Faculty

Biomedical Signal Processing, Neuroprosthesis, Exoskeleton, Bionic Robot, Pattern Recognition

Design of new biomedical ultrasound materials and functional devices, : ultrasound brain regulation; high-resolution ultrasound focusing; Ultrasonic scalpel; ultrasound imaging; Ultrasound therapy; Ultrasound holographic system development; Multi-channel programmable medical ultrasound devices; ultrasound stealth;, Generation and manipulation of sound angular momentum and sound vortex:, ultrasonic tweezers; Novel ultrasonic testing and imaging; orbital angular momentum acoustic communication;, Abnormal acoustic phenomena and their manipulation in acoustic artificial systems:, special sound beamforming; Acoustic anomalous reflection/transmission, Topological acoustics:, acoustic effects in phonon crystals, non-Ermi systems

·, Biomedical ultrasound., ·, Medical signal and image processing., ·, Diagnosis system of medical ultrasound, ., ·, Generation and propagation of ultrasonic waves and their applications in medicine and NDT& E.

Medical Image Processing;, Medical Signal Processing;, Medical Ultrasonics;, Medical Electronic System.

- Biomedical ultrasound, including bone quantitative ultrasound, ultrafast ultrasound, ultrasound localization microscopy;, - Ultrasound NDT, including ultrasonic guided waves based non-destructive evaluation, resonant ultrasound spectroscopy (RUS) based materials elasticity determination;, - Acoustic simulation, including FEM, FDTD, BEM simulation;, - Ultrasonic singal processing, including dispersive signal processing, Radon transform, medical imaging, spectrum analysis, compress sensing, time-frequency analysis;, - Inverse problem, such as Bayesian analysis,, Reversible Jump Markov chain Monte Carlo etc.

Medical instrumentation and Cardiac Electrophysiology, especially Cardiac Mapping.

Medical signal processing (, Deep Learning,, Radiomics, Medical big data), Ultrasound imaging (Imaging theory, Image method, Nonlinear ultrasound), Computer aided diagnosis

Medical Signal Detection, Medical Ultrasonics

Quantum communication theory and technology, Quantum information and processing, Quantum programming, Currently, we are engaged in quantum coding, entropy, quantum exchange and modulation, quantum channel, entangled source and the management of quantum state.

Artificial Intelligence Methods:, (1) Self-supervised representation learning methods., (2) Multimodal information fusion methods., (3) Causal reasoning methods., AI for Science:, (1) Life Sciences: Design large-scale, multimodal AI methods for single-cell omics, spatial omics, and multimodal biological data, providing in-depth analytical tools for life science research, serving brain science, oncology, aging, and other issues., (2) Pharmaceutical Sciences: Integrate phenotypic drug screening microscopy platforms (High-content image-based phenotypic screen) to design large-scale drug screening methods across cell lines, microscopy platforms, and drug libraries, accelerating the discovery of small molecule drugs., (3) Natural Sciences: Design AI methods for global long-term observational data to explore scientific values in meteorology, urban planning, and environmental science.

Ionospheric Physics and  Computerized Tomography, Electromagnetic Data and Information Retrival, Computational Space Plasma Physics, Data-driven Modeling of Complex Systems

Modeling of ultra-complex network & Big data, Dynamics of ultra-complex network and its applications, Frontier crossover with machine learning, AI + Smart city

1. Retrieval of geophysical parameters from remotely sensed data, 2. Inter-calibration, 3. Deep learning and intelligent extraction of image information

(1), Virtual electromagnetic environment, (2) Radar imaging for ocean surveillance, (3) Electromagnetic theory and its application, (4) Electromagnetic modeling for complicated target and environment, (5) Computational electromagnetics

Optoelectronics devices and components, semiconductor lasers, III-nitride materials and devices, visible light communications (VLC), LiFi devices and systems, laser lighting, underwater wireless optical communications (UWOC) and photonics integrated circuit.

mid- and far-infrared waveguide, THz waveguide, spectrascopic sensing, laser power delivery, laser, diagnose and treatment

Intelligent Target Recognition, ;, Machine Vision;, ISAR imaging;, Space Borne Remote Sensing;, UAV borne Remote Sensing

Radar Signal Processing, Image Processing

Wireless communications and networking, stochastic network optimization, energy-efficient communications, cross-layer design, and adaptive signal processing for communications.

Antenna theory and design, mm-wave system, Intelligent Beamforming

Computational electromagnetics, Fast algorithms for solving electromagnetics scattering problems Microwave remote sensing, Efficient numerical methods in nano-optics and Maxwell-Schr¨odinger system simulation.

His current research interests include deep learning and data science as applied to remote sensing, fast electromagnetic modeling for complicated target and environments,, SAR information retrieval and intelligent imagery intepretation.

1. Antenna theory & design, 2. RF circuits & devices design, 3. Signal integrity analysis of microwave and millimeter wave circuits, 4. Wireless energy harvesting and microwave power transfer, 5. Magnetodielectric materials and applications, 6. Intelligent sensor technology

Intelligent detection of industrial assembly line, Computational Electromagnetics, Radio wave propagation and scattering in radar and communication, Electromagnetic inverse scattering and radar target recognition, Electromagnetic imaging and planetary exploration

Optical fiber communications;, millimeter communications;, Thz communications

6G photonics, including 1. projects (new optical fibers, optical devices, optical devices, new systems, new architectures, etc. for 6G); 2. Platform (Information Optoelectronics R&D Center (preparation)); 3. Super optical network engineering (research on 6G-oriented P-bit network bandwidth, P-bit service scheduling, T-bit large-capacity service transmission engineering demonstration, etc.); 4. Research and development (such as silicon photonics, III-V and graphene and other materials of chips); 5. Frontier exploration (cutting-edge research on ultra-high-speed, ultra-large capacity and ultra-long-distance optical transmission for 6G, etc.); 6. New forward-looking applications (exploring new services that may promote the leapfrog development of 6G networks, etc.); 7. Papers, books, patents, software, chips, processes, etc, Recruitment: Recruit doctoral students and postdoctoral researchers as part-time professors, the main directions: communication networks, optical networks, optoelectronics, artificial intelligence, etc., and those who publish high-level papers are preferred.

Wireless Communications (5G and forthcoming 6G communications),  Signal Processing Technology and Quantum Communications

My research area is quantum information science, which is an interdisciplinary discipline under the interaction between information science and quantum physics. At present, I mainly focus on the following aspects of theoretical research:, 1. Quantum entanglement and correlations, 2. Quantum system benchmarking, 3. Quantum information scrambling, 4. Quantum simulation and algorithms, Welcome students with a solid foundation in mathematics and science who like to study and think to contact me! (Please read Article 1 of Dry Goods before contacting), P.S. My research is mainly on the theoretical side, with a considerable part of Pen&Paper work, but also some programming, such as MATLAB and Python. The introduction to quantum information does not require a complete grasp of quantum physics, linear algebra and probability theory with a certain foundation can be a good introduction., *Dry goods*: Here are some useful information about quantum information and computing:, 1. My collaborator, Professor Yuan Xiao of Peking University, Q&A on quantum computing: https://mp.weixin.qq.com/s/VzRdqXFXow9cGOeKVieCow, 2. Two reference books on quantum information and computing:, (a) Classical textbook of quantum information (first read the basics of quantum physics in Chapter 2, page 60), https://mp.weixin.qq.com/s/sfQP9HmgS8KPxXQu6zSjsA, http://mmrc.amss.cas.cn/tlb/201702/W020170224608149940643.pdf, (b) The latest textbook on quantum computing, which can be learned in conjunction with Qiskit, a python package developed by IBM, https://mp.weixin.qq.com/s/PfRu-8KW13ecNPziupFkRQ, Qiskit: https://qiskit.org/, 3. Some other resources:, https://mp.weixin.qq.com/s/EhWqqNpxlpGqf4VYXkvWmA

Broadband Wireless Communication Systems and Networks, Signal Srocessing for Communications, 5G, 6G Mobile Communication Systems, Millimeter Wave Communications, Reconfigurable Intelligent Surface, Software Defined Radios, Machine Learning for Wireless Communication Systems

Computer Vision, deep learning, lightweight neural network design for AI chipsets

Signal Processing, Intelligent Electronic System

cross-modal analysis, ,, pulse coupled neural network, ,, artificial neural networks, ,, deep learning, image processing,, brain-inspired models, ,pattern recognition , machine learning

Digital Communication`, • Wireless Channel Identification and Equalization, • Signal Detection for High Speed Wireless Communication, • Physical Layer Simulation for 3G LTE, WiMAX and Digital TV Broadcasting, • Signal Processing in Wireless Sensor Networks, • Optimization bandwidth control in WLAN, Digital Image Processing, • Video Coding and Decoding, • Robust Transmission of Multimedia Stream, • Visual Tracking, Digital System Design, Image and video system design and implementation, such as “Digital Surveillance System” and “Digital Still Camera”, based on, • DSP Platform: AD, TI, …, • Embedded Core Platform: Xscale, ARM, …, • ASIC

1, Design and Application for, Computer System and Embedded System, 2, Internet of Thinks, Hardware and Software Design and Implement, 3, Data mining

Robot, Machine vision, Test & measurement, Industrial automation, Traditional Chinese medicine informatization, Be good at the whole design and implementation of electronic information system, and have rich experience of university research cooperation and achievement transformation.

His present research interests are signal and image processing, pattern recognition, machina learning (deep learning), remote sensing image processing, intelligent information processing and brain science research, etc., They mainly include:, multispectral/hyperspectral remote sensing image processing and analysis,, automatic target detection and recognition,, visual attention selective models and their applications in image processing,, intelligent information processing theory, methods and, applications,, EEG and MEG signal processing and analysis, .

Prof. LIN's research interests include visual comfort, health and smart lighting. She has taken several government funding projects of intelligent solid state lighting technology, the relationship between lighting, visual safety, visual efficiency, and health. Some of her research projects on visual mechanism and dynamic control strategy include National Natural Science Foundation of China, Special Project for China Commercial Aircraft, National High Technology Research and Development Program of China (863), National Basic Research Program of China (973).

Photoelectric engineering, Image processing, Lighting applications

Main research directions:, Zero-carbon energy intelligent technology, Digital technology of large-capacity energy storage system, Renewable energy generation and its control technology, Undertaking the project status:, International Projects:, (1) Engineering and Natural Sciences Research Council (EPSRC), Standards Research Project, EP/R004900/1, Offshore Wind Boom Programme, 2017-11 to 2022-10, Project Backbone;, Vertical projects:, (2) Shanghai Natural Science Foundation (2022-2025), 22ZR1425900, project leader;, (3) Project leader of Fudan University Talent Introduction Start-up Fund (2021-2024)., (4) State Grid Corporation Headquarters Science and Technology Project Research and Application of Key Technologies for Zero-carbon Evolution of Microenergy Grid in National Carbon Neutrality Park, November 2021 to December 2023, Topic 2, Topic 6 Actual Person in Charge;, (5) State Grid Corporation Headquarters Science and Technology Project, Research on Key Technologies for Zero-carbon Evolution of Energy Internet in the Context of Energy Transition, November 2021 to December 2023, Actual Person in Charge of Project 5;, (6) Fudan University Undergraduate Academic Research Grant Program (FDUROP) February 2023 to February 2024 Instructor, Horizontal issues entrusted by companies:, (6) CSR Zhuzhou Electric Locomotive Research Institute Company, enterprise commissioned project, high-speed and high-power permanent magnet motor, 2016-01 to 2019-11, 200,000 pounds, final, project student leader;, (7) United Automotive Electronic Electronics Co., Ltd., commissioned by the enterprise, 48V motor system analysis of hybrid vehicles, 2016-04 to 2016-08, Conclusion, participation.

Organic Semiconductors, Perovskites, Nanostructures, Li-Fi, Sensing

Structured nanomaterials, Integrated nanophotonics, Quantum nanophtonics at room temperature

Intelligent Manufacturing;, Smart Machine Vision;, Ultra-precision Mahining Process;, Precision Measurement;, Freeform Optics;, Functional/Bionic Structures.

Optical and spectral properties of low dimensional materials, intelligent information storage technology and material properties, polarization spectroscopy,  devices and system, high efficiency solar cell film technology, and intelligent optical manufacturing and measuring

1., Design and fabrication of nm/pm bandwidths optical bandpass filter, as well as optical sensor, 2., Tunable surface field of optical wave and its micro excitations, 3., Tunable optical waveguide devices, 4., Frequency domain optical coherent tomography, 5., Liquid crystal optics and display technologies

The main research is based on the two directions of electromagnetic metamaterial degrees of freedom and topological response:, Topological photonics: concerned with high-dimensional topology, higher-order topological response, chiral mode, etc. in electromagnetic systems, Electromagnetic metasurface, electromagnetic metamaterial: pay attention to the polarization response of electromagnetic metasurface, resonance response and other electromagnetic control capabilities, and the topological response based on the degree of freedom of electromagnetic metamaterial, Dynamic Casimir effect: Enhanced dynamic Casimir radiation efficiency focusing on symmetry regulation, Rotational photonics: Focuses on optical regulation resulting from Moiré structures under the rotation of electromagnetic surfaces, So far, he has published more than 30 papers in Science, PRL, PNAS, Sci Adv, LSA and other journals, with a total of more than 2000 citations., Personal Page:, Google Scholar: https://scholar.google.com/citations?user=wpxMM-IAAAAJ&hl=zh-CN, OCRID: https://orcid.org/0000-0002-3534-1599, Students who are interested in the physics research of topological photonics, electromagnetic regulation of metamaterials/surfaces and other fields are welcome to apply to join the research group for master's/doctoral studies! (The laboratory currently has vacancies for doctoral and master's degrees, welcome to register!) ）

Metamaterials, Metasurfaces, Plasmonics, Photonic crystal

Research interests mainly focus on the, light-matter, interaction and micro-nano photonics, in optical microcavities:, Macroscopic quantum phenomena, lasers, nonlinear interactions, and dynamic processes based on exciton polaritons, Artificial exciton-polariton lattices, All-optical logic devices, Structural optics, micro-nano photonics and polaritonic devices, We have, M.Sc.,, Ph.D., and post-doc researcher positions available.

His research fields include biomedical photonics and integrated optics., He has published over 30 papers in the scientific journals including Nature Communications, Scientific Reports, Analytical Chemistry, Applied Physics Letters, and Optics Letters etc.

All-fiber photonic devices and fiber-based optofluidic applications:, ·, photonic crystal fibers devices, ·, advanced optical fiber manufacturing technology, ·, fiber-based optofluidics, ·, fiber sensors, ·, all-fiber devices and laser technology.

Optical properties of photo-electronics devices and materials;, Advanced optical spectroscopy;, Optical thin films.

Precision optical measurement, Deflectometry, digital holographic microscopy, interferometry etc, Surface metrology, Characterisation of structured surfaces, multiscale analysis of morphological features, form error evaluation of freeform surfaces, etc

1., O, ptical and magneto-optical properties of thin film materials, 2. Advanced spectroscopic technology, 3. Optical monitoring technology for thin film deposition

Optical properties of two-dimensional materials such as graphene and its derivatives as well as transition metal dichalcogenides (TMDs) and their applications in optoelectronic devices

Interactive Media and Interaction Design, PBL Teaching Method, Emerging Engineering and Interdisciplinary Engineering Education

Flexible electronics;, Organic electronics;, Organic ferroelectric devices;, Organic memories;, 2D materials and devices, Welcome to join us for master's (the applicants who has passed HSK 5 are preferred) and doctoral degrees.

Radio Frequency Integrated Circuits and Systems, Digital RF Technology including All-Digital Phase Locked Loop, Digital Transmitter, Time-Domain Receiver, etc., Ultra-Low Power Integrated Circuits and Systems, Autonomous Internet of Things, Integrated Systems for Wireless Sensing, Augmented Reality Applications, Edge Computing and Distributed Artificial Intelligence, Wearable and Implantable Miniature Devices for Biomedical Applications and Brain-Machine Interfaces

Advanced photolithography for micro-nano electronic, Self-healing flexible electronic, Two-dimensional polymers for photoelectric devices

Biomedical electronics, Wireless sensing, Reliability analysis and fail-safe circuit design

Organic eoptpelectronics, perovskite optoelectronics, capacitance measurements

Research interests include photovoltaic devices and LEDs based on organic-inorganic hybrid perovskite and organic semiconductor, flexible electronics, smart electronics and sensors.

Dr. Li-Rong Zheng is a distinguished professor and dean of ICT School at Fudan University. He is also the founder and director of Shanghai Institute Intelligent Electronics and Systems. He received his Ph.D. degree in electronic systems design from KTH -Royal Institute of Technology, Stockholm Sweden in 2001. Since then, he was with KTH as a Research Fellow at the Laboratory of Electronics and Computer Systems, associate professor, full professor/chair professor in media electronics at KTH, founder and director of iPack VINN Excellence Center, and a Senior Specialist of Ericsson Networks, Stockholm, Sweden. His research interests include electronic circuits and systems for ambient intelligence and media applications, internet of things and smart systems. He has authored or coauthored more than 400 international reviewed publications, 4 books and holds more than 10 patents. He services in the steering board of international Internet-of-things(IoT) conference, expert of ISO/IEC IOT standardization WG, chair or TPC of IoT’2012, ESSCIRC, EWME etc., and a member of China State Council in Academic Disciplinary Assessment.

Research Interests, Chips and Systems for AIoT, Energy-Efficient Processing and Application-Specific Processor Design, Embedded and Distributed Intelligence Systems, Brain-Inspired Computing and Neuromorphic System