Channel Knowledge Map(CKM)-Assisted Multi-UAV Wireless Network:CKM Construction and UAV Placement  

作　　者：Haoyun Li Peiming Li Gaoyuan Cheng Jie Xu Junting Chen Yong Zeng 

机构地区：[1]School of Science and Engineering,and the Future Network of Intelligence Institute(FNii),the Chinese University of Hong Kong,Shenzhen,Shenzhen 518172,China [2]National Mobile Communications Research Laboratory and Frontiers Science Center for Mobile Information Communication and Security,the Southeast University,Nanjing 210096,the Purple Mountain Laboratories,Nanjing 211111,China

出　　处：《Journal of Communications and Information Networks》2023年第3期256-270,共15页通信与信息网络学报（英文）

基　　金：The work was supported in part by the National Natural Science Foundation of China under Grant U2001208;the Basic Research Project No.HZQB-KCZYZ-2021067 of Hetao Shenzhen-HK S&T Cooperation Zone,the National Natural Science Foundation of China under Grant 92267202,Shenzhen Fundamental Research Program under Grant JCYJ20210324133405015;Guangdong Provincial Key Laboratory of Future Networks of Intelligence under Grant 2022B1212010001,the National Key R&D Program of China under Grant 2018YFB1800800;the Shenzhen Key Laboratory of Big Data and Artificial Intelligence under Grant ZDSYS201707251409055;the Key Area R&D Program of Guangdong Province under Grant 2018B030338001;the National Science Foundation of China under Grant of 62171398;Guangdong Research Projects under Grants 2019QN01X895,2017ZT07X152,and 2019CX01X104,Shenzhen Outstanding Talents Training Fund 202002;he Natural Science Foundation of China under Grant 62071114.

摘　　要：Channel knowledge map(CKM)has recently emerged as a viable new solution to facilitate the placement and trajectory optimization for unmanned aerial vehicle(UAV)communications,by exploiting the siteand location-specific radio propagation information.This paper investigates a CKM-assisted multi-UAV wireless network,by focusing on the construction and utilization of CKMs for multi-UAV placement optimization.First,we consider the CKM construction problem when data measurements for only a limited number of points are available.Towards this end,we exploit a data-driven interpolation technique,namely the Kriging method,to construct CKMs to characterize the signal propagation environments.Next,we study the multi-UAV placement optimization problem by utilizing the constructed CKMs,in which the multiple UAVs aim to optimize their placement locations to maximize the weighted sum rate with their respectively associated ground base stations(GBSs).However,the weighted sum rate function based on the CKMs is generally non-differentiable,which renders the conventional optimization techniques relying on function derivatives inapplicable.To tackle this issue,we propose a novel iterative algorithm based on derivative-free optimization,in which a series of quadratic functions are iteratively constructed to approximate the objective function under a set of interpolation conditions,and accordingly,the UAVs’placement locations are updated by maximizing the approximate function subject to a trust region constraint.Finally,numerical results are presented to validate the performance of the proposed designs.It is shown that the Kriging method can construct accurate CKMs for UAVs.Furthermore,the proposed derivative-free placement optimization design based on the Kriging-constructed CKMs achieves a weighted sum rate that is close to the optimal exhaustive search design based on ground-truth CKMs,but with much lower implementation complexity.In addition,the proposed design is shown to significantly outperform other benchmark schemes.

关 键 词：UAV communications CKM CKM construction UAV placement derivative-free optimization 

分 类 号：O17[理学—数学]