2022年复旦大学光华青年学者论坛—智能时代的信息电子前沿分论坛,诚邀海内外英才!

发布时间:2022-12-20 

论坛简介

本论坛旨在为各学科领域的海内外优秀青年学者搭建学术交流平台。通过学术研讨会和人才洽谈会等形式,围绕国际学术前沿,探讨学科热点问题,促进学术交流与合作,为我校战略人才引进计划和“超级博士后”计划的实施汇聚全球英才。

 

智能时代的信息电子前沿分论坛

Sub-Forum of Information and Electronics Frontier in Intelligent Age

 

复旦大学光华青年学者论坛-智能时代的信息电子前沿分论坛由复旦大学信息科学与工程直接看的av网址主办,光电研究院协办。本年度论坛主要聚焦以下四个学科方向:

电子科学与技术:电路系统与信号处理;微纳电子器件与系统;电力电子与宽禁带半导体;电磁场与天线技术。

信息与通信工程:硅基光子芯片与系统;空间遥感、通信与导航;宽带无线通信系统与网络。

光学工程:集成(量子)光学信息技术;超精密光学制造与检测;生物医学光子学;微纳光电磁技术与器件。

智能科学与技术:神经网络与深度学习;智能信息与信号处理;智能电子器件与系统;智能自主无人系统。

诚邀海内外优秀青年学者报名参会!

 

申请条件

青年人才:

1、年龄不超过40周岁
2、具有博士学位
3、在所从事研究的学科领域取得一定成绩或具有良好发展潜力

超级博士后:

1、年龄一般不超过35周岁
2、即将获得博士学位的博士生或获得博士学位一般不超过3年的海内外大学优秀博士
3、科研成果突出

 

申请方式

请于北京时间2023年1月3日,将您的个人详细简历(包括学历背景、科研成果及研究计划、发表文章列表等)发送给各学科方向负责人:

电子科学与技术:詹老师     yqzhan@fudan.edu.cn
信息与通信工程:徐老师     fengxu@fudan.edu.cn
光学工程:         赵老师     hbzhao@fudan.edu.cn
智能科学与技术:迟老师     nanchi@fudan.edu.cn

咨询电话:           86-21-31242656

信息科学与工程直接看的av网址简介

复旦大学信息科学与工程直接看的av网址(/)成立于2000年,下设四系二中心,分别是:电子工程系、通信科学与工程系、光科学与工程系、光源与照明工程系、微纳系统中心、生物医学工程中心。

直接看的av网址现有教职工181人,拥有一级学科4个、二级学科10个;拥有电磁波信息科学教育部重点实验室、上海超精密光学制造工程技术研究中心、上海重要产品追溯工程技术研究中心、上海综合能源系统人工智能工程技术研究中心、上海低轨卫星通信与应用工程技术研究中心、上海市低轨卫星信息技术协同创新中心、上海北斗智慧应用创新研究中心、新农村发展研究院等省部级平台8个。

直接看的av网址重视学生实践能力的锻炼与培养,对学生科创活动给予大力支持,培养的学生多次在全国大学生电子设计竞赛、TI杯模拟电子系统赛、Intel杯嵌入式系统赛、全国大学生光电设计竞赛、上海高校学生创造发明“科创杯”等竞赛中获奖。

直接看的av网址积极拓展国际交流,与近30个国家与地区的世界著名大学、研究机构、知名企业有着广泛联系和密切合作,并已与多所国外知名大学签订合作协议,进行合作办学。

结合复旦大学“文、理、医、工”的学科综合优势交叉发展,直接看的av网址以电子信息与光电信息技术为基础,面向国际前沿和国家重大需求,在医疗电子与系统、光源与照明工程、微波遥感与通信、微纳电子系统、精密光学加工、光电器件及系统等领域开展高水平研究、培养优秀人才,目标成为特色鲜明、中国领先、世界一流的电子科学与技术学科。

光电研究院简介

复旦大学光电研究院(https://ioe.fudan.edu.cn/)于2021年1月正式批复成立,是复旦大学校内独立的二级实体研究机构,院长为褚君浩院士。

光电研究院拟建设光电科学技术原创研究平台。拟建设的光电研究院总面积将达到8000平方米,全职科研人员规模将达到200名左右。研究院现有教职工16人,其中:中国科直接看的av网址院士2人,国家级人才6人。

电研究院以多学科融合交叉为特色,研究新材料新原理新结构先进光电器件。以解决国家重大需求和科学技术前沿为导向,面向新一代光电信息器件和新型能源光电器件、智能传感电子器件、人工智能、智慧地球建设,开展前瞻性、战略性和前沿性基础研究,研究光、电、磁、热、声和生命等多种运动形态相互作用规律及其技术发明和应用。以引领性的高水平学术成果、高性能功能器件、高门槛核心技术为目标,促进相关支柱产业发展,推动材料科学与工程、光学工程、电子科学与技术、集成电路科学与工程等学科进步。

光电研究院重点研究先进光电材料、器件及系统集成,努力提升原始创新能力,发现“0-1”的科学规律,发展在“0-1”基础上的“0-10”核心技术,为“10-100”技术应用提供科学技术源泉,为国家重大需求和战略性新兴产业发展提供科技支撑和引领技术。在光电研究领域形成基础研究、应用基础研究和前沿技术研究融合发展的体系,将自由探索与目标导向有机结合,培养国家级科研人才。目标建设成为国内领先、国际一流的光电科学与技术研究基地。

光电研究院主要研究方向:

1. 多场耦合实验与理论
2. 新型功能材料与器件
3. 先进光电子物理与器件
4. 智能电子器件
5. 智能系统与应用基础

 
Introduction to Forum
 

Young Scholars are the future of academic research. Fudan-Guanghua International Forum for Young Scholars aims to create communication platforms for global young talented scholars of various research fields to discuss cutting-edge research spotlights, to resolve frontier academic problems and to enhance cooperation among distinct disciplines. The Forum also offers young scholars a taste of research environment and a package of know-how for research in China, specifically at Fudan University. It would eventually attract from world-wide young researchers to work at Fudan University.

 
Forum Setup
Sub-Forum of Information and Electronics Frontier in Intelligent Age is hosted by School of Information Science and Technology, co-organized by Institute of Optoelectronics. It includes the following four areas:

 

Electronics Science and Technology: Intelligent Circuits Systems and Signal Processing; Micro-nano electronic devices and systems; Power Electronics and Wide Bandgap Semiconductors; Electromagnetics and Antenna.

Information and Communication Technology: Silicon-based Photonics Chip and System; Spaceborne Remote Sensing, Communication and Navigation; Wireless Communication Systems and Networks.

Optical Engineering: Integrated (Quantum) Optical Information Technology; Ultra-precision Optical Manufacturing & Measurement; Biomedical Photonics; Micro-nano photonic-electric-magnetic Technology and Devices.

Intelligence Science and Technology: Neural Networks and Deep Learning; Intelligent Information and Signal Processing; Intelligent Electronics Device and System; Autonomous and Unmanned System.

 

Application Requirements

Faculties

1. Age below 40
2. Ph.D. degree
3. Have remarkable achievements and great potentials in specific research area

Super Postdoctoral Proposals

1. Generally under 35 years old
2. Ph.D. candidates or Ph.D. holders generally within 3 years of graduation
3. With outstanding achievements

 
Contact us:
Electronics Science and Technology: Prof. Zhan     yqzhan@fudan.edu.cn

Information and Communication Technology:Prof. Xu        fengxu@fudan.edu.cn
Optical Engineering:   Prof. Zhao     hbzhao@fudan.edu.cn
Intelligence Science and Technology:   Prof. Chi       nanchi@fudan.edu.cn

 

School of Information Science and Technology

The School of Information Science and Technology (SIST) is one of the largest schools of Fudan. SIST has long been at the forefront of groundbreaking research and innovation through the applications of engineering as well as interdisciplinary fields of information and technology. SIST is a home of over 180 Faculty members and 2300 students.

Since its foundation in 2000, SIST has reaped remarkable successes in the pursuit of innovation and excellence, and now consists of six departments, including: Electronic engineering, Optical science and engineering, Communication science and engineering, Light sources and illuminating engineering, Micro-nano system, and Biomedical Engineering.

SIST continuously attracts top researchers home and abroad, thereby enhancing its international influence and competitiveness. The School endeavors to achieve its goals of cultivating outstanding talents, carrying out cutting-edge research and promoting favorable development of the nation’s IT industry, and has become internationally influential and nationally leading in electronic information science and technology.

 

Institute of Optoelectronics

Institute of Optoelectronics (https://ioe.fudan.edu.cn/) is an interdisciplinary research institute of Fudan University. It was launched in January 2021 by Prof. Junhao Chu, Academician of Chinese Academy of Sciences.

Institute of Optoelectronics aims of building up the interdisciplinary research platform with a highlight on optoelectronic science and technology. The institute currently includes 4000 m3 of highly bespoke research space, including research sources from Department of Materials Science, School of Information Science and Technology, etc. The institute currently involves 2 academicians of Chinese Academy of Sciences and 6 Chinese national-level talents, and is expected to build a high-level interdisciplinary research center, with 8000 m3 occupancy and 200 research scientists/faculties in the near future.

Institute of Optoelectronics follows Chinese national demand of importance on science technology and focuses on interdisciplinary research for new materials, new theory, new structures, and associated innovation of emerging optoelectronic devices. The institute investigates the next generation of optoelectronic research among artificial intelligence, smart energy devices, and construction of digital earth, develops the interdisciplinary mechanisms of relevance to light, electricity, magnetism, heat, acoustics and biology, and explores the prospective/strategic research directions. The institute is engaged in further advancing high-impact academic results, high-performance functional systems and core contents of science technology, serving to facilitate development of materials science, optical engineering, electronic engineering technology and integrated circuit.

Our ultimate goal is to investigate optoelectronic materials, devices and integrated circuit systems, and encourage innovation in these fields. Specifically, we are dedicated to inventing scientific rules from 0 to 1, developing from 1 to 10 and providing a research foundation for future efforts from 10 to 100. Based on these aims and objectives, the institute has given top priority to cultivating high-level self-motivated young talents and making significant world-wide contributions to the growing challenges of optoelectronic science and technology.

The major research directions of Institute of Optoelectronics contain:

1. Experimental and theoretical research for multi-field coupling;
2. Emerging functional materials and devices;
3. Advanced optoelectronic physic devices;
4. Smart electronic devices;
5. Artificial intelligence system and associated applications.