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引用次数: 11
摘要
本文通过实际实验研究了两机在航空甚高频波段的空中传输特性。在此基础上,结合任意航空电子应用的两个典型特征,分别在空间和时间域提出了合适的方案。采用空时分多址(S-TDMA)方案,对每个子区域考虑每个子帧。通过其他应用获得的高精度定时,每个子区域的所有飞机都可以自主操作,无需发送、广播自己的位置信息或中继邻居的位置信息。此外,针对飞机分布不均匀的情况,提出了ADS-TSR (Autonomous Distance - based time Slot Reuse)方案,以提高频谱利用率和系统性能。该系统显示出了将驾驶舱显示视野扩大到近处乃至地平线以外的新一代的能力,有助于实现航空业界自由飞行概念的未来趋势的可行性。
Oceanic air traffic control based on space-time division multiple access
This paper has conducted a practical experiment to investigate the transmission characteristics between the two aircrafts on the air in aeronautical VHF frequency band. Based on that, a proper scheme combining the two typical features in any avionics application, space and time domains respectively. Space-Time Division Multiple Access (S-TDMA) scheme is incorporated were each sub frame is considered for each sub area. With high accuracy timing derived from other applications, all aircrafts in each sub area are operated autonomously from transmitting, broadcasting its own position information or relaying the neighbor's position information. In addition, against the unevenly distributed aircrafts, ADS-TSR (Autonomous Distance Based-Time Slot Reuse) scheme is proposed to enhance spectrum usage and system performance as well. The system shows the capability in enabling a new generation of widening the view for cockpit display not only for nearby area but also beyond the horizon and contribute to the feasibility of the future trend, a concept of free flight in aviation industry.
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