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基于Hoyt分布的无人机激光通信联合信道模型研究 被引量:1

Joint Channel Model of Unmanned Aerial Vehicle Laser Communication Based on Hoyt Distribution
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摘要 针对无人机(UAV)平台间激光通信的信道建模问题,提出了一种摆镜式激光通信终端指向误差的求解方法,在指向误差服从Hoyt分布的基础上,综合考虑大气效应得到了联合信道概率密度函数表达式,讨论了不同湍流强度和不同抖动方差下通信链路的性能,并对指向误差模型进行了数值仿真和实验研究。结果表明:当激光通信终端的方位和俯仰指向误差角分别符合均值为0、标准差为0.4°和0.05°的正态分布时,指向误差角符合Hoyt分布。本文所提出的模型更贴近真实系统的指向误差,可以为构建无人机的天地一体化通信网络和组网通信提供前期理论基础,具有一定的实际参考价值。 Objective With the development of unmanned aerial vehicle(UAV)and wireless laser communication technology,as well as the continuous maturity of related devices,UAV laser communication has emerged as the current research hot spot because of its unique advantages in scientific detection,emergency rescue,and military reconnaissance.In UAV laser communication,atmospheric effect(including atmospheric absorption,scattering,and atmospheric turbulence)and pointing error are the two main factors that cause deterioration of link performance.Therefore,establishing a suitable channel model is essential to completely understand the dynamic communication process of UAV laser communication.Existing studies assume that the pointing errors between the communication terminals are identically distributed in the azimuth and elevation directions although they cannot accurately describe the random jitter characteristics of the actual UAV platform.In this study,the pointing characteristics of the oscillating mirror type laser communication terminal are analyzed,whereby a more realistic Hoyt distribution pointing error model is established,to obtain an expression for the joint channel probability density function.The accuracy of the proposed model is verified by numerical simulations and experimental analysis.Methods To accurately analyze the link performance of laser communication between UAVs,a more realistic Hoyt distribution pointing error model is established.First,the probability distribution of the pointing error angle of the oscillating mirror type laser communication terminal was calculated by using the vector reflection law and the rotation transformation matrix.Furthermore,a joint channel probability density function expression was derived considering atmospheric attenuation,atmospheric turbulence,and pointing error.Subsequently,the effects of different turbulence intensities and different UAV jitter variances on link performance were analyzed.Finally,to verify the correctness of the proposed pointing error model,we tested the pointing error angle of the system using the multi-rotor UAV equipped with laser communication equipment.Results and Discussions The pointing error of the UAV laser communication terminal was tested outdoors.The experimental system consisted of a multi-rotor UAV platform and an oscillating mirror type laser communication terminal(Fig.6).When the initial azimuth and elevation angles are both zero,the attitude measurement unit on the laser communication terminal,measures the azimuth and elevation angles of the terminal in real-time and obtains the probability distributions of the error angles for the azimuth,elevation,and combined pointing.The results show that the terminal azimuth error angle follows a normal distribution with mean of 0 and standard deviation of 0.4°(Fig.7);the elevation error angle follows a normal distribution with mean of 0 and standard deviation of 0.05°(Fig.8);the combined pointing error angle obeys the Hoyt distribution(Fig.9).The above experimental results were substituted into formula(15),the simulation results are consistent with the experimental data fitting results,which proves the correctness of the pointing error model.Conclusions This study investigated the channel model of laser communication between UAVs and proposed a method for solving the pointing error of the oscillating mirror type laser communication terminal.A more realistic Hoyt distribution pointing error model was established to accommodate the different jitter variances of the UAV platform in the azimuth and elevation directions,thereby deriving the probability density function expression of the joint channel.Finally,the pointing error model was verified by numerical simulations and experiments.The experimental results show that the azimuth and elevation pointing error angles of UAV conform to the normal distribution,with mean 0 and standard deviations of 0.4°and 0.05°,respectively.The combined pointing error angle conforms to the Hoyt distribution.The experimental results match the simulation results well,validating the correctness of the pointing error model.
作者 葛宏图 董科研 安岩 高亮 李响 Ge Hongtu;Dong Keyan;An Yan;Gao Liang;Li Xiang(School of Opto-Electronic Engineering,Changchun University of Science and Technology,Changchun 130022,Jilin,China;National and Local Joint Engineering Research Center of Space Optoelectronics Technology,Changchun University of Science and Technology,Changchun 130022,Jilin,China)
出处 《中国激光》 EI CAS CSCD 北大核心 2023年第11期272-279,共8页 Chinese Journal of Lasers
基金 国家自然科学基金“叶企孙”科学基金(U2141231) 吉林省科技厅重点研发项目(20210201022GX) 吉林省教育厅产业化研究项目(JJKH20220752CY)。
关键词 光通信 无人机 摆镜式激光通信终端 指向误差 Hoyt分布 信道建模 optical communications unmanned aerial vehicle oscillating mirror type laser communication terminal pointing error Hoyt distribution channel modeling
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