Research Group | Researcher | Interests |
---|---|---|
Circuits and Systems | Christos Bouganis | Machine learning, embedded systems, FPGAs, reconfigurable computing, computer vision, UAVs |
Circuits and Systems | Peter Cheung | VLSI circuits, FPGA and reconfigurable systems, hardware architecture, digital circuits and systems |
Circuits and Systems | Tim Constandinou | Low power electronics, biomedical electronics, neural microsystems, neural interfaces, neural prosthetics, implantable devices, electroeuticals, bioelectricals |
Circuits and Systems | George Constantinides | High-level synthesis, reconfigurable computing, hardware compilers, and computer arithmetic |
Circuits and Systems | Pantelis Georgiou | CMOS microsystems, CMOS integrated sensing systems, lab-on-chip diagnostics, embedded wearable/medical devices, diabetes technology, technology for infectious disease |
Circuits and Systems | Christos Papavassiliou | Radio frequency electronics, sensor systems and memristor applications |
Circuits and Systems | Esther Rodriguez Villegas | Low power wearable technologies for healthcare |
Circuits and Systems | Chris Toumazou | Low power electronics, signal-on-chip processing, intelligent sensors for monitoring stem cell cultures |
Circuits and Systems | John Wickerson | Programming languages, hardware design, high-level synthesis, compilers, testing and verification |
Circuits and Systems | Yiren Zhao | Machine Learning, Automated Machine Learning, FPGAs, Machine Learning systems |
Communications and Signal Processing | Ayush Bhandari | Theory: Inverse Problems, Harmonic Analysis, Signal Processing
Applications: Computational Sensing and Imaging. Hardware inspired by mathematical algorithms |
Communications and Signal Processing | Bruno Clerckx | Signal processing for communications, signal processing for wireless power, multi-antenna (MIMO) communications |
Communications and Signal Processing | Wei Dai | Super-resolution in sensor networks, super-resolution WiFi imaging, and super-resolution bio-medical imaging |
Communications and Signal Processing | Pier Luigi Dragotti | Signal Processing, Computational Imaging, bio-medical image processing, dictionary learning, signal processing over networks (e.g., social networks) |
Communications and Signal Processing | Kin Leung | Communication and network protocols, wireless networks and communications, cross-layer protocol designs, sensor and ad-hoc networks, cloud and distributed computing, network performance analysis and optimisation |
Communications and Signal Processing | Geoffrey Li | Fundamental and practical issues in intelligent signal processing and communications, including but not limited to accretionary learning and meta-learning for wireless communications, deep learning for physical layer processing in communications, intelligent wireless resource allocation, federated learning and communications. |
Communications and Signal Processing | Cong Ling | Post-quantum cryptography, coding and information theory, wireless communications |
Communications and Signal Processing | Danilo Mandic | Statistical signal processing, wearable sensing, in-ear EEG, in-ear vital sign monitoring, human stress, computational sleep scoring, machine learning, adaptive signal processing, Big Data, recurrent neural networks, Deep Learning, |
Communications and Signal Processing | Thanassis Manikas | Array Signal Processing, Arrayed Wireless Communications, Localisation, Tracking, MIMO Radar, Uncertainties and Array Callibration |
Communications and Signal Processing | Patrick Naylor | Multichannel acoustic signal processing; microphone array processing; robot audition; hearing aids, speech dereverberation |
Communications and Signal Processing | Tania Stakhaki | Signal and Image Processing and Computer Vision. |
Communications and Signal Processing | Stefan Vlaski | Optimisation and machine learning, adaptive and multi-agent systems, distributed learning and intelligence, statistical signal processing, network science. |
Control and Power | David Angeli | Economic model predictive control, stability of non linear systems, chemical reaction networks theory, control solutions for smart grids |
Control and Power | Alessandro Astolfi | Nonlinear control; robust and adaptive control; optimal control and game theory; fault detection and isolation; industrial control systems; systems biology; control applications |
Control and Power | Simos Evangelou | Control applications in automotive systems, electric and hybrid electric vehicle control, hybrid electric vehicle energy management |
Control and Power | Imad Jaimoukha | Robust model predictive control, fault detection and isolation, fault tolerant control design, model reduction for large scale systems |
Control and Power | Thomas Parisini | Fault diagnosis and fault-tolerant control, large-scale distributed systems, cyber-secure large-scale control systems |
Control and Power | Eric Kerrigan | Optimization-based control of computing systems, predictive control |
Control and Power | Giordano Scarciotti | Control theory, control engineering, control systems, automation, nonlinear systems, dynamical systems, stochastic systems, model reduction, uncertain systems, uncertainties, optimal control, set-valued |
Control and Power | Goran Strbac | Multi-agent grid systems |
Control and Power | Balarko Chaudhuri | Power system dynamics and stability, grid integration of renewable energy, wide-area control through HVDC/FACTS, demand response |
Control and Power | Tim Green | Power electronics, Smart Grids |
Control and Power | Adria Junyent-Ferre | VSC-HVDC transmission, power electronics for low voltage dc distribution, modular multilevel converters, control for integration of power electronic converters |
Control and Power | Paul Mitcheson | Energy harvesting systems, wireless power transfer and power electronics |
Control and Power | Bikash Pal | Power System Controls, Big Data in Energy Networks, Offshore HVDC systems |
Control and Power | Fei Teng | Power system operation and planning, energy storage, optimisation of dynamic systems, electricity market |
Control and Power | Elina Spyrou | Decision and Risk Analysis for Power Systems, Power Systems Operations and Planning, Electrcity Markets, Socio-economic engineering modeling for power systems |
Intelligent Systems and Networks | Javier Barria | Communication networks, sensor networks, monitoring |
Intelligent Systems and Networks | Yiannis Demiris | Assistive robotics, machine learning, in-vehicle intelligent systems. |
Intelligent Systems and Networks | Dan Goodman | Models of neural computation (particularly in the auditory system), methods for neural simulation and data analysis |
Intelligent Systems and Networks | Ad Spiers | Robotic Grasping and Manipulation (including hardware design), Human Motion Measurement and Analysis, Haptic Sensing, Haptic Interfaces, Upper Limb Prosthetics and Machine Learning |
Intelligent Systems and Networks | Deniz Gunduz | Privacy and security for cyber-physical systems; Information theory; Machine learning for communications; Wireless communications |
Intelligent Systems and Networks | Krystian Mikolajczyk | Deep Learning for Computer Vision and Natural Language Processing |
Intelligent Systems and Networks | Jeremy Pitt | Human-network interaction (in particular the use of Affective Computing in this context), multi-agent systems (specifically norm-governed and sociocognitive agent societies), and ad hoc networks (including self-organisation and Quality-of-Service (QoS) provisioning). |
Intelligent Systems and Networks | Seyed Moosavi Dezfooli | Robotic Grasping and Manipulation (including hardware design), Human Motion Measurement and Analysis, Haptic Sensing, Haptic Interfaces, Upper Limb Prosthetics and Machine Learning |
Intelligent Systems and Networks | Chen Qin | Machine Learning, Deep Learning, Computer Vision, Medical Image Computing, Medical Image Analysis, Medical Imaging. |
Intelligent Systems and Networks | Sen Wang | Autonomous robotics, field robotics, robot perception and navigation, robot/computer vision, robot/machine learning, Simultaneous Localisation and Mapping (SLAM), smart mobility |
Intelligent Systems and Networks | Sonali Parbhoo |
Sequential decision-making, reasoning about uncertainties, building interpretable machine learning systems with good guarantees, causal inference, healthcare and medicine |
Optical and Semiconductor Devices | Zahid Durrani | Beyond CMOS' single-electron and quantum dot devices in silicon, nanoscale materials for efficient thermoelectrical devices, electronic properities of semiconductor nanostructures |
Optical and Semiconductor Devices | Kristel Fobelets | Material characterization, device design, micro- and nano- fabrication and electrical characterization |
Optical and Semiconductor Devices | Andrew Holmes | Micro-power generation by energy harvesting, power conditioning for energy harvesters, tribology of micro-scale mechanical systems, novel microassembly techniques, and laser processing for MEMS and electronics manufacture. |
Optical and Semiconductor Devices | Stepan Lucyszyn | Microwave, millimetre-wave, Terahertz (THz), Infrared, 3D printing, Additive manufacturing |
Optical and Semiconductor Devices | Tom Pike | Space microinstruments |
Optical and Semiconductor Devices | Oleksiy Sydoruk | Terahertz, plasmonics, metamaterials, electromagnetics, microwaves, optics |
Optical and Semiconductor Devices | Richard Syms | Microtechnology, nanotechnology, MEMS, sensors, metamaterials, magnetic resonance imaging |
Optical and Semiconductor Devices | Eric Yeatman | Wireless embedded sensors and sensor networks |
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