, and can display the name, the level, the synchronous completion and other information of the user terminal submitting the effective airspace use request for the reference of an operator and the corresponding operation.

Step S14: and distributing the spatial domain use information processing result.

The first user end can completely distribute the processing result of the airspace use information in the whole network or send the processing result to the appointed user end according to the actual requirement after processing the received airspace use request information sent by each user end.

The first user end divides and combines the operation result according to the actual requirement to generate the processing result data which accords with the actual requirement, and sends the data to the appointed client end.

In this embodiment, both the first user and the second user can process the airspace usage request information, but only the first user has the right to distribute the airspace usage information processing result, and the second user does not have the right to distribute the airspace usage information processing result. And only after the first user terminal fails, after the first user terminal is determined again in the second user terminal, distributing the airspace use information processing result by the new first user terminal.

In this embodiment, the actual situations of the user terminal, such as functional positioning, capability, and practical application requirements, are comprehensively considered, the user terminals in the whole network are divided into different levels according to the capability and the function, the user terminals in different levels have different permissions, and the distribution and processing rules of the airspace use information are standardized, so that the utilization efficiency of the airspace use information can be improved.

Example two

In the embodiment, a specific determination method of a user side in a distributed airspace usage information processing and synchronization method is disclosed. According to the actual deployment and capability of the system, the on-line user sides are divided into different levels for system identification and working mode switching. In this embodiment, the user terminals are divided into four levels of systems, as shown in fig. 2, the higher the mechanism level of the user terminal is, the stronger the system capability is, otherwise, the weaker the system capability is, the user terminal of the first system with the highest level is determined as the first user terminal, the user terminal of the second system with the second level is determined as the second user terminal, and the user terminals of the third level and the fourth level with other levels are determined as the third user terminal.

In this embodiment, a user side level list is established according to the level of each user side. The ue is numbered and is denoted as (i, j), i is 1, 2, … …, N is the total number of the ues, where the smaller i is, the highest level of the corresponding ue is indicated, j is 0 or 1, j is 1, the ue is the first ue or the second ue, j is 0, the ue is the third ue, and number (1, 1) indicates the first ue, so the ue level list in this embodiment is as follows.

Once the user side level list is established and confirmed, no special condition exists and the user side level list is not changed.

EXAMPLE III

The embodiment discloses a method for processing and synchronizing distributed airspace usage information, and a flow chart is shown in fig. 3, and includes: step S11: determining a user side level; step S12: broadcasting the use information of the airspace in the whole network; step S13: processing the airspace use information; step S14: and distributing the spatial domain use information processing result. The steps in this embodiment are the same as those in the first embodiment, and are not repeated here.

In this embodiment, after step S11, the method further includes:

step S35: and judging the effectiveness of the user side.

In order to confirm that each user terminal in the established user terminal level list is valid, the validity of the user terminal needs to be judged, and the level of the user terminal needs to be readjusted according to the actual judgment result.

Specifically, the query message is broadcasted to all the ues, and if the feedback message of the first ue is not received within the preset time, it indicates that the first ue has failed, and since the performance of the second ue is only inferior to that of the first ue, the first ue can be reselected from the second ue. If the feedback message of the second user end and/or the third user end is not received in the preset time, the second user end and/or the third user end can be removed because the second user end and the third user end have no great influence on the whole system after being failed.

In this embodiment, after the validity of the user side is determined, the next procedure can be performed. In this embodiment, the distribution of the user terminals is fully considered, and when a user terminal fails, especially when the first user terminal serving as the center fails, the first user terminal can be selected from the second user terminals, thereby ensuring that the method has certain survivability.

Example four

The embodiment discloses a distributed airspace usage information processing and synchronizing system, the structure diagram of which is shown in fig. 4, including: a level determination module 41, a broadcast module 42, a processing module 43 and a result distribution module 44.

The level determining module 41 is configured to determine a level of the user-side module; the broadcasting module 42 is used for broadcasting the airspace use information in the whole network; a processing module 43, configured to process the spatial domain usage information; and the result distribution module 44 is used for distributing the airspace use information processing result.

According to the actual deployment and capability of the system, the on-line user side modules can be divided into different levels for system identification and working mode switching. Generally, the higher the level of the organization where the client module is located, the stronger the system capability, and conversely, the weaker the system capability. The level determining module 41 determines the client module with the highest organization level as the first client module, determines the client module with the next level as the second client module, and determines the other client modules as the third client modules.

According to the capacity, the functions and the like of the actual user side, the user side modules in different levels have different authorities, and the first user side module has the highest level and the best calculation performance, so that the authority is the highest, and the first user side can receive the airspace use requests sent by the second user side module and the third user side module, process the airspace use information and distribute the airspace use information processing result.

The second user end module level is only second to the first user end module, so the calculation performance is better, and the second user end module level is only second to the calculation performance of the first user end module, so the authority limit of the second user end module level is lower than that of the first user end module, the second user end module level can assist the first user end module to process the spatial domain use information, but the spatial domain use information processing result cannot be distributed. That is, the second user-side module may send an airspace usage request to the first user-side module, receive an airspace usage request uploaded by the third user-side module, and assist the first user-side module in processing the airspace usage information.

The third user end module has the lowest level, the worst calculation performance and no airspace information processing capacity, so that the permission of the third user end module is also the lowest, and the third user end module can upload an airspace use request to the first user end module and/or the second user end module and receive the airspace use information sent by the first user end module.

In this embodiment, when the distributed airspace usage information processing and synchronizing system works normally, the broadcasting module 42 may initiate an airspace usage information synchronizing instruction according to a requirement, and each user terminal broadcasts the airspace usage information in the whole network after receiving the synchronizing instruction sent by the broadcasting module 42. In order to ensure the consistency and effectiveness of information transmission, each user end respectively transmits information according to the corresponding grade and authority, namely, the third user end module can upload an airspace use request to the first user end module and/or the second user end module, the second user end module can receive the airspace use request uploaded by the third user end module and send the airspace use request to the first user end module, and the first user end module receives the airspace use requests sent by the second user end module and the third user end module.

And if the user end module does not send effective airspace use request information within the time specified by the system, judging that the user end module is disconnected.

The processing module 43 is located at the first user end module and the second user end module, and when the first user end module and the second user end module receive the airspace usage request sent by the second user end and the third user end, the processing module 43 can be used to process the airspace usage information, specifically, the processing module 43 displays, calculates and deduces the received airspace usage information, and stores the result.

After the processing of the airspace usage request information sent by each user terminal is completed, the processing module 43 may use the result distribution module 44 to completely distribute the processing result of the airspace usage information across the entire network or send the processing result to the specified user terminal according to actual requirements.

The result distribution module 44 is located at the first user end module, and is configured to perform full-network distribution in a default state, that is, the result distribution module 44 of the first user end module sends a complete processing result to other user ends, or sends the complete processing result to a specified client end module according to an actual requirement, that is, the result distribution module 44 of the first user end module performs splitting and combining processing on an operation result according to the actual requirement, generates processing result data meeting the actual requirement, and sends the data to the specified client end module.

In this embodiment, the first user end module and the second user end module both have the processing module 43 to process the empty domain use request information, but only the first user end module has the result distribution module 44, and the second user end module has no result distribution module 44. Only after the first user end module fails, after the first user end module is determined again in the second user end module, the result distribution module 44 of the new first user end module distributes the airspace use information processing result.

In this embodiment, the actual situations such as the functional positioning, the capability, the practical application requirements and the like of the user side module are comprehensively considered, the user side of the whole network is divided into different levels according to the capability and the function, the user side modules in different levels have different permissions, the distribution and processing rules of the airspace use information are standardized, and the utilization efficiency of the airspace use information can be improved.

EXAMPLE five

The embodiment discloses a distributed airspace usage information processing and synchronizing system, the structure diagram of which is shown in fig. 5, including: a level determination module 41, a broadcast module 42, a processing module 43 and a result distribution module 44. . The functions of the

modules

41, 42, 43 and 44 in this embodiment are the same as those of the corresponding modules in the fourth embodiment, and are not repeated here.

In this embodiment, the method further includes: and the validity judging module 55 is used for judging the validity of the client module. Specifically, the validity determining module 55 broadcasts a query message to all the client modules, for example, if the feedback message of the first client module is not received within the preset time, it indicates that the first client module has failed, since the performance of the second client module is inferior to that of the first client module, the first client module can be reselected from the second client module, and for example, if the feedback message of the second client module and/or the third client module is not received within the preset time, since the second client module and the third client module have no great influence on the entire system after failing, the second client module and/or the third client module can be rejected.

In this embodiment, the distribution of the client modules is fully considered, and when a client module fails, particularly when a first client module serving as a center fails, the first client module can be selected from the second client modules, thereby ensuring that the method has certain survivability.

Although the preferred embodiments of the present invention have been disclosed for illustrative purposes, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, and the scope of the invention should not be limited to the embodiments described above. It will be apparent to those skilled in the art that various modifications can be made without departing from the principles of the invention and these modifications are to be considered within the scope of the invention.

Claims

1. A distributed airspace usage information processing and synchronizing method is characterized by comprising the following steps:

determining user side levels, wherein the user side levels comprise a first user side, a second user side and a third user side;

broadcasting the use information of the airspace in the whole network;

processing the airspace use information;

and distributing the spatial domain use information processing result.

2. The distributed spatial domain usage information processing and synchronization method of claim 1,

the first user terminal is used for receiving space domain use requests sent by the second user terminal and the third user terminal, processing space domain use information and distributing space domain use information processing results;

the second user end is used for sending an airspace use request to the first user end, receiving the airspace use request uploaded by the third user end and assisting the first user end in processing the airspace use information;

the third user end is used for uploading the airspace use request to the first user end and/or the second user end and receiving the airspace use information sent by the first user end.

3. The distributed spatial domain usage information processing and synchronization method of any of claims 1 or 2,

after the determining the user side level, further comprising:

and judging the validity of the user side, specifically, broadcasting the query message to all the user sides, reselecting the first user side from the second user side if the feedback message of the first user side is not received within the preset time, and rejecting the second user side and/or the third user side if the feedback message of the second user side and/or the third user side is not received within the preset time.

4. The distributed spatial domain usage information processing and synchronization method of claim 3,

the processing of the airspace usage information specifically includes:

and the first user terminal displays, calculates and deduces the received airspace use information and stores the result.

5. The distributed spatial domain usage information processing and synchronization method of claim 1,

the distribution airspace usage information processing result specifically includes:

and the first client side carries out full network distribution on the processing result of the airspace use information or sends the processing result to a specified client side according to actual requirements.

6. A distributed airspace usage information processing and synchronizing system is characterized in that,

the method comprises the following steps: the system comprises a level determining module, a broadcasting module, a processing module and a result distributing module;

the system comprises a level determining module, a level determining module and a level determining module, wherein the level determining module is used for determining the level of a user side module, and the level of the user side module comprises a first user side module, a second user side module and a third user side module;

the broadcasting module is used for broadcasting the airspace use information in the whole network;

the processing module is used for processing the airspace use information;

and the result distribution module is used for distributing the airspace use information processing result.

7. The distributed airspace usage information processing and synchronization system of claim 6,

the first user end module is used for receiving the airspace use request sent by the second user end module and/or the third user end module, processing the airspace use information and synchronizing the airspace use information in the whole network;

the second user terminal module is used for sending an airspace use request to the first user terminal module, receiving the airspace use request uploaded by the third user terminal module and assisting the first user terminal module in processing the airspace use information;

the third user end module is used for uploading the airspace use request to the first user end module and/or the second user end module and receiving the airspace use information sent by the first user end module.

8. The distributed airspace usage information processing and synchronization system of any of claims 6 or 7, further comprising:

the validity judging module is used for judging the validity of the user side modules, specifically, the validity judging module broadcasts a query message to all the user side modules, if a feedback message of the first user side module is not received within the preset time, the first user side module is reselected from the second user side module, and if the feedback message of the second user side module and/or the third user side module is not received within the preset time, the second user side module and/or the third user side module is rejected.

9. The distributed airspace usage information processing and synchronization system of claim 8,

the processing module is located at the first user end module and the second user end module, and specifically, the processing module displays, calculates and deduces the received airspace use information, and stores the result.

10. The distributed airspace usage information processing and synchronization system of claim 6,

the result distribution module is located at the first user end module, and specifically, the result distribution module performs full network distribution on the processing result of the airspace use information or sends the processing result to the specified user end module according to actual requirements.