易达
重庆大学微电子与通信工程学院,“百人计划”青年学者,特聘研究员,博士生导师
个人及团队持续更新网址:http://antenna.cqu.edu.cn/info/1014/1672.htm
每年招收多名硕/博研究生,共同研究学术、工程前沿技术,欢迎优秀的你加入!
E-mail: yida_cqu@cqu.edu.cn
___·教育&工作背景·__________________________________________________
2010/08–2014/06 浙江大学信电学院电子科学与技术专业攻读学士(卓越工程师计划)
2014/09-2019/06 浙江大学信电学院电子科学与技术专业保送直接攻读博士学位;
2019/07 至今 重庆大学“百人计划”特聘研究员,博士生导师、硕士生导师,教育部CPS重点实验室物理传输与射频器件研究所副所长
___·研究方向·___________________________________________________
1. 面向网络-通信-器件一体的高性能系统集成研究;
2. 面向下一代移动通信(6G/Sub-6G)系统集成(偏硬件方向);
3. 基于智能算法的高性能超材料器件与系统;
4. 小型化天线与智能芯片的协同设计。
注明:本实验与学术界和工业界合作紧密,本实验室同学:
1. 有机会与国内外知名学者,如国家级人才、IEEE Fellow等展开深度交流,并派遣到相关课题组开展国际化合作科研;
2. 有机会参与产业界最新技术研发,伙伴单位如华为、苹果、vivo等无线终端公司最新产品研发,课题组多名研究生已推荐至相关单位就业;
3. 攻读博、硕士期间提供有竞争力的科研补贴及日常补贴;
4. 实验室不仅为同学们营造了良好的科研氛围,同时也为课题组提供了丰富的研究生生活,如每周的集体体育锻炼活动、工作日的小组学术交流、小组内部的集体出游及聚餐活动。
___·获得奖项与学术成绩·_______________________________________________
1. 亓志扬同学获2022年天线与电波传播国际研讨会“最佳学生论文提名奖”;
2. 余亚清、亓志扬同学入围2022年天线与电波传播国际研讨会暨国际无线电联盟无线电科学会议“学生设计竞赛”最终名单;
3. 余亚清同学入围2022年欧洲天线与电波传播国际会议“最佳学生论文奖”最终名单;
4. 陈晓明同学获中英新兴技术国际会议“最佳学生论文奖”和“最佳报告奖”;
5. 李大疆同学获2022年博士研究生国家奖学金;
6. 2022年亚太电磁兼容国际会议“青年科学家奖”;
7. 第6届国际电磁兼容研讨会(ISEMC2019,中国江苏南京)最佳论文奖;
8. 第12届国际集成电路电磁兼容研讨会(EMC Compo2019,中国浙江海宁)最佳学生论文奖;
9. 第21届信号与电源完整性会议(SPI2017,意大利米兰Baveno)青年研究者培养计划奖(YITP);
10. 第4届国际无线会议(IWS2016,中国上海)学生论文竞赛第二名;
11. 已在SCI索引期刊及EI索引会议上发表论文50余篇,谷歌学术引用量千余次;
12. 担任期刊审稿人:IEEE T-MTT/T-AP/T-EMC/T-NANO/AWPL, Carbon,ACS AMI等;
13. 担任以下会议的组委会成员及分会场主席:EMC Compo2019,APEMC 2020/2021/2022,ICCEM 2020,ACES 2021,EMC EUROPE 2021,PIERS 2021,IMWS-AMP 2021等。
___·项目经历·________________________________________________________
1. 国家自然科学基金重点项目,应用于低成本毫米波相控阵的异频共口径大规模可重构密布阵列天线关键技术研究,主持子课题;
2. 国家自然科学基金青年科学基金项目,基于倏逝波耦合与损耗机理的小尺寸高性能近场吸波薄膜研究,主持;
3. 重庆大学百人计划科研启动经费,主持;
4. 科技部国家重点研发计划子课题,先进封装互连工艺及测试,项目骨干成员;
5. 浙江省先进微纳电子器件智能系统及应用重点实验室2020年度开放课题,应用于小型化高速电路的超薄屏蔽材料研究,主持;
6. 大型公司横向合作项目:
l “xxx频率重构阵列天线”,2022.5-2023.11,主要负责;
l “天线xxx控制技术”,2020.6-2021.6,主要负责;
l “xxx柔性化天线阵列项目”,2020.3-2021.9;主要负责
7. 指导多项本科SRTP及国创项目,并获得优秀结题。
___·近期发表顶级期刊论文·___________________________________________
1. D. Yi (易达), P.-R. Zhao, M.-C. Tang*, R.-L. Zhang, X.-C. Wei, and E.-P. Li, “Single-layer evanescent wave absorber in rectangular waveguide based on evanescent mode coupling and attenuation,” IEEE Trans. Antennas Propag., accepted, 2023.
2. D. Yi (易达), L. Tang, M.-C. Tang*, X.-C. Wei, and E.-P. Li, “Ultrathin, electrically small noise suppression sheet for microwave cavities of 3-D integrated circuits: design methodology and realization,” IEEE Trans. Microw. Theory Techn., vol. 70, no. 2, pp. 1157-1168, 2022.
3. D. Yi (易达), Z.-Y. Qi, M.-C. Tang*, Y. Yu, X.-C. Wei, and E.-P. Li, “Wideband compartment shielding technique for miniaturized packages based on electrically small single-negative meta-diaphragm,” IEEE Trans. Microw. Theory Techn., vol. 70, no. 7, pp. 3498-3510, 2022.
4. D. Yi (易达), M.-C.-Tang*, M. Li, Z.-H. Zhang, X.-C. Wei, and E.-P. Li, “Low-profile metasurface-based diaphragm for compartment shielding of microwave cavities,” IEEE Trans. Microw. Theory Techn., vol. 69, no. 4, pp. 2048-2059, 2021.
5. D. Yi (易达), X. Wei, M.-C Tang, and R. W. Ziolkowski, “Regulating the direction that power flows in microwave transmission line systems with Huygens sources,” IEEE Trans. Antennas Propag., vol. 69, no. 1, pp. 594-599, 2021.
___·国际会议获奖情况·____________________________________________
1. The 13th Asia-Pacific International Symposium on Electromagnetic Compatibility & Technical Exibition (APEMC 2022), Beijing, China, 2022. (“青年科学家奖”)
2. D. Yi (易达), M.-C. Tang, “Radio frequency interference (RFI) suppression in space-constrained microwave circuits based on electrically small materials,” 2021 6th International Conference on UK-China Emerging Technologies (UCET), Chengdu, Sichuan, China, 2021. (“最佳报告奖”)
3. D. Yi (易达), M.-C. Tang, Y. Shu, and X.-C. Wei*, “Capacitive diaphragm for compartment shielding in the fifth-generation radio frequency systems,” IEEE 6th International Symposium on Electromagnetic Compatibility (ISEMC), Nanjing, China, 2019. (“最佳论文奖”)
4. D. Yi (易达), X.-C. Wei, Y. Xu, S. Xu, Y. Zhang, M. Tang, and B. Shen., “Absorptive surface based on graphene composite for advanced EMI suppression,” 12th International Workshop on the Electromagnetic Compatibility of Integrated Circuits (EMC Compo), Haining, China, 2019. (“最佳学生论文奖”)
5. D. Yi (易达), X.-C. Wei, “An improved equivalent circuit model of spoof surface plasmon transmission line,” IEEE 21st Workshop on Signal and Power Integrity (SPI), Baveno, Italy, 2017. (“青年研究员培养计划奖”)
6. D. Yi (易达), X.-C. Wei, and Y.-L. Xu, “Experimental demonstration of transparent microwave absorber based on graphene.” IEEE 4th MTT-s International Wireless Symposium (IWS), Shanghai, China, 2016. (“学生论文竞赛第二名”)
7. X. Chen, M.-C. Tang, D. Li, D. Yi (易达), M. Li, “Design and experimental validation of a wideband flexible electrically small filtenna,” 2021 6th International Conference on UK-China Emerging Technologies (UCET), Chengdu, Sichuan, China, 2021. (学生获“最佳报告奖”)
8. Y. Yu, M.-C. Tang, D. Yi (易达), D. Hong, T. Shi, and R. W. Ziolkowski, "Electrically small antenna with embedded operational amplifier circuit surpasses the passive upper bound of the gain-bandwidth product," 2022 16th European Conference on Antennas and Propagation (EuCAP), Madrid, Spain, 2022. (学生入围“最佳学生论文奖”)
9. Team Member: Y. Yu, Z. Qi, X. Cao, and Y. Li; Advisors: M.-C. Tang, D. Yi (易达), R. W. Ziolkowski; Design Proposal: “Miniaturized, highly sensitive epidermal RFID sensor for reliable skin temperature monitoring,” 2022 IEEE International Symposium on Antennas and Propagation and USNC-URSI Radio Science Meeting, Denver, Colorado, USA, 2022. (学生入围“学生设计竞赛”最终名单)
10. Z.-Y. Qi, D. Yi (易达), M.-C. Tang, “Wideband shielding diaphragm based on electrically small single-negative metamaterial for package application,” 2022 International Symposium on Antennas and Propagation (ISAP), Sydney, Australia, 2022. (学生获得“最佳学生论文提名奖”)