KR101811046B1 - Aerospace integrated management system - Google Patents

Abstract

The present invention relates to an integrated aerospace management system, and more specifically, relates to an integrated aerospace management system which manages a plurality of operation systems for controlling a plurality of testing apparatuses and satellites required by an aerospace system. According to the present invention, the integrated aerospace management system comprises: a testing apparatus control unit (100) which receives an input of a preset function from outside to generate a test procedure for controlling a specific testing apparatus; an operation system control unit (200) which receives an input of a preset function from outside to generate an operation procedure for controlling a specific operation system of a satellite; an integrated management unit (300) which analyzes the test procedure generated by the testing apparatus control unit (100) to generate, store, and manage object list information, to analyze the operation procedure generated by the operation system control unit (200), and to generate, store, and manage object list information; a plurality of testing apparatus units (400) which control the specific testing apparatus in accordance with the object list information received from the integrated management unit (300); and a plurality of operation system units (500) which control the specific operation system of the satellite in accordance with the object list information received from the integrated management unit (300). The present invention is to provide an integrated aerospace management system which allows a manager to easily recognize and distinguish information.

Description

[0001] Aerospace integrated management system [0002]

The present invention relates to an aerospace integrated management system, and more particularly, to a system and a method for controlling a plurality of test equipment required for the development of an aerospace system and a plurality of control operation systems The present invention relates to an integrated aerospace management system capable of easily generating object information for control and allowing an administrator to easily recognize and discern information.

There are numerous objectives in the process of developing aerospace systems, and various test apparatuses are constructed according to their purpose.

At this time, there is a space test system for administrators (users, operators, etc.) to prepare, execute and monitor tests, and there are target devices to be tested. The preparation of the actual device constituting the actual hardware may be delayed or the test may be prepared using the virtual device including the simulator depending on the type of the test

Similarly, there is a space management system for controlling and operating the aerospace system. Before the launch of the satellite, a control operation test is performed through a virtual space system. After the launch of the satellite, the operation procedure is executed through the actual space system do.

However, if a new operating procedure is required after launch, the system will be used as a real space system after conducting the operational test through a virtual space system and verifying the procedure.

For administrators who need to manage these space test systems and space operation systems in a complex manner, it is necessary to prepare test procedures for test apparatuses in accordance with various goals, or to create new operation procedures or reconfigure operation procedures corresponding to the operation systems. The test procedure or the operation procedure must be reconfigured according to the result information, so that the burden is increased.

In addition, complexity and difficulty increase in order to access the various parameter names described in the test procedure or the software objects to be referenced in the systems to be tested.

Conventionally, in order to obtain or manipulate the reference object information of the space test system or the space operation system, it relies on a method of accessing the independent static database or the information held by each system independently through a dedicated API.

As a result, whenever the test configuration of the test target systems is reconfigured, the administrator must check the consistency of the information directly, and the number of systems to be referenced, and the number of objects in the system to be referenced, There are complications and difficulties.

In this connection, in the domestic patent application publication No. 2015-0065349 ("Satellite computer system and its operating method"), a satellite computer system is distinguished from a slave computer and a master computer, The present invention relates to a system for quickly replacing a computer with a computer, and a configuration for reducing a burden on a user's system operation is not mentioned at all.

Korean Patent Publication No. 10-2015-0065349 (June 15, 2015).

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems and it is an object of the present invention to provide an apparatus and a method for controlling a plurality of control operation systems required in a process for launching a satellite, And an object of the present invention is to provide an integrated aerospace management system capable of easily generating object information and allowing an administrator to easily recognize and discern information.

In order to achieve the above object, an integrated aerospace management system according to an embodiment of the present invention includes a plurality of test apparatuses required in an aerospace system, and a plurality of operation systems for controlling the satellites, In the system, a test device controller 100 receives a predetermined function from the outside to generate a test procedure for controlling a specific test apparatus, generates an operation procedure for controlling a specific operation system of the satellite based on a predetermined function from the outside And generates and stores object list information by analyzing the test procedure generated by the test apparatus control unit 100. The operation procedure control unit 200 analyzes the operation procedure generated by the operation system control unit 200 An integrated management unit 300 for generating and storing object list information, an integrated management unit 300, (400) for controlling the specific test apparatus according to the received object list information, and a specific operation system of the satellite according to the object list information received from the integrated management unit (300) And a plurality of operating system units 500.

Furthermore, the test apparatus control unit 100 is configured to include a test object management unit 110 that converts a function input from the outside into predetermined object list information and transmits the function to the integrated management unit 300 .

Furthermore, the operating system control unit 200 is configured to include an operation object management unit 210 that converts a function input from the outside into predetermined object list information and transfers the converted function to the integrated management unit 300 .

Furthermore, the testing device 400 includes a device object management unit 410 for storing object list information corresponding to a specific testing device.

In addition, the operation system unit 500 includes a system object management unit 510 for storing object list information corresponding to a specific operation system.

The integrated aerospace management system further includes a monitoring unit 600 that can monitor the control result information of the test facility unit 400 or the operation system unit 500 received from the integrated management unit 300, .

Furthermore, the integrated management unit 300 may be connected to the testing unit 400 or the operation unit 400, based on the object list information received from the testing apparatus control unit 100 or the object list information received from the operation system control unit 200. [ And receives result data according to the control of the specific test apparatus from the test apparatus unit 400 or receives result data according to the control of the specific operation system from the operation system unit 500 And transmits the control result information to the monitoring unit 600 to output the control result information.

The integrated management unit 300 further metadataizes the object list information received from the test apparatus control unit 100, the operation system control unit 200, the test setup unit 400, and the operation system unit 500 , And is stored and managed in an encapsulated form.

The integrated aerospace management system provided by the present invention can be used to control a plurality of test apparatuses required in the process of developing an aerospace system and a plurality of control operation systems required in the process of launching and controlling on- The object information can be easily generated and the manager can easily recognize and distinguish the information.

That is, there is an advantage that a user can control a plurality of test apparatuses or a plurality of operating systems using a predefined function without considering a complicated interface.

1 is a diagram illustrating an integrated aerospace management system according to an embodiment of the present invention.
FIG. 2 is an exemplary view of object list information stored in an encapsulated form in the integrated management unit 300 of the aerospace unified management system according to an exemplary embodiment of the present invention.
3 is an exemplary view of object list information managed in a tree structure by the integrated management unit 300 of the aerospace integrated management system according to an embodiment of the present invention.

The entire aerospace integrated management system of the present invention will be described in detail with reference to the accompanying drawings. The following drawings are provided by way of example so that those skilled in the art can fully understand the spirit of the present invention. Therefore, the present invention is not limited to the following drawings, but may be embodied in other forms. Also, throughout the specification, like reference numerals designate like elements.

Hereinafter, the technical and scientific terms used herein will be understood by those skilled in the art without departing from the scope of the present invention. Descriptions of known functions and configurations that may be unnecessarily blurred are omitted.

In addition, a system refers to a collection of components, including devices, mechanisms, and means that are organized and regularly interact to perform the required function.

The integrated aerospace management system according to an embodiment of the present invention can integrally manage a plurality of test systems required for an aerospace system and a plurality of operation systems for controlling satellites. Further, a manager (user, operator) It is possible to easily control a plurality of test apparatuses and a plurality of operation systems.

1 is a diagram illustrating an integrated aerospace management system according to an embodiment of the present invention.

Although not necessary to understand the technical idea of the invention as a part that is not different from the prior art, it is excluded from the description, but the technical idea and the scope of protection of the present invention are not limited thereto.

1, the integrated aerospace management system according to an embodiment of the present invention includes a test apparatus control unit 100, an operation system control unit 200, an integrated management unit 300, a plurality of test facility units 400, And may include a plurality of operating system units 500.

At this time, as described above, the testing device unit 400 and the operation system unit 500 do not specify the number of the test apparatuses and the operation systems according to the tests required in the aerospace system .

To learn more about each configuration,

The test apparatus control unit 100 may generate a test procedure for controlling a specific test apparatus to be tested by receiving a predetermined function from an external user (administrator, operator).

The operation system control unit 200 may generate an operation procedure for controlling a specific operation system of a satellite to be tested by receiving a predetermined function from an external user, like the test apparatus control unit 100.

The test apparatus control unit 100 receives a preset function from an external user and converts it into preset object list information of the corresponding test apparatus and transmits the test object management information to the integrated management unit 300 And the like.

That is, the test apparatus control unit 100 can register the object list of the test apparatus defined by the external user in the integrated management unit 300 through the test object management unit 110. Thereafter, without accessing through a dedicated API to access the desired system and read or manipulate the object, the integrated management unit 300 analyzes / searches the object list of the test apparatus registered in the integrated management unit 300, Content information can be easily confirmed.

The operation system control unit 200 also includes an operation object management unit 210 that receives a predetermined function from an external user and converts the function into preset object list information of the corresponding operation system and transfers the converted object list information to the integrated management unit 300 .

Prior to the description of the integrated management unit 300, the object list information will be described.

The object list information can be generated by redefining data types or classes of various functions, variables, events, etc. in software operating in each test apparatus or operating system within a reference range desired by the user.

The integrated management unit 300 may generate and store corresponding object list information by analyzing the test procedure generated by the test apparatus control unit 100. The integrated management unit 300 may receive the operation management information And the corresponding object list information can be generated, stored and managed by analyzing the procedure.

In detail, the integrated management unit 300 determines whether the object list information matches the object list information based on the object list information received from the test apparatus control unit 100 or the object list information received from the operation system control unit 200 And can transmit the control signal to the corresponding test fixture unit 400 or the operation system unit 500.

The test device unit 400 and the operation system unit 500 may control the specific test apparatus or the specific operation system according to the received object list information according to the control signal of the integrated management unit 300.

In this case, as shown in FIG. 1, the testing device unit 400 and the operating system unit 500 can be classified into an actual testing device / a virtual testing device and can be classified into an actual operating system / a virtual operating system .

In the case of a virtual test apparatus, if the actual test apparatus is not ready or if a problem occurs, the damage can be performed in place of the actual test apparatus.

In the case of a virtual operating system, the satellites can be operated to perform operational tests before actual launch, or to pre-validate additional operational tests after launch and before mounting them in actual operating systems.

For this purpose, the testing device 400 may further include a device object management unit 410 for generating object list information corresponding to a specific testing device and transmitting the generated object list information to the integrated management unit 300,

The operation system unit 500 may further include a system object management unit 510 for generating object list information corresponding to a specific operation system and transmitting the generated object list information to the integrated management unit 300.

Specifically, the integrated management unit 300 manages the object list information of the specific test apparatus received from the device object management unit 410 of the test setup unit 400 and the system object management unit 510 of the operation system unit 500, The object list information of the specific operation system can be stored and managed in an encapsulated form as a meta database as shown in FIG.

The object list information stored in an encapsulated form as a meta database is intuitively found by the user, and in order to easily arrange the path in software, It is desirable to define the structure. It is preferable that the hierarchical association information between the object and the object is transmitted when registering the object list information to the integrated management unit 300. In this case, it is most preferable that the hierarchical association information between the object and the object is also transmitted together with the individual object definition information.

When the test procedure is transmitted through the test apparatus control unit 100 or the operation procedure is transmitted through the operation system control unit 200, the integrated management unit 300 analyzes the integrated test procedure and converts it into the desired object list information And may transmit the control signal to the test unit 400 or the operation system unit 500 corresponding to the object list information matched according to the analysis result.

The test device unit 400 or the operation system unit 500 may perform an operation according to a control signal received from the integrated management unit 300 and may transmit a return signal, that is, control result information.

At this time, the control result information may be output through the monitoring unit 600. [

The monitoring unit 600 may monitor the control result information of the test facility unit 400 or the operation system unit 500 received from the integrated management unit 300. If the control result desired by the user is successful, As shown in Fig.

According to an embodiment of the integrated aerospace management system according to an embodiment of the present invention, each of the test apparatus and the operation system includes an object management unit, and an object list for each test apparatus and operation system is registered can do.

Accordingly, when the user accesses a specific test apparatus or operation system and wants to read or manipulate the object, it is possible to search the registered object list through the integrated management unit without having to directly access the test apparatus or the operation system.

If there is a list of objects of the specific test apparatus or the operation system desired by the user, it can be called up to check the structural content information of the object.

When the user desires to confirm detailed information of an internal variable or the like with respect to a specific object, the integrated management unit can access the specific object by using the unique ID of the object on behalf of the user, and can transmit the information. On the contrary, when the user wants to deliver an event to a specific object, the integrated management unit can deliver an event corresponding to the unique ID of the object to the specific system on behalf of the user.

That is, in other words, the aerospace unified management system according to the embodiment of the present invention can control a plurality of test apparatuses or a plurality of operation systems using a predefined function without considering a complicated interface by the user .

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, And various modifications and changes may be made thereto by those skilled in the art to which the present invention pertains.

Accordingly, the spirit of the present invention should not be construed as being limited to the embodiments described, and all of the equivalents or equivalents of the claims, as well as the following claims, fall within the scope of the present invention .

100: Test apparatus control unit 110: Test object management unit
200: Operation system control unit 210: Operation object management unit
300: Integrated management unit
400: test object unit 410: device object management unit
500: Operation system unit 510: System object management unit
600: Monitoring section

Claims (8)

1. An integrated aerospace management system for managing a plurality of test systems required for an aerospace system and a plurality of operation systems for controlling satellites,
A test apparatus control unit (100) for receiving a preset function from the outside and generating a test procedure for controlling a specific test apparatus;
An operation system control unit (200) which receives a predetermined function from outside and generates an operation procedure document for controlling a specific operation system of the satellite;
Generates and stores object list information by analyzing the test procedure generated by the test apparatus control unit 100,
An integrated management unit 300 for generating and storing object list information by analyzing the operation procedure generated by the operation system control unit 200;
A plurality of test units 400 for controlling a specific test apparatus according to the object list information received from the integrated management unit 300; And
A plurality of operating system units (500) for controlling the corresponding specific operating system of the satellites according to the object list information received from the integrated management unit (300);
Wherein the integrated management system comprises:
The method according to claim 1,
The test apparatus control section (100)
A test object management unit 110 for converting a function received from the outside into predetermined object list information and delivering the function to the integrated management unit 300;
Wherein the integrated management system comprises:
3. The method of claim 2,
The operating system control unit 200
An operation object management unit 210 for converting a function received from the outside into predetermined object list information and transferring the function to the integrated management unit 300;
Wherein the integrated management system comprises:
The method of claim 3,
The test fixture part 400
A device object management unit 410 for generating object list information corresponding to a specific test apparatus and transmitting the generated object list information to the integrated management unit 300;
Wherein the integrated management system comprises:
5. The method of claim 4,
The operating system unit 500
A system object management unit 510 for generating object list information corresponding to a specific operation system and transmitting the generated object list information to the integrated management unit 300;
Wherein the integrated management system comprises:
6. The method of claim 5,
The aerospace integrated management system
A monitoring unit 600 capable of monitoring control result information of the test facility unit 400 or the operation system unit 500 received from the integrated management unit 300;
Wherein the integrated management system comprises:
The method according to claim 6,
The integrated management unit 300
Based on the object list information received from the test apparatus control unit 100 or the object list information received from the operation system control unit 200,
Transmits the control signal to the testing device unit 400 or the operation system unit 500 corresponding to the matching object list information,
Receives the result data according to the control of the specific test apparatus from the test apparatus 400 or receives the result data according to the control of the specific operation system from the operation system unit 500 and transfers the result data to the monitoring unit 600 And outputs the control result information.
8. The method of claim 7,
The integrated management unit 300
The object list information received from the test apparatus control unit 100, the operation system control unit 200, the test object unit 400, and the operation system unit 500 is converted into metadata and stored and managed in an encapsulated form An integrated aerospace management system featuring.

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