Professor Nuno Borges Carvalho
Instituto de Telecomunicacoes – Universidade de Aveiro
Abstract of the talk
This talk will discuss the electricity generation problem and how to cope with the huge demand for ICT (Information Communication Technologies) technologies. We will address new paradigms for radio communications and alternatives to make energy available when needed and wher needed. It is expected that Net Zero Radio alternatives will be available on the market in the future.
Biography of the Speaker
Dr. Borges Carvalho is a member of the IEEE MTT ADCOM, the past chair of the IEEE Portuguese Section, TC-20 and TC-11, and also belongs to the technical committees, TC-25 and TC-26. He is also the Chair of the URSI Commission A (Metrology Group). He was the recipient of the 1995 University of Aveiro and the Portuguese Engineering Association Prize for the best 1995 student at the University of Aveiro, the 1998 Student Paper Competition (Third Place) of the IEEE Microwave Theory and Techniques Society (IEEE MTT-S) International Microwave Symposium (IMS), and the 2000 IEE Measurement Prize.
He is a Distinguished Lecturer for the RFID Council and was a previous Distinguished Microwave Lecturer for the IEEE Microwave Theory and Techniques Society. In 2023 he is the IEEE-MTT President.
Keynote Presentation 3
May 15 (Monday), Xinguang Hall, Conference Center Qingdao Movie Metropolis
10:30 – 11:15
开放式相控阵
胡明春
中国电子科技集团公司首席科学家
中国电子科技集团公司第十四研究所
报告摘要:电子信息系统持续高速发展,其中相控阵系统已历经数十年,架构、形态和技术不断演进,每一次的重大变革都带来性能的飞跃。然而,未来应用场景、工作环境、适装平台等的不断变化对电子信息系统提出了可扩展、可定义、可重构的新要求。本报告主要以相控阵系统的发展趋势和发展要求为切入点,聚焦开放式相控阵,探讨其概念内涵、主要架构和典型应用,探索新一代射频系统形态。
演讲人简介
胡明春,男,1963年2月生,1989年5月毕业于南京电子工程研究中心,硕士研究生,现为中国电子科技集团首席科学家,第十四研究所研究员级高级工程师。胡明春同志长期在军事电子科研一线,从事雷达天线理论研究和系统总体工程研发,先后被授予国务院享受政府特贴专家、两化融合十大领军人物、江苏省“333高层次人才工程”专家等荣誉称号,先后获得国家科技进步一等奖、二等奖,国防科工局等省部级科技进步奖20余项。
Keynote Presentation 4
May 15 (Monday), Xinguang Hall, Conference Center Qingdao Movie Metropolis
11:15 – 12:00
微波毫米波与太赫兹测试仪器发展动态
年夫顺
中国电子科技集团公司首席科学家
中电科思仪科技股份有限公司
报告摘要:面向雷达、移动通信、卫星通信与卫星导航等电子信息领域科技创新的测量需求,重点分析了宽带测量与高速测量、时域测量与频域测量、稳态测量与瞬态测量等热点测量技术发展动态,介绍了电磁信号密集、波形复杂、状态多变的复杂电磁环境模拟与测试评估,线性与非线性网络参数测量与表征、宽频带微波同轴测量、太赫兹波导测量等测量仪器研制进展,提出了测量、计算机、控制、通信与人工智能(MC3I)深度融合的现代测量仪器体系架构,预测了领域内未来重点发展方向,并提出未来发展意见和建议。
演讲人简介
