(1) 期刊论文：

[1] Zhongyu Liu*, Qi Yao, Quanqing Li, Lixin Guo, and Shuo Hu, “Wireless channel model based on ray tracing algorithm in the sea environment,” International Journal of Antennas and Propagation, vol. 2024, pp. 1-14, 20 January 2024. (Article ID 3080895, https://doi.org/10.1155/2024/3080895). (SCI: 001149285500001, EI: 20240515481072)

[2] Zhongyu Liu, Pengcheng Zhao *, Lixin Guo *, Zuoyong Nan, Zhigang Zhong, Jiangting Li, "Three-Dimensional Ray-Tracing-Based Propagation Prediction Model for Macrocellular Environment at Sub-6 GHz Frequencies," Electronics, vol. 13, no. 8, pp. 1451(14), 11 April 2024. (SCI: 001220443200001)

[3] Liu, Zhongyu, Wang, Yuanxi, Guo*, Lixin, Zhong, Zhigang, Nan, Zuoyong, Shen, Lingfeng, Li, Jiangting, Research on the Extraction Algorithm of Dielectric Parameters of Simple Building, International Journal of Antennas and Propagation, 2024, 4852670, 14 pages, 2024.

[4] Qi Yao, Zhongyu Liu*, Lixin Guo, Yuanxi Wang, Lantu Guo, Jun Zhao, and Weiqin Zuo, Research on wireless channel model based on improved ray tracing algorithm that considers multiple diffuse scattering and employs pyramid-shaped ray tubes as the carrier, Optics Express, vol. 32, no. 23, pp. 41069-41088, 2024. (SCI: 001355784900005)

[5] Qi Yao, Zhongyu Liu*, Lixin Guo, Jiang Guo, Zuoyong Nan, Wei Liu, Jiangting Li, “Research on the macrocell wireless channel model based on physic-inspired support vector regression algorithm wireless channel model in macrocell environment,” International Journal of Antennas and Propagation, 2025, 1126365, 13 pages, 2025. (SCI)

[6] P. Zhao, L. Guo and Z. Liu, "A Fast Method for Predicting Radio Waves Propagation Over Rough Sea Surfaces," in IEEE Antennas and Wireless Propagation Letters, vol. 24, no. 4, pp. 973-977, April 2025. (SCI检索)

[7] Hu, Shuo, Lixin Guo*, Zhongyu Liu*, and Shuaishuai Gao, "Multipath-Assisted Ultra-Wideband Vehicle Localization in Underground Parking Environment Using Ray-Tracing," Sensors. Vol. 25, no. 7: 2082, 2025. (SCI检索)

[8] S. Hu, L. -X. Guo, Z. Liu, Z. Zhong and Z. Nan, "A High-Performance GPU-Accelerated Ray-Tracing Method for Real-Time V2V Channel Modeling," in IEEE Antennas and Wireless Propagation Letters, doi: 10.1109/LAWP.2025.3567499. (SCI检索)

[9] Pengcheng Zhao, Zhongyu Liu∗, Rui Wang, Panpan Shu, Lixin Guo, Xiangxin Cao, “Effect of desorbed gas on microwave breakdown on vacuum side of dielectric window,” Plasma Science and Technology. vol. 26, no. 4, pp. 045401(9pp), 2024.

[10] Pengcheng Zhao, Lixin Guo, Zhongyu Liu*, “Effect of desorbed gas on dielectric surface discharge in tangential and normal microwave electric fields in vacuum,” IEEE Transactions on Plasma Science, vol. 52, no. 10, pp. 4952 – 4959, October 2024.

[11] Shuo Hu , Lixin Guo*, Zhongyu Liu, “A Ray-tracing-based single-site localization method for non-line-of-sight environments,” Sensors, vol. 24:7925, 11 December 2024.

[12] Zhong-Yu Liu, Ya-Xing Qin, Li-Xin Guo*, Ren-Jiang Zhu, Zhi-Gang Zhong, Zuo-Yong Nan, Ya Wang, and Ling-Feng Shen, "Research on Perspective Imaging Method of Building Structure Based on Multipath Information," Progress In Electromagnetics Research M, Vol. 124, pp. 89-97, 3 March 2024. (EI: 20241015707968)
[13]  Zhong-Yu Liu, Li-Xin Guo, Chang-Long Li, Qiang Wang, and Zhen-Wei Zhao, "Sensitivity of power and RMS delay spread predictions of a 3D indoor ray tracing model," Optics Express, vol. 24, no. 12, pp. 13179-13193, Jun 2016. (SCI: 000378298400070)

[14]  Zhongyu Liu, Li-Xin Guo, Xiaowei Guan, and Jiejing Sun, "Effects of urban microcellular environments on ray-tracing-based coverage predictions," Journal of the Optical Society of America A, vol. 33, no. 9, pp. 1738-1746, Sep. 2016. (SCI: 000385711600012)

[15]  Z.-Y. Liu, L.-X. Guo, X. Meng, “Efficient three-dimensional ray-tracing model for electromagnetic propagation prediction in complex indoor environments”, Journal of the Optical Society of America A, vol. 30, no. 8, pp. 1654-1660, 2013. (SCI: 000322591800024)

[16]  Z.-Y. Liu, L.-X. Guo, T.-Q. Fan, “Microcellular propagation prediction model based on an improved ray tracing algorithm”, Journal of the Optical Society of America A, vol. 30, no. 11, pp. 2372-2380, 2013. (SCI: 000327185000027)

[17]  Zhong-Yu Liu, Li-Xin Guo, Wei Tao, “Full automatic preprocessing of digital map for 2.5D ray tracing propagation model in urban microcellular environment”, Waves in Random and complex Media, vol. 23, no. 3, pp. 267-278, 2013. (SCI: 000323370900006)

[18]  Z.-Y. Liu, L.-X. Guo, “A quasi three-dimensional ray tracing method based on the virtual source tree in urban microcellular environments”, Progress in Electromagnetics Research, vol. 118, pp. 397-414, 2011. (SCI: 000292869000023)

[19] F. Li, J. Li, Y. Zheng, L. Guo, W. Liu and Z. Liu, "Multispectral Diagnosis of Plasma Electron Temperature Based on Electron Collision Cross Section Model," IEEE Transactions on Plasma Science, vol. 51, no. 12, pp. 3579-3584, Dec. 2023. (SCI:,EI: 20240215336387)
[20] Hao Liang, Jiangting Li, Lixin Guo, Linjing Guo, WeiLiu, and Zhongyu Liu, "Influences of spatial structure of plasma shock wave on electromagnetic wave propagation characteristics," Physics of Plasmas, vol. 30, no. 6, pp.063301-1-11, 1 June, 2023. (SCI:, EI: 20232314196481)(Cited: SCI(1), EI(0))
[21] Shuqiang Niu, Ping Wang, Sihui Chi, Zhongyu Liu, Weina Pang, Lixin Guo, “Enhanced optical OFDM/OQAM for visible light communication systems,” IEEE Wireless Communications Letters, vol. 10, no. 3,pp. 614-618, March 2021. (SCI: 000628910000035, EI: 20204909595068;总引用：19； Cited:SCI(12), EI(7)，他引：15)
[22] Li Huang, Ping Wang*, Zhongyu Liu, Xi Nan, Lingling Jiao, and Lixin Guo, "Indoor three-dimensional high-precision positioning system with bat algorithm based on visible light communication," Applied Optics, vol. 58, no. 9, pp. 2226-2234, March 2019. (SCI: 000461903600012; EI: 20191206664345;总引用：24；Cited: SCI(17), EI(7);他引：18)
[23] Xi Nan, Ping Wang, Lixin Guo, Li Huang, Zhongyu Liu, "A novel VLC channel model based on beam steering considering the impact of obstacle," IEEE Communications Letters, vol. 23, no. 6, pp. 1003-1007, 2019. (SCI: 000471688000014; Cited: SCI(11), EI(6)；他引：16)
[24] Juan Li, Ke Li, Li-xin Guo, and Zhong-yu Liu, "A hybrid IEM–PO method for composite scattering from a PEC object above a dielectric sea surface with large windspeed: HH polarization," Waves in Random and Complex Media, vol. 28, no. 4, pp. 630-642, 2018. (SCI: 000452435800004; cite:SCI(2), EI(3)，他引：4).
[25] Qiang Wang, Lixin Guo, Pengju Yang, and Zhongyu Liu, "Stable implicit scheme for TM scattering from 2D conducting objects using TD-EFIE," Progress in Electromagnetics Research Letters, vol. 73, pp. 99-104, 2018. (EI: 20181004886439).

[26]  Li Huang, Ping Wang, Zhongyu Liu, Xi Nan, Lingling Jiao, and Lixin Guo, "Indoor three-dimensional high-precision positioning system with bat algorithm based on visible light communication," Applied Optics, vol. 58, no. 9, pp. 2226-2234, March 2019. (SCI: 000461903600012)

[27]  Xi Nan, Ping Wang, Lixin Guo, Li Huang, Zhongyu Liu, "A novel VLC channel model based on beam steering considering the impact of obstacle," IEEE Communications Letters, vol. 23, no. 6, pp. 1003-1007, 2019. (SCI)

[28]  Juan Li, Ke Li, Li-xin Guo, and Zhong-yu Liu, "A hybrid IEM–PO method for composite scattering from a PEC object above a dielectric sea surface with large windspeed: HH polarization," Waves in Random and Complex Media, vol. 28, no. 4, pp. 630-642, 2018. (SCI: 000452435800004).

[29] J Y Deng, L X Guo, Z Y Liu, R R Wu, and J H Yang, “Dual-band antenna with inserted edge resonators and U-slot DGS,” Journal of Electromagnetic Waves and Application, vol. 26, no. 10, pp. 1292-1299, 2012. (SCI: 000292869000023)

[30] Qiang Wang, Lixin Guo, Pengju Yang, and Zhongyu Liu, "Stable implicit scheme for TM scattering from 2D conducting objects using TD-EFIE," Progress in Electromagnetics Research Letters, vol. 73, pp. 99-104, 2018. (EI: 20181004886439).

[31] 刘忠玉，郭立新，种稚萌，陆晓峰, “城市微蜂窝环境下一种改进的射线跟踪预测模型”, 西安电子科技大学学报, vol. 41, no. 2, pp. 137-143, 2014. (EI: 20141817659870)

[32] 王强，郭立新，刘忠玉, “粗糙海面与上方多目标瞬态散射混合算法”, 西安电子科技大学学报, vol. 45, no. 5, pp. 57-63, 2018. (EI: 20184305974867)

[33] 王鹤潼, 牛书强, 施会丽, 王平，郭立新，刘忠玉. 可见光通信数字基带系统设计及其FPGA实现[J]. 西安电子科技大学学报, 2022,49(4):31-38.

(2) 会议论文：

[1]  Zhongyu Liu, Yuwei Cao, and Lixin Guo, “Analysis of the effects of different propagation mechanisms on ray-tracing-based coverage predictions in urban microcellular environments,” 2018 PhotonIcs & Electromagnetics Research Symposium (PIERS 2019), June 17-20, 2019, Rome, Italy.

[2]  Z.-Y. Liu, T.-L. Zhang, L.-X. Guo, and J. Li, “Effects of diffraction and ground reflection on ray-tracing-based coverage predictions in urban microcellular environments,” 2018 Cross Strait Quad-Regional Radio Science and Wireless Technology Conference (CSQRWC2018), July 21-24, 2018, Xuzhou, China, pp. 1-3. (EI: 20185106252915)

[3]  Z.-Y. Liu, B. Yang, and L.-X. Guo, “Ray-tracing-based coverage predictions of path loss in urban microcellular environments,” Cross Strait Quad-Regional Radio Wireless Conference, July 21-24, 2017, Chenzhou, China, pp. 1-2.

[4]  Yu-Wei Cao, Zhong-Yu Liu, and Li-Xin Guo, “A fast ray-tracing-based algorithm for very low frequency radio propagation,” Cross Strait Quad-Regional Radio Wireless Conference 2019(CSQRWC 2019), July 18-21, 2019, Taiyuan, China, pp. 1-2. (EI: 20193607388545)

[5]  Zhong-Yu Liu, Li-Xin Guo, Xiao-Wei Guan, and Ya-Jiao Wang, “A modeling approach for complex multifloored indoor environments,” ISAPE 2016 - Proceedings of the 11th International Symposium on Antennas, Propagation and EM Theory, Oct. 18-21, 2016, Guilin, China, pp. 581-583. (EI: 20170903399398)

[6]  Zhong-Yu Liu, Li-Xin Guo, Bo Lv, “Macrocellular propagation prediction model based on ray tracing algorithm,” Cross Strait Quad-Regional Radio Wireless Conference, Aug. 12-15, 2015, Xi’an and Yan’an, China, pp. 1-3.

[7]  Z.-Y. Liu, L.-X. Guo, and X.-W. Guan, “Accelerated ray tracing algorithm under urban macro cell", Proceedings of SPIE - The International Society for Optical Engineering, Sept. 21-24, 2015, Toulouse, France, vol. 9646, pp. 96460U1-6. (EI: 20160601907320)

[8]  Z.-Y. Liu, L.-X. Guo, and C.-G. Jia, “GPU-Based ray tracing algorithm for fast coverage zone prediction under urban microcellular environment,” Proc. of SPIE, Dresden, Germany, vol. 8895, pp. 88950L1-5, 2013. (EI: 20135117093241).

[9]  Z.-Y. Liu, L.-X. Guo, C.-L. Li, “Effects of antenna polarization on power and RMS delay spread in LOS/OOS indoor radio channel,” XXXIth General Assembly and Scientific Symposium (URSI GASS), Aug. 16-23, 2014, Beijing, China, pp. 1-4.(EI: 20145200378068)

[10] Zhongyu Liu, Lixin Guo, Wei Tao, “Preprocessing techniques of digital map for 2.5D ray tracing method in microcellular environment”, 28th Annual Review of Progress in Applied Computational Electromagnetics, pp. 260-265, Columbus, Ohio, USA, 2012.04.10-14.

[11] Zhong-Yu Liu, Li-Xin Guo, Zhong-Bo Zhang, “A novel 3D ray-tracing model for propagation prediction in indoor environments”, 10th International Symposium on Antennas Propagation and EM Theory, pp. 428-431, Xi’an, China, 2012.10.22-26. (EI: 20130716025243)

[12] Zhong-Yu Liu, Li-Xin Guo, and Xiao-Yu Ding, “A 2D ray tracing method based on the virtual source tree in urban environment,” Advanced Materials Research, vol. 403-408, pp. 1466-1470, 2011. (EI: 20115014601498)

[13] Z Y Liu, L X Guo, and Z B Zhang, “An acceleration technique for 2D ray tracing simulation based on the research of diffraction in urban environment,” 9th International Symposium on Antennas Propagation and EM Theory (ISAPE), Guangzhou, China, pp. 493-496, 2010. (EI: 20110813681060 )

[14] Shuo Hu, Li-Xin Guo, and Zhong-Yu Liu, “A fast ray-tracing algorithm for rugged terrain,” Cross Strait Quad-Regional Radio Wireless Conference 2019(CSQRWC 2019), July 18-21, 2019, Taiyuan, China, pp. 1-3. (EI: 20193607388505)

[15] Tian-Yu Fan, Li-Xin Guo, and Zhong-Yu Liu, “Electromagnetic transmission calculation in single room,” Cross Strait Quad-Regional Radio Wireless Conference 2019(CSQRWC 2019), July 18-21, 2019, Taiyuan, China, pp. 1-3.

[16] Tingliang Zhang, Lixin Guo, and Zhongyu Liu, “Study on modeling of visible light communication in indoor furniture Scene,” 2018 Cross Strait Quad-Regional Radio Science and Wireless Technology Conference (CSQRWC2018), July 21-24, 2018, Xuzhou, China, pp. 1-3. (EI: 20185106253039)

[17] Xiaowei Guan, Lixin Guo, and Zhongyu Liu, “GPU-Based ray tracing algorithm for high-speed propagation prediction in multi-room indoor environments,” Proceedings of SPIE - The International Society for Optical Engineering, Sept. 21-24, 2015, Toulouse, France, vol. 9646, pp. 96460G-1-8. (EI: 20160601907310)

[18] Lixin Guo, Xiaowei Guan, and Zhongyu Liu, “GPU-Based ray tracing algorithm for high-speed propagation prediction in typical indoor environments,” Proceedings of SPIE - The International Society for Optical Engineering, Sept. 21-24, 2015, Toulouse, France, vol. 9646, pp. 964606-1-11. (EI: 20160601907302)

[19] Tian-Qi Fan, Li-Xin Guo, and Zhong-Yu Liu, “SBR-PO/PTD method for backward scattering of airplane model and application to ISAR image,” Asia-Pacific Microwave Conference Proceedings( APMC), Dec. 6-9, 2015, Nanjing, China, vol. 3, pp. 1-3. (EI: 20162902596274)

[20] Guo Li-Xin, Li Chang-Long, and Liu Zhong-Yu, “Influence of electrical parameters on three-dimensional ray-tracing-based predictions in complex indoor environments,” Proceedings of SPIE - The International Society for Optical Engineering, Oct. 14-16, 2014, Beijing, China, vol. 9263, pp. 926325-1-7. (EI: 20153001072767)

[21] Sun Jie-Jing, Guo Li-Xin, Liu, Zhong-Yu, and Ge Jian-Hua, “Effects of rain attenuation on ray-tracing prediction in urban microcellular environment at 20 GHz,” 2014 IEEE International Wireless Symposium, March 24-26, 2014, Xi\\\'an, China, pp. 1-4. (EI: 20143718147279)

[22] Y S Feng, L X Guo, P Wang, Z Y Liu, “Efficient ray-tracing model for propagation prediction for microcellular wireless communication systems,” 10th International Symposium on Antennas Propagation and EM Theory, pp. 432-435, Xi’an, China, 2012.10.22-26. (EI: 20130716025244)

[23] Z B Zhang, L X Guo, Z Y Liu, “An improved algorithm of reverse ray tracing for radio propagation prediction in urban,” 2nd IEEE International Conference on Microwave Technology and Computational Electromagnetics, pp. 346-349, Beijing, China, 2011.05.22-25. (EI: 20112914156885)

[24] W Liu, L X Guo, and Z Y Liu, “Influence of azimuth angle on polarimetric bistatic scattering from sea surface,” ICMTCE2011-Proceedings 2011 IEEE International Conference on Microwave Technology and Computational Electromagnetics, Beijing, China, pp. 505-507, 2011. (EI: 20112914156942)

[25] 刘忠玉, 郭立新, 一种基于三维射线跟踪算法的宏小区传播预测模型, 2016年电磁散射与逆散射学术交流会, 镇江, 中国, 2016年10月28～30日. pp. 217-219.

[26] 刘忠玉, 郭立新, 冯永胜, “室外射线跟踪算法中数字地图的预处理技术”, 第十一届全国电波传播学术讨论年会，vol. 26, pp. 356-359, 成都, 中国, 2011.10.15-19.

[27] 范天奇，郭立新，刘忠玉, “基于曲面建模技术的射线跟踪算法在电波传播预测中的应用”, 全国电磁散射与逆散射学术交流会, pp. 260-263, 成都, 中国, 2012.11.15-17.

[28] 孟肖，郭立新，刘忠玉, “漫散射模型与射线跟踪模型在室内电波预测中的对比”, 全国电磁散射与逆散射学术交流会, pp. 273-276, 成都, 中国, 2012.11.15-17.

(3) 教改论文：

[1]  刘忠玉，郭立新，关晓伟，“国家级大学生创新训练计划项目指导体会，”应用光学(增刊)，vol. 35, pp. 197-198, 2014.

[1] 刘忠玉,李泉青,郭立新,王平．一种海环境无线信道仿真方法、系统、介质、设备及终端．国家发明专利，已授权，申请号：202111429062.0．

[2] 刘忠玉,易志豪,郭立新,董江波,刘玮,齐航,李娟．一种电参数预设和参数校正方法及系统．国家发明专利，已授权，申请号：202111402430.2．

[3] 刘忠玉,马豪伟,郭立新,白斌洋,郭兰图,刘玉超．一种基于数字高程模型的山峰绕射点测量方法、系统、设备及介质．国家发明专利，已授权，申请号：202310839770.4．

[4] 刘忠玉,姚琦,郭立新,董江波,刘玮,齐航,张晓宇. 一种室内电磁传播预测模型的方法、设备及应用.  国家发明专利，受理中.

[5] 刘忠玉,王元靖,郭立新,董江波,刘玮,齐航,张晓宇.  室内电磁波传播预测模型的环境建模方法、设备及应用. 国家发明专利，受理中.

[6] 刘忠玉,姚琦,郭立新,易志豪,董江波,刘玮,齐航,张晓宇.  一种室外快速射线追踪模型的方法、设备及应用.  国家发明专利，受理中.

[7] 刘忠玉,白斌洋,郭立新,马豪伟,郭兰图,刘玉超.  基于小波神经网络建立对流层三维大气模型的电波传播路径预测方法、系统、设备及介质.  国家发明专利，受理中.

[8] 刘忠玉,卢俊阳,郭立新,郭兰图,赵军,左伟庆,程尧. 一种基于分治策略的射线追踪校正方法，受理中.

[9]  刘忠玉,李志聪,郭立新,南作用,钟志刚,李江挺,刘伟.一种室内功率测量平台及电参数校正方法，受理中.

[10]  刘忠玉,臧浩川,郭立新,南作用,王平,刘伟,李江挺.一种结合载波相位差分定位模块的车对车信道测量系统及方法，受理中.

[11] 刘忠玉,李家昊,赵朋程,郭立新,南作业,王亚,陈鑫淼.一种基于点云数据的植被散射模型构建方法、系统及应用，受理中.

[12]  郭立新, 刘忠玉, 李汐, 种稚萌. Analysis method and device for propagation characteristics of electromagnetic wave(电波传播特性的分析方法与装置)，国际(美国)发明专利PCT/CN2011/ 077215，2012.

[13] 郭立新,孙梦洁,刘忠玉,郭兰图,赵军,左伟庆,程尧.一种室外微蜂窝场景电磁传播预测模型的构建方法、系统、设备及介质，受理中.

[14] 郭立新,黄桓,刘忠玉,郭兰图,赵军,左伟庆,程尧.一种基于射线跟踪的城市私密通信物理层安全性能评估方法，受理中.

[15] 郭立新,田天宇,刘忠玉,董江波,刘玮,齐航,刘伟．一种信道特性分析方法、系统、介质、设备及处理终端．国家发明专利，已授权，申请号：202111481302.1．

[16] 南犀，王平，黄丽，牛书强，高睿敏，郭立新，刘忠玉．一种室内可见光通信系统复杂信道冲激响应的计算方法．国家发明专利，已授权，2020.3.10，申请号：201811259417.4．

[17] 黄丽，王平，南犀，牛书强，高睿敏，刘忠玉，郭立新．一种基于蝙蝠算法的室内可见光三维定位方法．国家发明专利，已授权，申请号：201811106836.4．

[1] 刘忠玉. 室内电磁传播计算软件V1.0， 已授权，2021.11.19， 登记号：2021SR1806871.
[2] 刘忠玉. 室外近地电波传播计算软件V1.0. 已授权，2021.11.12， 登记号：2021SR1712298.