用于平流层探测器和纳米卫星数据下行的短交织里德-所罗门码(siRS)的研制

Eduardo Valadez Campos, J. Torres
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引用次数: 0

摘要

在过去的10年里,电子技术的进步使得更复杂的无人驾驶车辆和探测器的发展成为可能,这些无人驾驶车辆和探测器使用现成的组件(COTS)制造,无论是用于工业还是科学目的。在航空航天探索方面,立方体卫星是部分或全部使用这种商业COTS开发的复杂设备的最好例子。一些组件的财务成本仍然是设计中的一个考虑因素,但它并不完全是一个阻碍因素,因为一些低成本的组件可以优化以满足必要的要求并增加可靠性。在平流层探测器和纳米卫星的情况下,负责数据上行/下行链路的遥测、跟踪和指挥(TT&C)子系统可以通过包括纠错码(ECC)来改进,从而可以使用低功耗、低成本的商用收发器。在本文中,我们描述了一个交错和缩短里德-所罗门码的实现,我们称之为siRS,以改善平流层探测器和纳米卫星中的图像和遥测下行链路,使用完全低成本的商用射频收发器和基于arm的迷你pc。
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Development of a Shorted Interleaved Reed-Solomon Codes (siRS) for data downlink in Stratospheric Probes and Nano-Satellites
In the last 10 years, the advancement in the electronics have made possible the development of more sophisticated unmanned vehicles and probes, manufactured using Components-Of-The-Shelf (COTS) available to public, whether be for industrial of scientific purposes. In the matter of aerospace exploration, the CubeSats are the best example of sophisticated devices partially of entirely developed using this commercial COTS. The financial cost of some components is still a point of consideration in the design, but it is not entirely a show-stopper since some low-cost components can be optimized to meet the necessary requirements and increase the reliability. In the case of stratospheric probes and nano-satellites, the Telemetry, Tracking and Command (TT&C) subsystem, in charge of the data uplink/ downlink, can be improved by including an Error Correcting Code (ECC), making possible to use commercial transceivers of low-power are low-cost. In this article we describe an implementation of an interleaved and shortened Reed-Solomon Code, which we called siRS, to improve the image and telemetry downlink in stratospheric probes and nano-satellites, using entirely low-cost commercial RF transceivers and an ARM-based mini-PC.
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