Profile
个人简介
2019年于电子科技大学电子学院获工学博士学位,博士期间获得唯捷创芯奖学金、华为专项奖学金等,并获得四川省优秀毕业研究生。博士毕业后赴香港科技大学担任博士后研究员,从事CMOS毫米波收发前端关键技术研究,并成功获得香港特别行政区政府创新科技署‘博士专才库’资助计划。目前已发表SCI检索论文超过70余篇,参与多项国家级、省部级科研项目。
招生信息
硕士专业:信息与通信工程(081000,学术硕士)
实验室研究方向主要包括:5G/6G移动通信核心算法及DSP/FPGA实现技术、 新一代无线通信宽带高效线性发射机技术、无线通信中的功率放大器设计及MMIC射频集成理论研究、 高速卫星通信电路与系统设计方法研究、“碳中和”新能源系统中的功率电子电路及芯片设计。实验室与美国、加拿大、欧洲、澳洲、香港等国家和地区的高校保持着良好的学术交流与合作关系,与国内多家企业、研究院所保持着长期的合作交流关系,可推荐优秀学生前往深造或进行学术交流。欢迎态度认真、对科研感兴趣的同学通过邮件或电话进行联系,进入实验室共同开展科研工作。
个人荣誉
2019 香港特别行政区政府创新科技署‘博士专才库’资助计划, 编号:PiH/318/19
2019 四川省优秀毕业研究生
2018 国际微波会议(IMS)学生设计竞赛高效率功率放大器设计组全球冠军 (美国费城)
2017 IEICE Electronics Express年度最佳论文奖
项目经历
国家自然科学基金项目(青年基金项目)“数字辅助多模重构的宽带双输出功率放大器研究”,项目编号:62201100,时间:2023/01-2025/12,(主持)
中国博士后科学基金项目(面上项目)“频段连续模式离散的超宽带双输入功率放大器研究”,项目编号:2022M710506, 时间:2022/03-2023/12,(主持)
中央高校基本科研业务费项目国防专项“超宽带高效星载功放芯片设计理论与方法研究”,项目编号:2022CDJJMRH-010,时间:2022/05-2024/04,(主持)
香港特别行政区政府创新科技署创新及科技基金项目 “Research on Fiber-Millimeter Wave Network Chips for Indoor High-Speed Communication”, 项目编号:GHP/004/18SZ(参与)
社会兼职
IEEE Member:93937558
国际会议分会主席:The 2nd International Conference on Frontiers of Electronics, Information and Computation Technologies, 2022
IEEE Transactions on Industrial Electronics, IEEE Transactions on Microwave Theory and Techniques, IEEE Transactions on Circuits and Systems I: Regular Papers, IEEE Transactions on Circuits and Systems II: Express Briefs等国际权威期刊审稿人
代表论文
1. Y. Yao, W. Shi*, C. Huang, Z. Dai, J. Pang and M. Li, "Design of a dual-input dual-output power amplifier with flexible power allocation,” IEEE Microwave and Wireless Components Letters, 2022.
W. Shi* et al., "Design and analysis of continuous-mode Doherty power amplifier with second harmonic control," IEEE Transactions on Circuits and Systems II: Express Briefs, vol. 68, no. 7, pp. 2247-2251, Jul. 2021.
W. Shi*, S. He, J. Peng, J. Wang, “Digitally dual-input Doherty configuration for ultra-wideband application,” IEEE Transactions on Industrial Electronics, vol. 67, no. 9, pp. 7509-7518, Sep. 2020.
W. Shi*, S. He, X. Zhu, et al., “Broadband continuous-mode Doherty power amplifiers with non-infinity peaking impedance,” IEEE Transactions on Microwave Theory and Techniques, vol. 66, no. 2, pp. 1034-1046, Feb. 2018.
W. Shi*, S. He, F.. You, et al., “The influence of the output impedances of peaking power amplifier on broadband Doherty amplifiers,” IEEE Transactions on Microwave Theory and Techniques, vol. 65, no. 8, pp. 3002-3013, Aug. 2017.
W. Shi*, S. He, and Q. Li, “A series of inverse continuous modes for designing broadband power amplifiers,” IEEE Microwave and Wireless Components Letters, vol. 26, no. 7, pp. 525-527, Jul. 2016.
W. Shi*, S. He, Q. Li, T. Qi, and Q. Liu, “Design of broadband power amplifiers based on resistive-reactive series of continuous modes,” IEEE Microwave and Wireless Components Letters, vol. 26, no. 7, pp. 519-521, Jul. 2016.
D. Gan, W. Shi*, M. F. Haider, and G. Naah, “Design of continuous mode Doherty power amplifiers using generalized output combiner,” International Journal of Electronics and Communications, vol. 116, pp. 15309, Mar. 2020.
W. Shi*, S. He, and G. Naah, “Extending the power range of symmetrical Doherty power amplifier by taking advantage of peaking stage,” IET Microwaves, Antennas & Propagation, vol. 11, no. 9, pp. 1296-1302, 2017.
W. Shi et al., "An Integrated System Evaluation Engine for Cross-Domain Simulation and Design Optimization of High-Speed 5G Millimeter-Wave Wireless SoCs," IEEE 14th International Conference on ASIC (ASICON), 2021, pp. 1-4. (Invited Paper)