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  • Shielded Enclosure Metrics

    Room BA2185, 40 St. George Street, Toronto, ON M5S 2E4

    Tuesday, May 15th at 4:00 p.m., Prof. Andy Marvin, IEEE Life Fellow and Fellow of Royal Academy of Engineering, will be presenting “Shielded Enclosure Metrics”. Day & Time: Tuesday, May 15th, 2018 4:00 p.m. ‐ 5:00 p.m. Speaker: Prof. Andy Marvin IEEE Life Fellow, Fellow of Royal Academy of Engineering Professor Emeritus, Department of Electronic Engineering, University of York, York, UK. Location: Room BA2185, Bahen Center of Information Technology 40 St. George Street, Toronto, ON M5S 2E4 Contact: gelefth@ece.utoronto.ca Organizer: IEEE Toronto Electromagnetics & Radiation Chapter Abstract: The lecture describes the author’s research over the past decade investigating better ways of defining and assessing the shielding performance of equipment enclosures. The definition of enclosure Shielding Effectiveness and its limitations are reviewed. Then recent research on the use of surrogate contents to replicate real electronic enclosure contents is described leading to alternative definitions of enclosure shielding performance. Latterly, the work has concentrated on shielding of equipment enclosures in the microwave frequency range. Measurement techniques exploiting the reverberant nature of the enclosures are described. The work has contributed to the recently released IEEE Std 299.1 on the measurement of equipment enclosure shielding. The HUAWEI Corporation has sponsored the research since 2014. Biography: Andy Marvin is Professor Emeritus in the University of York’s Department of Electronic Engineering. He received his BEng, MEng and PhD degrees in Electrical and Electronic Engineering from the University of Sheffield between 1972 and 1979. From 1977 to 1979 he was with the British Aircraft Corporation at Filton, Bristol, UK working on antenna design and EMC. He was appointed to a Lectureship in Electronics at the University of York in the UK in 1979 and promoted to Professor of Applied Electromagnetics in 1995. He retired in December 2017 and was appointed as Professor Emeritus in February 2018. He was appointed as Technical Director of York EMC Services at its founding in 1995. He resigned his directorship when the company was acquired by Eurofins in June 2017. He is a Fellow of the Royal Academy of Engineering and an IEEE Life Fellow. He was Vice-Chairman of the IEEE Std-299 Working Group on Shielding Effectiveness Measurement, and is currently Vice-Chairman of the IEEE EMC Society Standards Advisory and Co-ordination Committee. From 1994 to 2015 he was an Associate Editor of IEEE Transactions on EMC. He was a member of the UK National Measurement System Advisory Panels on Innovation Research and Development and Materials and Modelling from 2008 to 2015. He has contributed lectures on Antennas and on Shielding to the IEEE EMCS Global University and Chaired its Faculty in 2010. His main research interests are EMC measurement and modelling techniques, EMC antennas and electromagnetic shielding measurement and modelling. To date, starting in 1976, he is author over 300 papers. In 1992, he and Dr Stuart Porter invented the Bilog EMC measurement antenna. He is a founder member of the International Steering Committee of EMC Europe conferences, Conference Chair of EMC Europe 2011 (York) and Chair of the EMC Europe International Steering Committee for 2015 – 2018. He was President of the York Society of Engineers (2014/16) and is Chief Flying Instructor at the York Gliding Centre.

  • Practical Power Flow Controller Brings Benefits of Power Electronics to the Grid

    Room BA4287, 40 St George St., Toronto, Ontario M5S 2E4

    Friday, May 18th at 3:00 p.m., Kalyan Sen, Fulbright Scholar and Chief Technology Officer of Sen Engineering Solutions Inc., will be presenting “Practical Power Flow Controller Brings Benefits of Power Electronics to the Grid”. Day & Time: Friday, May 18, 2018 3:00 p.m. ‐ 4:00 p.m. Speaker: Kalyan Sen Chief Technology Officer of Sen Engineering Solutions Inc. Fulbright Scholar Senior Member of IEEE Location: Room BA4287, Bahen Center of Information Technology University of Toronto 40 St George St., Toronto Ontario M5S 2E4 Contact: Sanaz Kanani Organizer: IEEE Toronto Industry Applications & Power Electronics Society Join Chapter RVSP: https://events.vtools.ieee.org/m/169041 Abstract: Power flow control techniques have been practiced, from using inductors, capacitors, transformers and load tap changers in the earlier days of electrical engineering to power electronics-based solutions in recent years. Even though the costs and complexities of the available solutions vary widely, the basic underlying theory of power flow control is still the same as it always has been. The question is which solution one should employ. The answer depends on knowing what the true need is. The power industry’s pressing need for the most economical ways to transfer bulk power along a desired path may be met by building new transmission lines, which is a long and costly process. Alternately, it may be quicker and cheaper to utilize the existing transmission lines more efficiently. The key is to identify the underutilized transmission lines and harness their dormant capacity to increase the power flows to the lines’ thermal limits. Since the commissioning of the first commercial power electronics-based Flexible Alternating Current Transmission Systems (FACTS) controller two decades ago, a great deal has been learned about the true needs of a utility for its everyday use and they are high reliability, high efficiency, low installation and operating costs, component non-obsolescence, fast enough response for utility applications, high power density, interoperability, and easy relocation to adapt to changing power system’s needs while providing the optimal power flow control capability. This was the motivation to develop a SMART Power Flow Controller (SPFC) that enhances the controllability in an electric power transmission system by using functional requirements and cost-effective solutions. The presentation is designed to provide the basic principles of power flow control theory, an overview of the most commonly used power flow controllers, and future trends. The presentation will be of particular interest to all utility power engineering professionals. The required background is an equivalent of an Electrical Engineering degree with familiarity in power engineering terminology. The audience will hear from an expert who actually designed and commissioned a number of power electronics-based FACTS controllers since its inception in the 1990s. Biography: Kalyan Sen, a newly selected Fulbright Scholar, is the Chief Technology Officer of Sen Engineering Solutions, Inc. that specializes in developing SMART power flow controllers—a functional requirements-based and cost-effective solution. He spent 30 years in academia and industry and became a Westinghouse Fellow Engineer. He was a key member of the Flexible Alternating Current Transmission Systems (FACTS) development team at the Westinghouse Science & Technology Center in Pittsburgh. He contributed in all aspects (conception, simulation, design, and commissioning) of FACTS projects at Westinghouse. He conceived some of the basic concepts in FACTS technology. He has authored or coauthored more than 25 peer-reviewed publications, 8 issued patents, a book and 4 book chapters in the areas of FACTS and power electronics. He is the coauthor of the book titled, Introduction to FACTS Controllers: Theory, Modeling, and Applications, IEEE Press and John Wiley & Sons, Inc. 2009, which is also published in Chinese and Indian paperback editions. He is the co-inventor of Sen Transformer. He received BEE, MSEE, and PhD degrees, all in Electrical Engineering, from Jadavpur University, India, Tuskegee University, USA, and Worcester Polytechnic Institute, USA, respectively. He also received an MBA from Robert Morris University, USA. He is a licensed Professional Engineer in the Commonwealth of Pennsylvania. He is a Distinguished Toastmaster who led District 13 of Toastmasters International as its Governor to be the 10th-ranking District in the world in 2007-8. Kalyan, a Senior Member of IEEE, has served the organization in many positions. Under his leadership, IEEE Pittsburgh Section and its three chapters (PES, IAS and PELS) received Best Section and Chapter Awards. His other past positions included Editor of the IEEE Transactions on Power Delivery (2002 – 2007), Technical Program Chair of the 2008 PES General Meeting in Pittsburgh, Chapters and Sections Activities Track Chair of the 2008 IEEE Sections Congress in Quebec City, Canada, PES R2 Representative (2010 and 2011) and Member of the IEEE Center for Leadership Excellence (CLE) Committee (2013, 2014). He has been serving as an IEEE PES Distinguished Lecturer since 2002. In that capacity, he has given presentations on power flow control technology more than 100 times in 15 countries. He is an inaugural class (2013) graduate of the IEEE CLE Volunteer Leadership Training (VOLT) program. Kalyan is the recepient of the IEEE Pittsburgh Section PES Outstanding Engineer Award (2004) and Outstanding Volunteer Service Award for reviving the local Chapters of PES and IAS from inactivity to world-class performance (2004). He has been serving as the Special Events Coordinator of the IEEE Pittsburgh Section for the last decade. He is the Region 1-3 & 7 Coordinator of Power Electronics Society.

  • Introduction To Robotics and Automation

    Welcome to IEEE Introduction to Robotics and Automation. This course develops students' skills and self-confidence in common automation practices. The student will learn the parts of a robot, how they work together and the theory and code used to control them. Date & Time: Monday May 28th, 2018 2:30 p.m. Location: Humber North Campus, J Building Organizers: IEEE Toronto WIE, IEEE Toronto Robotics Chapter, IEEE Humber Student Affinity Group For information, please contact: maryam.davoudpour@ieee.org

  • RF in Medicine: Current Status and Challenges of Antennas and Wireless Power

    Room Number: BA 1180 Bahen Centre for Information Technology 40 St George St, Toronto, ON M5S 2E4

    Thursday, May 31st at 4:00 p.m., Dr Yongxin Guo, National University of Singapore, Singapore, will be presenting a distinguished lecture: “RF in Medicine: Current Status and Challenges of Antennas and Wireless Power”. Day & Time: Thursday, May 31, 2018 4:00 p.m. ‐ 5:00 p.m. Speaker: Dr Yongxin Guo National University of Singapore, Singapore Location: Room Number: BA 1180 Bahen Centre for Information Technology 40 St George St, Toronto, ON M5S 2E4 Contact: George V. Eleftheriades Organizer: IEEE Toronto Electromagnetics & Radiation Chapter Abstract: Wireless power and data telemetry technologies for biomedical and healthcare applications have received a lot of attention recently. Numerous applications in medical diagnostics and therapeutics ranging from cardiac pacemakers to emerging devices in visual prosthesis, brain computer interfaces and body area networks have spurred electronic engineers to propose new wireless medical devices. In the meantime, the ageing population poses many challenges to healthcare systems, especially on chronic illness management. In this talk, I would mainly cover our recent research progress on wearable/implantable antennas and wireless power for biomedical applications. A few related ongoing biomedical projects for on-body and in-body applications will be addressed. In addition, I would also briefly introduce my other related research activities. Biography: Yong-Xin Guo received his Ph.D. degree from City University of Hong Kong in 2001. From September 2001 to January 2009, he was with the Institute for Infocomm Research, Singapore, as a Research Scientist. He joined the Department of Electrical and Computer Engineering, National University of Singapore (NUS), as an Assistant Professor in February 2009 and was promoted to a tenured Associate Professor in Jan 2013. He has authored or co-authored 206 international journal papers and ~200 international conference papers. Thus far, his publications have been cited more than 6200 times and the H-index is 44 (source: Google Scholar). He holds 8 granted/filed Patents in U.S. or China. His current research interests include antennas for wireless communications and biomedical applications, wireless power for biomedical and IoTs, and MMIC modelling and design. He has graduated 12 PhD students at NUS. Dr Guo was the General Chair/Co-Chair for AWPT 2017, ACES-China 2017, IEEE IMWS-AMP 2015 and IEEE IMWS-Bio 2013. He served as a Technical Program Committee (TPC) Co-Chair for IEEE IMWS-AMP 2017 and RFIT2009. He is serving as Associate Editors for IEEE Journal of Electromagnetics, RF and Microwave in Medicine and Biology, IEEE Antennas and Wireless Propagation Letters, and Electronics Letters. He was a recipient of the Young Investigator Award 2009, National University of Singapore. He received 2013 Raj Mittra Travel Grant Senior Researcher Award. He is an IEEE Fellow.

  • Big Data Based Recommendation Approaches for Healthcare

    Room GB405, University of Toronto (Galbraith Building), 35 St George St., Toronto Ontario M5S 1A4

    Thursday, May 31st at 6:00 p.m., Samee U. Khan, Associate Professor of Electrical and Computer Engineering at the North Dakota State University, will be presenting “Big Data Based Recommendation Approaches for Healthcare”. Day & Time: Thursday, May 31, 2018 6:00 p.m. ‐ 9:00 p.m. Speaker: Samee U. Khan Department of Electrical and Computer Engineering North Dakota State University Location: Room GB405, University of Toronto (Galbraith Building) 35 St George St., Toronto Ontario M5S 1A4 Contact: Dennis Cecic Organizer: IEEE Toronto Computer Society RVSP: https://events.vtools.ieee.org/m/162924 Fees: IEEE Members: Free Non-Member (Professional): $10 + 13% HST Abstract: Recommender systems have attained widespread acceptance and have attracted the increased attention by the masses for over a decade. Recommender systems alleviate the complexities of products and services selection tasks and are meant to overcome the issuesof information overload. Just like the recommender systems’ prospects in e-commerce and several other business domains,recommender systems have also been developed to offer recommendations about healthcare services and products. Considering the high volumes and dimensionality of healthcare data, utilization of efficient techniques to manage the big data is inevitable. In this talk, we describe the need and rationale for using the big data enabled techniques for healthcare data. As case studies, we will detail our work on developing recommendation systems for: (a) health insurance products recommendation, (b) health expert recommendation from social media, (c) identification of influential doctors from Twitter, and (d) disease risk assessment services. During the discussion on the cases studies, we will discuss the following issues that are particular to the recommender systems: (a) cold start, (b) long-tail problem, and (c) scalability. Biography: Samee U. Khan received a BS degree in 1999 from Ghulam Ishaq Khan Institute of Engineering Sciences and Technology, Topi, Pakistan, and a PhD in 2007 from the University of Texas, Arlington, TX, USA. Currently, he is Associate Professor of Electrical and Computer Engineering at the North Dakota State University, Fargo, ND, USA. Prof. Khan’s research interests include optimization, robustness, and security of systems. His work hasappeared in over 300 publications. He is on the editorial boards of leading journals, such as IEEE Access, IEEE Communications Surveys and Tutorials, and IEEE IT Pro. He is an ACM Distinguished Speaker, an IEEE Distinguished Lecturer, a Fellow of the Institution of Engineering and Technology (IET, formerly IEE), and a Fellow of the British Computer Society (BCS).

  • Introduction To Robotics Class 2: Practical Introduction to Robot Subsystems

    Humber College North Campus, J Building

    Students will learn the basic robot building blocks through hands on examples. By the end of the lesson students will precisely control a motor through Arduino code. The flow of information and signals will be examined. Students should read online tutorials on: 1. How to control a servo motor via Arduino 2. How a rotary encoder sensor works and how to use them via Arduino. Date & Time: Monday June 4th, 2018 3:30 p.m. Location: Humber North Campus, J Building Organizers: IEEE Toronto WIE, IEEE Toronto Robotics Chapter, IEEE Humber Student Affinity Group For information, please contact: Dr Maryam Davoudpour

  • Dr. Prabha Kundur’s Seminar on Sustainable Electric Power Systems in the 21st Century

    Room 1105, Sanford Fleming building, 10 King’s College Rd, Toronto, Ontario M5S 3G8

    Wednesday, June 6th at 6:00 p.m., Dr. Prabha Kundur, President of Kundur Power Systems Solutions Inc., will be presenting a seminar on “Sustainable Electric Power Systems in the 21st Century”. Day & Time: Wednesday, June 6, 2018 6:00 p.m. ‐ 8:00 p.m. Speaker: Dr. Prabha Kundur President of Kundur Power Systems Solutions Inc. Location: 10 King’s College Rd Toronto, Ontario Canada M5S 3G8 Building: Sanford Fleming building Room Number: Room 1105 Contact: Omid Alizadeh Organizer: Power & Energy Chapter, University of Toronto Student Branch Register: https://events.vtools.ieee.org/m/172987 Abstract: IEEE Toronto is honoured to have Dr. Prabha S. Kundur give a presentation on Sustainable Electric Power Systems in the 21st Century: Requirements, Challenges and the Role of Intelligent Systems Technologies, on Wednesday, June 6th, 6:00 pm-8:00 pm, Room 1105 at Sanford Fleming building, University of Toronto. Sustainability of electric power systems requires balancing the business across three areas: economic, social and environmental. This will have a profound impact on how power systems are planned, built and operated in the future. In the evolving electricity supply industry environment, the challenges are to produce, transmit, and use energy in an environmentally friendly manner, to reduce costs by improving operating efficiency and business practices, and enhance the reliability and quality of power supply. In particular, there will be increased focus on improving the security and reliability of power systems while addressing environmental concerns, such as greenhouse gas emissions and global warming issues. There will also be greater emphasis on “smart” use of energy. Research, development and application of intelligent systems technologies will play a major role in shaping the future directions of power systems in this regard. This presentation will describe these changes affecting the electric power industry and highlight new technologies that will influence the changes. Light refreshments will be provided. Biography: Prabha Kundur holds a Ph.D. in Electrical Engineering from the University of Toronto and has over 40 years of experience in the electric power industry. He is currently the President of Kundur Power system Solutions Inc., Toronto, Ontario. He served as the President and CEO of Powertech Labs Inc., the research and technology subsidiary of BC Hydro, from 1994 to 2006. Prior to joining Powertech, he worked at Ontario Hydro for nearly 25 years and held senior positions involving power system planning and design. He has also served as Adjunct Professor at the University of Toronto from 1979 to 2017 and at the University of British Columbia from1994 to 2006. He is the author of the book Power System Stability and Control (McGraw-Hill, 1994), which is a standard modern reference for the subject. He has performed extensive international consulting related to power system planning and design, and has delivered advanced level technical courses for utilities, manufacturers and universities around the world. Dr. Kundur has a long record of service and leadership in the IEEE. He has chaired numerous committees and working groups of the IEEE Power & Energy Society and was elected a Fellow of the IEEE in 1985. He served as the Chair of the IEEE Power System Dynamic Performance Committee from 2001 to 2003. From 2004 to 2010, he served as a member of the IEEE PES Executive Committee and as the PES Vice-President for Education. He is the recipient of several IEEE awards, including the 1997 IEEE Nikola Tesla Award, 2005 IEEE PES Charles Concordia Power System Engineering Award, and the 2010 IEEE Medal in Power Engineering. Dr. Kundur was elected as a Fellow of the Canadian Academy of Engineering in 2003 and as a Foreign Member of the US National Academy of Engineering in 2011. He has been awarded two honorary degrees: Doctor Honoris Causa by the University Politechnica of Bucharest, Romania in 2003, and Doctor of Engineering, Honoris Causa by the University of Waterloo, Canada in 2004.

  • Introduction to Robotics Class 3: Introduction to Encoders and Feedback

    Humber North Campus, J Building

    Students will learn the basic robot building blocks through hands on examples. By the end of the lesson students will precisely control a motor through Arduino code. The flow of information and signals will be examined. Students should read online tutorials on: 1. How to control a servo motor via Arduino 2. How a rotary encoder sensor works and how to use them via Arduino. Date & Time: Monday June 11th, 2018 3:30 p.m. Organizers: IEEE Toronto WIE, IEEE Toronto Robotics Chapter, IEEE Humber Student Affinity Group Location: Humber North Campus, J Building For information, please contact: Dr. Maryam Davoudpour

  • Introduction to Microcontrollers

    Humber North Campus, J Building

    The workshop is to introduce students to Ardunio microcontroller programming, a way to get the knowledge about microcontrollers. This involves hardware component and software components. Date & Time: Wednesday June 13th, 2018 2:30 p.m. Organizers: IEEE Toronto WIE, IEEE Toronto Robotics Chapter, IEEE Humber Student Affinity Group Location: Humber North Campus, J Building For information, please contact: Dr. Maryam Davoudpour

  • Advanced Sensor Concepts, Exploitation, Signal Processing and Systems Engineering

    BA 1200 (Bahen Center), University of Toronto, 40 St. George Street, Toronto, Canada M5S 2E4

    Thursday, June 14th at 11:00 a.m., IEEE AESS and SC Distinguished Lecturer Michael C. Wicks, Ph.D., will be presenting “Advanced Sensor Concepts, Exploitation, Signal Processing and Systems Engineering”. Day & Time: Thursday, June 14, 2018 11:00 a.m. ‐ 12:30 p.m. Speaker: Michael C. Wicks, Ph.D. DIEEE AESS and SC Distinguished Lecturer Endowed Chair and Professor of Electrical Engineering University of Dayton, Dayton OH 45469 USA Host: Dr. Raviraj Adve Electrical and Computer Engineering University of Toronto Location: BA 1200 (Bahen Center) University of Toronto 40 St. George Street, Toronto Canada M5S 2E4 Contact: Dr. Mehrdad Tirandazian Organizer: Aerospace and Systems, Man and Cybernetics IEEE Toronto Section Abstract: In this talk, a number of concepts and technologies forming the foundation for the exploitation of sensors from a Big Data perspective are presented. A signal processing and systems engineering approach is discussed, and heuristic techniques are presented as being critical to leap ahead advances in sensor exploitation. While radar centric in nature, the foundation for a more general sensors approach to Big Data exploitation is discussed. Archival data is considered to be essential to the optimal exploitation of sensor phenomena, as humans are unable to fully observe or even comprehend the volumes of rapidly changing data available today. Topics as diverse as radio frequency tomography for below ground imaging, millimeter wave sensing for exquisite feature extraction, target resonance and dynamic imaging of targets obscured by clutter and cover, as well as space-time adaptive processing are presented. The integrating theme of Big Data exploitation in the Internet of Radar is discussed within the context of these enabling sensor technologies as is the “Velocity of Sensor Data.” Biography: Dr. Wicks is a leading research scientist in remote sensing, signal processing and systems engineering, with a current focus on distributed sensing and radio frequency technology. He has pursued a variety of research interests in his career, including: cognitive radar, radio frequency tomographic radar, counter explosive sensor technology, cognitive radar and radio, space object sensing, missile defense, deep earth probing radar, multi-dimensional adaptive processing for airborne and space based radar, ultra-wideband radio and radar, passive and active multi-static systems, and concealed weapons / contraband detection and carrier identification. He pioneered the concept of knowledge-based signal processing and waveform diversity, and has led national and international research teams on the design, development and fielding of novel algorithms, architectures and systems for remote sensing from space, air and surface platforms. Sponsored research is currently focused on advanced algorithms for the detection and track processing of airborne targets obscured by wind farm clutter, as is research on spatially and spectrally diverse sensing for the automatic detection, identification, and feature exploitation of objects under cover, e.g. below ground, inside structures, or under foliage. Space object identification is also a topic of current research. The design and analysis of distributed radar for exoatmospheric surveillance is complimented by analysis and experiments for side-looking imaging and surface moving target indication radar. Recent research has resulted in the development of a mobile waveform diverse distributed MIMO radar system and a radio frequency tomography test bed at the University of Dayton. Research on integrated close-in sensing and long range wide area surveillance radar is addressing feature extraction, in addition to detection processing and track formation. Algorithms and architectures for the numerical and symbolic (heuristic) processing of sensor data is a primary focus of this research.

  • Introduction to Robotics Class 4

    Humber North Campus, J Building

    Students will learn the basic robot building blocks through hands on examples. By the end of the lesson students will precisely control a motor through Arduino code. The flow of information and signals will be examined. Students should read online tutorials on: 1. How to control a servo motor via Arduino 2. How a rotary encoder sensor works and how to use them via Arduino. Date & Time: Monday June 18th, 2018 3:30 p.m. Organizers: IEEE Toronto WIE, IEEE Toronto Robotics Chapter, IEEE Humber Student Affinity Group Location: Humber North Campus, J Building For information, please contact: Dr. Maryam Davoudpour