国外大学的控制工程简介.docx

此文档收集于网络，如有侵权，请联系网站删除1:女王大学（加拿大）Faculty of Engineering and Applied Science Mechanical and Materials EngineeringResearch Activities by Faculty:There are a wide variety of research interests in the Department of Mechanical and Materials Engineering, broadly grouped in the four areas ofBioMechanical and Materials Engineering,Energy and Fluid Systems,Manufacturing and Dynamic SystemsandMaterials Engineering. The nature of particular research projects in these areas ranges from applied research and development to the acquisition of fundamental scientific knowledge. Separate laboratories, each supplied with special purpose instruments and apparatus, support the four areas. Information on facilities in the first three areas can be found at theResearch by Laboratorysite. Funding comes from major granting agencies such as the Natural Sciences and Engineering Research Council (NSERC) and the Canadian Institutes of Health Research (CIHR), and contract work has been undertaken with, for example, ALCAN, CAMM, CANMET, DND, IDRC, MIROC, MMO and Transport Canada.Biomechanical Engineering J. Tim Bryanto Orthotic Deviceso Knee Mechanicso Ergonomics Kevin Deluzioo Biomechanics of Human Motiono Orthopaedic Biomechanicso BiomedicalData AnalysisTechniques Genevive A. Dumaso Spine Mechanicso Biomechanics Randy Ellis(cross-appointment from Computing and Information Science)o Computer-Enhanced Surgeryo 3D Image Registrationo Biomechanics Qingguo Lio Biomechanical Systems Designo Bio-Mechatronicso Roboticso Locomotion Steve Waldman(Adjunct)o Tissue Engineeringo Perfusion Bioreactorso BiomechanicsEnergy and Fluid Systems A. Michael Birko Gas Turbineso Boiling Liquid Expanding Vapour Explosionso Fluid Mechanics/Thermodynamics/Heat Transfer Gaby Ciccarelli Explosion Physics and Prevention Pulse-Detonation Engines Combustion Stephen J. Harrisono Solar Energyo Energy Conservationo Thermal Calorimetry and Measurement Techniques Miodrag Darko Matovico Computational Fluid Dynamicso Fluid Dynamicso Combustion Patrick H. Oosthuizen Convective Heat Transfer Experimental Methods Heat Transfer/Thermodynamic Jon G. Pharoaho Membrane Separation / Water Purificationo Application of CFD to designo Fuel Cell Transport Ugo Piomellio Large eddy and direct simulationso Turbulence simulations and modellingo Transition modelling, Computational fluid dynamics, Geophysical flows Andrew Pollardo Fluid Dynamics & Turbulenceo Computational Fluid Dynamicso Experimental Fluid Dynamics Richard W. Sellenso Optical Measurement Techniqueso Fluid Mechanicso BiomechanicsManufacturing and Dynamic Systems Ronald J. Andersono Vehicle Dynamicso Multibody Dynamics Laeeque Daneshmend(joint appointment with Mining Engineering)o Reliability Engineeringo Maintenance Managemento Robotics for Unstructured Environments Jacob Jeswieto Metal Formingo Single Point Incremental Formingo Friction in Metal Formingo Energy and Carbon Emissions in Manufacturingo Powder Metallurgy Il-Yong Kimo Multidisciplinary Design Optimizationo CAD/CAM/CAEo Mechanical Systems Design Using FEM (Finite Element Method) Yongjun Laio Micro Electro-Mechanical Systems (MEMS)o Bio-MEMS bio-manipulations, biomechanics testing, biosensors, etco Vehicle navigation and laser micromachining for rapid MEMS prototyping Chris K. Mechefskeo Vibration Based Monitoring of Machineso Manufacturing System Dynamic Analysiso Biomedical/Biomechanical System Analysis Leila Notasho Manipulator Kinematicso Fault Tolerant Operationo Mechatronics and Robotics David S. Strong Design Engineering Education Plug-in Hybrid Vehicles Brian W. Surgenor Intelligent Automation Automatic Control Systems Mechatronics Engineering Gene Zako Rapid Prototypingo Plastic Compositeso Injection MoldingMaterials Engineering J. Doug Boydo Steel Physical Metallurgyo Metal Matrix Composites Brad. Diako Microstructural Phenomena in Metals and Alloyso Materials for Transportation Applicationso X-ray/Electron Scattering Techniques Mark. Daymondo Micromechanisms of Deformation in Metals, Ceramics and Compositeso Advanced Neutron and X-ray Scattering Techniqueso Engineering Mechanics, Components and Processes Richard. A. Holto Nuclear materials/zirconium alloyso Crystallographic texture/anisotropyo Modeling materials behaviour Vlad Krstico Ceramics Processing and Propertieso Ceramic Matrix Compositeso Thin Films A. Keith Pilkeyo Material Failure Mechanismso Metallographic Image Analysiso Metal Forming Morteza Shirkhanzadeho Corrosion and Electrochemistryo Electrochemical Processing of Biomaterialso Bioactive and Superplastic Ceramic Coatings Yongwen Yaoo Characterization of Micorstructureso Radiation induced defects in nuclear materials2曼彻斯特大学(英国)：http:/www.eee.manchester.ac.uk/our-research/research-themes/autonomoussystems/School of Electrical and Electronic EngineeringAutonomous SystemsTraditional methods of remotely controllingsystems by manual operation become inadequate as the systems and thetasks required increase in complexity, particularly in changing andchallenging environments. In recent times, the demand fortechnologies that operate with minimal human intervention has becomeacute.3维多利亚大学（加拿大）http:/www.ece.uvic.ca/researchareas.shtmlDepartment of Electrical and Computer Engineering at the University of VictoriaI am pleased to welcome you to theDepartment of Electrical and Computer Engineering at the University of Victoria. Our Department is known for its exceptional faculty and excellent students world wide. In its brief history, the Department has attracted some of the leading academics in their fields. In its academic ranks of thirty-five regular and emeritus faculty members, one can find one Fellow of the Royal Society of Canada, nine Fellows of the IEEE, five Fellows of the EIC, one Lansdowne Chair, two CRC Tier 1 Chairs, and two CRC Tier 2 Chairs.Since its establishment in 1983, our Department has indeed grown dramatically. We are offering a broad range of well established undergraduate and graduate programs of study. Our undergraduate programs include Bachelors of Engineering in Computer Engineering and in Electrical Engineering as well as the newly established Bachelor of Software Engineering jointly offered with Computer Science.Our graduate programs are tightly integrated with our research activities, and include programs at the masters and doctoral levels. We have awarded more than 120 doctoral degrees, and our graduates can be found in academic and industrial positions nationally and internationally.On behalf of my colleagues, I extend a warm welcome, and I encourage you to explore the many facets of our Department through these pages.Sincerely,Dr. Fayez GebaliProfessor and ChairResearch AreasResearch AreasBelow is a listing of research areas, click on the research area to show/hide the list of faculty members associated with each area.Communication, Signal Processing and ControlMichael Adams, Ph.D. (British Columbia)Digital signal processing; image/video/audio processing and coding; digital geometry processing; wavelets, subdivision, and filter banks; algorithms; multimedia systems; data compression; computer graphics.Panajotis Agathoklis, Dr. Sc. Tech. (Swiss Fed. Inst. of Tech.)Digital signal processing, multidimensional systems, control systems.Andreas Antoniou, Ph.D. (London)Analog and digital filter design, digital signal processing, electronic circuits, optimization methods.Alexandra Branzan Albu, Ph.D. (Bucharest)Computer vision, pattern recognition, image processing, human computer interaction.Lin Cai, Ph.D. (Waterloo)Wireless networks and mobile computing, resource and mobility management, flow and congestion control, medium access control, multimedia services, cross-layer design.Xiaodai Dong, Ph.D. (Queens)Wireless communications systems, ultra-wideband communications, multicarrier and multiple antenna communication systems, radio propagation, cooperative communications, cognitive radio.Peter F. Driessen, Ph.D. (British Columbia)Audio and video signal processing, computer music, sound recording, wireless communications, radio propagation.T. Aaron Gulliver, Ph.D. (Victoria)Wireless communications, ultra-wideband systems, wireless networks, cross-layer design, optical wireless, cognitive radio, OFDM and MIMO systems, secure communications, algebraic coding theory, information theory, cryptography and computer security, software radio, communications algorithms.R. Lynn Kirlin, Ph.D. (Utah State)Statistical signal processing: sonar, HF radar, seismic, sensor array processing; adaptive filters, parameter estimation, noise suppression; pattern recognition, clustering and classification; wavelet and time-frequency analysis, data compression, blind separation of signals and blind deconvolution, spectral design of randomized switching in dc/dc and dc/ac converters, radar.Wu-Sheng Lu, Ph.D. (Minnesota)Design and analysis of digital filters, wavelets and filter banks, DSP for telecommunications, numerical optimization and applications.Michael McGuire, Ph.D. (Toronto)Model-based and adaptive filtering, digital signal processing and wireless network control.Stephen W. Neville, Ph.D. (Victoria)Computer and network security, artificial intelligence, statistical signal processing, pattern recognition, fault detection and diagnosis, distributed systems, decision support systems.Hong-Chuan Yang, Ph.D. (Minnesota)Wireless communications and networks, diversity techniques, performance analysis, cross-layer design, and energy efficient communications.Adam Zielinski, Ph.D. (Wroclaw)Underwater acoustic systems; acoustic communications, telemetry and navigation; application of acoustics, ocean electronic instrumentation, signal acquisition and processing, electronic circuits and sensors.4斯坦福大学(美国)(/research-areas)Electrical Engineering Research AreasHardware/Software SystemsSummaryWork in this area is built upon principles and techniques involved in the design and analysis of systems implemented using hardware and software. This includes computer networks; the architecture and design of computer subsystems including processors, memory systems, input/output, and interconnect; programming systems and compilers; and large software systems including systems handling massive amounts of data, graphics and imaging systems, and distributed web services.Sub-Areas & DetailsInformation Systems and ScienceSummaryResearch in IS focuses on the development and application of mathematical models, techniques, and algorithms for information processing, broadly construed. In addition to work on the core disciplines of information theory and coding, control and optimization, signal processing, and learning and inference, IS research spans several application areas, including biomedical imaging, wireless communications and networks, multimedia communications, Internet, energy systems, transportation systems, and financial systems. Much of this research is interdisciplinary and involves faculty and students from other departments across the university.Sub-Areas & DetailsPhysical Technology and ScienceSummaryComplex electronic systems are ubiquitous (e.g., planes, cars, communication networks, cellphones). At present, there is a pressing need to improve by orders of magnitude the performance and efficiency of existing electronic systems which are the backbones of the information society. At the same time, we are seeing expanding needs in emerging areas such as distributed power networks, electric cars, biomedical devices and systems, and sensor networks.Sub-Areas & Details5：哥伦比亚大学（美国）/signal-and-information-processingElectrical EngineeringFacultyJavad LavaeiAssistant ProfessorResearch areas: Control Theory, Power Systems, Optimization Theory, Networking.Shih-Fu ChangProfessorResearch areas: Multimedia search and retrieval, image and video analysis, mobile and augmented media, large-scale high-dimensional indexing, signal processing, computer vision, and machine learning.Dan EllisAssociate ProfessorResearch areas: Audio signal processing and content analysis, with applications to speech, music, environmental sound, and bioacoustics. Statistical pattern recognition applied to audio, and techniques for analyzing large audio archives. Acoustic scene analysis, auditory modeling, and acoustic source separation.John PaisleyAssistant ProfessorResearch areas: Statistical Machine Learning, Probabilistic Models.Xiaodong WangProfessorJohn WrightAssistant Professor6: 布里斯托（英国）http:/www.bristol.ac.uk/engineering/departments/mecheng/research/Mechanical EngineeringResearch GroupsDynamics and ControlThe research group ethos involves the development of advanced analytical techniques in combination with numerical simulations and a strong element of experimental testing. The group has a variety of projects funded by the EPSRC and the European Commission, as well as projects with collaboration and funding from industry. Laboratory facilities were established in 2004 as part ofBLADE, (Bristol Laboratory For Advanced Dynamics Engineering) including state-of-the-art dynamic testing capabilities.Engineering DynamicsEngineering Dynamics research spans a wide range of activities and applications. Large structures, bridges, machines, and aircraft all have dynamical properties which need to be modelled, measured and designed for. Our research activity is focused on the dynamic behaviour of these systems - particularly those with significant nonlinearity. The group hosts the University Technology Centre with AgustaWestland, and has a range of other industrial projects. The following topics are major themes of research: Aircraft dynamics Earthquake engineering Nonlinear dynamics Modal testing Smart structures Structural integrityControl EngineeringControl Engineering research includes expertise in a wide range of topics. Recent collaborative work includes projects with the University of Bath on the energy-efficient adaptive control of servohydraulic systems, and on the adaptive control of the University of Bristol shaking-table. Current work with industry includes projects with Zwick Controllers Ltd, on the adaptive control of servohydraulic testing machines, and with BAE Systems on adaptive navigation in uncertain urban environments. Topics of research interest include: Model predictive control adaptive control distributed control unmanned aerial vehicle autonomous systems real-time dynamic substructuring aircraft stability and controlFluid DynamicsThe Fluid Dynamics research group has research expertise in a range computational and experimental fluid dynamics topics. A particular focus in recent years has been unsteady flows, and their interaction with engineering structures. Work is also been carried out on the dynamics and control of bubbling fluidised beds. The group have collaborative contracts with all major UK aerospace companies, and collaborative links with many international research institutes. Please visit the link for further information on theFluid and Aerodynamicsgroup.7谢菲尔德（英国）http:/www.sheffield.ac.uk/acse/researchDepartment of Automatic Control and Systems EngineeringOur vision is to carry out theoretical and applied research to address challenges posed by the complexity of natural and man-made systems and the demand for higher levels of autonomy and intelligence of future engineering systems.We structure our research along three strategic themes: Complexity, Intelligence and Autonomy, four cross-cutting application areas: Aerospace & Transport; Life Sciences & Healthcare; Energy & Environment, Manufacturing & Robotics and three research groups, led by senior academics and supported by post-doctoral researchers.Research GroupsThe research in ACSE is organized in three research groups, which reflect three strategic research themes.Autonomous Systems and Robotics (Autonomy Theme)This research group carries out world leading research in autonomous and robotic systems by investigating key research problems of sensing, control, decision making and system integration. Themes include: design of autonomous industrial robots, biologically inspired principles of sensing and control, self-assembling robotic systems and swarms and advanced software architectures for decision making.Visit Autonomous Systems and RoboticsComplex Systems and Signal Processing (Complexity Theme)The group is internationally renowned for its work on the identification and analysis of complex spatio-temporal systems, nonlinear signal processing, and the analysis and design of nonlinear systems in the frequency domain.Visit Complex Systems and Signal ProcessingIntelligent Systems, Decision and Control (Intelligence Theme)The group make a global impact on advances in multiobjective evolutionary optimization algorithms, intelligent health monitoring and fault diagnosis, decision support systems for biomedicine, information processing and computational data modelling.Visit Intelligent Systems, Decision and Control8. 悉尼大学（澳大利亚）.au/vsfs/AEROSPACE, MECHANICAL AND MECHATRONIC ENGINEERINGCurrent ResearchTeaching and Learning EffectivenessThe VSFS is currently used as an educational tool in the undergraduate aeronautical engineering degree at the university. The effectiveness of this part of the degree forms a significant area of research, with two major outcomes assessed.The first is the ab