摘要
随着飞行器制导与控制理论与应用的发展和成熟,进行飞行器制导控制关键技术的课程拓展成为航空宇航类专业的必要任务。以激光半主动导引头为例,提出了实验室内半实物仿真、运用火箭撬仿真平台的室外半实物仿真及结合激光制导抗干扰技术的半实物仿真等课程模式拓展的建议。通过分析可知,采用不同的方法对飞行器制导控制关键技术的认知及应用具有深远的意义。
With the development and maturity of the aircraft guidance and control theory and application, conducting the courses expansion of the aircraft guidance and control of key technologies is becoming a necessary task of the related professional college. In this paper, for the example of the semi-active laser seeker, proposing some curriculum expansion modes including the HIL simulation under the laboratory environment the HIL simulation indoor and outdoor with application of the Rocket Sled Simulation Platform and the HIL simulation combing with the laser-guided anti-jamming technology. Through analysis, we can know that it is significant to the cognition and application of the key technologies of the aircraft guidance and control by employing different technical means.
作者
王伟
韩丁丁
张健
Wang Wei Han Dingding Zhang Jian(School of Aerospace Science, Beijing Institute of Technology, Beijing, 100081, China Northwest Industries Group Co.LTD, Xi'an, 710043, China)
出处
《中国现代教育装备》
2017年第3期49-52,共4页
China Modern Educational Equipment
基金
北京理工大学教改项目
关键词
制导控制
激光半主动导引头
半实物仿真
火箭撬
抗干扰技术
guidance and control
semi-active laser seeker
HIL simulation
rocket Sled
Anti-jamming technology
