The Bering autonomous target detection

International Conference on Recent Advances in Space Technologies, 2003. RAST '03. Proceedings of Pub Date : 1900-01-01 DOI:10.1109/RAST.2003.1303918

J. Jørgensen, T. Denver, M. Betto, P. S. Jørgensen

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引用次数: 9

Abstract

An autonomous asteroid target detection and tracking method has been developed. The method features near omnidirectionality and focus on high speed operations and completeness of search of the near space rather than the traditional faint object search methods, employed presently at the larger telescopes. The method has proven robust in operation and is well suited for use onboard spacecraft. As development target for the method and the associated instrumentation the asteroid research mission Bering has been used. Onboard a spacecraft, the autonomous detection is centered around the fully autonomous star tracker the Advanced Stellar Compass (ASC). One feature of this instrument is that potential targets are registered directly in terms of date, right ascension, declination, and intensity, which greatly facilitates both tracking search and registering. Results from ground and inflight tests are encouraging, both with respect to robustness, speed and accuracy, and demonstrates the span and range of applications of this technology.

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白令自主目标探测

提出了一种自主小行星目标探测与跟踪方法。与目前大型望远镜采用的传统微弱天体搜索方法相比，该方法具有近全向性，注重近空间搜索的高速运算和完整性。实践证明，该方法具有较强的鲁棒性，适合在航天器上应用。作为该方法和相关仪器的开发目标，小行星研究任务白令已被使用。在航天器上，自主探测以完全自主的恒星跟踪器先进恒星罗盘(ASC)为中心。该仪器的一个特点是直接记录潜在目标的日期、赤经、赤纬和强度，极大地方便了跟踪搜索和记录。地面和飞行试验的结果在稳健性、速度和准确性方面都令人鼓舞，并展示了该技术的应用范围和范围。

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

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