Terrestrial communication networks have experienced significant development in recent years by providing emerging services for ground users. However, one critical challenge raised is to provide full coverage (especially in dense high-rise urban environments) for ground users due to scarce network resources and limited coverage. To meet this challenge, we propose a high altitude platform (HAP)-reserved ground-air-space (GAS) transmission scheme, which combines with the ground-to-space (G2S) transmission scheme to strengthen the terrestrial communication and save the transmission power. To integrate the two transmission schemes, we propose a transmission control strategy. Wherein, the ground user decides its transmission scheme, i.e., switches between the GAS link transmission and the G2S link transmission with a probability. We then maximize the overall throughput and derive the optimal probability that a ground user adopts the GAS transmission scheme. Numerical results demonstrate the superiority of the proposed transmission control strategy.
翻译:近年来,地面通信网络通过向地面用户提供新兴服务,取得了显著发展,然而,由于网络资源稀缺和覆盖面有限,所提出的一项关键挑战是为地面用户提供全面的覆盖(特别是在密集的高层城市环境中);为了迎接这一挑战,我们提议建立一个高空平台(HAP)保留地空空空间(GAS)传输计划,该计划与地对地传输计划相结合,以加强地面通信并保存传输能力。为了将两种传输计划结合起来,我们提议了一项传输控制战略。在其中,地面用户决定其传输计划,即在GAS链接传输和G2S连接传输之间开关。然后,我们尽量扩大总体吞吐量,并获得地面用户采用GAS传输计划的最佳概率。数字结果显示了拟议的传输控制战略的优势。