摘要
为了确保空间相机在轨长期、可靠工作,依据空间相机的系统结构和原理,提出了一种空间相机地面实时动态集成测试方法。采用自开发的星上载荷控制系统仿真设备、动态成像目标生成及模拟系统、主控系统仿真测试设备、CCD成像系统仿真测试设备、编码器仿真测试设备、热控仿真测试设备、电源监控系统和图像快视及数据记录系统等作为单元测试设备,应用卫星同步时钟和时钟同步采集卡,实现分布式仿真测试设备的精确时钟同步。以仿真调度控制服务器作为集成测试的控制核心,建立了集成运算模型、集成测试方法和网络实时动态集成测试工作平台。通过0.06(°)/s恒速运动调偏流角试验,验证了集成测试技术的有效性,连续拍摄到的动态目标调整图像倾斜小于0.01°。
Based on system structures and principles of some space cameras,an integration dynamic detection method is proposed to operate space cameras in long-term and reliability on the orbit.A space camera testing unit is proposed,which is composed of own multi-simulated testing apparatus,such as SATL load control,dynamic image generator,space camera controller,CCD imaging system,encoder system,thermal control system,power control system and image data displaying and recording system.These apparatus are synchronized accurately using a SATL synchronous clock and a clock sampling device.Using a simulated integration detection control server as the core,a integration operation model,integration testing method and a working platform based on web dynamic integration are built.The integration detection technology is verified by an example of camera drift angle dynamic adjustment experiment in a movement speed of 0.06(°)/s and obtained imaging max lean is less than 0.01°.
出处
《光学精密工程》
EI
CAS
CSCD
北大核心
2011年第9期2177-2185,共9页
Optics and Precision Engineering
基金
吉林省科技发展计划资助项目(No.20090311)
关键词
空间相机
实时动态系统集成
仿真测试
测试设备
space camera
real-time and dynamic system integration
simulation test
test equipment