Design And Implementation Of Scenario Editing System And Director System For Space Mission Deduction Platform

Space mission deduction is an important way to improve the efficiency of space mission execution,reduce costs and risks,and grasp the general situation of spacecraft flight in real time.The perfect and reliable scenario editing system and directing system are important prerequisites for the successful completion of space mission deduction.The key technologies and implementation methods of scenario editing and directing in space mission deduction are based on this,taking the orbital rescue mission of a faulty satellite as an example,to implement a scenario editing system and directing system for the space mission deduction platform.The main work is as follows:Firstly,the general requirements of the space mission deduction platform are analyzed,and the platform composition,general ideas and plans are given.The key technologies of the scenario editing system and the directing system are studied,and the framework and mechanism of the scenario editing system and the directing system are discussed in detail.Secondly,the functional requirements of the system are analyzed.Taking the rescue mission of the faulty satellite orbit as the background,the architectural design scheme of the scenario editing system and the directing system is proposed respectively,and the functions of the system are modularized,and the design of each function is described in detail.Finally,according to the design scheme of the system and its related operation mechanism,the scenario editing system and directing system of the orbital rescue mission of the faulty satellite are realized,and the whole process of the scenario editing and directing of the mission is demonstrated.This paper preliminarily realizes the scenario editing system and directing system in the first edition of the space mission deduction platform,and applies the system initially,which can accurately realize the scenario editing and command and dispatch of space missions.It has strong expansibility and applicability,which is conducive to grasping the space situation of the spacecraft in real time.