Optimising the LEO satellite communications link through hybrid-ARQ techniques

V. Chu, W. Sun, M. Sweeting
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引用次数: 6

Abstract

Satellites in low Earth orbit (LEO) are accessible to an unprecedented number of users around the globe with numerous applications, especially with the recent rapid development in LEO satellite constellations for communications. Until a few years ago, advanced designs for satellite communications systems had focused on conventional geostationary Earth orbit (GEO) communications technologies which are not necessarily tailored to the LEO environment. Such sub-optimal designs were accommodated by the typical application of LEO satellites-remote sensing satellites-normally being large satellites with ever-increasing power and bandwidth and equipped with large ground stations. These days, the current trend of the satellite industry is towards smaller satellites and smaller terminals, made possible through continuous technological improvement. Advances in sensor and payload technology have permitted rapidly increasing amounts of data to be transferred. This, coupled with user demands for reliable, efficient data delivery from small satellites to even smaller terminals, calls for an urgent need to optimise the LEO communications link, particularly for payload data retrieval.
通过混合arq技术优化低轨道卫星通信链路
近地轨道卫星在全球范围内的应用数量空前,尤其是近地轨道通信卫星星座的快速发展。直到几年前,卫星通信系统的先进设计还集中在传统的地球静止轨道(GEO)通信技术上,这些技术不一定适合近地轨道环境。低轨道卫星的典型应用——遥感卫星——通常是功率和带宽不断增加的大型卫星,并配备大型地面站,可以适应这种次优设计。如今,卫星工业的当前趋势是朝着更小的卫星和更小的终端发展,这是通过不断的技术改进而实现的。传感器和有效载荷技术的进步使传输的数据量迅速增加。再加上用户要求从小型卫星向更小的终端提供可靠、高效的数据,迫切需要优化低轨道通信链路,特别是用于有效载荷数据检索。
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