KR101348963B1 - Scenario-based Simulation System of Satellite Flight Software - Google Patents

Abstract

The present invention, ground equipment; A simulation system connected to the ground equipment to process commands from the ground equipment and to generate and transmit telemetry to the ground equipment; And a scenario unit for receiving a scenario including an operation of a satellite from a user and inputting the scenario to the simulation system.

Description

Scenario-based Simulation System of Satellite Flight Software

The present invention relates to a scenario-based satellite flight software simulation system, and more particularly, to a scenario-based satellite flight software simulation system capable of facilitating the process of developing and verifying ground equipment during satellite development.

In general, huge losses are incurred if the satellite's mission is not successfully performed. When the satellite enters space, it is difficult to maintain and additional supplementation is practically impossible. Therefore, various experiments are repeatedly performed through simulation to launch in perfect condition. For this purpose, scenario-based satellite flight software is developed and used for experiments.

However, the method of operating the satellite flight software in the environment of the satellite-mounted computer simulator that simulates the existing satellite-mounted computer is to simulate the satellite-mounted computer to be mounted on the actual satellite, so it can simulate almost the operation of the satellite flight software. It can take advantage of this process, but it takes a long time to complete this process, slowing the development of ground equipment, and building a simulation system is also complicated. In addition, the simulation system that does not use the satellite flight software itself is difficult to test the main operations required for the development of ground equipment by providing very simple command and telemetry functions. Having to build a system took a lot of time and effort.

Korea Patent Registration 10-0797387

The present invention is to solve the above problems, to implement an active response that was difficult to provide in the existing simulator method, equipped with various scenarios for conditions and situations that can occur in actual orbit based on the satellite mission, By simulating the operation and response of satellites and satellite flight software and transmitting telemetry, it is possible to understand the state of satellites and to reduce the time and cost savings compared to conventional methods. The purpose is to provide a satellite flight software simulation system.

Scenario based satellite flight software simulation system according to the present invention for achieving the above object, the ground equipment; A simulation system connected to the ground equipment to process commands from the ground equipment and to generate and transmit telemetry to the ground equipment; And a scenario unit configured to receive a scenario including a satellite operation from a user and input the same to the simulation system.

Here, the simulation system, TC module (Module) for processing commands from the ground equipment; A TM module for generating telemetry to be transmitted to the ground equipment; And a scenario interpreter for managing the operation of the satellite by interpreting the input scenario.

The scenario may further include: a memory region profile mounted on the satellite and containing basic information about a memory region in which satellite flight software operates; A TC procedure containing a processing procedure for the command of the ground equipment; A TM procedure specifying a procedure for generating the telemetry; And a scheduled action procedure for performing a predetermined action according to a time and a specific condition.

In addition, the TC module, a frame analyzer for analyzing a signal transmitted from the ground equipment; And a command processor for interpreting a command from the ground equipment extracted by the frame interpreter and transferring action data to the scenario interpreter.

The TM module may further include a TM extractor which receives a TM generation command from the scenario interpreter and extracts data to be transmitted to the telemetry by referring to the TM procedure for the memory region profile of the scenario; And a frame generator that receives the data extracted by the TM extractor and generates a telemetry signal to be transmitted to the ground equipment.

The scenario analyzer may include a scenario manager configured to manage a plurality of scenarios received from a user; A memory manager which manages a memory area recorded in the memory area profile; A scheduled action manager to manage an operation according to a time and a condition recorded in the scheduled action profile; And a command action data management unit for processing action data transmitted from the TC module.

According to the scenario-based satellite flight software simulation system according to the present invention, by inputting a situation that may occur in a satellite running in real orbit, and simulating the operation according to the input, it is possible to test the operation of the satellite or satellite software. Therefore, it is possible to expect a cost reduction effect in the design process and the verification process according to the design.

In addition, by simulating only some operations of the satellite flight software required for the development of the ground equipment, it is not necessary to distribute the entire satellite flight software and a system for driving the same to the developer, thereby maintaining security.

1 is a schematic overview of the entire system of the present invention;
2 is a configuration diagram of a scenario analyzer of the present invention;
3 is a configuration diagram of a TC module of the present invention;
4 is a block diagram of a TM module of the present invention;
5 is a scenario diagram of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms, and the inventor should appropriately interpret the concepts of the terms appropriately The present invention should be construed in accordance with the meaning and concept consistent with the technical idea of the present invention.

Therefore, the embodiments described in the specification and the drawings shown in the drawings are only the most preferred embodiment of the present invention and do not represent all of the technical idea of the present invention, various modifications that can be replaced at the time of the present application It should be understood that there may be equivalents and variations.

As shown in FIG. 1, the scenario-based satellite flight software simulation system according to the present invention includes a ground equipment 2, a simulation system 1, and a scenario unit (not shown).

The present invention, which consists of a simulation system (1), ground equipment (2), and a scenario part (not shown), mounts a scenario for various situations in which a satellite operates in orbit in a system, and thus, the ground equipment (2). A system for simulating the behavior and response of satellites and satellite software to commands from and transmitting telemetry.

Here, the simulation system 1 is connected to the ground equipment 2 to process commands from the ground equipment 2, and generates and transmits telemetry to the ground equipment 2. On the other hand, a scenario unit (not shown) receives a scenario (3) including the operation of the satellite from the user and inputs it to the simulation system.

To describe the configuration and processing in more detail, the simulation system 1 is composed of a TC module 12, a TM module 13, and a scenario analyzer 11.

Here, the TC (TeleCommand) is a remote command, the command transmitted from the ground to the satellite and the telemetry (TM: TeleMetry) is telemetry data, which means the state data of the satellite transmitted from the satellite to the ground.

Here, the TC module 12 processes commands from the ground equipment 2, the TM module 13 generates telemetry to be transmitted to the ground equipment 2, and the scenario interpreter 11 inputs from the user. The scenario is analyzed to manage the satellite's operation.

2 is a configuration diagram of a scenario analyzer that is an embodiment of the present invention.

The scenario analyzer 11 includes a scenario manager 111, a memory manager 112, a schedule action manager 113, and a command action data manager 114.

Here, the scenario manager 111 manages a plurality of scenarios registered by the user, and the memory manager 112 manages memory areas recorded in the memory area profile 31 of the scenario part 3 to maintain and change the actual data. Etc., the schedule action management unit 113 manages operations according to the time and condition recorded in the schedule action profile 34 of the scenario unit 3, and the command action data management unit 114 controls the TC module 12. Process the action data sent from.

Here, a scheduled action is a set of commands configured to operate under a predetermined time or a given specific condition. In general, a scheduled action refers to a command loaded on the satellite in advance, whereas a TC is raised from the ground in real time. Command Action Data (Command Action Data) indicates how the satellite reacts to a particular TC, and is used to simulate the change of satellite state according to the TC.

3 is a configuration diagram of the TC module of the present invention, Figure 4 is a configuration diagram of the TM module of the present invention.

The TC module 12 is composed of a command processor 122 and a frame analyzer 121. Here, the frame interpreter 121 analyzes the signal transmitted from the ground equipment 2, and the command processor 122 analyzes the command of the ground equipment 2 extracted from the frame interpreter 121 to analyze the scenario. Pass the action data to the.

It also consists of a TM module 13, TM extractor 131 and frame generator 132. Here, the TM extractor 131 periodically receives the TM generation command from the scenario interpreter 11 and refers to the TM procedure 33 for the memory area profile 31 of the scenario unit 3 to transmit data to telemetry. The frame generator 132 receives the data and generates a telemetry signal to be transmitted to the ground equipment 2.

5 is a configuration diagram of scenario 3 of the present invention.

The scenario 3 includes a memory region profile 31, a TC procedure 32, a TM procedure 33, and a scheduled action procedure 34.

Here, the memory area profile 31 contains basic information about the memory area mounted on the satellite and operating the satellite flight software, and the TC procedure 32 contains the processing procedure for the commands of the ground equipment 2, The TM procedure 33 specifies the telemetry generation procedure, and the schedule action procedure 34 allows to perform a predetermined operation according to time and specific conditions.

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 exemplary embodiments. Various modifications and variations are possible within the scope of the appended claims.

1: Simulation system 2: Ground equipment
3: scenario 11: scenario interpreter
12: TC module 13: TM module
31: Memory Area Profile 32: TC Procedure
33: TM Procedure 34: Schedule Action Procedure
111: scenario management unit 112: memory management unit
113: schedule action management unit 114: command action data management unit
121: Frame Interpreter 122: Command Processor
131: TM extractor 132: frame generator

Claims (6)

delete delete Ground equipment;
A simulation system connected to the ground equipment to process commands from the ground equipment and to generate and transmit telemetry to the ground equipment; And
And a scenario unit configured to receive a scenario including an operation of a satellite from a user and input the same to the simulation system.
The simulation system,
A TC module processing a command from the ground equipment;
A TM module for generating telemetry to be transmitted to the ground equipment; And
Includes a scenario interpreter to manage the operation of the satellite by interpreting the input scenario,
The scenario is
A memory region profile mounted on the satellite and containing basic information about a memory region in which satellite flight software operates;
A TC procedure containing a processing procedure for the command of the ground equipment;
A TM procedure specifying a procedure for generating the telemetry; And
A scenario-based satellite flight software simulation system comprising a scheduled action procedure to perform a predetermined action according to time and specific conditions. The method of claim 3, wherein
The TC module,
A frame analyzer for analyzing a signal transmitted from the ground equipment; And
And a command processor for interpreting a command from the ground equipment extracted by the frame interpreter and transferring action data to the scenario interpreter. The method of claim 3, wherein
The TM module,
A TM extractor which receives a TM generation command from the scenario interpreter and extracts data to be transmitted to the telemetry by referring to the TM procedure for the memory region profile of the scenario; And
And a frame generator for receiving the data extracted by the TM extractor and generating a telemetry signal to be transmitted to the ground equipment. The method of claim 3, wherein
The scenario analyzer,
A scenario manager configured to manage a plurality of scenarios received from a user;
A memory manager which manages a memory area recorded in the memory area profile;
A scheduled action manager to manage an operation according to a time and a condition recorded in the scheduled action profile; And
And a command action data management unit for processing action data transmitted from the TC module.

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