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Optimal Complexity System for Unmanned Spacecraft Navigation

机译:无人机导航的最佳复杂度系统

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This paper describes the design of a new state-of-the-art navigation system for future unmanned spacecraft systems. Thernproject addresses the demands for more efficient autonomous navigation in a variety of aerospace altitudes. Thernproposed instrumentation is directly suitable for unmanned systems operation and testing of new airborne prototypes forrndefense applications. The system features a new sensor technology and significant improvements over existing solutions.rnFluxgate type sensors have been traditionally used in unmanned defense systems such as target drones, guided missiles,rnrockets and satellites, however, the guidance sensors’ configurations exhibit lower specifications than the presentedrnsolution. The current implementation is based on a recently developed material in a reengineered optimum sensorrnconfiguration for unprecedented low power consumption. The new sensor’s performance characteristics qualify it forrnaeronautics defense navigation applications. A major advantage of the system is the computational redundancy reductionrnachieved in terms of both hardware and software requirements.
机译:本文介绍了用于未来的无人航天器系统的新的最新导航系统的设计。该项目满足了在各种航空高度上更有效的自主导航的需求。拟议中的仪器直接适用于无人系统的操作以及用于国防应用的新型机载原型的测试。该系统采用了新的传感器技术,并对现有解决方案进行了重大改进。传统上,Fluxgate型传感器已用于无人防御系统中,例如目标无人机,制导导弹,导弹和卫星,但制导传感器的配置比所提出的解决方案要低。 。当前的实现基于重新设计的最佳传感器配置中的最新开发材料,以实现前所未有的低功耗。这种新型传感器的性能特征使其可以在航空航天防御导航应用中使用。该系统的主要优点是在硬件和软件需求方面都实现了计算冗余的减少。

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