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X-WR-CALNAME:Department of Electrical and Computer Engineering (HKUECE) 電機與計算機工程系
X-ORIGINAL-URL:https://ece.hku.hk
X-WR-CALDESC:Events for Department of Electrical and Computer Engineering (HKUECE) 電機與計算機工程系
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BEGIN:VTIMEZONE
TZID:Asia/Hong_Kong
BEGIN:STANDARD
TZOFFSETFROM:+0800
TZOFFSETTO:+0800
TZNAME:HKT
DTSTART:20230101T000000
END:STANDARD
END:VTIMEZONE
BEGIN:VEVENT
DTSTART;TZID=Asia/Hong_Kong:20240123T163000
DTEND;TZID=Asia/Hong_Kong:20240123T180000
DTSTAMP:20260513T102431
CREATED:20240112T064937Z
LAST-MODIFIED:20250114T074441Z
UID:17931-1706027400-1706032800@ece.hku.hk
SUMMARY:New prospects for group IV and III-V Materials for optoelectronic Applications
DESCRIPTION:Nowadays\, there is a large effort to find a monolithic solution for photonics and electronics. The main purpose is to integrate materials which have high carrier mobility and high photonic performance for optoelectronic components. In many cases\, a 3D integration is required where electrons are processing the data and photons are communicating the data in a chip. In this field of research\, materials such as Ge\, GeSi or GeSn have attracted attention due to their excellent electronic and photonic properties. These materials have been applied in the channel of transistors as well in active regions for detection and lasing of Infrared light. Ge\, GeSi and GeSn have demonstrated excellent performance in near and short wavelength infrared (SWIR) regions. Although\, a large effort has been spent on group IV materials for laser application but so far there is no operating laser at room temperature. There are also some interests for III-V growth on Si for photonic application. The control of defect density is a vital issue for good performance. This invited talk will present the challenges for the integration of group IV materials as well as III-V materials on Si for optoelectronics devices. Issues such as epitaxy\, material quality\, strain engineering\, structure designs for SWIR detectors and lasers are discussed in detail. \nBiography of the speaker: \nProfessor Henry Homayoun Radamson is from Sweden\, he got bachelor from Stockholm University\, later got Master and PhD from Linkoping University in 1996\, Institute of Physics and Measurement Techniques. Between 1997-2016\, he worked for Royal Institute of Technology in Sweden\, Department of Electrical components and circuits as a Senior Researcher. Henry got invited to China through 1000-talent project since 2016 and worked in Institute of Microelectronics of the Chinese Academy of Sciences (IMECAS). In 2019\, Prof. Radamson was invited as chief Scientist in Guangdong Greater Bay Area Institute of Integrated Circuit and System (GIICS) and he became Fellow of European Academy of Sciences same year. So far\, he has almost 300 publications in Journals like ASC Nano\, Nano Letters\, Physical Review B\, Applied Physics Letter\, IEEE Electron Device Letters\, IEEE Transactions on Electron Devices\, etc. He has also written 4 books like CMOS past present and future.He has got many awards like Swedish quality innovation\, First award in 2019; Swedish venture Cup award\, Innovation contest\, 10 Best awards in 2011; Talent Award Guangzhou\, March 2023; Friendship Award in China\, March 12\, 2023; Best Tutor Award\, University of Chinese Academy of Sciences 2021; ZhuliYuehua Teacher Award\, University of Chinese Academy of Sciences 2020; Best Course Award\, University of Chinese Academy of Sciences 2020; Best Teacher Award\, University of Chinese Academy of Sciences\, 2019; Foreign Talent Award\, China\, 2018; Best Teacher Award\, Reykjavik University\, Iceland\, 2008. So Far\, His research field focuses on semiconductor materials and process. Until 2022\, he has successfully made Germanium-based short wave infrared chips with commercial quality and significant price advantage compared with InGaAs material chip. He is also working with Terahertz chips and laser materials which have wide application in the market.\n\nAll are welcome.
URL:https://ece.hku.hk/events/new-prospects-for-group-iv-and-iii-v-materials-for-optoelectronic-applications/
CATEGORIES:Seminar
ATTACH;FMTTYPE=image/jpeg:https://ece.hku.hk/wp-content/uploads/2024/02/Seminar-s-banner.jpg
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Hong_Kong:20240124T110000
DTEND;TZID=Asia/Hong_Kong:20240124T123000
DTSTAMP:20260513T102431
CREATED:20240111T025050Z
LAST-MODIFIED:20250114T074434Z
UID:17930-1706094000-1706099400@ece.hku.hk
SUMMARY:Critical Issues in the Electrohydrodynamic Inject Printing – Examples of printing fluorescent quantum dots
DESCRIPTION:Micro-printing is a good way to manufacture patterning structures in modern manufacture\, which has been widely used in fields\, e.g. micro-LED display\, benefiting from the high material utilization. The electrohydrodynamic inject printing (EHD-IP) is proven to be with the highest spatial resolution among various micro-printing techniques. Still\, the ink control and homogeneity are two main obstacles EHD-IP are facing before its possible fully commercialization. In this talk\, by taking the example of printing color conversion layer for micro-LED displays\, I will introduce new designs of EHD specialized inks that have been developed in our research group recently. (a) The dual non-polar solvent perovskite QD colloidal ink for EHD-IP; (b) Three dimensional micro-pillars arrays manufactured by EHD-IP; (c) Dual ligands passivated red perovskite QDs inks. During the introduction of these work\, I would like to discuss some fundamental principles\, such as the differences in dynamics between inks employing polar and non-polar solvents\, interaction between ligands and solvent and its effect on colloidal stability\, how to decoupling designs of functional QDs and E-field driven-able ink\, etc. These issues are universally applied to various kinds of EHD specialized inks and determine the final quality of EHD-IP. \nBiography of the speaker: \nYue received his B.Sc. in the Department of Physics at Southeast University. He received his Ph.D. degree from the Department of Electronic Science at Xiamen University. He is currently an associate professor in the Department of Electronic Science\, Xiamen University. His research scope includes a) Micro-LED display technology; b) Electrohydrodynamic inkjet printing for quantum dot color conversion layers; c) GaN and AlGaN based semiconductor material and devices and the optoelectronic properties; d) All-inorganic and hybrid perovskite quantum dots and the optoelectronic properties. As first and/or corresponding author\, he published more than 20 papers on journals such as Adv. Mat.\, Adv. Opt. Mat.\, Small\, Appl. Phys. Lett.\, Chinese Chemical Letters\, etc. He hosted fundings like NSF of China\, NSF and cooperation funding of Fujian Province\, etc.\n\nAll are welcome.
URL:https://ece.hku.hk/events/critical-issues-in-the-electrohydrodynamic-inject-printing-examples-of-printing-fluorescent-quantum-dots/
CATEGORIES:Seminar
ATTACH;FMTTYPE=image/jpeg:https://ece.hku.hk/wp-content/uploads/2024/02/Seminar-s-banner.jpg
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Hong_Kong:20240125T100000
DTEND;TZID=Asia/Hong_Kong:20240125T110000
DTSTAMP:20260513T102431
CREATED:20240117T065641Z
LAST-MODIFIED:20250114T074426Z
UID:17934-1706176800-1706180400@ece.hku.hk
SUMMARY:High-power GHz femtosecond fiber laser technologies and frontier applications
DESCRIPTION:Fiber lasers have been known as compact and robust laser sources. When operating in the femtosecond-pulse regime with high repetition rates (HRRs)\, particularly at a level of GHz\, they open new opportunities for industrial and scientific applications\, such as high-speed ablation-cooled material removal\, ultrafast measurement\, low-photodamage biophotonics\, etc. Among various schemes of generating HRR fs fiber laser\, fundamentally mode-locking in ultrashort Fabry-Pérot (FP) fiber cavities is a promising method for generating fs pulses at repetition rates of several-to-tens GHz. Despite these exciting opportunities\, further efforts are still required for improving the repetition rate\, average power\, pulse width\, wavelength range\, as well as the noise performance and long-term stability. In this talk\, I will present the latest progress on the high-power GHz femtosecond fiber lasers. In the meanwhile\, the application exploration in the fields of ultrafast measurement\, micro-machining and biological imaging will also be briefly discussed. \nBiography of the speaker: \nDr. Xiaoming Wei received his B.S. and M.S. degrees from South China University of Technology\, China\, in 2009 and 2012\, respectively\, and PhD degree from the University of Hong Kong in 2015. He received the postdoctoral training from both the University of Hong Kong (OCT\, 2015 – April\, 2017) and Caltech (May\, 2017 – Aug.\, 2019)\, then he joined the Department of Physics and Optoelectronics\, South China University of Technology. So far\, he has published more than 100 papers in peer-reviewed journals\, including Nature Communications\, Science Advances\, Light: Science & Applications\, Optics Letters\, etc\, and filed more than 50 patents in the field of ultrafast optics. His research interests include high-power femtosecond fiber lasers and their applications in the fields of ultrafast measurement\, micromachining and biophotonics.\n\nAll are welcome.
URL:https://ece.hku.hk/events/high-power-ghz-femtosecond-fiber-laser-technologies-and-frontier-applications/
CATEGORIES:Seminar
ATTACH;FMTTYPE=image/jpeg:https://ece.hku.hk/wp-content/uploads/2024/02/Seminar-s-banner.jpg
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Hong_Kong:20240201T110000
DTEND;TZID=Asia/Hong_Kong:20240201T120000
DTSTAMP:20260513T102431
CREATED:20240125T060320Z
LAST-MODIFIED:20250114T072932Z
UID:107412-1706785200-1706788800@ece.hku.hk
SUMMARY:Key technology and application of cable-driven parallel robots
DESCRIPTION:As an essential part of intelligent manufacturing\, R & D\, fabricating\, and application of robots become the important manifestation to show the national scientific and technological innovation ability as well as the industrial level. The cable-driven parallel robot (CDPR) combines cable drive technology and parallel mechanism theory\, which inherits the high acceleration and load capacities of the rigid parallel robots\, and further obtains significant improvements in workspace\, lightweight\, and energy efficiency. The CDPR embodies the cutting-edge trend of the fusion of rigid and flexible mechanisms\, reflects the advanced lightweight design\, and is a crucial direction for robot science and technology development. The CDPR has an irreplaceable important role in the fields of industry\, national defense\, science\, and technology. This talk will take “China Sky Eye” (Five-hundred-meter Aperture Spherical radio Telescope) as an example to introduce the research on technologies related to large-space CDPRs based on the rigid-flexible series configuration\, explain the innovation of high-speed CDPRs based on the rigid-flexible parallel configuration\, and illustrate the application of the above technologies in industry. The core advantages and the recent development focus of the CDPR are summarized as an end. \nBiography of the speaker: \nProfessor Zhufeng Shao is an associate professor of the Mechanical Engineering Department at Tsinghua University\, senior member of the China Society of Mechanical Engineering\, member of National Industrial Foundation Expert Committee\, editorial board member of the Defence Technology journal and member of national professional standards technical committee. He is also the director of the intelligent equipment and system research center at Tsinghua University WUXI Research Institute of Applied Technologies. His principal research interests are high-performance robots and intelligent manufacturing. He has published 42 SCI and 38 EI papers\, issued 6 approved national standards on intelligent manufacturing\, and obtained 48 authorized Chinese invention patents and 16 software copyrights. He has won the China Patent Silver Award\, the second prize of Natural Science of the Ministry of Education\, the special prize and the second prize of China Machinery Industry Science and Technology Award.\n\nAll are welcome.
URL:https://ece.hku.hk/events/key-technology-and-application-of-cable-driven-parallel-robots/
LOCATION:Room CB-603\, 6/F\, Chow Yei Ching Building\, The University of Hong Kong
CATEGORIES:Seminar
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END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Hong_Kong:20240304T150000
DTEND;TZID=Asia/Hong_Kong:20240304T165000
DTSTAMP:20260513T102431
CREATED:20240222T062850Z
LAST-MODIFIED:20250114T072855Z
UID:17945-1709564400-1709571000@ece.hku.hk
SUMMARY:Running a net-zero grid in 2024: experiences from the Australian "real-world lab"
DESCRIPTION:With deeper and deeper penetration of variable renewable energy sources (RES) and distributed energy resources (DER) across the world\, new challenges are emerging in terms of their grid and market integration. In this lecture we will illustrate these challenges from a techno-economic perspective\, with focus on security and reliability requirements when operating power systems and markets with ultra-deep penetration of RES and DER\, and with the support of real experiences from Australia\, and particularly South Australia\, which has already exhibited net-zero grid operation in the past couple of years. We will then discuss several technical\, commercial and regulatory solutions and opportunities that are being deployed or considered\, ranging from widespread adoption of both highly distributed and large-scale batteries to the development of “clean super-power” plans based on green hydrogen investment. \nBiography of the speaker: \n\nPierluigi Mancarella is the Chair Professor of Electrical Power Systems at The University of Melbourne\, Australia\, and Professor of Smart Energy Systems at The University of Manchester\, UK. \nHe received his MSc (2002) and PhD (2006) degrees from the Politecnico di Torino\, Italy\, worked as a post-doc at Imperial College London\, UK\, has held visiting positions in the US (NREL)\, France (Ecole Centrale de Lille)\, Chile (University of Chile)\, and China (Tsinghua University)\, and will be the 2024 Otto Monsted Visiting Professor at the Danish Technical University (DTU)\, Denmark. \nPierluigi’s research interests include techno-economic modelling of low-carbon grids\, multi-energy systems\, energy system planning under uncertainty\, and reliability and resilience of future networks. He has been involved in/led more than 100 research projects worldwide\, has been actively engaged with energy policy in the UK\, Europe and Australia\, and is author of several books and of over 400 research publications and reports. \nPierluigi is a Fellow of the IEEE; an IEEE Power and Energy Society Distinguished Lecturer; a Senior Editor of the IEEE Transactions on Power Systems; an Editor of the IEEE Transactions on Energy Markets\, Policy and Regulation; the Convenor of the Cigre C6/C2.34 WG on “Flexibility provision from distributed energy resources”; and the inaugural Chair of the WG on Energy of the IEEE European Public Policy Initiative. \nPierluigi was awarded the 2017 veski Innovation Fellowship by the Victorian Government for his “FlexCity” project on multi-energy urban virtual power plants\, and an international Newton Prize 2018 for his UK-Chile Newton-Picarte project on power system resilience. He also led the Melbourne Energy Institute’s work “Power system security assessment of the future National Electricity Market” for the Australian Chief Scientist’s “Finkel Review”. He has recently been working closely with the Australian Energy Market Operator (AEMO)\, the Australian Energy Market Commission (AEMC)\, National Grid ESO (UK)\, and a number of other industry stakeholders in the development of distributed energy marketplaces\, new power system security\, reliability and resilience services and markets\, and new methodologies and tools for energy system planning under uncertainty. \nPierluigi is the Australian Director of the recently announced USA-UK-Australia Global Centre in Climate Change and Clean Energy “Electric Power Innovation for a Carbon-Free Society (EPICS)”\, co-led with Johns Hopkins University (USA) and Imperial College London (UK). \n\n\nAll are welcome.
URL:https://ece.hku.hk/events/running-a-net-zero-grid-in-2024-experiences-from-the-australian-real-world-lab/
CATEGORIES:Seminar
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END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Hong_Kong:20240304T160000
DTEND;TZID=Asia/Hong_Kong:20240304T170000
DTSTAMP:20260513T102431
CREATED:20240228T081116Z
LAST-MODIFIED:20250114T072753Z
UID:17953-1709568000-1709571600@ece.hku.hk
SUMMARY:Towards Generalizable and Robust Multimodal AI for Healthcare
DESCRIPTION:Artificial Intelligence (AI) is catalyzing a paradigm shift in healthcare\, promising to reshape the landscape of patient care. At the heart of this transformation is medical imaging\, where AI-enabled technologies hold substantial promise for precise and personalized image-based diagnosis and treatment. Despite these advances\, these models often underperform at real-world deployment\, particularly due to the heterogeneous data distributions and varying modalities in healthcare applications. In this talk\, I will introduce our work dedicated to tackling these real-world challenges to advance model generalizability and multimodal robustness. First\, I will show how we can leverage generative networks and model adaptation to generalize models under data distribution shifts. Next\, I will describe how to achieve robust multimodal learning with missing modalities and with imaging and non-imaging clinical information. Finally\, I will present our work that extends to large-scale datasets and more diverse modalities based on foundation model for generalizable multimodal representation learning. \nBiography of the speaker: \nDr. Cheng CHEN is a postdoc research fellow at the Center for Advanced Medical Computing and Analysis\, Harvard Medical School. She obtained her Ph.D. degree in Computer Science and Engineering at The Chinese University of Hong Kong in 2021. She received her M.S. and B.S. degrees from Johns Hopkins University and Zhejiang University\, respectively. Her research interests lie in the interdisciplinary area of AI and healthcare\, with a focus on generalizable\, robust\, and multimodal medical image analysis. She has over 25 papers published at top AI and medical imaging venues\, reaching over 2300 Google Scholar citations with an h-index of 16. Her first-authored papers have been recognized as an ESI “Highly cited paper”\, selected as oral presentations\, and received travel awards from AAAI and MICCAI. In addition\, she has been named one of the Global Top 80 Chinese Young Female Scholars in AI and won the MICCAI Federated Brain Tumor Segmentation Challenge. \nAll are welcome.
URL:https://ece.hku.hk/events/20240304-1/
LOCATION:Room CB-601J\, 6/F\, Chow Yei Ching Building\, The University of Hong Kong
CATEGORIES:Seminar
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END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Hong_Kong:20240308T110000
DTEND;TZID=Asia/Hong_Kong:20240308T123000
DTSTAMP:20260513T102431
CREATED:20240301T023428Z
LAST-MODIFIED:20250114T072651Z
UID:17962-1709895600-1709901000@ece.hku.hk
SUMMARY:Exploring Trustworthy Machine Learning under Imperfect Data
DESCRIPTION:Trustworthy machine learning is one of emerging and critical topics in modern machine learning\, since most real-world data are easily imperfect\, such as online transactions\, healthcare\, cyber-security\, and robotics. Intuitively\, trustworthy intelligent system should behave more human-like\, which can learn and reason from imperfect data including labels\, features\, systems and prompts. Therefore\, in this talk\, I will introduce trustworthy machine learning from several human-inspired views\, including reliability\, robustness\, adaptability and safety. Specifically\, reliability will consider uncertain cases\, namely reliable learning with noisy labels. Robustness will discuss adversarial conditions\, namely robust learning with adversarial features. Adaptability will explore the algorithm interactions\, namely adaptive learning with federated systems. Safety will investigate harmful prompts in foundation models\, namely safe reasoning with jailbreak attacks. Furthermore\, I will introduce the newly established Trustworthy Machine Learning and Reasoning (TMLR) Group at Hong Kong Baptist University. \nBiography of the speaker: \nDr. Bo HAN is an Assistant Professor in Machine Learning at Hong Kong Baptist University and a BAIHO Visiting Scientist at RIKEN AIP\, where his research focuses on machine learning\, deep learning\, foundation models and their applications. He was a Visiting Faculty Researcher at Microsoft Research and a Postdoc Fellow at RIKEN AIP. He has co-authored two machine learning monographs by MIT Press and Springer Nature. He has served as Area Chairs of NeurIPS\, ICML\, ICLR\, UAI and AISTATS. He has also served as Action Editors and Editorial Board Members of JMLR\, MLJ\, TMLR\, JAIR and IEEE TNNLS. He received Outstanding Paper Award at NeurIPS\, Notable Area Chair at NeurIPS\, Outstanding Area Chair at ICLR\, and Outstanding Associate Editor at IEEE TNNLS. \nAll are welcome!
URL:https://ece.hku.hk/events/exploring-trustworthy-machine-learning-under-imperfect-data/
LOCATION:Room CB-601J\, 6/F\, Chow Yei Ching Building\, The University of Hong Kong
CATEGORIES:Seminar
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END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Hong_Kong:20240313T093000
DTEND;TZID=Asia/Hong_Kong:20240313T103000
DTSTAMP:20260513T102431
CREATED:20240307T030817Z
LAST-MODIFIED:20250114T072600Z
UID:17987-1710322200-1710325800@ece.hku.hk
SUMMARY:Design and Modulation of Multifunctional Artificial Synaptic Devices
DESCRIPTION:In recent years\, synaptic electronic devices have gained significant attention for their applications in neural morphological computing and peripheral neural sensing simulations. It is of great significance to further enhance the functionality of these devices to replicate more complex neural transmission processes. The presenter will provide a brief overview of recent advancements in this field and discuss his work in the design and modulation of artificial synapse devices through reasonable integrating of optoelectronic materials\, interface engineering\, and heterojunction adjusting. Furthermore\, he will delve into the functional design of artificial synaptic devices across diverse application scenarios\, and share his perspective on next work plan for advancing synaptic devices. \n  \nBiography of the speaker: \nDr. Yao NI was born in 1994 and obtained his Ph.D. from Nankai University in 2023. He currently serves as a Lecturer at Guangdong University of Technology. His research primarily focuses on neuromorphic electronic devices and systems. As the first (co-first) author and corresponding author\, Dr. NI has published more than 20 SCI papers in internationally renowned scientific and technological journals\, including Nat. Commun.\, ACS Nano\, Adv. Sci.\, SmartMat\, Adv. Funct. Mater.\, Nano Energy\, Nano Letters\, etc. His collaborative papers have been cited more than 800 times\, and several of his works have received active media coverage. Additionally\, Dr. NI has authored 2 chapters in English monographs and filed more than 10 invention patents. He serves as an editor and reviewer for multiple domestic and international journals (conferences) and has been invited to participate in academic conferences multiple times\, receiving honors such as the Excellent Academic Report Award and Excellent Poster Award. He is a member of professional societies such as the Institute of Electrical and Electronics Engineers (IEEE)\, Chinese Association of Automation (CAA)\, China Institute of Communications (CIC)\, and Chinese Chemical Society (CCS). \nAll are welcome!
URL:https://ece.hku.hk/events/20240313-1/
LOCATION:Online via Zoom
CATEGORIES:Seminar
ATTACH;FMTTYPE=image/jpeg:https://ece.hku.hk/wp-content/uploads/2024/02/Seminar-s-banner.jpg
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Hong_Kong:20240314T160000
DTEND;TZID=Asia/Hong_Kong:20240314T180000
DTSTAMP:20260513T102431
CREATED:20240221T062420Z
LAST-MODIFIED:20250114T072504Z
UID:17944-1710432000-1710439200@ece.hku.hk
SUMMARY:Image quality transfer and democratization of MRI
DESCRIPTION:My talk will focus on Image Quality Transfer (Alexander et al Neuroimage 2017; Tanno et al Neuroimage 2021; Lin et al ISMRM 2021)\, and its role in international efforts to democratize MRI expertise and capability\, such as the CAMERA network https://www.medrxiv.org/content/10.1101/2022.05.02.22274588\nv1.full. The technique aims to use machine learning to estimate high quality images\, e.g. from a powerful experimental scanner\, from lower quality images\, e.g. acquired on a standard hospital scanner or low-field systems. I will talk through the history of development of these ideas\, show some of the latest results\, speculate about future opportunities\, and describe some challenges and observations of implementing these ideas in LMIC scenarios. I will also cover briefly some other aspects of my work at UCL on microstructure imaging\, e.g. NODDI (Zhang et al Neuroimage 2012) for neuroimaging and VERDICT (Panagiotaki et al Cancer Research 2013) for cancer imaging\, as well as disease progression modelling using techniques such as the subtype and stage algorithm (Young et al Nature Comms 2018) for mapping subtypes of chronic disease such as Alzheimer’s disease. \nBiography of the speaker: \nProfessor Alexander is the Director of the UCL Centre for Medical Image Computing (CMIC) at University College London (UCL) and Professor of Imaging Science in UCL’s Department of Computer Science.  His expertise is in computational modelling\, machine learning\, imaging and image analysis. He has a BA in Mathematics from the University of Oxford (1993)\, an MSc in Computer Science from UCL (1994)\, and a PhD in Computer Science from UCL (1998). He worked as a post-doc at the University of Pennsylvania until 2000 when he returned to London to take up an academic position. He became full professor in 2009\, Director of CMIC in 2015\, senior fellow of the ISMRM in 2017\, and fellow of the Royal Academy of Engineering in 2022 and IEEE in 2023.\n\nAll are welcome.
URL:https://ece.hku.hk/events/image-quality-transfer-and-democratization-of-mri/
LOCATION:Room CB-603\, 6/F\, Chow Yei Ching Building\, The University of Hong Kong
CATEGORIES:Seminar
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END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Hong_Kong:20240315T173000
DTEND;TZID=Asia/Hong_Kong:20240315T183000
DTSTAMP:20260513T102431
CREATED:20240304T065035Z
LAST-MODIFIED:20250220T074356Z
UID:17970-1710523800-1710527400@ece.hku.hk
SUMMARY:Career Talk - CHOICES IN FUTURE CAREER: Entrepreneurship\, Research\, or Banking?
DESCRIPTION:Have you ever considered exploring alternative paths for your future career choices? This presents a unique opportunity to gain more insight in that regard. \nThe Department has extended an invitation to an entrepreneur and researcher\, Dr. David Ng\, and a board member of banks\, Dr. David Wong who will share their valuable experience with you. By attending\, you will have the chance to broaden your perspective on career options. \nBiography of the speakers: \nDr. David Ng\, our Adjunct Assistant Professor\, holds a Ph.D. in Electrical Engineering from HKU EEE\, where he developed his engineering skills. He is an active member of both HKIE and IEEE\, and his contributions in the field have led to the acquisition of over 20 patents from the United States and China throughout his career. Prior to his Ph.D.\, Dr. Ng obtained a bachelor’s degree in electronic engineering from HKUST. He further enhanced his knowledge by pursuing an MSc degree in Electronic & Information Engineering and an Executive MBA (EMBA) degree from CityU. Dr. Ng gained valuable industry experience during his time at Motorola Semiconductor\, Arizona\, USA. \nWith more than 20 years of impressive work experience in the high-tech industry as an entrepreneur and architectural IC design researcher\, Dr. Ng has founded technology companies focused on Integrated Circuit (IC) design. These ventures received funding from multinational companies and Venture Capitals after his tenure at ASTRI (Hong Kong Government Agency)\, ON Semiconductor (a NASDAQ-listed semiconductor company)\, and Motorola (an NYSE-listed Telecommunications Company). Dr. Ng has a proven track record of successfully raising millions of US dollars from the HK Government and various industries to support next-generation IC design technologies. During his time at ASTRI\, he played a crucial role in assisting a client in getting listed on the Hong Kong GEM Board by licensing his team’s intellectual property for production. \nDr. David Wong\, See Hong has served as a Non-Executive and Non-Independent Director since June 10\, 2023\, after nine years as a Non-Executive and Independent Director. With over 30 years of experience in the banking sector\, he possesses extensive knowledge in treasury and financial products. \nFrom 2008 to 2013\, Dr. Wong held the position of Deputy Chief Executive at Bank of China (Hong Kong) Group\, overseeing various financial market businesses like Global Markets\, Global Transaction Banking\, Investment Management\, Insurance\, Asset Management\, and other capital market-related activities. Dr. Wong has held board positions at the Energy Market Authority and the Civil Service College in Singapore and served as a Customer Advisory Board Member of Thomson Reuters. \nCurrently\, Dr. Wong is a board member at Frasers Property Limited\, China Merchants Bank Co.\, Ltd\, and EC World Asset Management Pte Ltd. He serves as Chairman of Halftime Hong Kong Limited and is a Finance Management Committee member of the Hong Kong Management Association. \nDr. Wong holds a Bachelor’s Degree in Business Administration from the University of Singapore and a Master of Science degree in Investment Management from the Hong Kong University of Science and Technology. He has been recognized as a Financial Industry Certified Professional by the Institute of Banking and Finance\, Singapore. \nAll are welcome! \nDetails: https://ece.hku.hk/elink/career.html
URL:https://ece.hku.hk/events/career-talk-choices-in-future-career-entrepreneurship-research-or-banking/
LOCATION:Room CB-603\, 6/F\, Chow Yei Ching Building\, The University of Hong Kong
CATEGORIES:Career Talks,Seminar
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END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Hong_Kong:20240318T000000
DTEND;TZID=Asia/Hong_Kong:20240318T000000
DTSTAMP:20260513T102431
CREATED:20240306T015653Z
LAST-MODIFIED:20250114T070444Z
UID:17977-1710720000-1710720000@ece.hku.hk
SUMMARY:Capturing Life: Optical Microscopy for in vivo Deep Tissue Imaging at High Spatiotemporal Resolution
DESCRIPTION:Optical microscopy has become an indispensable tool for non-invasive\, high-resolution in vivo imaging of living organisms. Its capability to provide insights into real-time physiological and pathological processes within the body underscores its significance in bioscience and medicine. However\, conventional optical microscopy methods have certain limitations. For instance\, multiphoton fluorescence microscopy\, the method of choice for in vivo imaging through scattering tissue such as the mammalian brains\, delivers excellent resolution but falls short in speed for capturing rapid biological activities\, such as blood flow dynamics. On the other hand\, optical coherence tomography (OCT)\, a label-free deep-tissue imaging method\, stands as a powerful instrument in contemporary optometry clinics\, but its high cost limits its broad use\, especially in lower-income communities. In this presentation\, I will share my research on the development of high-speed multiphoton fluorescence microscopy and cost-effective OCT for brain and eye imaging\, respectively\, through the utilization of both optical engineering and computational methods. \n  \nBiography of the speaker: \nDr. Guanghan MENG\, currently a postdoctoral scholar in the Department of Electrical Engineering and Computer Science at the University of California\, Berkeley\, focuses on advancing high-speed\, high-resolution fluorescence\, and label-free microscopy technologies for deep tissue imaging in vivo. Having earned her PhD from the same university\, her doctoral research spanned the disciplines of Molecular and Cell Biology and Physics\, primarily concentrating on enhancing two-photon fluorescence microscopy for mouse brain imaging. At present\, she is working on computational label-free imaging with a specific interest in the human eye. She has been recognized with various best presentation awards at scientific conferences and is a recipient of the Berkeley Center for Innovation in Vision and Optics (CIVO) postdoctoral fellowship. She is also an invited lecturer at the 17th Edition of the Frontiers in Neurophotonics Summer School in Quebec City\, Canada in 2024. \nAll are welcome!
URL:https://ece.hku.hk/events/20230318-1/
LOCATION:Room CB-601J\, 6/F\, Chow Yei Ching Building\, The University of Hong Kong
CATEGORIES:Seminar
ATTACH;FMTTYPE=image/jpeg:https://ece.hku.hk/wp-content/uploads/2024/03/r44t.jpg
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Hong_Kong:20240319T093000
DTEND;TZID=Asia/Hong_Kong:20240319T104500
DTSTAMP:20260513T102431
CREATED:20240228T082539Z
LAST-MODIFIED:20250114T070331Z
UID:17957-1710840600-1710845100@ece.hku.hk
SUMMARY:Simultaneously Transmitting And Reflecting Surface (STARS) for 360° Coverage
DESCRIPTION:In this talk\, the novel concept of simultaneously transmitting and reflecting surfaces (STARS) will be introduced. First\, the STAR basics will be introduced. In particular\, the fundamental signal modelling\, performance limit characterization\, practical operating protocols\, and joint beamforming design will be discussed. Then\, the coupled phase-shift STAR model\, AI-enabled STARS\, and channel estimation methods will be focused. Furthermore\, several promising case studies of employing STARS will be put forward\, including STAR-NOMA\, spatial analysis for STARS\, federated learning with STARS\, and STARS enabled integrated sensing and communications (ISAC). Finally\, research opportunities and problems as well as commercial progress of STARS. \nBiography of the speaker: \nDr. Yuanwei LIU is an Associate Professor at the School of Electronic Engineering and Computer Science\, Queen Mary University of London. His research interests include next-generation multiple access\, integrated sensing and communications reconfigurable intelligent surface\, and near-field communications. He is a Fellow of IEEE\, a Fellow of AAIA\, Web of Science Highly Cited Researcher since 2021 to present. He is listed as one of 35 Innovators Under 35 China in 2022 by MIT Technology Review. He serves as an IEEE Communication Society Distinguished Lecturer\, an IEEE Vehicular Technology Society Distinguished Lecturer\, the Academic Chair for the Next Generation Multiple Access Emerging Technology Initiative\, the rapporteur of ETSI Industry Specification Group on Reconfigurable Intelligent Surfaces\, and the UK representative for the URSI Commission C on Radio Communication Systems and Signal Processing. He received IEEE ComSoc Outstanding Young Researcher Award for EMEA in 2020. He received the 2020 IEEE Signal Processing and Computing for Communications (SPCC) Technical Committee Early Achievement Award\, IEEE Communication Theory Technical Committee (CTTC) 2021 Early Achievement Award. He received IEEE ComSoc Outstanding Nominee for Best Young Professionals Award in 2021. He is the co-recipient of the Best Student Paper Award in IEEE VTC2022-Fall\, the Best Paper Award in ISWCS 2022\, the 2022 IEEE SPCC-TC Best Paper Award and the IEEE ICCT 2023 Best Paper Award. He serves as the Co-Editor-in-Chief of IEEE ComSoc TC Newsletter\, an Area Editor of IEEE Communications Letters\, an Editor of IEEE Communications Surveys & Tutorials\, IEEE Transactions on Wireless Communications\, IEEE Transactions on Vehicular Technology\, and IEEE Transactions on Network Science and Engineering. He serves as the (leading) Guest Editors for Proceedings of the IEEE/IEEE JSAC/JSTSP/Network/TGCN. \nAll are welcome!
URL:https://ece.hku.hk/events/20240319-1/
LOCATION:Room CB-601J\, 6/F\, Chow Yei Ching Building\, The University of Hong Kong
CATEGORIES:Seminar
ATTACH;FMTTYPE=image/jpeg:https://ece.hku.hk/wp-content/uploads/2024/02/f3f3f3.jpg
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Hong_Kong:20240323T185000
DTEND;TZID=Asia/Hong_Kong:20240323T203000
DTSTAMP:20260513T102431
CREATED:20240319T010323Z
LAST-MODIFIED:20250114T070152Z
UID:18089-1711219800-1711225800@ece.hku.hk
SUMMARY:HKU-AI WiSe: AI for Social Good - A Fireside Chat on AI for Social Good
DESCRIPTION:May we draw your attention to the following AI for Social Good evening event by HKU-AI WiSe\, Faculty of Engineering\, the University of Hong Kong\, partly funded by RGC-TRS. \nOnline Registration: https://forms.gle/UJZLhk61xLi8mDBq7 \n \nOnline Registration: https://forms.gle/UJZLhk61xLi8mDBq7 \n \nOnline Registration: https://forms.gle/UJZLhk61xLi8mDBq7 \nRSVP! Looking forward to welcoming you at the event on 23 March\, 2024 (Saturday).
URL:https://ece.hku.hk/events/20240323-1/
LOCATION:Lecture Theatre CB-A\, G/F\, Chow Yei Ching Building\, The University of Hong Kong
CATEGORIES:Seminar
ATTACH;FMTTYPE=image/jpeg:https://ece.hku.hk/wp-content/uploads/2024/03/t5t5t.jpg
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Hong_Kong:20240325T100000
DTEND;TZID=Asia/Hong_Kong:20240325T111500
DTSTAMP:20260513T102431
CREATED:20240318T082330Z
LAST-MODIFIED:20250114T070032Z
UID:18084-1711360800-1711365300@ece.hku.hk
SUMMARY:Enabling Decarbonisation Technologies with Power Electronics
DESCRIPTION:Speaker\nProf. Josep POU\nSchool of Electrical & Electronic Engineering\,\nNanyang Technological University (NTU)\, Singapore \nAbstract\nThis presentation will introduce some of the research developed in the Power Electronics and Applications Research Lab at NTU (PEARL@NTU). The target is to facilitate large-scale integration of renewables into the grid. This includes the design of control strategies to make solar inverters more friendly with the grid by alleviating intermittency and providing power reserve\, a multilevel-converter-based battery energy storage system that enables the use of second-life batteries for grid applications\, and a reactive power static compensator (STATCOM) that can operate with very small capacitances. The talk will also introduce the Rolls-Royce @ NTU Corporate Lab\, where future aerospace transportation technologies are designed. \nBiography of the Speaker\nProf. Josep POU received the B.S.\, M.S.\, and Ph.D. degrees in electrical engineering from the Technical University of Catalonia (UPC)-Barcelona Tech\, Spain. In 1990\, he joined the faculty of UPC as an Assistant Professor\, where he became an Associate Professor in 1993. From February 2013 to August 2016\, he was a Professor at the University of New South Wales (UNSW)\, Australia. He is currently a Professor at the Nanyang Technological University (NTU)\, Singapore\, where he is a Cluster Director of Power Electronics at the Energy Research Institute at NTU (ERI@N) and co-Director of the Rolls-Royce @ NTU Corporate Lab. He spent two years as a visiting professor in the Center for Power Electronics Systems\, Virginia Tech\, USA\, and one year in the Australian Energy Research Institute\, UNSW\, Australia. He has authored 477 published technical papers and is a co-inventor of 8 patents. His research interests include power electronics\, renewable energy\, energy storage\, power quality\, HVDC transmission\, and transportation electrification. \nHe is an IEEE Fellow. He is Associate Editor of the IEEE Journal of Emerging and Selected Topics in Power Electronics. He was co-Editor-in-Chief and Associate Editor of the IEEE Transactions on Industrial Electronics. He received the 2018 IEEE Bimal Bose Award for Industrial Electronics Applications in Energy Systems. \nAll are welcome!
URL:https://ece.hku.hk/events/20240325/
LOCATION:Room CB-601J\, 6/F\, Chow Yei Ching Building\, The University of Hong Kong
CATEGORIES:Seminar
ATTACH;FMTTYPE=image/jpeg:https://ece.hku.hk/wp-content/uploads/2024/03/20240325-banner_1280.jpg
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Hong_Kong:20240326T100000
DTEND;TZID=Asia/Hong_Kong:20240326T123000
DTSTAMP:20260513T102431
CREATED:20240312T043116Z
LAST-MODIFIED:20250114T065934Z
UID:18004-1711447200-1711456200@ece.hku.hk
SUMMARY:Symposium on AI for Social Good Co-organized by HKU-AI WiSe and HKU-Cambridge AI for Neurodisease Research Platform: AI for Healthy Aging: Revolutionizing Prediction and Treatment of Alzheimer’s Disease
DESCRIPTION:May we draw your attention to the following AI for Social Good event co-organized by HKU-AI WiSe and HKU-Cambridge AI for Neuro-disease Research Platform\, Faculty of Engineering\, the University of Hong Kong\, and the University of Cambridge\, sponsored partly by the US National Academy of Medicine Healthy Longevity Catalyst Award 2023.  \nYou may register below: https://forms.gle/E32UDRKgRjoWiFA76. \n \n 
URL:https://ece.hku.hk/events/20240326-1/
LOCATION:Room 102\, 1/F\, K.K. Leung Building\, The University of Hong Kong
CATEGORIES:Seminar
ATTACH;FMTTYPE=image/jpeg:https://ece.hku.hk/wp-content/uploads/2024/03/r4t4.jpg
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Hong_Kong:20240403T160000
DTEND;TZID=Asia/Hong_Kong:20240403T170000
DTSTAMP:20260513T102431
CREATED:20240318T090332Z
LAST-MODIFIED:20250114T065751Z
UID:18088-1712160000-1712163600@ece.hku.hk
SUMMARY:How to write for Nature Reviews journals – Nature Reviews Bioengineering
DESCRIPTION:Abstract:\nReview and Perspective articles play a pivotal role in synthesizing\, contextualizing\, and critically analyzing the state of knowledge on timely research topics. Notably\, the editorial process at Nature Reviews journals diverges substantially from typical research journals\, something which is often not widely known in the scientific community. In this talk\, I will give an overview of the scientific publishing landscape and the editorial processes at Nature Reviews journals\, with a focus on Nature Reviews Bioengineering. I will discuss criteria used by journals to assess proposals\, including significance\, novelty and methodological rigor. I will then introduce our journal\, Nature Reviews Bioengineering\, where we publish Review\, Perspective and Comment and Down-to-business articles covering the full breadth of bioengineering\, with a particular focus on application\, translation and technology. Finally\, I’ll provide some tips on writing compelling reviews by incorporating best practices for flow\, illustrations\, explanatory boxes\, future outlooks and interdisciplinary relevance. \n\nBiography of the Speaker:\nDr. Sadra BAKHSHANDEH is a Senior Scientific Editor at Nature Reviews Bioengineering. He was trained as a mechanical engineer\, followed by a MSci in biomedical engineering from Delft University of Technology\, the Netherlands\, with a focus on biomaterials for orthopedic applications. He then completed his PhD studies and postdoc on synthetic extracellular matrices for in vitro models of cancer at the Max Planck Institute of Colloids and Interfaces in Potsdam\, Germany \nAll are welcome! We look forward to seeing you!
URL:https://ece.hku.hk/events/20240403-1/
LOCATION:Online via Zoom
CATEGORIES:Seminar
ATTACH;FMTTYPE=image/jpeg:https://ece.hku.hk/wp-content/uploads/2024/03/rerer.jpg
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Hong_Kong:20240405T140000
DTEND;TZID=Asia/Hong_Kong:20240405T150000
DTSTAMP:20260513T102431
CREATED:20240321T081304Z
LAST-MODIFIED:20250114T065546Z
UID:18119-1712325600-1712329200@ece.hku.hk
SUMMARY:RPG Seminar – Diffractive Neural Network Realized by Surface Acoustic Wave System
DESCRIPTION:Speaker\nMr. Lewei HE\nDepartment of Electrical and Electronic Engineering\,\nThe University of Hong Kong \nAbstract\nMatrix-vector multiplication (MVM) is a foundational operation within the architecture of deep neural networks (DNNs)\, critical for the propagation of information between layers and the overall function of the network. Recent advances in computational methodologies have sought to enhance the efficiency of MVM operations\, thereby improving the performance and applicability of DNNs across a spectrum of tasks. One innovative approach to calculate MVM is the utilization of the diffraction process inherent in wave dynamics\, which shares a mathematical resemblance with the operations of MVM.  This conceptual convergence has led to the development of diffractive neural networks\, a novel class of computational systems that employ diffraction phenomena for the execution of MVM tasks. The most common physics system to realize diffractive neural network is optical system suffering the problem of integrated on chip level. Here we propose a novel way of realizing diffractive neural network by surface acoustic wave with high integration level. The seminar will discuss the simulation method of surface acoustic wave diffractive system based on COMSOL. Additionally\, it will illustrate the difference between algorithm of diffractive neural network and tradition neural network. \nBiography of the speaker\nMr. Lewei HE is currently pursuing the MPhil Degree with the Department of Electrical and Electronic Engineering\, The University of Hong Kong (HKU). His research interests focus on simulation of diffractive surface acoustic wave system and algorithm of diffractive neural network. \nOrganizer\nProf. Shiming ZHANG
URL:https://ece.hku.hk/events/20240405-1/
LOCATION:Online via Zoom
CATEGORIES:Seminar
ATTACH;FMTTYPE=image/jpeg:https://ece.hku.hk/wp-content/uploads/2024/11/rpg-seminar.jpg
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Hong_Kong:20240405T140000
DTEND;TZID=Asia/Hong_Kong:20240405T150000
DTSTAMP:20260513T102431
CREATED:20240327T032308Z
LAST-MODIFIED:20250114T065627Z
UID:18175-1712325600-1712329200@ece.hku.hk
SUMMARY:RPG Seminar – Novel Approaches of Load Redistribution Attacks in Cyber-Physical Power Systems
DESCRIPTION:Abstract:\nWith the increasing integration of renewable energy and related communication technology\, ensuring the cyber-physical security of power systems has become crucial for national industries. In recent times\, hackers have employed load redistribution attacks (LRAs) to evade bad data detection (BDD) systems and manipulate operator actions. In this seminar\, we will discuss innovative LRA approaches in cyber-physical power systems. Firstly\, instead of raising system costs\, we change the LRA’s objective to compromise nodal voltage at specific target locations. Next\, we examine the feasibility of false data injection attacks (FDIAs). Generally\, it is unrealistic for hackers to gain access to network admittance information. To address this\, we create a sequential LRA strategy and estimate the power transfer distribution factor (PTDF) matrix\, allowing for a concealed attack without requiring network admittance knowledge. Lastly\, we expand LRAs to power systems with significant electric vehicle (EV) penetration. We propose a new LRA technique to influence electricity prices in both transmission and distribution networks\, leading to simultaneous charging behavior of EVs and resulting in a load spike during peak hours. \nBiography of the speaker:\nMr. Zelin Liu received his B.Eng. degree in electrical engineering and automation from Zhejiang University and his M.Eng. in electrical engineering from the University of Southern California. Currently\, he is pursuing his Ph.D. in the Department of Electrical and Electronic Engineering at the University of Hong Kong. His primary research interests are power system false data injection attacks and related cyber-physical topics in power systems. \nOrganizer: Prof. Tao LIU
URL:https://ece.hku.hk/events/20240405-2/
LOCATION:Online via Zoom
CATEGORIES:Seminar
ATTACH;FMTTYPE=image/jpeg:https://ece.hku.hk/wp-content/uploads/2024/11/rpg-seminar.jpg
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Hong_Kong:20240408T143000
DTEND;TZID=Asia/Hong_Kong:20240408T174000
DTSTAMP:20260513T102431
CREATED:20240326T093646Z
LAST-MODIFIED:20250114T065508Z
UID:18170-1712586600-1712598000@ece.hku.hk
SUMMARY:Workshop on Frontiers of Image Science and Visual Computing 2024
DESCRIPTION:For more details\, please visit the event website: https://hku.welight.fun/events
URL:https://ece.hku.hk/events/20240408-1/
LOCATION:Rayson Huang Lecture Theatre\, The University of Hong Kong
CATEGORIES:Seminar
ATTACH;FMTTYPE=image/jpeg:https://ece.hku.hk/wp-content/uploads/2024/03/23423423432.jpg
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Hong_Kong:20240409T110000
DTEND;TZID=Asia/Hong_Kong:20240409T120000
DTSTAMP:20260513T102431
CREATED:20240318T032442Z
LAST-MODIFIED:20250114T065232Z
UID:18082-1712660400-1712664000@ece.hku.hk
SUMMARY:Chiral Meta-photonics with Bound States in the Continuum
DESCRIPTION:Speaker\nProf. Cheng-Wei QIU\nDepartment of Electrical and Computer Engineering\,\nNational University of Singapore \nAbstract\nIn this talk\, the recent progress on how chirality could transcend designs of advanced metasurfaces\, sensing\, BIC photonics and optical micromanipulations will be presented. In particular\, recent results will be reported on the realization of intrinsic chiral metasurfaces where the engineered slant geometry breaks both in-plane and out-of-plane symmetries. The achieved results include intrinsic chiral bound states in the continuum with near-unity CD of 0.93 and quality factor exceeding 2300 for visible frequencies. Finally\, new perspectives on using photonic orbit angular momentum to effectively discriminate single-size and multi-scale chiral nanostructures will be discussed. \nBiography of the Speaker \nProf. Cheng-Wei QIU is appointed IEEE Photonics Society Distinguished Lecturer 2024. He is Fellow of APS\, Optica\, SPIE and The Electromagnetics Academy\, US. He was the recipient of President’s Science Award 2023\, the highest science accolade in Singapore. He was elected Fellow of ASEAN Academy of Engineering and Technology. He is well known for his research in structured light and interfaces. He has published over 480 peer-reviewed journal papers. He was the recipient of URSI Young Scientist Award in 2008\, NUS Young Investigator Award in 2011\, MIT TR35@Singapore Award in 2012\, Young Scientist Award by Singapore National Academy of Science in 2013\, Faculty Young Research Award in NUS 2013\, SPIE Rising Researcher Award 2018\, and Engineering Researcher Award 2021 in NUS\, and World Scientific Medal 2021 by Institute of Physics\, Singapore\, Achievement in Asia Award (Robert T. Poe Prize) by International Organization of Chinese Physicists and Astronomers in 2022. He was Highly Cited Researchers in 2019\, 2020\, 2021\, 2022\, 2023 by Web of Science. He has been serving in Associate Editor for various journals such as JOSA B\, PhotoniX\, Photonics Research\, and Editor-in-Chief for eLight. He also serves in Editorial Advisory Board for Laser and Photonics Review\, Advanced Optical Materials\, and ACS Photonics. \nOrganizer: Prof. Kevin TSIA \nAll are welcome! We look forward to seeing you!
URL:https://ece.hku.hk/events/20240409-1/
LOCATION:Room CB-603\, 6/F\, Chow Yei Ching Building\, The University of Hong Kong
CATEGORIES:Seminar
ATTACH;FMTTYPE=image/jpeg:https://ece.hku.hk/wp-content/uploads/2024/03/20240409-1280.jpg
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Hong_Kong:20240417T100000
DTEND;TZID=Asia/Hong_Kong:20240417T110000
DTSTAMP:20260513T102431
CREATED:20240411T014514Z
LAST-MODIFIED:20250114T065151Z
UID:18254-1713348000-1713351600@ece.hku.hk
SUMMARY:RPG Seminar – Design\, Analysis and Application of Multi-Channel and Multi-Pickup Wireless Power Transfer Systems
DESCRIPTION:Speaker:\nMr. Pang Hongliang\nDepartment of Electrical and Electronic Engineering\,\nThe University of Hong Kong \nAbstract:\nWireless power transfer (WPT) has emerged as a significant technology in modern automation applications. It offers advantages such as reduced installation workload\, enhanced flexibility\, and mobility while eliminating wear and tear associated with traditional power supply cables. In the context of wireless charging\, providing efficient and stable energy supply to multiple load devices presents challenges. These challenges arise due to the coupling effects between loads and variations in the equivalent impedance of batteries. Accordingly\, an impedance buffer-based reactance cancellation method is proposed for a capacitor-inductor-capacitor-series (CLC-S) compensated WPT system with robust zero-voltage-switching (ZVS). The proposed method adopts a synchronous impedance buffer series connected with the CLC compensation network to realize full-range zero-phase-angle (ZPA) operation and can also be regulated to ZVS condition under large tolerance of the abovementioned issues. In addition\, the proposed concept holds the characteristic of communication-free\, feedback-free\, simple control\, and no strict constraints imposed by parameters in high-order compensation.. \nBiography of the speaker:\nMr. Hongliang PANG received the B.Eng. degree in automation and the M.Eng. degree in control science and engineering from Tianjin University\, Tianjin\, in 2017 and 2020\, respectively. He is currently working toward the Ph.D. degree in electrical and electronic engineering with the Department of Electrical and Electronic Engineering\, The University of Hong Kong\, Hong Kong. His current research interests include wireless power transfer and power electronics. \nOrganizer: Prof. Y. HOU \nAll are welcome.
URL:https://ece.hku.hk/events/20240417-1/
LOCATION:Online via Zoom
CATEGORIES:Seminar
ATTACH;FMTTYPE=image/jpeg:https://ece.hku.hk/wp-content/uploads/2024/11/rpg-seminar.jpg
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Hong_Kong:20240417T163000
DTEND;TZID=Asia/Hong_Kong:20240417T173000
DTSTAMP:20260513T102431
CREATED:20240416T064624Z
LAST-MODIFIED:20250114T065112Z
UID:18270-1713371400-1713375000@ece.hku.hk
SUMMARY:Adaptive Optical Microscopy for Bioimaging
DESCRIPTION:Abstract:\nOptical microscopy has become an indispensable tool for biomedical research\, owing to its noninvasive nature and subcellular resolution. However\, current techniques require further refinement to accurately capture the complexity of living biological systems. In this talk\, I will describe how we integrate ideas from astronomy\, optics\, and computation to address challenges in in vivo imaging. By developing and applying adaptive-optics-assisted microscopy and microendoscopy\, we have achieved high-resolution\, high-contrast\, widefield imaging in living organisms and demonstrated high-resolution two-photon fluorescence imaging of mouse eye pathology and pharmacology in vivo. \nBiography of the Speaker:\nProf. Qinrong ZHANG obtained her Ph.D. degree in Physics from the University of Waterloo. After that\, she joined the University of California\, Berkeley\, as a postdoctoral fellow\, working with Professor Na Ji in the Departments of Physics & of Molecular and Cell Biology. Since August 2023\, she has been an Assistant Professor in the Department of Biomedical Engineering at City University of Hong Kong. Her primary research focus is on developing cutting-edge microscopy technologies for biological studies\, particularly in vivo imaging of the mouse brain and mouse eye. \nOrganizer: Prof. Kevin TSIA \nAll are welcome! We look forward to seeing you!
URL:https://ece.hku.hk/events/20240417-2/
LOCATION:Room CB-208\, 2/F\, Chow Yei Ching\, Building\, The University of Hong Kong
CATEGORIES:Seminar
ATTACH;FMTTYPE=image/jpeg:https://ece.hku.hk/wp-content/uploads/2024/04/324234234.jpg
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Hong_Kong:20240422T140000
DTEND;TZID=Asia/Hong_Kong:20240422T150000
DTSTAMP:20260513T102431
CREATED:20240411T073647Z
LAST-MODIFIED:20250114T064909Z
UID:18267-1713794400-1713798000@ece.hku.hk
SUMMARY:A Bottom-up Approach Towards Generalizable Robot Learning
DESCRIPTION:Abstract:\nThe rise of data-driven methods in robotics has significantly enhanced a robot’s capacity for perception\, reasoning\, and acting. However\, the challenge and expense of collecting a diverse dataset with robots prevent learning control policies that are generalizable across various settings and tasks. Alternatively\, while data sources like videos and robot play data are scalable\, they are often not directly applicable due to the domain gaps and the absence of optimal action labels. In this talk\, I will discuss my research on learning visual representations\, particle trajectory models\, and particle dynamics models from these data to learn generalizable low-level policies. These structured representations enable the learned policies to generalize to novel objects and configurations. I will conclude by demonstrating how these low-level skills can be assembled to tackle long-horizon and novel tasks. \nBiography of the Speaker:\nDr. Xingyu LIN is a postdoctoral researcher at the University of California Berkeley\, working with Pieter Abbeel. His research lies at the intersection of computer vision\, machine learning and robotics\, with a focus on learning robust manipulation skills that generalize to novel objects\, tasks and deformable objects. He holds a PhD from the Robotics Institute at Carnegie Mellon University\, advised by David Held. Prior to that\, he received his undergraduate degree in computer science from Peking University. His research has been published at top conferences\, including CoRL\, RSS\, NeurIPS and ICLR. He was also selected as an RSS (Robotics Science and System) 2022 Pioneer. \nOrganizer: Prof. Kaibin HUANG \nAll are welcome! We look forward to seeing you!
URL:https://ece.hku.hk/events/20240422-2/
LOCATION:Online via Zoom
CATEGORIES:Seminar
ATTACH;FMTTYPE=image/jpeg:https://ece.hku.hk/wp-content/uploads/2024/04/1280-4.jpg
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Hong_Kong:20240422T160000
DTEND;TZID=Asia/Hong_Kong:20240422T180000
DTSTAMP:20260513T102431
CREATED:20240321T060529Z
LAST-MODIFIED:20250114T064821Z
UID:18115-1713801600-1713808800@ece.hku.hk
SUMMARY:Organoid Printing for Precision Cancer Medicine and Regeneration Therapy
DESCRIPTION:Speaker\nDr. Shaohua MA\nAssociate Professor\,\nInstitute of Biopharmaceutical and Health Engineering (iBHE)\,\nTsinghua Shenzhen International Graduate School (SIGS) \nAbstract\nOrganoids are three-dimensional micro-replicas of human organs in of human organs in either physiological or pathological states. Organoids are expected to provide personalised drug treatment choices by assessing drug efficacy and toxicity in efficacy and toxicity in vitro\, or augment regenerative therapy by exploiting their colonized of their colonised stem cell-like capacities. Here we report a bead-jet bead-printing method that is suitable for both reproducible and high-throughput formulation and patterning of organoids. It allows organoid printing in both parallel culture chambers\, such as 96-well plates\, and irregular wounds. It also has significant translation potential by providing an automated tool for organoid and living bead printing. \nBiography of the Speaker\nDr. Shaohua MA received his B.Eng. from the Department of Polymer Materials and Engineering at Sun Yat-sen University in 2009\, and Ph.D. from the Department of Chemistry at the University of Cambridge in 2013. He did postdoctoral training at the University of Oxford in 2013 – 2017 before joining Tsinghua University in 2017\, first as an assistant professor and then as associate professor (core-PI) at Tsinghua-Berkeley Shenzhen Institute (TBSI). He is now an associate professor with tenure at Institute of Biopharmaceutical and Health Engineering (iBHE)\, Tsinghua Shenzhen International Graduate School (SIGS). His research interests include intelligent microfluidics\, organoids and stem cell engineering\, organs-on-a-chip\, 3D bioprinting\, and has contributed over 40 papers as the corresponding author to these fields. \nOrganizer\nDr. Zhiqin CHU \nAll are welcome! We look forward to seeing you!
URL:https://ece.hku.hk/events/20240422-1/
LOCATION:Room CB-601J\, 6/F\, Chow Yei Ching Building\, The University of Hong Kong
CATEGORIES:Seminar
ATTACH;FMTTYPE=image/jpeg:https://ece.hku.hk/wp-content/uploads/2024/03/20240422-1280.jpg
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Hong_Kong:20240423T140000
DTEND;TZID=Asia/Hong_Kong:20240423T150000
DTSTAMP:20260513T102431
CREATED:20240409T091859Z
LAST-MODIFIED:20250114T064707Z
UID:18248-1713880800-1713884400@ece.hku.hk
SUMMARY:Reinforcement Learning with LLMs Interaction for Edge Network-enabled Distributed Diffusion Model
DESCRIPTION:Abstract:\nIn the rapidly evolving field of generative artificial intelligence (GenAI) and AI-generated content (AIGC) services\, generative diffusion models (GDMs) have garnered widespread attention due to their extensive application and exceptional performance\, supporting a series of applications such as Stable Diffusion\, Sora\, and others. Despite their success\, the deployment of GDMs faces significant challenges\, particularly in aligning generated content with individual user preferences and ensuring production efficiency. This presentation introduces a novel user-centric interactive AI approach for edge network-enabled distributed GDM-based AIGC service framework\, prioritizing efficient and collaborative GDM deployment. Specifically\, we restructure the GDM’s inference process\, i.e.\, the denoising chain\, to enable users’ semantically similar prompts to share a portion of diffusion steps. Furthermore\, to maximize the users’ subjective quality-of-experience (QoE)\, we present a reinforcement learning with large language models interaction (RLLI) approach\, which utilizes large language model (LLM)-empowered generative agents to simulate user feedback\, providing real-time and subjective QoE feedback that reflects the spectrum of user personalities. In conclusion\, this presentation seeks to explore the reciprocal relationship between “GenAI for Network” and “Network for GenAI”\, aiming to achieve more efficient\, intelligent\, and sustainable next-generation network services. \nBiography of the Speaker:\nDr. Hongyang DU received a Ph.D. from the School of Computer Science and Engineering\, Energy Research Institute @ NTU\, Nanyang Technological University\, Singapore\, under the Interdisciplinary Graduate Program. He received the B.Sc. degree from Beijing Jiao Tong University\, Beijing\, China\, in 2021. He is the Editor-in-Chief assistant of IEEE Communications Surveys & Tutorials (2022-2024). He was recognized as an exemplary reviewer of the IEEE Transactions on Communications and IEEE Communications Letters in 2021. He was the recipient of the IEEE Daniel E. Noble Fellowship Award from the IEEE Vehicular Technology Society in 2022\, the recipient of the IEEE Signal Processing Society Scholarship from the IEEE Signal Processing Society in 2023\, the recipient of the Chinese Government Award for Outstanding Students Abroad in 2023\, and the recipient of the Singapore Data Science Consortium (SDSC) Dissertation Research Fellowship in 2023. As the team leader\, He won the Honorary Mention award in the ComSoc Student Competition from IEEE Communications Society in 2023 and the First and Second Prizes in the 2024 ComSoc Social Network Technical Committee (SNTC) Student Competition. He has published over 20 first-author papers in leading journals and flagship conferences\, such as the IEEE Journal on Selected Areas in Communications and IEEE Transactions on Mobile Computing. He has also co-authored 100+ peer-reviewed papers with a total of 1\,600+ citations. His research interests include generative artificial intelligence (GenAI)\, edge intelligence\, semantic communications\, and resource allocation. \nOrganizer: Prof. Kaibin HUANG \nAll are welcome! We look forward to seeing you!
URL:https://ece.hku.hk/events/20240423-1/
LOCATION:Online via Zoom
CATEGORIES:Seminar
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BEGIN:VEVENT
DTSTART;TZID=Asia/Hong_Kong:20240423T150000
DTEND;TZID=Asia/Hong_Kong:20240423T160000
DTSTAMP:20260513T102431
CREATED:20240409T092103Z
LAST-MODIFIED:20250114T064610Z
UID:18249-1713884400-1713888000@ece.hku.hk
SUMMARY:Have AI Models Truly Simplified Healthcare? Beyond Model-centric AI\, Data- and Human-centric AI for Simplified Healthcare
DESCRIPTION:Abstract:\nIn healthcare\, the exponential growth of artificial Intelligence (AI) has led to the development of numerous advanced AI models for disease diagnosis and lesion segmentation\, etc. Despite these advancements\, the question arises: Have AI models truly simplified healthcare? In this talk\, I will share my thinking on this question\, and present my research aimed at simplifying healthcare in real-world deployment. \nTo effectively simplify healthcare\, we must go beyond just focusing on AI models. Instead\, we should consider the challenges inherent in deploying these models in real clinical practice. These challenges encompass the adaptability of AI models across diverse medical centers with varying medical imaging devices or patient populations (data-centric AI)\, alongside the interaction/collaboration between clinicians and AI models to ensure clinicians’ trust in AI model decisions (human-centric AI). \nAs for data-centric AI\, I have developed many annotation-efficient deep learning technologies to enhance model performance and efficiency when deploying in a new medical scenario\, thus reducing the burden of clinicians in large-scale dataset annotation. On the other hand\, my research on human-centric AI emphasizes the importance of close collaboration and trust between AI and clinicians\, such as enhancing communication between models and clinicians through large language models\, providing more detailed explanations for clinicians’ decision-making processes\, and deferring to radiologists when AI models fail. \nBiography of the Speaker:\nDr. Xiaoqing GUO is a postdoctoral researcher at the Department of Engineering Science\, University of Oxford. She obtained her Ph.D. degree in the Department of Electrical Engineering at the City University of Hong Kong in 2022 and received a B.S. degree from Beihang University in 2018. Her research interest is in the interdisciplinary field of AI and healthcare\, aiming to create innovative intelligent systems that can support high-quality human-machine interaction/collaboration and trustworthy clinical decision-making. In AI and medical imaging fields\, she has published over 30 top journal and conference papers\, including TPAMI\, CVPR\, ICCV\, ECCV\, TMI\, MedIA\, MICCAI\, and Nature\, reaching over 1k Google Scholar citations with an h-index of 15. She has been selected as one of the World’s Top 80 Chinese Young Female Scholars in AI\, and she has received prestigious awards\, such as CVPR Outstanding Reviewer Award\, MSRA Fellowship Nomination Award\, Outstanding Doctoral Research Award\, Outstanding Research Thesis Award\, and three year consecutive Outstanding Academic Performance Award \nOrganizer: Prof. Kaibin HUANG \nAll are welcome! We look forward to seeing you!
URL:https://ece.hku.hk/events/20240423-2/
LOCATION:Online via Zoom
CATEGORIES:Seminar
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BEGIN:VEVENT
DTSTART;TZID=Asia/Hong_Kong:20240425T133000
DTEND;TZID=Asia/Hong_Kong:20240425T143000
DTSTAMP:20260513T102431
CREATED:20240409T092329Z
LAST-MODIFIED:20250114T064507Z
UID:18250-1714051800-1714055400@ece.hku.hk
SUMMARY:Small-scale Robots: Miniature but Capable Robots to Revolutionize Healthcare
DESCRIPTION:Abstract:\nWe are witnessing an exponential growth of the impact of small-scale robotics in recent years. These tiny robots have a characteristic length from several millimetres down to hundreds of nanometers. This extreme miniaturization enables these robots to access constrained space buried deep inside human body\, where conventional devices couldn’t reach\, and thus it dramatically benefits minimally invasive diagnosis and treatment. In particular\, millimeter-scale robots are “small enough” to go inside the natural cavities and ducts of human body\, while at the same time they are “big enough” to conduct relatively complex operations\, such as drug delivery and biopsy. In this seminar\, I will introduce my past and current research projects in small-scale robotics\, and discuss my future research plans. I will talk about the design\, fabrication\, control\, and application of these robots. Furthermore\, I will discuss how this emerging field could have imminent and far-reaching positive impact on modern healthcare. \nBiography of the Speaker:\nDr. Jiachen ZHANG is an Assistant Professor at the Department of Biomedical Engineering\, the City University of Hong Kong since 2021. He graduated with a Ph.D. degree from the University of Toronto in 2018. After graduation\, he worked from 2019-2021 as a Humboldt Research Fellow at Max Planck Institute for Intelligent Systems\, Germany. His research focuses on the development of millimeter- and micrometer-scale robotic systems for biomedical applications. He utilizes magnetic field as the primary actuation and control signal for multi-functional small-scale robots. He envisions that small-scale robots are ideal candidates to meet the demands posed by modern healthcare in its evolution to minimize invasiveness. \nOrganizer: Prof. Kaibin HUANG \nAll are welcome! We look forward to seeing you!
URL:https://ece.hku.hk/events/20240425-1/
LOCATION:Room CB-603\, 6/F\, Chow Yei Ching Building\, The University of Hong Kong
CATEGORIES:Seminar
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BEGIN:VEVENT
DTSTART;TZID=Asia/Hong_Kong:20240429T100000
DTEND;TZID=Asia/Hong_Kong:20240429T110000
DTSTAMP:20260513T102431
CREATED:20240419T082617Z
LAST-MODIFIED:20250114T064421Z
UID:18341-1714384800-1714388400@ece.hku.hk
SUMMARY:RPG Seminar – Uncertainty Quantification
DESCRIPTION:Abstract:\nUncertainty quantification plays a crucial role in electromagnetic compatibility and inference (EMC/EMI) in the field. Traditionally\, methods such as the Monte Carlo method\, stochastic Galerkin method\, stochastic collocation\, and linear regression have been developed to tackle the challenges of uncertainty quantification (UQ) problems. However\, these methods often face the issue of curse of dimensionality. In this study\, we propose two different approaches to quantify the uncertainty in EMC/EMI for partial equivalent element circuits. The first method utilizes interval analysis to establish the bounds of the quantities of interest. To further capture the stochastic parameters\, we employ the physical-informed neural network to construct the polynomial chaos expansion. Consequently\, the coefficients of the polynomial bases can be obtained. To construct a network without relying on computational models\, we employ the Wasserstein generative adversarial network with a gradient penalty to estimate the stochastic characteristics. This approach allows us to effectively estimate the uncertain properties without explicitly relying on a computational model. \nSpeaker:\nMs. Yuan Ping\nDepartment of Electrical and Electronic Engineering\,\nThe University of Hong Kong \nBiography of the speaker:\nYuan Ping received the B.E. degree and M. S. degree from Xidian University in 2016 and 2019. She is currently pursuing the Ph.D. degree with the Department of Electrical and Electronic Engineering\, The University of Hong Kong\, Hong Kong. Her research interests Uncertainty Quantification\, Phase retrieval and computational electromagnetic. \nOrganizer:   Prof. Lawrence K. YEUNG \nAll are welcome.
URL:https://ece.hku.hk/events/20240429-3/
LOCATION:Online via Zoom
CATEGORIES:Seminar
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BEGIN:VEVENT
DTSTART;TZID=Asia/Hong_Kong:20240429T110000
DTEND;TZID=Asia/Hong_Kong:20240429T120000
DTSTAMP:20260513T102431
CREATED:20240418T011701Z
LAST-MODIFIED:20250114T064341Z
UID:18277-1714388400-1714392000@ece.hku.hk
SUMMARY:RPG Seminar – Enhancing Performances of InGaN-MQW Thin-film Microdisk Laser with Hybrid ODRs
DESCRIPTION:Abstract:\nThe conventional GaN microdisk laser provides poor overlap between the whispering gallery modes (WGM) and the multi-quantum well (MQW) gain region. The thin-film microdisk structure was proposed to overcome this shortcoming\, but the absorptive nature of the metallic bonding layer cum mirror compromises optical confinement. In this work\, a dielectric distributed Bragg reflector (DBR) is integrated with the metallic mirror to form an omni-directional reflector (ODR) that provides high optical reflectance across a wide range of incidence angle to promote optical confinement in the microdisk. Optical-pumped lasing with average lasing threshold power density of 46.5 W/cm2 and Q factors of 18200 (near threshold) is achieved\, representing a major advancement in GaN microdisk laser technology. \nSpeaker:\nMiss Zhongqi WANG\nDepartment of Electrical and Electronic Engineering\nThe University of Hong Kong \nBiography of the speaker:\nMiss Zhongqi WANG received her B.Eng. degree in Materials Science and Engineering at Tsinghua University and now pursuing the Ph.D. degree in the Department of Electrical and Electronic Engineering at the University of Hong Kong. She is now working on GaN based laser fabrication GaN-based microdisk fabrication and analysis of lasing characteristics. \nOrganizer:\nProf. A.H.W. CHOI
URL:https://ece.hku.hk/events/20240429-2/
LOCATION:Room CB-603\, 6/F\, Chow Yei Ching Building\, The University of Hong Kong
CATEGORIES:Seminar
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BEGIN:VEVENT
DTSTART;TZID=Asia/Hong_Kong:20240429T140000
DTEND;TZID=Asia/Hong_Kong:20240429T150000
DTSTAMP:20260513T102431
CREATED:20240411T013043Z
LAST-MODIFIED:20250114T064304Z
UID:18251-1714399200-1714402800@ece.hku.hk
SUMMARY:RPG Seminar – Learning A Low-Rank Feature Representation: Achieving Better Trade-Off between Stability and Plasticity in Continual Learning
DESCRIPTION:Speaker:\nMr. Zhenrong LIU\nDepartment of Electrical and Electronic Engineering\,\nThe University of Hong Kong \nAbstract:\nDeep neural networks require the ability to continually learn and adapt to real-world conditions. This ability\, called “continual learning\,” is essential for AI systems to evolve. Among various representative continual learning methods\, null-space-projection-based algorithms have attracted considerable research interest due to their faster training speed and lower memory requirements. These algorithms optimize network parameters in the null space of past tasks’ feature representation matrices\, ensuring stability. However\, quantitatively analyzing the balance between stability and plasticity in null-space-projection-based methods poses significant challenges\, complicating efforts to refine and improve such approaches. \nIn this seminar\, we comprehensively examine null-space-projection-based continual learning methods and uncover two essential insights. Firstly\, to maintain stability\, the rank of the feature covariance increases with the number of continual learning tasks\, leading to a reduction in the dimension of the feature covariance’s null space. Secondly\, the dimension of the feature covariance’s null space significantly influences the plasticity of continual learning. Building on these insights\, we quantitatively demonstrate the stability-plasticity relationship inherent in null-space-projection-based continual learning methods. Then\, based on the stability-plasticity relationship\, we introduce a novel training algorithm named LRFR (Low-Rank Feature Representation) to enhance plasticity without compromising stability. Specifically\, we judiciously select only a subset of neurons in each layer of the network while training individual tasks to learn the past tasks’ feature representation matrix in low-rank. This increases the null space dimension when designing network parameters for subsequent tasks\, thereby enhancing the plasticity. Using CIFAR-100 and TinyImageNet as benchmark datasets for continual learning\, the proposed approach consistently outperforms state-of-the-art methods. \nBiography of the speaker:\nMr. Zhenrong LIU received the B.E. degree in automation from Northeastern University in 2018 and the M.E. degree in information and communication engineering from the Southern University of Science and Technology in 2020. He is currently pursuing the Ph.D. degree with the Department of Electrical and Electronic Engineering\, The University of Hong Kong\, Hong Kong. \nOrganizer: Prof. Yik-Chung WU \nAll are welcome!
URL:https://ece.hku.hk/events/20240429-1/
LOCATION:Online via Zoom
CATEGORIES:Seminar
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