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学术论文

代表性成果:

[14] H. Jing, W. Cheng, and W. Zhang, "Breaking Limits of Line-of-Sight MIMO Capacity in 6G Wireless Communications", to appear in IEEE Communications Magazine, 2024.

[13] W. Cheng, W. Zhang, H. Jing, S. Gao and H. Zhang, "Orbital Angular Momentum for Wireless Communications," in IEEE Wireless Communications, vol. 26, no. 1, pp. 100-107, February 2019.

[12] X. Zhang, W. Cheng, and H. Zhang, "Heterogeneous Statistical QoS Provisioning Over Airborne Communications Networks," IEEE Journal on Selected Areas in Communications, Vol. 36, Issue: 10, 2018.

[11] W. Cheng, W. Zhang, L. Liang and H. Zhang, "Full-Duplex for Multi-Channel Cognitive Radio Ad Hoc Networks," in IEEE Network, vol. 33, no. 2, pp. 118-124, March/April 2019.

[10] W. Cheng, X. Zhang, and H. Zhang, "Pilot-based full-duplex spectrum-sensing and multichannel-MAC over non-time-slotted cognitive radio networks," IEEE INFOCOM 2017, Atlanta, GA, USA, May 2017.

[9] W. Cheng, X. Zhang, H. Zhang, "Optimal Power Allocation With Statistical QoS Provisioning for D2D and Cellular Communications Over Underlaying Wireless Networks," IEEE Journal on Selected Areas in Communications, vol.34, no.1, pp.151-162, Jan 2016. (影响因子8.085)

[8] W. Cheng, X. Zhang, and H. Zhang, "Statistical-QoS Driven Energy-Efficiency Optimization Over Green 5G Mobile Wireless Networks," IEEE Journal on Selected Areas in Communications, vol. 34, no 12, Dec. 2016. (影响因子8.085)

[7] W. Cheng, X. Zhang, H. Zhang, "Full-Duplex Spectrum-Sensing and MAC-Protocol for Multichannel Non-Time-Slotted Cognitive Radio Networks," IEEE Journal on Selected Areas in Communications, vol. 33, no. 5, pp. 820-831, May 2015. (影响因子8.085) 

[6] W. Cheng, X. Zhang, and H. Zhang, “Heterogeneous Statistical QoS Provisioning Over 5G Wireless Full-Duplex Networks,” 2015 IEEE International Conference on Computer Communications (INFOCOM), Hong Kong, China, Apr. 2015.

[5] W. Cheng, X. Zhang, H. Zhang, "Optimal power allocation for full-duplex D2D communications over wireless cellular networks," 2014 IEEE Global Communications Conference, Austin, TX, USA,Dec.2014. (Best Paper Candidate Award)

[4] W. Cheng, X. Zhang, H. Zhang, "Joint Spectrum and Power Efficiencies Optimization for Statistical QoS Provisionings Over SISO/MIMO Wireless Networks," IEEE Journal on Selected Areas in Communications, vol. 31, no. 5, pp. 903-915, May 2013. (影响因子8.085) 

[3] W. Cheng, X. Zhang, H. Zhang, "QoS-Aware Power Allocations for Maximizing Effective Capacity Over Virtual-MIMO Wireless Networks," IEEE Journal on Selected Areas in Communications, vol. 31, no. 10, pp. 2043-2057, Oct 2013. (影响因子8.085) 

[2] W. Cheng, X. Zhang, H. Zhang, "Optimal dynamic power control for full-duplex bidirectional-channel based wireless networks," IEEE INFOCOM, Turin, Italy, Apr. 2013.

[1] W. Cheng, X. Zhang, H. Zhang, "Full/half duplex based resource allocations for statistical quality of service provisioning in wireless relay networks," INFOCOM 2012, Orlando, FL, USA, Mar. 2012.

 

Book & book chapters:

[4] 程文驰;梁利萍;敬海越;张海林;李赞, "Fundamentals of 6G Communications and Networking", Chapter 12, Springer International Publishing, 2023-07-10.

[3] Wenchi Cheng, Liping Liang, Wei Zhang, and Hailin Zhang, "Mode Hopping for Anti-Jamming in 6G Wireless Communications," Chapter 8, Computer Communications and Networks, Springer, 2021.

[2] 程文驰,《高效无线网络中面向服务质量保障的资源优化》,金琅学术出版社,2017.

[1] Xi Zhang and Wenchi Cheng, "Wireless Networks Resources Trading for QoS Performance Guaranteed Green Communications," First Edition, "Green Communications and Networking", CRC Press, ISBN: 978-1-4398-9913-7, New York, USA, pp. 27-58, January 2012.

 

Tutorials:

[6] Wenchi Cheng and Wei Zhang, ``Emergency Wireless Communications for Next Era: Challenges, Applications, and Future Trends'', IEEE ICC 2022, Gangnam-gu Seoul South Korea.

[5] Wenchi Cheng, "Orbital Angular Momentum for Wireless Communications: Theory, Challenge,and Progress", IEEE VTC-Fall 2019,America.

[4] Wenchi Cheng, "Orbital Angular Momentum for Wireless Communications: Theory, Challenge,and Future Trends", IEEE ICC 2019, Shanghai.

[3] Wenchi Cheng, "Orbital Angular Momentum for Wireless Communications: Theory,Challenge,and Future Trends", IEEE/CIC ICCC 2018, Beijing.

[2] Wenchi Cheng and Qinghe Du, " Statistical Queuing and Delay Analysis and Its Applications in Wireless Networking ", IEEE/CIC ICCC 2017, Qingdao.

[1] Qinghe Du and Wenchi Cheng, " Statistical Queuing and Delay Analysis and Its Applications in Wireless Networking ", Chinacom 2017, Xi'an.

 

论文列表:

[166] Y. Yan, X. Zhang, L. Li, W. Lin, R. Li, W. Cheng, and Z. Han, "Federated Learning of Transformer Neural Networks for Semantic Image Communication", accepted by GLOBECOM 2024.

[165] W. Cheng, H. Jing, W. Zhang, K. Zhang, and H. Zhang, ''Quasi-Fractal UCA Based OAM for Highly Efficient Orthogonal Transmission'', accepted by IEEE Transactions on Wireless Communications.

[164] Y. Ma, W. Cheng, J. Wang, and W. Zhang, "Activation Map-based Vector Quantization for 360-degree Image Semantic Communication", accepted by GLOBECOM 2024.

[163] H. Jing, W. Cheng, and W. Zhang, ''Low-Complexity Transmission for Sphere RIS-Assisted MIMO Wireless Communications'', accepted by GLOBECOM 2024.

[162] K. Ni, J. Wang, W. Cheng, and W. Zhang, “Throughput and Fairness Trade-off Balancing for UAV-Enabled Wireless Communication Systems”, accepted by GLOBECOM 2024.

[161] X. Zheng, W. Cheng, Y. Chen, and J. Wang, ''Location-Based Passive Beamforming for Rotatable RIS-Assisted Near-Field Communications'', accepted by GLOBECOM 2024.

[160] Y. Fu, W. Cheng, W. Zhang and J. Wang, "Digital-Analog Transmission Framework for Task-Oriented Semantic Communications," in IEEE Network, doi: 10.1109/MNET.2024.3435848.

[159] J. Wang, W. Cheng and H. Vincent Poor, "Statistical Delay and Error-Rate Bounded QoS Provisioning for AoI-Driven 6G Satellite-Terrestrial Integrated Networks Using FBC," in IEEE Transactions on Wireless Communications, doi: 10.1109/TWC.2024.3430836.

[158] H. Li, J. Gong and W. Cheng, "Hybrid Beamforming Design and Signal Processing with Fully-Connected Architecture for mmWave Integrated Sensing and Communications," in Journal of Communications and Information Networks, vol. 9, no. 2, pp. 151-161, June 2024, doi: 10.23919/JCIN.2024.10582895.

[157] M. Wang, L. Liang, W. Cheng, W. Zhang, R. Chen and H. Zhang, "Reconfigurable-Intelligent-Surface Assisted Orbital-Angular-Momentum Secure Communications," in IEEE Transactions on Vehicular Technology, doi: 10.1109/TVT.2024.3421267.

[156] R. Lyu, W. Cheng, M. Wang and W. Zhang, "Fractal OAM Generation and Detection Schemes," in IEEE Journal on Selected Areas in Communications, vol. 42, no. 6, pp. 1598-1612, June 2024, doi: 10.1109/JSAC.2024.3389118.

[155] J. Wang, W. Cheng, W. Zhang and H. Liang, "Statistical QoS Provisioning Architecture for 6G Satellite-Terrestrial Integrated Networks," in Journal of Communications and Information Networks, vol. 9, no. 1, pp. 34-42, March 2024, doi: 10.23919/JCIN.2024.10494937.

[154] H. Jing, W. Cheng and W. Zhang, "Breaking Limits of Line-of-Sight MIMO Capacity in 6G Wireless Communications," in IEEE Wireless Communications, doi: 10.1109/MWC.008.2300190.

[153] X. Zheng, W. Cheng and J. Wang, "Huygens-Fresnel Model Based Position-Aided Phase Configuration for 1-Bit RIS Assisted Wireless Communication," in IEEE Transactions on Communications, doi: 10.1109/TCOMM.2024.3377711.

[152] B. Ma, Z. Ren, W. Cheng, J. Wang and W. Zhang, "Latency-Constrained Multi-User Efficient Task Scheduling in Large-Scale Internet of Vehicles," in IEEE Transactions on Mobile Computing, doi: 10.1109/TMC.2024.3367459.

[151] Y. Xiao, Q. Du, W. Cheng and W. Zhang, "Adaptive Sampling and Transmission for Minimizing Age of Information in Metaverse," in IEEE Journal on Selected Areas in Communications, vol. 42, no. 3, pp. 588-602, March 2024, doi: 10.1109/JSAC.2023.3345417.

[150] B. Qiu, W. Cheng and W. Zhang, "Joint Information and Jamming Beamforming for Securing IoT Networks With Ratesplitting," in IEEE Internet of Things Journal, vol. 11, no. 4, pp. 6338-6351, 15 Feb.15, 2024, doi: 10.1109/JIOT.2023.3313870.

[149] R. Chen, W. Cheng, J. Lin and L. Liang, "Cooperative Orbital Angular Momentum Wireless Communications," in IEEE Transactions on Vehicular Technology, vol. 73, no. 1, pp. 1027-1037, Jan. 2024, doi: 10.1109/TVT.2023.3309034.

[148] R. Chen, W. Cheng, Y. Ding and B. Wang, "QoS-Guaranteed Multi-UAV Coverage Scheme for IoT Communications With Interference Management," in IEEE Internet of Things Journal, vol. 11, no. 3, pp. 4116-4126, 1 Feb.1, 2024, doi: 10.1109/JIOT.2023.3301088.

[147] J. Wang, W. Cheng and H. V. Poor, "Statistical AoI, Delay, and Error-Rate Bounded QoS Provisioning for Satellite-Terrestrial Integrated Networks," GLOBECOM 2023 - 2023 IEEE Global Communications Conference, Kuala Lumpur, Malaysia, 2023, pp. 740-745, doi: 10.1109/GLOBECOM54140.2023.10436889. 

[146] Y. Zhang, W. Cheng, J. Wang and W. Zhang, "Performance Analysis and Blocklength Minimization of Uplink RSMA for Short Packet Transmissions in URLLC," GLOBECOM 2023 - 2023 IEEE Global Communications Conference, Kuala Lumpur, Malaysia, 2023, pp. 6765-6770, doi: 10.1109/GLOBECOM54140.2023.10437818. 

[145] H. Jin, W. Cheng and H. Jing, "Quasi-Fractal UCA Based Two-Dimensional OAM Orthogonal Transmission," GLOBECOM 2023 - 2023 IEEE Global Communications Conference, Kuala Lumpur, Malaysia, 2023, pp. 7611-7616, doi: 10.1109/GLOBECOM54140.2023.10437206. 

[144] J. Wu, W. Cheng, J. Wang, J. Wang and W. Zhang, "RIS-Based Self-Interference Cancellation for Full-Duplex Broadband Transmission," in IEEE Transactions on Wireless Communications, doi: 10.1109/TWC.2023.3337787.

[143] Y. Chen, W. Cheng and W. Zhang, "Reconfigurable Intelligent Surface Equipped UAV in Emergency Wireless Communications: A New Fading-Shadowing Model and Performance Analysis," in IEEE Transactions on Communications, doi: 10.1109/TCOMM.2023.3336223.

[142] B. Qiu, W. Cheng and W. Zhang, "Decomposed and Distributed Directional Modulation for Secure Wireless Communication," in IEEE Transactions on Wireless Communications, doi: 10.1109/TWC.2023.3325042.

[141] J. Gong, W. Cheng, F. Chen and J. Wang, "Hybrid Beamforming for Millimeter Wave Integrated Sensing and Communications," ICC 2023 - IEEE International Conference on Communications, Rome, Italy, 2023, pp. 2958-2963, doi: 10.1109/ICC45041.2023.10279443.

[140] R. Lyu, W. Cheng and M. Wang, "Fractal OAM Generation and Detection Schemes," ICC 2023 - IEEE International Conference on Communications, Rome, Italy, 2023, pp. 729-734, doi: 10.1109/ICC45041.2023.10278672.

[139] Y. Xiao, Q. Du, W. Cheng, G. K. Karagiannidis and Z. Zhao, "Model-ML Integrated Intelligence in URLLC Towards End-to-End Delay Fulfillment Over Vehicular Networks," in IEEE Internet of Things Magazine, vol. 6, no. 3, pp. 62-68, September 2023, doi: 10.1109/IOTM.001.2300049.

[138] Y. Fu, W. Cheng and W. Zhang, "Content-Aware Semantic Communication for Goal-Oriented Wireless Communications," IEEE INFOCOM 2023 - IEEE Conference on Computer Communications Workshops (INFOCOM WKSHPS), Hoboken, NJ, USA, 2023, pp. 1-6, doi: 10.1109/INFOCOMWKSHPS57453.2023.10226153.

[137] Y. Fu, W. Cheng, W. Zhang and J. Wang, "Scalable Extraction Based Semantic Communication for 6G Wireless Networks," in IEEE Communications Magazine, doi: 10.1109/MCOM.021.2300269.

[136] R. Chen, W. Cheng, J. Lin and L. Liang, "Cooperative Orbital Angular Momentum Wireless Communications," in IEEE Transactions on Vehicular Technology, doi: 10.1109/TVT.2023.3309034.

[135] J. Wang, W. Cheng, W. Zhang and H. Zhang, "Backscatter Based Bidirectional Full-Duplex Magnetic Induction Communications," in IEEE Transactions on Communications.

[134] Y. Xiao, Q. Du, W. Cheng and N. Lu, "Secure Communication Guarantees for Diverse Extended-Reality Applications: A Unified Statistical Security Model," in IEEE Journal of Selected Topics in Signal Processing.

[133] R. Chen, W. Cheng, Y. Ding and B. Wang, "QoS-Guaranteed Multi-UAV Coverage Scheme for IoT Communications with Interference Management," in IEEE Internet of Things Journal.

[132] Y. Zhang, W. Cheng and W. Zhang, "Multiple Access Integrated Adaptive Finite Blocklength for Ultra-Low Delay in 6G Wireless Networks," in IEEE Transactions on Wireless Communications.

[131] H. Jing, W. Cheng and X. -G. Xia, "Fast Transceiver Design for RIS-Assisted MIMO mmWave Wireless Communications," in IEEE Transactions on Wireless Communications.

[130] S. Zheng, Z. Ren, W. Cheng and H. Zhang, "Performance Analysis for Subgraph Isomorphism Based Embedding Service Function Chains," in IEEE Transactions on Network Science and Engineering.

[129] B. Qiu, W. Cheng and W. Zhang, "Robust Multi-Beam Secure mmWave Wireless Communication for Hybrid Wiretapping Systems," in IEEE Transactions on Information Forensics and Security, vol. 18, pp. 1393-1406, 2023.

[128] Ma, Z. Ren, W. Guo, W. Cheng and H. Zhang, "Computation-Dependent Routing Based Low-Latency Decentralized Collaborative Computing Strategy for Satellite-Terrestrial Integrated Network," 2022 14th International Conference on Wireless Communications and Signal Processing (WCSP), Nanjing, China, 2022, pp. 1-5.

[127] M. Gao, W. Cheng, W. Zhang and W. Xie, "Dual Quadrature Phase Reflection Modulation for RIS-Assisted Integrated Sensing and Communication," 2022 14th International Conference on Wireless Communications and Signal Processing (WCSP), Nanjing, China, 2022, pp. 1150-1155.

[126] Z. Yao, W. Cheng, W. Zhang, T. Zhang, and H. Zhang, ''The Rise of UAV Fleet Technologies for Emergency Wireless Communications in Harsh Environments'', IEEE NETWORK, accepted, 2022.

[125] Y. Zhang, W. Cheng, and W. Zhang, ''Adaptive Finite Blocklength for Low Access Delay in 6G Wireless Networks'', accepted by IEEE Globecom 2022.

[124] Y. Yang, W. Cheng, and J. Wang, ''Computation Offloading for Latency Reduction in Regionalized Hierarchical Vehicular Fog Network'', accepted by IEEE Globecom 2022.

[123] X. Zheng, W. Cheng, and J. Wang, ''Position-Aided On/Off States Judgment for 1-Bit RIS Assisted V2V MmWave Communication'', accepted by IEEE Globecom 2022.

[122] R. Lyu and W. Cheng, ''Joint Reflection and Power Splitting Optimization for RIS-assisted OAM-SWIPT'', accepted by IEEE Globecom 2022.

[121] R. Lyu, W. Cheng, B. Shen, Z. Ren, and H. Zhang, "OAM-SWIPT for IoE-Driven 6G," in IEEE Communications Magazine, vol. 60, no. 3, pp. 19-25, March 2022.

[120] Yinong Chen and Wenchi Cheng, "Performance Analysis of RIS-equipped-UAV Based Emergency Wireless Communications," accepted by IEEE ICC 2022.

[119] Yang Cao and Wenchi Cheng, "Multiple Reconfigurable Intelligent Surfaces Assisted Anti-jamming for Aerial-ground Communication," accepted by IEEE ICC 2022.

[118] Yixin Zhang, Wenchi Cheng, and Wei Zhang, "Dumb RIS-Assisted Random Beamforming for Energy Efficiency Enhancement of Wireless Communications," accepted by IEEE ICC 2022.

[117] W. Cheng, Y. Xiao, S. Zhang and J. Wang, "Adaptive Finite Blocklength for Ultra-Low Latency in Wireless Communications," in IEEE Transactions on Wireless Communications, vol. 21, no. 6, pp. 4450-4463, June 2022.

[116] J. Wang, W. Cheng, W. Zhang, W. Zhang and H. Zhang, "Multi-Frequency Access for Magnetic Induction-Based SWIPT," in IEEE Journal on Selected Areas in Communications, vol. 40, no. 5, pp. 1679-1691, May 2022.

[115] Z. Yao,  W. Cheng, W.Zhang,  and H. Zhang, "Resource Allocation for 5G-UAV based Emergency Wireless Communications", IEEE Journal on Selected Areas in Communications, vol. 39, no. 11, pp. 3395-3410, Nov. 2021.

[114] C. Wang, Z. Ren, W. Cheng, H. Zhang, "CDMR: Effective Computing-Dependent Multi-path Routing Strategies in Satellite and Terrestrial Integrated Networks," in IEEE Transactions on Network Science and Engineering, early accepted.

[113] B. Ma, Z. Ren and W. Cheng, "Traffic Routing-Based Computation Offloading in Cybertwin-Driven Internet of Vehicles for V2X Applications," in IEEE Transactions on Vehicular Technology, vol. 71, no. 5, pp. 4551-4560, May 2022.

[112] Xiao Zheng and Wenchi Cheng, "Antennas/PINs Selection and Joint Beamforming for High Rank LOS MmWave Communications," accepted by IEEE Globecom 2021. 

[111] Liping Liang, Wenchi Cheng, Wei Zhang,  and Hailin Zhang, "Precoding-Based Mode Hopping for Anti-Jamming," accepted by IEEE Globecom 2021. 

[110] Shuya Zheng, Zhiyuan Ren, Wenchi Cheng, and Hailin Zhang, "Minimizing the Latency of Embedding Dependence-Aware SFCs into MEC Network via Graph Theory," accepted by IEEE Globecom 2021.

[109] Buyun Ma, Zhiyuan Ren,  and Wenchi Cheng, "Credibility Computation Offloading Based Task-Driven Routing Strategy for Emergency UAVs Network," accepted by IEEE Globecom 2021.

[108] F. Qin, R. Song, W. Cheng and H. Zhang, "Multi-Beam OAM Transmitarray with Stable Vortex Property Based on Bifocal Method," in IEEE Antennas and Wireless Propagation Letters, 2021.

[107] M. Hu, W. Wang, W. Cheng and H. Zhang, "Initial Probability Adaptation Enhanced Cross-Entropy-Based Tone Injection Scheme for PAPR Reduction in OFDM Systems," in IEEE Transactions on Vehicular Technology.

[106] C. Wang, Z. Ren, W. Cheng, S. Zheng and H. Zhang, "Time-Expanded Graph-Based Dispersed Computing Policy for LEO Space Satellite Computing," 2021 IEEE Wireless Communications and Networking Conference (WCNC), Nanjing, China, 2021, pp. 1-6.

[105] Liping Liang, Wenchi Cheng, Wei Zhang, and Hailin Zhang, " Index Modulation Embedded Mode Hopping for Anti-Jamming", IEEE Systems Journal,accepted, 2021.

[104] Runyu Lyu, Wenchi Cheng, and Wei Zhang, "Modeling and Performance Analysis of OAM-NFC Systems," in IEEE Transactions on Communications, vol. 69, no. 12, pp. 7986-8001, Dec. 2021

[103] J. Wang, W. Cheng and H. Zhang, "Optimal Current Control for MISO-OFDM Based Through-the-Earth Communications with Magnetic Induction," 2021 IEEE/CIC International Conference on Communications in China (ICCC), 2021.

[102] Runyu Lyu, Wenchi Cheng, and Hailin Zhang, "Zadoff-Chu Phase Shift Matrix Based Nonplanar Wireless Communications," in International Conference on Communications (ICC),  Virtual / Montreal, Canada, pp. 1-6, June 2021.

[101] Yuquan Xiao and Wenchi Cheng, "Statistical QoS Guarantees for Energy Harvesting Cognitive Radio Networks," in Journal of Communications and Information Networks, vol. 5, no. 1, pp. 100-110, Mar. 2020.

[100] L. Liang, W. Cheng, and H. Zhang, "Index Modulation Based Joint Mode-Frequency Hopping," in IEEE Communications Letters.

[99] L. Liang, Z. Li, W. Cheng, and H. Zhang, "OAM-Based Hybrid-Duplex Cognitive Frequency Hopping," in Journal of Communications and Information Networks, vol. 5, no. 4, pp. 381-392, Dec. 2020.

[98] J. Wang, W. Cheng and H. Zhang, "Caching and D2D assisted wireless emergency communications networks with statistical QoS provisioning," in Journal of Communications and Information Networks, vol. 5, no. 3, pp. 282-293, Sept. 2020.

[97] S. Chen, Y. -C. Liang, S. Sun, S. Kang, W. Cheng and M. Peng, "Vision, Requirements, and Technology Trend of 6G: How to Tackle the Challenges of System Coverage, Capacity, User Data-Rate and Movement Speed," in IEEE Wireless Communications, vol. 27, no. 2, pp. 218-228, April 2020.

[96] Y. Ruan, Y. Li, R. Zhang, W. Cheng and C. Liu, "Cooperative Resource Management for Cognitive Satellite-Aerial-Terrestrial Integrated Networks Towards IoT," in IEEE Access, vol. 8, pp. 35759-35769, 2020.

[95] J. He, J. Wang, H. Zhu, N. J. Gomes, W. Cheng, P. Yue, and X. Yi, "Machine Learning based Network Planning in Drone Aided Emergency Communications," 2020 IEEE 91st Vehicular Technology Conference (VTC2020-Spring), Antwerp, Belgium, 2020, pp. 1-5.

[94] Jiatong Zhou, Wenchi Cheng, and Liping Liang, “OAM Transmission in Sparse Multipath Environments With Fading,” IEEE ICC, Dublin, Ireland, June. 2020.

[93] Haiyue Jing, Wenchi Cheng, Wei Zhang, Hailin Zhang,“Optimal UCA Design for OAM Based Wireless Backhaul Transmission,”IEEE ICC, Dublin, Ireland, June. 2020.

[92] Runyu Lyu, Wenchi Cheng, Wei Zhang, and Fan Qin, “OAM-NFC: A Short-Range High Capacity Transmission Scheme,” IEEE ICC, Dublin, Ireland, June. 2020.

[91] Jianxiu Li and Wenchi Cheng, "Simultaneous Transmitting and Air Computing for High-Speed Point-to-Point Wireless Communication,"  IEEE ICC, Dublin, Ireland, June. 2020.

[90]Jianyu Wang, Wenchi Cheng, and Hailin Zhang, "Statistical QoS Provisioning Based Caching Placement for D2D Communications Based Emergency Networks", INFOCOM 2020 WKSHPS IWECN.

[89]Shishi Zhang and Wenchi Cheng, "Statistical QoS Provisioning for UAV-enabled Emergency Communication Networks",GLOBECOM 2019 Workshop - IWECN

[88] H. Jing, W. Cheng, W. Zhang and R. Lyu, "OAM Based Wireless Communications with Non-Coaxial UCA Transceiver," 2019 IEEE PIMRC, Istanbul, Turkey, 2019, pp. 1-6.

[87] L. Liang, W. Cheng, W. Zhang and H. Zhang, "Joint OAM Multiplexing and OFDM in Sparse Multipath Environments," in IEEE Transactions on Vehicular Technology.

[86] J. Li and W. Cheng, "Stacked Denoising Autoencoder Enhanced Polar Codes Over Rayleigh Fading Channels," in IEEE Wireless Communications Letters, vol. 9, no. 3, pp. 354-357, March 2020.

[85] X. Hou, Z. Ren, J. Wang, S. Zheng, W. Cheng and H. Zhang, "Distributed Fog Computing for Latency and Reliability Guaranteed Swarm of Drones," in IEEE Access, vol. 8, pp. 

[84] F. Qin, L. Li, Y. Liu, W. Cheng and H. Zhang, "A Four-Mode OAM Antenna Array With Equal Divergence Angle," in IEEE Antennas and Wireless Propagation Letters, vol. 18, no. 9, pp. 1941-1945, Sept. 2019.

[83]  Lyu Runyu, Wenchi Cheng, Wei Zhang, and Hailin Zhang, "High Reliable Orbital Angular Momentum Wireless Communications for Space Information Networks," accepted by IEEE WCSP 2019 (Best Paper Award).

[82]  Liping Liang, Wenchi Cheng, Wei Zhang, Hailin Zhang, "Mode Hopping With OAM-Based Index Modulation," accepted by IEEE Globecom 2019.

[81] Shanghua Gao, Wenchi Cheng, Hailin Zhang, "Bifocal-Lens Converging Based OAM Wireless Communications", Journal of Communications and Information Networks, Vol.4, No.2, Jun. 2019.

[80]  Shanzhi Chen, Ying-Chang Liang, Shaohui Sun, Shaoli Kang, Wenchi Cheng, and Mugen Peng, “Vision, Requirements, and Technology Trend of 6G — How to Tackle the Challenges of  System  Coverage, Capacity, User Data-rate and Movement Speed” To appear in IEEE Wireless Communications.

[79] X. Lu, Q. Ni, D. Zhao, W. Cheng and H. Zhang, "Resource Virtualization for Customized Delay- Bounded QoS Provisioning in Uplink VMIMO-SC-FDMA Systems," in IEEE Transactions on Communications, vol. 67, no. 4, pp. 2951-2967, April 2019. 

[78] H. Jing, W. Cheng and X. Xia, "A Simple Channel Independent Beamforming Scheme With Parallel Uniform Circular Array," in IEEE Communications Letters, vol. 23, no. 3, pp. 414-417, March 2019.

[77] C. Zheng, W. Cheng and H. Zhang, "Optimal Resource Allocation for Two-User and Single-DF-Relay Network With Ambient Backscatter," in IEEE Access, vol. 7, pp. 91375-91389, 2019.

[76] W. Cheng, J. Wang, R. Zhang and H. Zhang, "Achieving Maximum Spectrum Efficiency for Full-Duplex MIMO: The Fractal Array-Element Based Self-Interference Mitigation Approach," in IEEE Access, vol. 7, pp. 74056-74069, 2019.

[75] J. Xie, F. Qin, W. Cheng, H. Zhang and S. Gao, "A Design of Extremely Wideband Fabry-Perot Cavity Antenna," 2019 IEEE International Conference on Computational Electromagnetics (ICCEM), Shanghai, China, 2019, pp. 1-3.

[74] W. Cheng, W. Zhang, L. Liang and H. Zhang, "Full-Duplex for Multi-Channel Cognitive Radio Ad Hoc Networks," in IEEE Network, vol. 33, no. 2, pp. 118-124, March/April 2019.

[73] W. Cheng, W. Zhang, H. Jing, S. Gao and H. Zhang, "Orbital Angular Momentum for Wireless Communications," in IEEE Wireless Communications, vol. 26, no. 1, pp. 100-107, February 2019.

[72] M. Hu, W. Wang, W. Cheng and H. Zhang, "A Generalized Piecewise Linear Companding Transform for PAPR Reduction in OFDM Systems," to appear in IEEE Transactions on Broadcasting.

[71] Wenchi Cheng, Haiyue Jing, Wei Zhang, Zan Li, and Hailin Zhang,"Achieving Practical OAM Based Wireless Communications With Misaligned Transceiver", IEEE ICC, Shanghai, 2019.

[70] Keyi Zhang, Wenchi Cheng, Runyu Lyu, Wei Zhang, Hailin Zhang, and Fan Qin, “Sequence Scrambling for Non-Hollow-OAM Based Wireless Communications,” IEEE ICC, Shanghai, 2019.

[69] Jian He, Jiangzhou Wang, Huiling Zhu, Wenchi Cheng, Peng Yue, and Xiang Yi, "Resource Allocation in Drone Aided Emergency Communications," IEEE ICC, Shanghai, 2019.

[68] Xiangwang Hou, Zhiyuan Ren, Wenchi Cheng, Chen Chen, and Hailin Zhang " Fog Based Computation Offloading for Swarm of Drones"  IEEE ICC, Shanghai,2019.

[67] Zefeng Jia,  Wenchi Cheng,  and Hailin Zhang,  "A Partial Learning Based Detection Scheme for Massive MIMO," IEEE Wireless Communications Letters, 2019.

[66] Yang Cai, Shaojun Qiu, Jia Cai, Wenchi Cheng, and Xiaofeng Lu, "An Efficient Resource Allocation Algorithm for LTE Uplink VMIMO Systems,"  AICON 2019.

[65] Yixin Zhang, and Wenchi Cheng, "Trajectory and Power Optimization for Multi-UAV Enabled Emergency Wireless Communications Networks," IEEE ICC Workshop IWECN, Shanghai, 2019.

[64] Wenchi Cheng, Jianyu Wang, and Hailin Zhang, "Positive-negative array-element based full-duplex self-interference mitigation", URSI AP-RASC, New Delhi, 2019.

[63] W. Cheng, R. Lyu, J. Wang, and H. Zhang, “Nonplanar Electromagnetic Wave for Line-of-Sight Wireless Communications: A Novel Technology for 6G,” submitted to IEEE Vehicular Technology Magazine Special Issue on 6G: What is Next? 

[62] Wenchi Cheng, Zan Li, Feifei Gao, Liping Liang, and Hailin Zhang, “Mode Hopping for Anti-Jamming in Cognitive Radio Networks," IEEE ICCC 2018.(Best Paper Award)

[61] Xi Zhang, Wenchi Cheng, and Hailin Zhang, "Heterogeneous Statistical QoS Provisioning Over Airborne Communications Networks," IEEE Journal on Selected Areas in Communications, Vol. 36,  Issue: 10, 2018.

[60] Yuquan Xiao, Wenchi Cheng, Wei Zhang, and Tao Sun, "Qos Guarantee for Energy Harvesting Cognitive Radio Networks", DySPAN 2018.

[59]F. Qin, S. Gao, W. Cheng, Y. Liu, H. Zhang and G. Wei, "A High-Gain Transmitarray for Generating Dual-Mode OAM Beams," in IEEE Access, vol. 6, pp. 61006-61013, 2018.

[58] Liping Liang, Wenchi Cheng, Wei Zhang, and Hailin Zhang, "Orthogonal Frequency and Mode Division Multiplexing for Wireless Communications," IEEE GLOBECOM, Abu Dhabi, 2018.

[57] Liqin Shi, Wenchi Cheng, Yinghui Ye, Hailin Zhang, and Rose Qingyang Hu, "Heterogeneous Power-Splitting Based Two-Way DF Relaying with Non-Linear Energy Harvesting," IEEE GLOBECOM, Abu Dhabi, 2018.

[56] Liping Liang, Wenchi Cheng, Wei Zhang, and Hailin Zhang, "Mode Hopping for Radio Vortex Wireless Communications," IEEE Transactions on Vehicular Technology, 2018.

[55] Zhuohui Yao, Wenchi Cheng, and Hailin Zhang, "Full-Duplex Assisted LTE-U/WiFi Coexisting Networks in Unlicensed Spectrum," IEEE Access, Vol. 6, pp 40085-40095, 2018.

[54] Ying Guo, Yongzhao Li, Yan Li, Wenchi Cheng, and Hailin Zhang, "SWIPT Assisted NOMA for coordinated Direct and Relay Transmission," IEEE ICCC 2018.

[53] Liping Liang, Wenchi Cheng, Wei Zhang, and Hailin Zhang, "Mode Division Multiplexing for Radio Vortex Wireless Communication," IEEE PIMRC, Bologna, Italy, 2018.

[52] Haiyue Jing, Wenchi Cheng, and Xiang-Gen Xia, "Orbital-Angular-Momentum Versus MIMO: Orthogonality, Degree of Freedom, and Capacity," IEEE PIMRC, Bologna, Italy, 2018.

[51] Linjun Zhao, Hailin Zhang, and Wenchi Cheng, "Fractal Uniform Circular Arrays Based Multi-Orbital-Angular-Momentum-Mode-Multiplexing Vortex Radio MIMO," China Communications, 2018.

[50] X. Lu, Q. Ni, D. Zhao, W. Cheng and H. Zhang, "Resource Virtualization for Customized Delay- Bounded QoS Provisioning in Uplink VMIMO-SC-FDMA Systems," in IEEE Transactions on Communications, vol. 67, no. 4, pp. 2951-2967, April 2019.

[49]Yuwen Yang, Wenchi Cheng, Wei Zhang, and Hailin Zhang, "Mode Modulation for Wireless Communications with a Twist," IEEE Transactions on Vehicular Technology, 2018.

[48] Fan Qin, Lulan Wan, Lilong Li, Jia Xie, Yi Liu, Wenchi Cheng, and Hailin Zhang, "A Wideband High-Gain Transmitarray Based on Quasi-Yagi Antenna Element," 2018 Asia-Pacific Microwave Conference (APMC), Kyoto, 2018, pp. 7-9.

[47] H. Jing, W. Cheng and X. Xia, "A Simple Channel Independent Beamforming Scheme With Parallel Uniform Circular Array," in IEEE Communications Letters, vol. 23, no. 3, pp. 414-417, March 2019.

[46] Haiyue Jing, Wenchi Cheng, Zan Li, and Hailin Zhang, "Concentric UCAs Based Low-order OAM for High Capacity in Radio Vortex Wireless Communications," Journal of Communications and Information Networks(JCIN), 2018.

[45] Wenchi Cheng, Hailin Zhang, Liping Liang, Haiyue Jing, and Zan Li, "Orbital-Angular-Momentum embedded Massive MIMO: Achieving Multiplicative Spectrum-Efficiency for mmWave Communications," IEEE Access, vol. 6, pp 2732-2745, 2018.

[44] Yu Song, Wangdong Qi, and Wenchi Cheng, "Energy Efficient MAC Protocol for Wireless Full-duplex Networks," China Communications, 2018.

[43] Jianyu Wang and Wenchi Cheng, "Heterogeneous Quality of Experience Guarantees Over Wireless Networks," China Communications, 2018.

[42] Qinfan, Jianjia Yi, Wenchi Cheng, Yi Liu, Hailin Zhang, and Steven Gao, "A High-Gain Shared- Aperture Dual-Band OAM Antena with Parabolic Reflector," EuCap, London, Apr. 2018.

[41] Ya Gao, Wenchi Cheng, and Hailin Zhang, "Statistical-QoS Guaranteed Energy Efficiency Optimization for Energy Harvesting Wireless Sensor Networks," Sensors 2017.

[40] Ya Gao, Wenchi Cheng, Hailin Zhang, and Zan Li, "Heterogeneous Statistical QoS Provisioning Over Wireless Powered Sensor Networks," IEEE Access, Vol. 5, 2017

[39] Yuwen Yang, Wenchi Cheng, Wei Zhang, and Hailin Zhang, "Mode Modulation for Orbital-Angular-Momentum Based Wireless Vorticose Communications," IEEE GLOBECOM, Singapore, Dec. 2017

[38] Ya Gao, Wenchi Cheng, Wei Zhang, and Hailin Zhang, "Energy Efficiency Optimization With Statistical QoS Provisioning for Energy Harvesting Networks," IEEE GLOBECOM, Singapore, Dec. 2017

[37] Ya Gao, Wenchi Cheng, Hailin Zhang, and Zan Li, "Optimal Resource Allocation With Heterogeneous QoS Provisioning for Wireless Powered Sensor Networks," IEEE GLOBECOM, Singapore, Dec. 2017

[36] Peihan Qi, Zan Li, Wenchi Cheng, Jiangbo Si, and Qihui Wu, "Residual Correlation Matrix Detection Based Blind Sub-Nyquist Spectrum Sensing for Cognitive Radio Networks," WCSP, Nanjing, Oct. 2017.

[35] Haiyue Jing, Wenchi Cheng, Zan Li, and Hailin Zhang, "Concentric UCAs Based Low-Order Radio Vortex Wireless Communications with Co-Mode Interference," IEEE ICCC, Qingdao, Oct. 2017 (Invited Paper)

[34] Liping Liang, Wenchi Cheng, Hailin Zhang, Zan Li, and Yongzhao Li, "Orbital-Angular-Momentum Based Mode-Hopping: A Novel Anti-Jamming Technique," IEEE ICCC, Qingdao, Oct. 2017

[33] Shanghua Gao, Wenchi Cheng, Hailin Zhang, and Zan Li, "High-Efficient Beam-Converging for UCA Based Radio Vortex Wireless Communications," IEEE ICCC, Qingdao, Oct. 2017

[32] Wenchi Cheng, Xi Zhang, and Hailin Zhang, "Pilot-based full-duplex spectrum-sensing and multichannel-MAC over non-time-slotted cognitive radio networks," IEEE INFOCOM 2017, Atlanta, GA, USA, May 2017.

[31] Wenchi Cheng, Xi Zhang, and Hailin Zhang, "Statistical-QoS Driven Energy-Efficiency Optimization Over Green 5G Mobile Wireless Networks," IEEE Journal on Selected Areas in Communications, vol. 34, no 12, Dec. 2016.

[30] Zhu Xiao, Tong Li, Wenchi Cheng, and Dong Wang," Apollonius Circles Based Outbound Handover in Macro-Small Wireless Cellular Networks," IEEE GLOBECOM 2016, Washington, D.C., Dec. 2016.

[29] Wenchi Cheng, Xi Zhang, and Hailin Zhang, "Decentralized Heterogeneous Statistical QoS Provisioning for Uplink Transmissions Over 5G Wireless Networks," IEEE GLOBECOM 2016, Washington, D.C., Dec. 2016.

[28] Zaowei Zhang, Wenchi Cheng and Hailin Zhang, "Search-Range-Correction-Based Doppler Shift Acquisition for Space Communications," IEEE Transactions on Vehicular Technology, vol. 65, no. 5, pp. 3271-3284, May 2016.

[27] Wenchi Cheng, Xi Zhang, Hailin Zhang, "Optimal Power Allocation With Statistical QoS Provisioning for D2D and Cellular Communications Over Underlaying Wireless Networks". IEEE Journal on Selected Areas in Communications, vol. 34, no. 1, pp. 151-162, Jan 2016. 

[26] Ya Gao, Wenchi Cheng, and Hailin Zhang, "Optimal Channel Selection and Power Control Over D2D Communications Based Cognitive Radio Networks," Chinacom 2016.

[25] Liping Liang, Wenchi Cheng, and Hailin Zhang, "Optimal Power Allocations for Full-Duplex Enhanced Visible Light Communications," Chinacom 2016.  

[24] Xi Zhang, Wenchi Cheng, Hailin Zhang," Full-duplex transmission in PHY and MAC layers for 5G mobile wireless networks". IEEE Wireless Communications,vol. 22, no. 5, pp. 112-121, Oct 2015. (影响因子8.972) 

[23] Wenchi Cheng, Xi Zhang, Hailin Zhang, "Full-Duplex Spectrum-Sensing and MAC-Protocol for Multichannel Non-Time-Slotted Cognitive Radio Networks ". IEEE Journal on Selected Areas in Communications, vol. 33, no. 5, pp. 820-831, May 2015. 

[22] Wenchi Cheng, Xi Zhang, and Hailin Zhang, “Heterogeneous Statistical QoS Provisioning Over 5G Wireless Full-Duplex Networks”. 2015 IEEE International Conference on Computer Communications (INFOCOM), Hong Kong, China, Apr. 2015.

[21] W. Cheng, X. Zhang and H. Zhang, "Heterogeneous Statistical QoS Provisioning for Full-Duplex D2D Communications over 5G Wireless Networks," 2015 IEEE Global Communications Conference (GLOBECOM), San Diego, CA, 2015, pp. 1-7.

[20] Wenchi Cheng, Xi Zhang, Hailin Zhang, "Optimal power allocation for full-duplex D2D communications over wireless cellular networks". 2014 IEEE Global Communications Conference, Austin, TX, USA,Dec.2014. (Best Paper Candidate Award)

[19] Wenchi Cheng, Xi Zhang, Hailin Zhang, "Heterogeneous statistical QoS provisioning for downlink transmissions over mobile wireless cellular networks". 2014 IEEE Global Communications Conference, Austin, TX, USA,Dec.2014.

[18] Xi Zhang, Wenchi Cheng, Hailin Zhang, "Heterogeneous Statistical QoS Provisioning Over 5G Mobile Wireless Networks", IEEE Network, vol. 28, no. 6, pp.46-53, Nov-Dec 2014. (影响因子7.230) 

[17] Wenchi Cheng, Hailin Zhang, "Quality-of-service driven power allocations for wireless full-duplex bidirectional links".[Science China Information Sciences, vol. 57, no. 4, pp. 1-10, Apr 2014.

[16] Wenchi Cheng, Xi Zhang, Hailin Zhang, "RTS/FCTS Mechanism Based Full-Duplex MAC Protocol for Wireless Networks". IEEE Global Communications Conference (GLOBECOM), Atlanta, GA, USA, Dec.2013.

[15] Wenchi Cheng, Xi Zhang, Hailin Zhang, "QoS-Aware Power Allocations for Maximizing Effective Capacity Over Virtual-MIMO Wireless Networks". IEEE Journal on Selected Areas in Communications, vol. 31, no. 10, pp. 2043-2057, Oct 2013. (影响因子4.138) 

[14] Wenchi Cheng, Xi Zhang, Hailin Zhang, "Joint Spectrum and Power Efficiencies Optimization for Statistical QoS Provisionings Over SISO/MIMO Wireless Networks ". IEEE Journal on Selected Areas in Communications, vol. 31, no. 5, pp. 903-915, May 2013. 

[13] Wenchi Cheng, Xi Zhang, Hailin Zhang, "Optimal dynamic power control for full-duplex bidirectional-channel based wireless networks," IEEE INFOCOM, Turin, Italy, Apr. 2013.

[12] W. Cheng, X. Zhang and H. Zhang, "Joint spectrum and power efficiencies optimization for statistical QoS provisionings in wireless networks," Global Communications Conference (GLOBECOM), 2012 IEEE, Anaheim, CA, 2012, pp. 4006-4011.

[11] Wenchi Cheng, Xi Zhang, Hailin Zhang, "QoS driven power allocation over full-duplex wireless links". 2012 IEEE International Conference on Communications (ICC), Ottawa Canada, Jun.2012.

[10] Wenchi Cheng, Xi Zhang, Hailin Zhang, "Maximizing Effective Capacity Over Wireless Links Under Average and Peak Power Constraints". IEEE International Conference on Communications (ICC), Ottawa Canada, Jun.2012.

[9] Wenchi Cheng, Xi Zhang, Hailin Zhang, "Full/half duplex based resource allocations for statistical quality of service provisioning in wireless relay networks". INFOCOM 2012, Orlando, FL, USA, Mar. 2012.

[8] Wenchi Cheng, Xi Zhang, Hailin Zhang, "Full Duplex Spectrum Sensing in Non-Time-Slotted Cognitive Radio Networks". Military Communications Conference (MILCOM), Baltimore MD, USA, Nov. 2011.

[7] Wenchi Cheng, Xi Zhang, Hailin Zhang, “Imperfect full duplex spectrum sensing in cognitive radio networks”, ACM Mobicom 2011 Cognitive Wireless Networking Workshop, Las Vegas, USA, Sep. 2011.

[6] W. Cheng, Xi Zhang, H. Zhang and Qiang Wang, "On-Demand based wireless resources trading for Green Communications," Computer Communications Workshops (INFOCOM WKSHPS), 2011 IEEE Conference on, Shanghai, 2011, pp. 283-288.

[5] Wenchi Cheng, Xi Zhang, Hailin Zhang,"Full Duplex Wireless Communications for Cognitive Radio Networks", CoRR abs/1105.0034 (2011)

[4] Wenchi Cheng, Xi Zhang, Hailin Zhang, Qiang Wang,"On-Demand Based Wireless Resources Trading for Green Communications", CoRR abs/1105.0401 (2011)

[3] Wenchi Cheng, Hailin Zhang,"Approximating maximum likelihood performance reduced dimension VBLAST detection algorithm", SCIENCE CHINA Information Sciences 53(7):1439-1445(2010).

[2] W. Cheng, H. Zhang, L. Zhao, and Y. Li, "Energy Efficient Spectrum Allocation for Green Radio in Two-Tier Cellular Networks," Global Telecommunications Conference (GLOBECOM 2010), 2010 IEEE, Miami, FL, 2010, pp.1-5.

[1] W. Cheng and H. Zhang, "A Reduced Dimension VBLAST Detection Algorithm with Approximating Maximum Likelihood Performance," 2009 5th International Conference on Wireless Communications, Networking and Mobile Computing, Beijing, 2009, pp.1-4.

授权发明专利:(部分GF专利未列入)

[1] 张海林; 程文驰; 卢晓峰; 刘龙伟; 武德斌.基于逼近最大似然性能的低复杂度垂直分层空时码检测方法.授权公告号CN101540659B.授权公告日2012-01-04.

[2] 李勇朝; 张海林; 李丹萍; 任智源; 程文驰; 梁海涛.嵌入D2D的蜂窝网络中基于SINR增量迭代的功率分配方法.授权公告号CN103582104B.授权公告日2016-06-29.

[3] 卢小峰; 张海林; 程文驰; 董阳; 郭松; 张立. 基于部分序列参数检测的空时码模式盲识别方法.授权公告号CN103490863B.授权公告日2016-08-17.

[4] 程文驰; 张海林; 李丹萍; 李勇朝; 任智源; 崔建国.无线网络下D2D和蜂窝通信的统计QoS保障的功率分配方案.授权公告CN103517347B.授权公告日2017-01-04.

[5] 张海林; 李勇朝;李丹萍;程文驰; 任智源; 梁海涛.嵌入D2D的蜂窝网络中基于综合效用函数的功率分配方法.授权公告号CN103607765B.授权公告日2017-03-01.

[6] 程文驰; 张海林; 李丹萍; 任智源; 李勇朝; 李涛.一种无线网络中基于RTS/FCTS原理的实现全双工FD-MAC协议的方法.授权公告号CN103619072B.授权公告日2017-03-22.

[7] 张海林; 程文驰; 任智源; 李丹萍; 李勇朝; 王建伟.两天线无线移动中继的双工模式选择技术方法.授权公告号CN103997361B.授权公告日2017-07-21.

[8] 张海林; 赵林军; 程文驰; 刘毅; 梁芳. 基于空间正交变换的涡旋电磁波信号模态并行分离方法与装置.授权公告号CN105785323B. 授权公告日2018-05-29.

[9] 程文驰;李丹萍; 张海林; 李勇朝; 任智源; 邵郁林.无线全双工网络中面向服务质量保障资源分配方法.授权公告号CN103974433B.授权公布日2018-09-25.

[10] 张海林; 赵林军; 程文驰; 梁芳. 基于xxx系统收发天线布局及xxx方法与装置. 授权公告号xxxxx. 授权公布日 2019-04-02.

申请发明专利:

[1] 程文驰; 张海林; 任智源; 李丹萍; 李勇朝.基于全双工的认知无线网络媒体接入控制协议方法.申请公布号CN105072698A.申请公布日2015-11-18.

[2] 程文驰; 任智源; 张海林; 李丹萍; 李勇朝; 周彦果.无线网络中面向统计服务质量保障的联合优化方案.申请公布号CN103974345A.申请公布日2014-08-06.

[3] 李丹萍; 程文驰; 张海林; 任智源; 李勇朝; 崔建国.无线多天线虚拟MIMO中基于最大化有效容量功率分配方案.申请公布号CN103974404A.申请公布日2014-08-06.

[4] 卢小峰; 张海林; 程文驰; 董阳; 郭松; 张立.基于部分序列参数检测的空时码模式盲识别方法. 申请公布号CN103490863A.申请公布日2014-01-01.

[5] 程文驰; 张海林等; 面向XXXX的大规模多天线下行微弱信号接收技术. 国防专利. 申请日:2016.08

[6] 任智源; 何秀丽; 张海林; 程文驰; 陈晨. 分布式卫星云雾网络架构及能耗约束下的时延优化方法. 申请公布号CN107343025A. 申请公布日2017-11-10.

[7] 程文驰; 张汝铅; 张海林; 任智源; 秦凡; 李丹萍. 在单天线同时同频全双工通信中消除单对偶阵元自/互干扰的方法. 申请公布号CN201810187137. 申请公布日2018-03-07.

[8] 程文驰; 张汝铅; 张海林; 任智源; 秦凡; 李丹萍. 在单天线全双工通信中消除多对偶阵元间互干扰的方法. 申请公布号CN201810187139. 申请公布日2018-03-07.

[9] 程文驰; 姚卓蕙; 张海林; 任智源; 秦凡. LTE-U/WiFi共用未授权频段公平性保障方法. 申请公布号CN201810286254. 申请公布日2018-04-03.

[10] 程文驰; 姚卓蕙; 张海林; 任智源; 秦凡. 一种LTE-U/WiFi共用未授权频段避免碰撞的办法. 申请公布号CN201810325183. 申请公布日2018-04-12.

[11] 程文驰; 孙涛; 张海林; 秦凡; 任智源; 王一竹. 基于涡旋电磁波的信号调制解调方法及系统. 申请公布号CN201810568833. 申请公布日2018-06-05.

[12] 刘毅; 郭潇洒; 秦凡; 程文驰; 喻丹阳; 张海林.基于环路干扰重构抵消的全双工中继传输方法.申请公开号CN108494466A.申请公开日2018-09-04.

[13] 任智源; 姚博文; 程文驰; 陈晨; 张海林.一种数据分配方法.申请公开号CN108566430A.申请公开日2018-09-21.

[14] 秦凡; 程文驰; 张海林; 孙涛; 刘毅; 匡亚茹.一种可产生多模态涡旋电磁波的阵列天线.申请公开号CN108598682A.申请公开日2018-09-28.

[15] 刘毅;吴炯;程文驰;秦凡;喻丹阳;张海林.基于正交频分复用的同时同频全双工双向中继传输方法.申请公开号:CN108599914A.申请公开日:2018.09.28.

[16] 秦凡;李丽红;刘毅;程文驰;张海林.高增益笔形波束和轨道角动量涡旋波束的发生装置.申请公开号:CN108767496A.申请公开日:2018.11.06.

[17] 秦凡;万录兰;刘毅;程文驰;张海林.一种基于超表面的涡旋电磁波产生装置.申请公开号:CN108767495A.申请公开日:2018.11.06.

[18] 任智源;杜欣笑;程文驰;陈晨;张海林.基于区块链技术的数据交易方法及系统.申请公开号:CN108985909A.申请公开日:2018.12.11.

[19] 任智源;张夏童;陈晨;程文驰;张海林.面向物联网设备群体的调度与管理方法.申请公开号:CN109194534A.申请公开日:2019.01.11.

[20] 程文驰;敬海越;匡亚茹;张海林.基于同轴天线阵列UCA的涡旋电磁波的最大似然检测方法.申请公开号:CN109286469A.申请公开日:2019.01.29.

[21] 程文驰;敬海越;匡亚茹;张海林.基于平行非同轴天线阵列UCA的涡旋电磁波的模态分离方法.申请公开号:CN109412666A.申请公开日:2019.03.01.

[22] 程文驰;敬海越;王一竹;张海林.基于同心圆均匀圆阵列天线涡旋电磁波的解调方法.申请公开号:CN109450504A.申请公开日:2019.03.08.