JP2007261554A - Mission data test pattern production method and device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To produce a mission data test pattern according to a satellite operation schedule of an actual satellite in order to perform a system test for simulating comprehensive real time treatment of a ground system. <P>SOLUTION: The device for producing the test pattern of the test mission data of the ground system for simulating/confirming actual operation of an artificial satellite is provided with an operation schedule input part 9 for inputting the operation schedule of the test; an operation information production part 10 for distributing satellite operation information and data production reference information from the operation schedule inputted to the operation schedule input part; and an operation information production part 12 for producing the mission data test pattern fitted to the data pattern down-linked from the satellite making the satellite operation information and the data production reference information distributed from the operation information production part and packet processed data inputted from the outside or user simulation data prepared by a user as the source data. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a method and an apparatus for generating a test pattern of mission data used in various tests for confirming the actual operation of an artificial satellite.

  Conventionally, various tests have been conducted on the ground to confirm the actual operation of artificial satellites. At that time, for example, as shown in FIG. 5, in the recording control 3, a remote operation plan setting or operation plan information (paper, etc.) 2 is obtained from the operation management facility 1, and a local operation plan setting is obtained. Is done. The recording control 3 sets the input operation plan in the packet processing unit 4, the level 0 processing unit 5, and the data processing unit (user) 6 that are monitored and controlled by the recording control 3 itself. Then, a test signal set in the test signal generator 7 is output to perform a system test.

  The packet processing unit 4 has a function of checking the frame format of the input test pattern. The level 0 processing unit 5 receives data for which the frame format check has been completed by the packet processing unit 4 and reconstructs the data so that the data can be processed by the data processing unit 6 based on the data output order. , And has a function of storing packet processed data on a disk.

  The system test pattern used in the conventional system test uses a fixed test pattern that is created in advance in the test signal generator 7 and stored in a file. Fixed test pattern data is created in advance, and the frame format and data output order conform to the mission data from the satellite, but the time data in the frame format and the actual data area (applied for processing in the data processing unit) Data area) is filled with increment data or fixed data (00 (h), etc.). For this reason, when the ground system test is performed in the test stage before the satellite launch, the data reconstruction process in the level 0 processing unit 5 can be confirmed, but the content of the test data cannot be processed by the data processing unit 6 As a result, the test result in the data processing unit 6 becomes defective and the operation of the entire ground system cannot be confirmed, and comprehensive verification must be carried out in the final meshing test with the satellite. It was difficult to respond at the time of problem discovery.

  On the other hand, it is also conceivable that the file stored in the test signal generator 7 is a data file that simulates satellite operation in advance. In this case, a test system that repeats one pattern test many times is effective, but when considering a system test that simulates satellite operation, a test based on a newly registered satellite operation plan Therefore, it is difficult to perform accurate verification because the satellite time included in the prepared test data is different from the test plan execution time, and the test data according to the new plan It took an enormous amount of test data preparation period.

  Another problem is that it is easy to prepare test data that can obtain a normal test result of one pattern, but a huge amount of preparation is needed to prepare test data that incorporates abnormal data according to the satellite operation plan. It took a long period of time, and it took a huge preparation period to prepare test data simulating a plurality of abnormal patterns.

  For example, in a satellite test system for an artificial satellite described in Patent Document 1, a command signal for setting operation of each device mounted on the artificial satellite is prepared as a test signal in a test apparatus connected to the artificial satellite. . As the command signal, the test signal of the fixed pattern prepared in advance according to the format is used many times as in the case of the test signal in FIG. It cannot be changed easily.

  Further, the program test method described in Patent Document 2 is intended to store test data of one pattern and repeatedly use the same test data in order to obtain the same result in a plurality of tests. In addition, it is necessary for the tester to manually create test data every time before a new test is performed, which is not suitable for the test data creation method for system tests in accordance with the real-time satellite operation plan. .

  Furthermore, in the test data creation method described in Patent Document 3, when a plurality of data is prepared as a database and a key item for test data generation is input, the data referred to from the database is combined to generate a large number of data. The test data can be created. However, in this method, a plurality of combinations within the range prepared in the database can be created, but data items that do not exist in the database cannot be included in the test data.

  In addition, the computer test apparatus described in Patent Document 4, like Patent Document 2, stores test data of one pattern and repeatedly uses the same test data in order to obtain the same result in a plurality of tests. With the goal. This prior art also requires a test operator to manually create test data every time before conducting a new test, and a test data creation method for system tests in accordance with a real-time satellite operation plan. Not suitable for.

JP 2000-95200 A Japanese Patent Laid-Open No. 05-204712 Japanese Patent Laid-Open No. 05-197591 JP-A-01-277738

  As described above, the fixed test pattern signal prepared by the conventional system test method is useful as a test signal until the frame format check in the packet processing unit 4 and the data reconstruction processing confirmation in the level 0 processing unit 5. However, in the confirmation of the data processing unit 6 that requires the data of the actual data pattern, since the input data is increment data or fixed data (00 (h), etc.), all input data is abnormal data. It is handled and processing confirmation cannot be performed. For this reason, there is a restriction that the final processing confirmation in the data processing unit 6 cannot be performed until the mission data from the actual satellite is available.

  Therefore, the present invention has been made in view of the above problems in the prior art, and in a system test in which only a fixed test pattern has been provided in the past, a mission data test pattern in accordance with a satellite operation plan of an actual satellite. The purpose of this is to enable system testing that simulates the comprehensive real-time processing of ground systems.

  In order to achieve the above object, the present invention is a method for generating a test pattern of mission data for testing a ground system for simulating and confirming actual operation of an artificial satellite, and is created by packet processed data or a user Using the user simulation data as source data, a mission data test pattern that matches a data pattern downlinked from a satellite is generated.

  According to the present invention, the packet processing data or the user simulation data is used as the source data, and the mission data test pattern that matches the data pattern downlinked from the satellite is generated. Verification can be confirmed according to the plan.

  In the test pattern generation method, a mission data test pattern to which a satellite time simulating actual operation is added can be generated from the source data and satellite operation information.

  Further, a mission data test pattern to which abnormality data is added can be generated from the source data and the data generation reference information. As a result, it is possible to perform a simulation that simulates an abnormal case that may occur in actual operation.

  Furthermore, the present invention is an apparatus for generating a test pattern of mission data for testing a ground system for simulating and confirming actual operation of an artificial satellite, and an operation plan input unit for inputting the operation plan of the test, An operation information generation unit that distributes satellite operation information and data generation reference information from the operation plan input to the operation plan input unit; and satellite operation information and data generation reference information distributed from the operation information generation unit And a test signal generator for generating a mission data test pattern that matches a data pattern that is downlinked from a satellite, using packet processed data input from the outside or user simulation data created by a user as source data. It is characterized by that. As a result, as described above, it is possible to perform verification confirmation in accordance with the satellite operation plan before launching the satellite.

  The mission data test pattern generation device includes a test signal selection unit that selects and outputs either a mission data test pattern generated by the test signal generation unit or a fixed test pattern signal generated externally. It is possible to easily switch to a test equivalent to the conventional test system.

  As described above, according to the present invention, it is possible to generate and output a mission data test pattern in accordance with a satellite operation plan of an actual satellite, and to perform a system test simulating comprehensive real-time processing of the ground system.

  FIG. 1 shows a test system to which an embodiment of a mission data test pattern generation method according to the present invention is applied. This system includes an operation management facility 1, operation plan information 2 (paper, etc.), and a record control 3 Mission data for packet processing unit 4, level 0 processing unit 5, data processing unit (user) 6, test signal generator 7, and user simulation data (peripheral equipment / peripheral data of user data) 8. An operation plan input unit 9, an operation information generation unit 10, a test signal selection unit 11, and a test signal generation unit 12 constituting the test pattern generation unit are connected.

  Next, the operation of the system having the above configuration will be described in detail with reference to FIG.

  At the time of operation by remote operation plan input from the operation management facility 1, the operation plan setting from the operation management facility 1 is performed in the recording control 3 and the operation plan input unit 9. On the other hand, when the operation plan information 2 (paper, etc.) is obtained and the operation plan is set locally, the operation plan is registered in the operation plan input unit 9 and the operation plan managed by the operation plan input unit 9 is local. It is set in the recording control 3 as a plan.

  Based on the input operation plan, the recording control 3 performs operations related to real-time processing of mission data for the packet processing unit 4, level 0 processing unit 5 and data processing unit (user) 6 monitored and controlled by the recording control 3 itself. Distribute plan information and prepare for operation. Here, when a test equivalent to the conventional test system is performed, a fixed test pattern signal is output from the test signal generator 7, the test signal selection unit 11 selects the test signal use, and then the system test is performed. carry out.

  In the operation plan input unit 9, a remote operation plan setting from the operation management facility 1 or a local operation plan setting after obtaining the operation plan information 2 (paper or the like) is performed. The operation information generation unit 10 performs signal use selection control for the test signal selection unit 11 and control for the test signal generation unit 12 from the operation plan received from the operation plan input unit 9. From the operation information generation unit 10 to the test signal generation unit 12, satellite operation information and data generation reference information (reference information such as satellite time, frame sequence counter value, information on abnormal data addition, etc.) are distributed.

  In the test signal generation unit 12, the packet processed data held in the level 0 processing unit 5 as the satellite operation information and data generation reference information from the operation information generation unit 10 and the source data for creating the test pattern of the mission data. Alternatively, the user simulation data 8 that can be used in the data processing unit 6 is used to generate a mission data test pattern that matches the satellite data and can be used for a system test to which satellite time information / frame sequence counter information is added. Output. Further, the test signal generation unit 12 has an abnormal data addition function, and can generate a mission data test pattern including abnormal data and use it for the test.

  Using the mission data test pattern signal created as described above, the packet processing unit 4 and the level 0 processing unit 5 check the frame format check / transmission confirmation function. Since the mission data matching the satellite data processed by the level 0 processing unit 5 is input to the data processing unit 6, data processing confirmation can be performed. The data processed and stored in the level 0 processing unit 5 at the time of the test can be used again as source data when creating the mission data test pattern.

  Here, a method for acquiring source data will be described with reference to FIG.

  In the present invention, it is assumed that two types of source data are used. One is user simulation data 8 provided by a user to perform a system test before the satellite is operated. One is the packet processed data held in the packet processed data storage disk in the level 0 processing unit 5. The packet processed data may be data obtained by packet processing of mission data downlinked from a satellite in actual operation, or data processed by a packet in system test execution. That is, when packet processed data is used as source data, data obtained by packet processing of system test pattern data used for system testing is used, and actual data of satellites that are downlinked and packet processed in actual operation. May be used.

  The test signal generator 12 uses the satellite operation information and the data generation reference information from the operation information generator 10 to generate the mission data test pattern that matches the data pattern downlinked from the satellite.

  In addition, when there is an abnormal data addition instruction in the data generation reference information from the operation information generating unit 10, the test signal generating unit 12 generates a mission data test pattern so that a part of the created data becomes abnormal data. By using the test pattern including the abnormal data generated here, not only the normal system test but also the abnormal system test can be performed.

  By using the source data assumed in the present invention, it is possible to carry out a system test in accordance with the operation plan using the user simulation data at the stage before launching the satellite. Since data acquired in actual operation can be used as source data for creating test signals, system tests can be performed using test data that fully simulates the actual satellite operation. it can.

  Next, an example of acquiring packet processed data (data format conversion flow) from actual satellite data will be described with reference to FIG. 3 is performed by the packet processing unit 4 and the level 0 processing unit 5 in FIG.

  FIG. 3 shows a process in which the actual satellite data is subjected to data format conversion and packet processing, and the vertical axis represents the passage of time. The actual satellite data is downlinked in the CCSDS (AOS) recommended service grade 2 compliant (* 1) data format, and the packet processing unit 4 in FIG. 2 detects the frame synchronization pattern (* 2) of the input data and inputs it. After determining the reference position of the data, the data is sequentially decomposed, and only data that can be processed by the data processing unit 6 in FIG. 1 is collected and reconstructed as packet processed data. The packet processed data acquired here is one source data for generating a test pattern of mission data for system testing.

  (* 1) CSDDS (Consultative Committee for Space Data Systems) is a standard recommended as a space data system standard. AOS (Advanced Orbiting Systems) It is a recommendation for a comprehensive data communication network that simultaneously transmits not only data but also voice and image data. Furthermore, service grade 2 stipulates that Reed-Solomon encoding be performed.

  (* 2) A specific data pattern added to enable the data receiving unit (packet processing unit 4 in this system) to recognize the head of the input data.

  Next, an example of creating mission data using source data will be described with reference to FIG.

  FIG. 4 shows a process in which source data is converted into a data format, and is constructed and processed into a data format compliant with CCSDS (AOS) recommendation service grade 2, and the vertical axis represents the passage of time. The process shown in FIG. 4 is performed by the test signal generation unit 12 in FIG.

  As the source data, packet processed data or user simulation data is used. At the time of creating a normal mission data test pattern, the prepared source data is used as it is. However, when there is an instruction to add abnormal data from the operation information generation unit 10 in FIG. 2, processing for adding abnormal data to the source data is performed. Then, this is used as source data for creating a mission data test pattern. Auxiliary data including satellite time and sequence counter value is added to the source data.

  Next, auxiliary data and data that can be processed by the data processing unit are made into one chunk, and a synchronization code for identifying the chunk is added to each chunk. The plurality of data chunks created here are further combined into one chunk, and a frame header for identification is further added to the chunk called mission data in FIG. A frame header and mission data are Reed-Solomon encoded, a frame synchronization pattern and a Reed-Solomon code are added, and a CCSDS (AOS) recommendation service grade 2 compliant data format is constructed.

  Based on the above, the system test using the mission data test pattern signal that is created and output using the satellite operation information and the data generation reference information and the source data can be used for the entire ground system. It becomes possible to conduct a test to verify the system.

1 is a system diagram showing a test system to which an embodiment of a mission data test pattern generation device according to the present invention is applied. It is a source data acquisition image figure in the system of FIG. It is a figure which shows the example of packet-processed data acquisition from the actual data of the satellite in the system of FIG. It is a figure which shows the mission data creation Example using the source data in the system of FIG. It is a systematic diagram which shows an example of the conventional fashion data test pattern generation method.

Explanation of symbols

1 Operation management equipment 2 Operation plan information (paper, etc.)
3 Recording control 4 Packet processing unit 5 Level 0 processing unit 6 Data processing unit 7 Test signal generator 8 User simulation data 9 Operation plan input unit 10 Operation information generation unit 11 Test signal selection unit 12 Test signal generation unit 13 Satellite 14 Antenna / Reception equipment

Claims (5)

A method for generating a test pattern of mission data for testing a ground system for confirming the actual operation of a satellite,
A mission data test pattern generation method, characterized in that, by using packet processed data or user simulation data created by a user as source data, a mission data test pattern matching a data pattern downlinked from a satellite is generated.   The mission data test pattern generation method according to claim 1, wherein a mission data test pattern to which a satellite time imitating actual operation is added is generated from the source data and satellite operation information.   The mission data test pattern generation method according to claim 1, wherein a mission data test pattern to which abnormality data is added is generated from the source data and data generation reference information. An apparatus for generating a test pattern of mission data for testing a ground system for confirming the actual operation of a satellite,
An operation plan input unit for inputting the operation plan of the test;
An operation information generation unit that distributes satellite operation information and data generation reference information from the operation plan input to the operation plan input unit;
Data that is downlinked from the satellite using source information of the satellite operation information and data generation reference information distributed from the operation information generation unit, the packet processed data input from the outside, or the user simulation data created by the user A mission data test pattern generation apparatus comprising: a test signal generation unit that generates a mission data test pattern that matches the pattern.   5. The test signal selection unit according to claim 4, further comprising a test signal selection unit that selects and outputs either a mission data test pattern generated by the test signal generation unit or a fixed test pattern signal generated externally. Mission data test pattern generator.

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