参考文献

[1] Cheng X, Wang C X, Laurenson D I, et al. An adaptive geometry-based stochastic mode1 for non-isotropic MIMO mobile-to-mobile channels [J]. IEEE Transactions on Wireless Communications, 2009, 8(9): 4824-4835.

[2] Yuan Y, Wang C X, He Y, et al. 3D wideband non-stationary geometry-based stochastic models for non-isotropic MIMO vehicle-to-vehicle channels[J]. IEEE Transactions on Wireless Communications, 2014, 14(12): 6883-6895.

[3] Zhao X, Liang X, Li S, et al. Mobile-to-mobile wideband MIMO channel realization by using a two-ring geometry-based stochastic scattering mode[J]. Wireless Personal Communications, 2015, 80(4): 2445-2465.

[4] Jiang H, Zhang Z, Dang J, et al. Analysis of semi-ellipsoid scattering channel models for vehicle-to-vehicle communication environments[C]. IEEE 85th Vehicular Technology Conference (VTC Spring), 2017: 1-6.

[5] Borhani A , Patzold M. Correlation and spectral properties of vehicle-to-vehicle channels in the presence of moving scatterers[J]. IEEE Transactions on Vehicular Technology, 2013, 62(9): 4228-4239.

[6] Zajic A G. Impact of moving scatterers on vehicle-to-vehicle narrowband channel characteristics[J]. IEEE Transactions on Vehicular Technology, 2014, 63(7): 3094-3106.

[7] An J, Yang K, Wu J, et al. Achieve sustainable ultra-dense heterogeneous networks for 5G [J]. IEEE Communications Magazine, 2017, 55(12): 84-90.

[8] Cheng X, Wang C X, Wang H, et al. Cooperative MIMO channel modeling and multi-link spatial correlation properties [J]. IEEE Journal on Selected Areas in Communications, 2012, 30(2): 388-396.

[9] Zhong B , Zhang Z. Secure full-duplex two-way relaying networks with optimal relay selection [J]. IEEE Communications Letters, 2017, 21(5): 1123-1126.

[10] Zhong B , Zhang Z. Opportunistic two-way full-duplex relay selection in underlay cognitive Networks [J]. IEEE Systems Journal, 2018, 12(1): 725-734.

[11] Michailidis E T, Theofilakos P, Kanatas A G. Three-dimensional modeling and simulation of MIMO mobile-to-mobile via stratospheric relay fading channels[J]. IEEE Transactions on Vehicular Technology, 2013, 62(5): 2014-2030.

[12] Zhao X, Liang X, Li S, et al. A 3D geometry-based scattering model for vehicle-to-vehicle wideband MIMO relay-based cooperative channels [J]. China Communications, 2016, 13(10): 1-10.

[13] Liu L, Tao C, Qiu J, et al. Position based modeling for wireless channel on high-speed railway under a viaduct at 2.35 Ghz [J]. IEEE Journal on Selected Areas in Communications, 2012, 30(4): 834–845.

[14] Sun R, Matolak D W, Liu P. 5-GHz V2V channel characteristics for parking garages [J]. IEEE Transactions on Vehicular Technology, 2017, 66(5): 3538-3547.

[15] Walter M, Shutin D, Fiebig U C. Delay-dependent doppler probability density functions for vehicle-to- vehicle scatter channels[J]. IEEE Transactions on Antennas and Propagation, 2014, 62(4): 2238-2249.

[16] Patzold M, Borhani A. A non-stationary multipath fading channel model incorporating the effect of velocity variations of the mobile station [C]//IEEE Wireless Communications and Networking Conference (WCNC). IEEE, 2014: 182-187.

[17] Dahech W, Patzold M, Gutirrez A, et al. A nonstationary mobile-to-mobile channel model allowing for velocity and trajectory variations of the mobile stations[J]. IEEE Transactions on Wireless Communications, 2017, 16(3): 1987-2000.

[18] 邱斌. 基于车载时变信道的资源优化关键技术研究[D]. 桂林：桂林电子科技大学，2020.

[19] Bin Qiu, Hailin Xiao. A non-stationary geometry-based cooperative scattering channel model for MIMO vehicle-to-vehicle communication systems [J]. KSII Transactions on Internet and Information Systems, 2019, 13(6): 2838-2858.

[20] 邱斌，肖海林，聂在平，等. 时变信道下车载HDAF协作通信误码性能分析[J]. 电子科技大学学报，2018, 47(3): 382-388.

[21] Wang C X, Cheng X, Laurenson D I. Vehicle-to-vehicle channel modeling and measurements: recent advances and future challenges[J]. IEEE Communications Magazine, 2009, 47(11): 96-103.

[22] Arias M, Mandersson B. An approach of the geometrical-based single bounce elliptical channel model for mobile environments [C]. The 8th International Conference on Communication Systems, IEEE Computer Society. IEEE, 2002: 11-16.

[23] Jiang H, Zhang Z C, Wu L, et al. A Non-Stationary geometry-based scattering vehicle-to-vehicle MIMO channel model [J]. IEEE Communications Letters, 2018, 22(7): 1510-1513.

[24] Chen Y, Rapajic P. Decentralized wireless relay network channel modeling: An analogous approach to mobile radio channel characterization [J]. IEEE Transactions on Communications, 2010, 58(2): 467-473.

[25] Chen Y, Mucchi L, Wang R. Visualizing wireless network performance metrics in space-time [J]. IEEE Transactions on Vehicular Technology, 2014, 63(3): 822-835.

[26] Zhao X, Liang X, Li S, et al. Mobile-to-mobile wideband MIMO channel realization by using a two-ring geometry-based stochastic scattering mode [J]. Wireless Personal Communications, 2015, 80(4): 2445-2465.

[27] Yuan Y, Wang C X, Cheng C, et al. Novel 3D geometry-based stochastic models for non-isotropic MIMO vehicle-to-vehicle channels[J]. IEEE Transactions on Wireless Communications, 2014, 13(1): 298-309.

[28] Wu S, Wang C X, Haas H, et al. A non-stationary wideband channel model for massive MIMO communication systems[J]. IEEE Transactions on Wireless Communications, 2015, 14(3): 1434-1446.

[29] 梁晓林，赵雄文，李亦天. 移动散射体下的V2V信道相关性和多普勒谱特性研究[J]. 电子与信息学报，2017, 39(3): 613-618.

[30] He R, Ai B, Stüber G L, et al. Mobility model-based non-stationary mobile-to-mobile channel modeling [J]. IEEE Transactions on Wireless Communications, 2018, 17(7): 4388-4400.

[31] Qiu B, Xiao H L. A non-stationary geometry-based cooperative scattering channel model for MIMO vehicle-to-vehicle communication systems[J]. KSII Transactions on Internet and Information Systems, 2019, 40(6): 2838-2858.

[32] Chen Y, Rapajic P. Decentralized wireless relay network channel modeling: An analogous approach to mobile radio channel characterization [J]. IEEE Transactions on Communications, 2010, 58(2): 467-473.

[33] Wu S, Wang C X, Aggoune H M, et al. A non-stationary 3-D wideband twin-cluster model for 5G massive MIMO channels[J]. IEEE Journal on Selected Areas in Communications, 2014, 32(6): 1207-1218.

[34] Zwick T, Fischer C, Didascalou D, et al. A stochastic spatial channel model based on wave-propagation modeling[J]. IEEE Journal on Selected Areas in Communications, 2000, 18(1): 6-15.

[35] Bian J, Sun J, Wang C X, et al. A WINNER+ based 3-D non-stationary wideband MIMO channel model [J]. IEEE Transactions on Wireless Communications, 2018, 17(3): 1755-6895.

[36] 闭宇铭. 非平稳无线信道建模及其仿真技术研究[D]. 北京：北京邮电大学，2017.

[37] Sohaib S, So D K. Asynchronous cooperative relaying for vehicle-to-vehicle communications [J]. IEEE Transactions on Communications, 2013, 61(5): 1732-1738.

[38] Byers G J, Takawira F. Spatially and temporally correlated MIMO channels: Modeling and capacity analysis [J]. IEEE Transactions on Vehicular Technology, 2004, 53(3): 634-643.

[39] Loyka S L. Channel capacity of MIMO architecture using the exponential correlation matrix[J]. IEEE Communications Letters, 2001, 5(9): 369-371.

[40] Patzold M, Hogstad B, Youssef N. Modeling, analysis, and simulation of MIMO mobile-to-mobile fading channels[J]. IEEE Transactions on Wireless Communications, 2008, 7(2): 510-520.