[1]      电子科技大学杰出人才配套经费，面向未来6G移动通信系统的能量自持续技术研究，2021.01-2023.12，50万元，在研，主持

[2]      电子科技大学学术新人奖专项课题，面向数能一体化传输的多域资源联合分配机理，2020.01-2020.12，13万元，在研，主持

[3]      国家自然科学基金面上项目，61971102，面向无线数据与能量一体化传输的编码调制理论与宽带收发机理，2020.01-2023.12，59万元，在研，主持

[4]      华为创新研究项目，无线数能同传研究，2019.10-2020.12，50万元，在研，主持

[5]      四川省科技计划项目，面向传感器网络的数据能量一体化编码调制及传输技术（自由探索型），2019.01-2020.12，10万元，在研，主持

[6]      国家自然科学基金地区合作重点项目，U170520074，无线数据和能量一体化传输机理和联合资源分配算法研究，2018.1-2021.12，198万元，在研，主研排名第4

[7]      华为创新研究项目（HIRP），基于基站的低功耗设备无线充电技术研究，20万元，2017.3-2018.12，结题，主持

[8]   国家自然科学基金国际合作重点项目，61620106011，通信与计算的协同机理及联合资源分配算法研究，2017.1-2021.12，243万元，在研，主研排名第3

[9]   国家自然科学基金青年项目，61601097，基于用户社会关系建模的移动机会网络传输机理研究，2017.01-2019.12，20万元，结题，主持

[10]   中央高校科重点培育项目，无线数据与能量一体化通信网络关键问题研究，2017.01-2019.12，100万元，结题，主研排名第4

[11]    中央高校科研业务经费项目，基于用户社会行为的无线网络容量挖掘及组网技术研究，2016.05-2017.12，11万元，结题，主持

[1]     Long Zhang, Halvin Yang, Yizhe Zhao and Jie Hu*, "Joint Port Selection and Beamforming Design for Fluid Antenna Assisted Integrated Data and Energy Transfer," IEEE Wireless Communications Letters, vol. 13, no. 7, pp. 1833-1837, July 2024.

[2]     Qingxiao Huang, Jie Hu* and Kun Yang, "Intelligent Reflecting Surface Assisted Integrated Data and Energy Multicast System in Terahertz-Bands," in IEEE Transactions on Green Communications and Networking, early access, June 2024.

[3]     Cheng Luo, Jie Hu*, Luping Xiang, Kun Yang and Kai-Kit Wong, "Massive Wireless Energy Transfer Without Channel State Information via Imperfect Intelligent Reflecting Surfaces," in IEEE Transactions on Vehicular Technology, vol. 73, no. 6, pp. 8529-8541, June 2024.

[4]     Jie Hu, Jingwen Cui, Luping Xiang and K. Yang, "End-to-End Design of Polar Coded Integrated Data and Energy Networking," in IEEE Transactions on Communications, early access, June 2024.

[5]     Guangming Liang, Jie Hu*, Yizhe Zhao and Kun Yang, "Intelligent Link Adaptation for Integrated Data and Energy Transfer: An Enhanced DRL Approach for Long-Term Constraints," in IEEE Transactions on Communications, early access, May 2024.

[6]     Qingxiao Huang, Jie Hu*, Qingdong Yue and Kun Yang, "Beamforming Design in Intelligent Reflecting Surface Aided Multicast System in Ultra-High Frequency Bands With Large-Scale Antenna Array," in IEEE Wireless Communications Letters, vol. 13, no. 5, pp. 1429-1433, May 2024.

[7]     Luping Xiang, Ke Xu, Jie Hu*, Christos Masouros and Kun Yang, "Robust NOMA-Assisted OTFS-ISAC Network Design With 3-D Motion Prediction Topology," in IEEE Internet of Things Journal, vol. 11, no. 9, pp. 15909-15918, May 2024.

[8]     Jie Hu, Jiangchuan Gao, Qin Yu* and Kun Yang, "Unmanned Aerial Vehicle aided Batteryless Covert Communications: A Robust Design Against Cooperative Hostile Detection," in IEEE Transactions on Vehicular Technology, early access, April 2024.

[9]     Qingdong Yue, Jie Hu*, Tingyu Shui, Qingxiao Huang, Kun Yang and Lajos Hanzo, “Hybrid Terahertz Beamforming Relying on Channel Sparsity and Angular Orthogonality,” IEEE Transactions on Vehicular Technology, vol. 73, no. 4, pp. 4759-4773, April 2024.

[10]  Luping Xiang, Ke Xu, Jie Hu* and Kun Yang, “Green Beamforming Design for Integrated Sensing and Communication Systems: A Practical Approach Using Beam-Matching Error Metrics,” IEEE Transactions on Vehicular Technology, vol. 73, no. 4, pp. 5935-5940, April 2024.

[11]  Guangming Liang, Jie Hu*, Kun Yang, Siyao Song, Tingcai Liu, Ning Xie, Yijun Yu, "Data Augmentation for Predictive Digital Twin Channel: Learning Multi-Domain Correlations by Convolutional TimeGAN," in IEEE Journal of Selected Topics in Signal Processing, vol. 18, no. 1, pp. 18-33, January 2024.

[12]  Sun Mao, Ning Zhang, Lei Liu, Tang Liu, Jie Hu, Kun Yang, Dusit Niyato, "Joint Beamforming and Reflecting Design for IRS-Aided Wireless Powered Over-the-Air Computation and Communication Networks," in IEEE Transactions on Communications, vol. 72, no. 4, pp. 2216-2231, April 2024.

[13]  Sun Mao*, Ning Zhang, Jie Hu, Kun Yang, Youzhi Xiong and Xiaosha Chen, “Computation Bits Maximization for IRS-Aided Mobile-Edge Computing Networks with Phase Errors and Transceiver Hardware Impairments,” IEEE Transactions on Vehicular Technology, vol. 73, no. 4, pp. 5587-5601, April 2024.

[14]  Zhonglun Wang, Jie Hu*, Kun Yang and Kai-Kit Wong, “Wideband Waveforming for Integrated Data and Energy Transfer: Creating Extra Gain Beyond Multiple Antennas and Multiple Carriers,” in IEEE Transactions on Wireless Communications, vol. 23, no. 4, pp. 2855-2868, April 2024

[15]  Yizhe Zhao, Long Zhang, Jie Hu* and Kun Yang, "Reflective Index Modulation for IRS Assisted Integrated Data and Energy Transfer," in IEEE Transactions on Wireless Communications, early access, April 2024.

[16]  Cheng Luo, Jie Hu*, Luping Xiang and Kun Yang, “Reconfigurable Intelligent Sensing Surface aided Wireless Powered Communication Networks: A Sensing-Then-Reflecting Approach,” IEEE Transactions on Communications, vol. 72, no. 3, pp. 1835-1848, March 2024.

[17]  Luping Xiang, Yao Zeng, Jie Hu*, Kun Yang and Lajos Hanzo, “Multi-Domain Polarization for Enhancing the Physical Layer Security of MIMO Systems,” IEEE Transactions on Communications, vol. 72, no. 3, pp. 1502-1515, March 2024.

[18]  Bin Rao, Jie Hu*, Azzam Al-nahari, Kun Yang and Riku Jäntti, “On the Physical Layer Security of UAV-Aided Backscatter Communications,” IEEE Wireless Communications Letters, vol. 13, no. 2, pp. 274-278, February 2024.

[19]  Y. Zheng, J. Hu, Y. Zhao and K. Yang, "Average Age of Sensing in Wireless Powered Sensor Networks," in IEEE Transactions on Wireless Communications, early access, February 2024.

[20]  Qingdong Yue, Jie Hu*, Kun Yang and Qin Yu, “Joint Transceiving and Reflecting Design for Intelligent Reflecting Surface Aided Wireless Power Transfer,” IEEE Transactions on Wireless Communications, vol. no. 11, pp. 7478-7491, November 2023.

[21]  Tingyu Shui, Jie Hu*, Kun Yang, Honghui Kang, Hua Rui and Bo Wang, “Cell-Free Networking for Integrated Data and Energy Transfer: Digital Twin based Double Parameterized DQN For Energy Sustainability”, IEEE Transactions on Wireless Communications, vol. 22, no. 11, pp. 8035-8049, November 2023.

[22]  Qingdong Yue, Jie Hu*, Kun Yang and Kai-Kit Wong, “Robust Integrated Data and Energy Transfer Aided by Intelligent Reflecting Surfaces: Successive Target Migration Optimization Towards Energy Sustainability,” IEEE Transactions on Green Communications and Networking, vol. 7, no. 4, pp. 1932-1945, November 2023.

[23]  Yize Zhao, Jie Hu*, Kun Yang and Xiaohui Wei, “A Joint Communication and Control System for URLLC in Industrial IoT,” IEEE Transactions on Vehicular Technology, vol. 72, no. 11, pp. 15074-15079, November 2023.

[24]  Luping Xiang, Jingwen Cui, Jie Hu*, Kun Yang and Lajos Hanzo, “Polar Coded Integrated Data and Energy Networking: A Deep Neural Network Assisted End-to-End Design,” IEEE Transactions on Vehicular Technology, vo. 72, no. 8, pp. 11047-11052, August 2023.

[25]  Yali Zheng, Jie Hu* and Kun Yang, “SWIPT aided Cooperative Communications with Energy Harvesting based Selective-Decode-and-Forward Protocol: Benefiting from Channel Aging Effect,” IEEE Transactions on Green Communications and Networking, early access, vol. 7, no. 3, pp. 1192-1204, September 2023.

[26]  Xinyu Fan, Jie Hu*, Yizhe Zhao and Kun Yang, “Distributed Batteryless Access Control for Data and Energy Integrated Networks: Modelling and Performance Analysis”, IEEE Internet of Things, vol. 10, no. 15, pp. 13428-13441, August 2023.

[27]  Yizhe Zhao, Yanliang Wu, Jie Hu* and Kun Yang, “A General Analysis and Optimization Framework of Time Index Modulation for Integrated Data and Energy Transfer”, IEEE Transactions on Wireless Communications, vol. 22, no. 6, pp. 3657-3670, June 2023

[28]  Sun Mao, Ning Zhang, Jie Hu and Kun Yang, “Intelligent Reflecting Surface-Assisted Over-the-Air Computation for Backscatter Sensor Networks,” IEEE Transactions on Vehicular Technology, vol. 72, no. 5, pp. 6839-6843, May 2023.

[29]  Sun Mao*, Lei Liu, Ning Zhang, Jie Hu, Kun Yang and Mianxiong Dong and Kaoru Ota, “Resource Scheduling for Intelligent Reflecting Surface-assisted Full-duplex Wireless Powered Communication Networks with Phase Errors”, IEEE Internet of Things Journal, vol. 10, no. 7, pp. 6018-6030, April 2023

[30]  Jie Hu, Ke Xu, Luping Xiang* and Kun Yang, “Orthogonal-Time-Frequency-Space Signal Design for Integrated Data and Energy Transfer: Benefits from Doppler Offsets”, IEEE Wireless Communications Letters, vol. 12, no. 4, pp. 689-693, April 2023.

[31]  Jie Hu, Yaping Hou and Kun Yang*, “Multi-Sinusoidal Waveform Shaping for Integrated Data and Energy Transfer in Aging Channels”, China Communications, vol. 20, no. 4, pp. 243-258, April 2023

[32]  Yizhe Zhao, Yanliang Wu, Jie Hu*, Kun Yang and Bruno Clerckx, “Energy Harvesting Modulation for Integrated Control State and Energy Transfer in Industrial IoT”, IEEE Wireless Communications Letters, vol. 12, no. 2, pp. 292-296, February 2023

[33]  Sun Mao, Kun Yang, Jie Hu, Dong Li, Dapeng Lan, Miang Xiao and Youzhi Xiong, “Intelligent Reflecting Surface-Aided Wireless Powered Hybrid Backscatter-Active Communication Networks”, IEEE Transactions on Vehicular Technology, vol. 72, no. 1, pp. 1383-1388, January 2023

[34]  Jie Hu, Tingyu Shui, Luping Xiang* and Kun Yang, “Multi-Domain Resource Scheduling for Simultaneous Wireless Computing and Power Transfer in Fog Radio Access Network”, IEEE Transactions on Communications, vol. 71, no. 1, pp. 269-281, January 2023

[35]  Sun Mao*, Lei Liu, Ning Zhang, Jie Hu, Kun Yang, F. Richard Yu and Victor C. M. Leung, “Intelligent Reflecting Surface-assisted Low Latency Federated Learning over Wireless Networks”, IEEE Internet of Tings Journal, vol. 10, no. 2, pp. 1223-1235, January 2023

[36]  Jie Hu, Yali Zheng and Kun Yang*, “Multi-Domain Resource Scheduling for Full-Duplex Aided Wireless Powered Communication Network”, IEEE Transactions on Vehicular Technology, vol. 71, no. 10, pp. 10849-10862, October 2022.

[37]  Qingdong Yue, Jie Hu*, Kun Yang and Kai-Kit Wong, “Intelligent Reflecting Surface Aided Wireless Power Transfer with a DC-Combining based Energy Receiver and Practical Waveforms”, IEEE Transactions on Vehicular Technology, vol. 71, no. 9, pp. 9751-9764, September 2022

[38]  Yizhe Zhao, Yanliang Wu, Jie Hu* and Kun Yang, “Time-Index Modulation for Integrated Data and Energy Transfer: A Remedy for Time Switching”, IEEE Wireless Communications Letters, vol. 11, no. 9, pp. 1815-1819, September 2022.

[39]  Yali Zheng, Jie Hu* and Kun Yang, “Average Age of Information in Wireless Powered Relay Aided Communication Networks”, IEEE Internet of Things Journal, vol. 9, no. 13, pp. 11311-11323 July 2022

[40]  Jie Hu, Guangming Liang, Qin Yu* and Kun Yang, “Simultaneous Wireless Information and Power Transfer with Fixed and Adaptive Modulation”, Digital Communications and Networks, vol. 8, no. 3, pp. 303-313, June 2022.

[41]  Xinyu Fan, Jie Hu and Kun Yang*, “UAV-Aided Data and Energy Integrated Network: System Design and Prototype Development”, accepted by China Communications, April 2022.

[42]  Zhonglun Wang, Jie Hu*, Kun Yang and Jun Shen, “Link-Level Wideband Signal Shaping for Downlink Wireless Information and Energy Provision”, IEEE Transactions on Vehicular Technology, vol. 71, no. 3, pp. 3338-3343, March 2022.

[43]  Yizhe Zhao, Jie Hu*, Kun Yang and Kai-Kit Wong, “Unary Coding Design for Simultaneous Wireless Information and Power Transfer with Practical M-QAM”, IEEE Transactions on Wireless Communications, vol. 20, no. 5, pp. 2850-2862, May 2021.

[44]  Jie Hu*, Qing Wang and Kun Yang, “Energy Self-Sustainability in Full-Spectrum 6G”, IEEE Wireless Communications, vol. 28, no. 1, pp. 104-111, February 2021

[45]  Rui Chen, Jia Shi*, Zan Li, Long Yang, Jie Hu, “Achieving Covert Communication in Overlay Cognitive Radio Networks,” IEEE Transactions on Vehicular Technology, vol. 69, no. 12, pp. 15113-15126, December 2020.

[46]  Yizhe Zhao, Jie Hu*, Anna Xie, Kun Yang and Kai-Kit Wong, “Receive Spatial Modulation Aided Simultaneous Wireless Information And Power Transfer With Finite Alphabet”, IEEE Transactions on Wireless Communications, vol. 19, no. 12, pp. 8039-8053, December 2020

[47]  Jie Hu, Xingpeng Cai and Kun Yang*, “Joint Trajectory and Scheduling Design For UAV Aided Secure Backscatter Communications,” IEEE Wireless Communications Letters, vol. 9, no. 12, pp. 2168-2172, December 2020

[48]  Yizhe Zhao, Jie Hu*, Kun Yang and Shuguang Cui, “Deep Reinforcement Learning Aided Intelligent Access Control in Energy Harvesting based WLAN”, IEEE Transactions on Vehicular Technology, vol. 69, no. 11, pp. 14078-14082, November 2020

[49]  Jie Hu, Wei Zhang, Fan Wu and Kun Yang*, “Simultaneous Wireless Content and Power Transfer in F-RAN: Caching, eRRH Classification and Beamforming,” IEEE Transactions on Vehicular Technology, vol. 69, no. 11, pp. 12992-13004, November 2020

[50]  Qingdong Yue, Jie Hu*, Kun Yang and Chuan Huang, “Transceiver Design for Simultaneous Wireless Information and Power Multicast in Multi-User mmWave MIMO system”, IEEE Transactions on Vehicular Technology, vol. 69, no. 10, pp. 11394-11407, October 2020.

[51]  Yali Zheng, Yitian Zhang, Yang Wang, Jie Hu* and Kun Yang, “Create Your Own Data and Energy Integrated Communication Network: A Brief Tutorial and A Prototype System”, China Communications, vol. 17, no. 9, pp. 193-209, September 2020

[52]  Jie Hu, Mengyuan Li, Kun Yang, Soon Xi Ng and Kai-Kit Wong, “Unary Coding Controlled Simultaneous Wireless Information and Power Transfer”, IEEE Transactions on Wireless Communications, vol. 19, no. 1, pp. 637-649, January 2020

[53]  Yizhe Zhao, Jie Hu*, Zhiguo Ding and Kun Yang, “Joint Interleaver and Modulation Design For Multi-User SWIPT-NOMA,” IEEE Transactions on Communications, vol. 67, no. 10, pp. 7288-7301, October 2019.

[54]  Sun Mao, Supeng Leng^*, Jie Hu, Kun Yang, “Energy-Efficient Transmission Schemes for Cooperative Wireless Powered Cellular Networks,” IEEE Transactions on Green Communications and Networking, vol. 3, no. 2, pp. 494-504, June 2019.

[55]  Jie Hu, Yizhe Zhao and Kun Yang^*, "Modulation and Coding Design for Simultaneous Wireless Information and Power Transfer," in IEEE Communications Magazine, vol. 57, no. 5, pp. 124-130, May 2019.

[56]  Kai Xiong, Supeng Leng^*, Jie Hu, Xiaosha Chen and Kun Yang, “Smart Network Slicing for Vehicular Fog-RANs”, IEEE Transactions on Vehicular Technology, vol. 68, no. 4, pp. 3075-3085, April 2019.

[57]  Sun Mao, Supeng Leng^*, Jie Hu and Kun Yang, “Power Minimization Resource Allocation for Underlay MISO-NOMA SWIPT Systems,” IEEE Access, vol. 7, pp. 17247-17255, 2019.

[58]  Yizhe Zhao, Jie Hu^*, Yingfei Diao, Qin Yu and Kun Yang, “Modelling and Performance Analysis of Wireless LAN Enabled by RF Energy Transfer,” IEEE Transactions on Communications, vol. 66, no. 11, pp. 5756-5772, November 2018.

[59]  Jie Hu, Kun Yang, Guangjun Wen, Lajos Hanzo, “Integrated Data and Energy Communication Networks: A Comprehensive Survey”, IEEE Communications Surveys and Tutorials, vol. 20, no. 4, pp. 3169-3219, Fourth Quarter 2018.

[60]  Jianjun Yang, Jie Hu^*, Kesi Lv, Qin Yu and Kun Yang, “Multi-Dimensional Resource Allocation For Uplink Throughput Maximisation in Integrated Data and Energy Communication Networks,” IEEE Access, vol. 6, no. 1, pp. 47163-47180, August 2018.

[61]  Yizhe Zhao, Duohua Wang, Jie Hu^* and Kun Yang, “H-AP Deployment for Joint Wireless Information and Energy Transfer in Smart Cities”, IEEE Transactions on Vehicular Technology, vol. 67, no. 8, pp. 7485-7496, August 2018.

[62]  Kesi Lv, Jie Hu^*, Qin Yu and Kun Yang, “Throughput Maximisation and Fairness Assurance in Data and Energy Integrated Communication Networks”, IEEE Internet of Things Journal, vol. 5, no. 2, pp. 636-644, April 2018.

[63]  Qin Yu, Kesi Lv, Jie Hu^*, Kun Yang and Xuemin Hong, “Joint Uplink and Downlink Resource Allocation in Data and Energy Integrated Communication Network”, KSII Transactions on Internet and Information Systems, vol. 11, no. 6, pp. 3012-3028, June 2017.

[64]  Jie Hu, Lie-Liang Yang and Lajos Hanzo, “Energy-efficient cross-layer design of wireless mesh networks for content sharing in online social networks,” IEEE Transactions on Vehicular Technology, vol. 66, no. 9, pp. 8495-8509, September 2017.

[65]  Dimitrios Alanis, Jie Hu, Panagiotis Botsinis, Zunaira Babar, Soon Xin Ng and Lajos Hanzo “Quantum-Assisted Joint Multi-Objective Routing and Load Balancing for Socially-Aware Networks”, IEEE Access, vol. 4, pp. 9993-10028, November 2016.

[66]  Jie Hu, Yitian Zhang, Qin Yu and Kun Yang, “Towards Practical Implementation of Data and Energy Integrated Networks”, ZTE Communications, vol. 14, no. 3, pp. 45-54, August 2016

[67]  Jie Hu, Lie-Liang Yang, Kun Yang and Lajos Hanzo, “Socially-Aware Integrated Centralised Infrastructure and Opportunistic Networking: a Powerful Content Dissemination Catalyst,” IEEE Communications Magazine, vol. 54, no. 8, pp. 84-91, August 2016.

[68]  Jie Hu, Lie-Liang Yang and Lajos Hanzo, “Delay analysis of social group multicast aided content dissemination in cellular system”, IEEE Transactions on Communications, vol. 64, no. 4, pp. 1660-1673, April 2016.

[69]  Jie Hu, Lie-Liang Yang，H. Vincent Poor and Lajos Hanzo, “Bridging the social and wireless networking divide: information dissemination in integrated cellular and opportunistic networks”, IEEE Access, vol.3, pp. 1809-1848, October 2015.

[70]  Bo Zhang, Jie Hu, Ying Huang, Mohamed El-Hajjar and Lajos Hanzo, “Outage analysis of superposition modulation aided network coded cooperation in the presence of Network coding noise,” IEEE Transactions on Vehicular Technology, vol.64, no.2, pp.493-501, February, 2015.

[71]  Jie Hu, Lie-Liang Yang and Lajos Hanzo, “Distributed Multi-Stage Cooperative-Social-Multicast aided Content Dissemination in Random Mobile Networks,” IEEE Transactions on Vehicular Technology, vol.64, no.7, pp.3075-3089, July 2015.

[72]  Jie Hu, Lie-Liang Yang and Lajos Hanzo, “Mobile social networking aided content dissemination in heterogeneous networks,” China Communications, vol.10, no.6, pp.1-13, June 2013.

[73]  Jie Hu, Lie-Liang Yang and Lajos Hanzo, “Maximum average service rate and optimal queue scheduling of delay- constrained hybrid cognitive radio in Nakagami fading channels,” IEEE Transactions on Vehicular Technology, vol.62, no.5, pp.2220-2229, June 2013.

[1]      Yang Li, Xiaofeng Lu, Jie Hu and Kun Yang, “A Slotted Batteryless Massive Access Protocol Based on Sparse Code for Wireless Powered Communication Networks”, in proceedings of IEEE VTC- 2021 Fall, September, 2021.

[2]      Yali Zheng, Jie Hu and Kun Yang, “Age of Information in Decode-and-Forward Aided Wireless Powered Two-Hop Sensor Network”, in proceedings of IEEE VTC- 2021 Fall, September, 2021.

[3]      Bo Zhang, Jie Hu, Qin Yu and Kun Yang, “Trajectory Design of UAV aided Wireless Information and Energy Provision”, in proceedings of IEEE VTC- 2021 Fall, September, 2021.

[4]      Yaping Hou, Jie Hu and Kun Yang, “Waveform Shaping for Wireless Information and Energy Provision with Carrier Frequency Offset”, in proceedings of IEEE ICC 2021 Workshop, June 2021

[5]      Jie Hu, Tingyu Shui, Wei Zhang, Fan Wu and Kun Yang, “Spatial-Domain Resource Scheduling for Wireless Computing and Energy Provision in Energy Self-Sustainable F-RAN”, in proceedings of IEEE SustainCom 2020, December 2020

[6]      Jie Hu, Li Zhang, Qin Yu and Kun Yang, “Wireless Information and Energy Provision with Practical Modulation in Energy Self-Sustainable Wireless Networks”, in proceedings of IEEE MSN 2020, December 2020

[7]      Yali Zheng, Jie Hu and Kun Yang, “Sum-Throughput Maximisation in Multi-Antenna aided Full-Duplex WPCNs with Self-Interference”, in proceedings of IEEE IWCMC 2020, June 2020

[8]      Qingdong Yue, Jie Hu, Kun Yang and Chuan Huang, “Hybrid Multicast Beamforming and Combiner Design of mmWaave based MIMO-SWIPT System”, in proceedings of IEEE IWCMC 2020, June 2020

[9]      Jie Hu, Mengyuan Li, Kun Yang and Liangyuan Liu, “Performance Analysis of the Unary Coding aided SWIPT in a Single-User Z-channel”, in proceedings of IEEE Globecom 2019, December 2019

[10]   Yizhe Zhao, Jie Hu^*, Ran Guo, Kun Yang and Supeng Leng, “Enhanced CSMA/CA Protocol Design for Integrated Data and Energy Transfer in WLANs”, in proceedings of IEEE Globecom 2018, December 2018

[11]   Yizhe Zhao, Jie Hu^*, Zhiguo Ding and Kun Yang, “Constellation Rotation Aided Modulation Design For the Multi-User SWIPT-NOMA,” in proceedings of IEEE ICC 2018, May 2018

[12]   Sun Mao, Supeng Leng, Jie Hu and Kun Yang, “Energy-Efficient Resource Allocation for Cooperative Wireless Powered Cellular Networks”, in proceedings of IEEE ICC 2018, May 2018

[13]   Sun Mao, Supeng Leng, Jie Hu and Kun Yang, “Utility-Optimal Resource Allocation in Energy Harvesting Powered C-RAN”, in proceedings of IEEE ICC 2018, May 2018.

[14]   Jie Hu, Yizhe Zhao, Kun Yang and Lie-Liang Yang, “A fair resource allocation algorithm for cooperative multicast aided content distribution”, in proceedings of IEEE Globecom 2017, December 2017.

[15]   Haoye Chai, Supeng Leng, Jie Hu and Kun Yang, “Resource Allocation in SWIPT-Aided Fog Computing Networks”, in proceedings of IEEE ICAIT 2017, November 2017.

[16]   Yizhe Zhao, Ning Wei, Jie Hu^*, Kun Yang, Qin Yu and Chuan Huang, “Joint resource allocation for outdoor and indoor UEs in heterogeneous data and energy integrated communication networks”, in proceedings of IEEE WCSP’17, October, 2017

[17]   Jie Hu, Yinghong Xue, Qin Yu and Kun Yang, “A joint time allocation and UE scheduling algorithm for full-duplex wireless powered communication networks”, in proceedings of IEEE VTC- 2017 Fall, September, 2017.

[18]   Yizhe Zhao, Jie Hu^*, S. Leng and K. Yang, “Transmission probability analysis of energy harvesting enabled 802.11 protocol,” 2016 2nd IEEE International Conference on Computer and Communications (ICCC), Chengdu, 2016, pp. 2036-2041.

[19]   Jie Hu, Lie-Liang Yang, and Lajos Hanzo, “Throughput and delay analysis of wireless multicast in distributed mobile social networks based on geographic social relationships,” in proceedings of IEEE WCNC 2014, April 2014.

[20]   Jie Hu, Lie-Liang Yang, and Lajos Hanzo, “Cooperative multicast aided picocellular hybrid information dissemination in mobile social networks: delay/energy evaluation and relay selection,” in proceedings of IEEE WCNC 2014, April 2014.

[21]   Jie Hu, Lie-Liang Yang, Lajos Hanzo, “Optimal queue scheduling for hybrid cognitive radio maintaining maximum average service rate under delay constraints,” in proceedings of IEEE Globecom 2012, pp.1398-1403, December 2012.

[22]   Jie Hu, Xing Zhang and Wenbo Wang, “Traffic behaviour and traffic capacity in wireless network: concept, model and development,” Journal of China Academy of Electronics and Information Technology, vol.7, no.2, pp.168-173, April 2012.

[23]   Xing Zhang, Jie Hu, Meng Yao, Qinzi Li, Wenbo Wang, “Modelling and analysis of voice and data traffics with multi-dimensional markovian chains in wireless networks,” in proceedings of ICCTA 2011, pp.505-510, October 2011.

[24]   Jie Hu, Xing Zhang, Wenbo Wang, “User satisfaction based performance analysis in multi-service coded cooperative wireless network,” in proceedings of IC-BNMT 2010, pp.603-607, October 2010.

[25]   Bin Han, Mugen Peng, Jie Hu, Huamu Li and Wenbo Wang, “Performance evaluation on coexistence of TD-SCDMA and TD-HSDPA systems,” in proceedings of IC-NIDC 2010, pp.727-731, September 2010.

[1]      杨鲲、胡杰、黄川、冷甦鹏，“无线数据能量一体化通信网络”，科学出版社（国家十三五重点出版物规划项目），2020年9月

[2]      Jie Hu and Kun Yang, Data and Energy Integrated Communication Networks: A Brief Introduction, Springer, August 2018.

授权专利

[1]     于秦、谢安娜、赵毅哲、胡杰、杨鲲，无线数能同传协作通信中的一种中继转发和资源分配方法，申请号：CN202010119954.X，申请日期：2020-02-26，专利号：ZL202010119954.X，授权日期：2021-02-04。

[2]     胡杰、赵毅哲、于秦、杨鲲，基于无线射频能量传输的WLAN协议设计与分析方法，申请号：CN201710024165.6，申请日期：2017-01-13，专利号：ZL201710024165.6，授权日期：2021-01-12。

[3]     于秦、张黎、周勤文、胡杰、杨鲲，数能一体化传输系统及信号分割方法，申请号：CN201910799872.1，申请日期：2019-08-28，专利号：ZL201910799872.1，授权日期：2020-11-13。

[4]     杨鲲、李可、梁东明、胡杰，一种基于OpenWrt的企业级无线局域网流量控制方法，申请号：CN201910348945.5，申请日期：2019-04-28，专利号：CN201910348945.5，授权日期：2020-11-06。

[5]     李梦媛、杨鲲、胡杰、于秦，基于接收机电池状态的无线数据与能量一体化编码方法，申请号：CN201910467392.5，申请日期：2019-05-31，专利号：ZL201910467392.5.5，授权日期：2020-09-08。

[6]     于秦、姚智仁、胡杰、杨鲲，正交多载波系统无线数据与能量一体化传输信号设计方法，申请号：CN201910782235.3，申请日期：2019-08-23，专利号：ZL201910782235.3，授权日期：2020-08-25。

[7]     张维(学)、吴凡、胡杰、杨鲲，雾架构下基于基站选择的多用户资源分配方法，申请号：CN201910463356.1，申请日期：2019-05-30，专利号：ZL201910463356.1，授权日期：2020-06-26。

[8]     于秦、吕柯思、胡杰、杨鲲，一种数能一体化通信网络的最大化上行吞吐量方法，申请号：CN201610728358.5，申请日期：2016-08-25，专利号：ZL201610728358.5，授权日期：2019-06-04

[9]     于秦、王晓东、胡杰、杨鲲，一种数能一体化通信网络的功率控制最优化方法，申请号：CN201610431706.2，申请日期：2016-06-16，专利号：201610431706.2，授权日期：2019-05-21。

[10] 于秦、吕柯思、胡杰、杨鲲，在数能一体化通信网络中上行童虎吞吐量公平性优化方法，申请号：CN201610728778.3，申请日期：2016-08-25，专利号：ZL201610728778.3，授权日期：2019-03-26。

[11] 于秦、洪明龙、杨鲲、胡杰，一种无线传感器网络中抑制恶意程序传播的控制方法，申请号：CN201610255831.2，申请日期：2016-04-22，专利号：ZL201610255831.2，授权日期：2019-02-01。

[12] 冷甦鹏、赵毅哲、毛玉明、杨鲲、胡杰，数能一体化网络中基于RRH动态模式切换的资源分配方法，申请号：CN201610606843.5，申请日期：2016-07-29，专利号：ZL201610606843.5，授权日期：2019-11-12。

申请专利

[13] 胡杰、赵毅哲、谢安娜、杨鲲，一种基于接受空间调制的无线数能同传方法，申请号：CN202010551952.8，申请日期：2020-06-17。

[14] 胡杰、岳擎东、杨鲲、范新宇、于秦，用于毫米波MIMO数字能量协同传输系统的多域资源分配方法，申请号：CN202010500951.0，申请日期：2020-06-04。

[15] 冷甦鹏、刘文博、胡杰、刘强，一种面向数能一体化无线传感器网络的介质访问控制机制，申请号：CN202010441099.4，申请日期：2020-05-22。

[16] 杨佳雨、胡杰、杨鲲、冷甦鹏，基于能量采集的自适应调制和功率控制系统与优化方法，申请号：CN202010325108.3，申请日期：2020-04-23。

[17] 杨鲲、赵毅哲、谢安娜、胡杰，基于能量采集与深度强化学习的WLAN协议设计与优化方法，申请号： CN202010060946.2，申请日期：2020-01-19。

[18] 杨鲲、郑雅俪、王洋、胡杰、刘亮元，一种用于无线能量传输网络的多维资源联合调度优化方法，申请号：CN202010033523.1，申请日期：2020-01-13。

[19] 杨鲲、蔡兴鹏、赵毅哲、胡杰、刘亮元，一种适用于无人机的反向散射安全通信方法，申请号：CN202010023743.6，申请日期：2020-01-10

[20] 于秦、吕柯思、胡杰、杨鲲，一种多天线数能一体化通信网络的最大化上行吞吐量方法，申请号： CN201811435330.8，申请日期：2018-11-28。