BIRD卫星的机载自主和故障保护概念

International Conference on Recent Advances in Space Technologies, 2003. RAST '03. Proceedings of Pub Date : 1900-01-01 DOI:10.1109/RAST.2003.1303387

H. Kayal, W. Barwald, K. Brieß, E. Gill, W. Halle, O. Montenbruck, S. Montenegro, R. Sandau, T. Terzibaschian

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引用次数: 1

摘要

自22日发射以来，BIRD(双光谱红外探测)一直在展示新技术。2001年10月，PSLV-C3从印度成功进入560公里的太阳同步低地球轨道。除了利用微卫星成功进行植被火灾探测与评估在轨试验外，BIRD还展示了一些先进的航天器总线技术，特别是在卫星自主和故障检测与保护领域。许多巧妙的特点使它能够以舒适和安全的方式操作这颗重达92公斤的卫星。特殊功能包括机载计算机故障的自主管理、关键参数超出限制的监视和响应、系统姿态异常。强大的冗余原理和优化的地面-航天器相互作用概念为BIRD任务的成功做出了贡献，该任务设计运行一年，现在已经完成了第二年的运行。本文介绍了BIRD的相关新技术和经验成果。

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Onboard autonomy and fault protection concept of the BIRD satellite

BIRD (Bi-Spectral Infra-Red Detection) has been demonstrating new technologies since its launch on 22. October, 2001 with the PSLV-C3 from Shar/India successfully into a sun-synchronous low Earth orbit at 560 km. Besides the successful in-orbit test of the detection and evaluation of vegetation fires with micro satellites, BIRD has also been demonstrating a number of advanced spacecraft bus technologies, especially in the field of satellite autonomy and fault detection and protection. A number of ingenious features make it possible to operate the 92 kg satellite in a comfortable and safely way. Special features include the autonomous management of onboard computer failures, surveillance and response to critical parameters limit exceeding, system attitude anomalies. A robust redundancy philosophy and optimised ground-spacecraft interaction concept has contributed to the success of the BIRD mission, which was designed to operate for one year and has completed now its second year of operation. The paper describes the related new technologies and the results from the experience with BIRD.

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International Conference on Recent Advances in Space Technologies, 2003. RAST '03. Proceedings of

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