Monday September 26, 2016 at 11:00 a.m. Sheldon S. Williamson, Senior Member at IEEE, will be presenting “Wireless Power Transfer Systems: Current Issues and Future Opportunities”. Speaker: Sheldon S. Williamson Associate Professor and Canada Research Chair in Electric Energy Storage Systems for Transportation Electrification Director, Smart Transportation Electrification and Energy Research (STEER) Group Advanced Storage Systems and Electric Transportation (ASSET) Laboratory UOIT – Automotive Center of Excellence (UOIT-ACE) Department of Electrical, Computer, and Software Engineering Faculty of Engineering and Applied Science University of Ontario – Institute of Technology Day & Time: Monday, September 26, 2016 11:00 a.m. – 12:00 p.m. Location: Ryerson, KHE 225 Contact: Maryam Davoudpour Organizer: WIE, Magnetics, Measurement/Instrumentation-Robotics, Computer Science Department Ryerson University Abstract: More recently, with the automotive market getting introduced to several EV models (Tesla, Leaf, Mitsubishi – for example), the need for charging them within cities, suburbs, and highways, has driven power electronics engineers towards innovative ideas to solve the future charging infrastructure problem. Plugged charging topologies have been investigated thoroughly in recent years, based on existing SAE J1772 standards for AC and DC charging, ranging from 1.5 kW to 50 kW. On the other hand, in the last five years or so, power supply and charger manufacturing companies have been seriously started looking at wireless charging as an attractive solution, to avoid physical drawbacks of wired or plugged versions of charging EVs. The high-level goals of this seminar is to focus on introducing advanced power electronics solutions for charging traction batteries and ultracapacitors using wireless technologies. Both inductive power transfer (IPT) as well as capacitive power transfer (CPT, electrostatic) techniques of wireless charging will be introduced. The major market for IPT-based wireless charging is the mass transit industry, such as electric trains, buses, and trams, in the range of 10-50 kW, while both IPT and CPT could be used for charging small utility- grade EVs (golf carts/security vehicles), in smaller sizes of 1.0 kW. Critical issues, such as IPT transfer coil design, CPT capacitor dielectric medium/transfer plate designs, and converter topologies, will be discussed. Detailed results of finite element analysis (FEA) designs for energizer and pick-up coils will be presented. Specific emphasis is placed on reducing the effect of skin effect and proximity effect for both in-motion and static charging (for varied switching frequencies and air-gap lengths). An important aspect that will also be covered is the design of charger topologies on the secondary side of the IPT or CPT system. The challenge is to come up with 1-stage power conversion techniques, including high-frequency (HF) AC/DC rectification and DC/DC charger functionalities, with conversion efficiencies of 95% or larger. This seminar will be particularly useful for engineers with entry-level and medium-level knowledge of power electronics and energy storage systems for electric transportation. Biography: Sheldon S. Williamson (S’01–M’06–SM’13) received his Bachelors of Engineering (B.E.) degree in Electrical Engineering with high distinction from University of Mumbai, India, in 1999. He received the Masters of Science (M.S.) degree in 2002, and the Doctor of Philosophy (Ph.D.) degree (with Honors) in 2006, both in Electrical Engineering, from the Illinois Institute of Technology, Chicago, IL. From June 2006 to June 2014, Dr. Williamson held a tenure-track Assistant Professor position, followed by a tenured Associate Professor position in the Department of Electrical and Computer Engineering, at Concordia University, in Montreal, Canada. Dr. Williamson currently holds an Associate Professor position in the Department of Electrical, Computer, and Software Engineering, at the University of Ontario-Institute of Technology (UOIT), in Oshawa, Ontario, Canada. Since July 2015, Dr. Williamson also holds the prestigious title of NSERC Canada Research Chair in Electric Energy Storage Systems for Transportation Electrification. Dr. Williamson’s research interests include transportation electrification, electric energy storage systems, automotive power electronics, and motor drives. Dr. Williamson is a Senior Member of the IEEE and a Distinguished Lecturer of the IEEE Vehicular Technology Society.
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October 7, 2016 at 2:00 p.m. IEEE Toronto Section Industry Relations will be hosting a tour visit to the “Centre for Urban Energy” Smart Grid Lab. Day & Time: Friday, October 7, 2016 2:00 p.m. – 3:00 p.m. Location: 147 Dalhousie Street, Toronto, ON M5B 2R2 Contact: Hugo Sanchez-Reategui The Schneider Electric Smart Grid Laboratory physically had replicated a feeder attached to one of PowerStream (https://www.powerstream.ca/), a Local Distribution Company in Ontario and added a battery solar power, and both AC and DC power loads. CUE’s researchers had designed, built, operated and analyzed the microgrid within Schneider Smart Grid Lab. For more information please read page 19 of the following attachment: http://www.ryerson.ca/content/dam/cue/pdfs/CUE_2015%20Annual%20Report_web.pdf For Registration: https://www.eventbrite.ca/e/tour-to-centre-for-urban-energy-smart-grid-lab-tickets-27548432102 This tour will provide a very good overview of the current work implemented by the CEU in terms of microgrid on a major urban infrastructure. In addition, please see the CEU’s website: http://www.ryerson.ca/cue/index.html Do not miss the opportunity to join us and visit a microgrid implemented within our IEEE Toronto Section area. The number of participants is very limited and will be closed a week before the event. |
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Monday October 17, 2016 at 11:00 a.m. Dr. Sergio A. A. Freitas, Associate Professor in the Gama Engineering College at the University of Brasilia, will be presenting “Using and Evaluating Gamification as a Strategy of Engagement in the Classroom”. Speaker: Dr. Sergio A. A. Freitas Associate Professor, Gama Engineering College, University of Brasilia Coordinator of Research, FGA Software Factory Laboratory Day & Time: Monday, October 17, 2016 11:00 a.m. – 12:00 p.m. Location: KHE 225, 340 Church Street, Ryerson Contact: Maryam Davoudpour Organizer: WIE, Magnetics, Measurement/Instrumentation-Robotics, Computer Science Department Ryerson University Abstract: The gamification of activities other than games has become one of the main goals of a new research topic. In the education area the proposal could not be different: the new generations entering the higher education has a lot of experience in the virtual information environment and games. So, nothing more natural than checking the adherence of gamification to teaching this new student profile. In this scenario, this talk presents a case study of a gamification for a discipline of an undergraduate course. The gamification space was built based on a framework that stands on basic human motivations. Finally, I present some statistical evaluations of the students’ engagement after the introduction of gamification in the classroom. Biography: Sergio A. A. Freitas is currently an Associate Professor in the Gama Engineering College (FGA) at the University of Brasilia (UnB), Brazil. He is also the coordinator of research in the FGA Software Factory Laboratory. His current research projects focus on interdisciplinary studies and applications of learning methodologies on engineering undergraduate courses, and software engineering methodologies. Prof. Freitas areas of expertise include gamification, PBL, virtual learning environments in education and training, and software engineering methodologies. Dr. Freitas has coauthored journal publications, conference articles and book chapters in the aforementioned topics, and has coordinated and participated on many projects from various funding agencies CNPq, FAP-ES, FAP-DF, Cebraspe, and some Brazilian Federal Ministries. |
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Wednesday October 19, 2016 at 10:30 a.m. Sara Jost, Registered Nurse working at Blackberry as a Global Healthcare Industry Lead, will be presenting “Blackberry’s Platform for True End-to-End Mobile Security for Healthcare”. Speaker: Sara Jost Registered Nurse Global Healthcare Industry Lead, Blackberry Day & Time: Wednesday, October 19, 2016 10:30 a.m. – 11:30 a.m. Location: Centennial College Progress Campus, Room A3-17 Contact: Maryam Davoudpour, Nicoleta Zouri Organizer: WIE, Magnetics, Measurement/Instrumentation-Robotics Abstract: Blackberry is the one platform for true end-to-end mobile security. Together with our partners, Blackberry has developed secure mobile solutions for healthcare organizations across the continuum of care. From clinics, to hospitals, to first responders, home care workers and the home, we offer tried and true solutions that maximize patient outcomes and improve the patient experience, reduce costs and are fully secure to protect PHI. 1. We have helped hospitals reduce their emergency room wait times by 50% and meet their code STEM window 100% of the time. 2. In home care, we have shown drastic reductions in missed visits and savings of more than $7,000 per home care worker per year. 3. Blackberry secure messaging has improved efficiency so much that hospitals staff have saved 2 hours per day just by eliminating the need to track down other team members. Biography: Sara Jost is a Registered Nurse working at Blackberry as a Global Healthcare Industry Lead where she leads the promotion of digital devices for use in medicine. Previously Sara worked as a Registered Nurse at Sunnybrook Hospital.
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Wednesday October 19, 2016 at 6:00 p.m. Paul Acchione, Management Consultant at Market Intelligence & Data Analysis Corporation, will be presenting “Smart Pricing for Ontario Electricity”. Speaker: Paul Acchione Management Consultant, Market Intelligence & Data Analysis Corporation Past President & Chair Of the Ontario Society of Professional Engineers (OSPE) Member of ASME, ANS, IEEE, ISA, Fellow of Canadian Academy of Engineering Day & Time: Wednesday, October 19, 2016 6:00 p.m. – 7:00 p.m. Location: BA 4287 40 St George Street, Toronto, Ontario Register: https://meetings.vtools.ieee.org/m/39746#13 Abstract: Join us in listening to Paul Acchione speak on smart pricing for Ontario electricity. Paul will discuss how Ontario’s clean electricity can be priced in a smarter way to make Ontario businesses more competitive and help them to reduce carbon dioxide emissions by displacing their fossil fuel consumption. Some of the discussion topics include: What is the Problem What Can We Do About It? What Does a Smart Pricing Plan Need to Do? OSPE’s Smart Electricity Price Plan Why Should the Smart Pricing Plan be Voluntary? Biography: Paul has a B.A.Sc. and M.Eng. degree in Mechanical Engineering from the University of Toronto. Paul is a licensed professional engineer in Ontario and is a member of ASME, ANS, IEEE and ISA and a fellow of the Canadian Academy of Engineering. Paul has over 44 years of engineering and management experience in the power generation industry. He worked for 31 years with Ontario Power Generation (OPG) and its predecessor companies. Paul was the 2013-14 President and Chair of the Ontario Society of Professional Engineers (OSPE) and is a volunteer with OSPE’s Energy Task Force. Paul is a Management Consultant at Market Intelligence & Data Analysis Corporation. |
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Thursday October 20, 2016 at 6:30 p.m. Steve Wright, Solutions Architect at Exosite Inc. and Alumni of IEEE Society, will be presenting “Exosite Pivot IoT Seminar – Executive Forum on Business Transformation Through IoT”. Speaker: Steve Wright Solutions Architect, Exosite Inc. Day & Time: Thursday, October 20, 2016 6:30 p.m. – 8:30 p.m. Location: Room L1-02 (Library & Academic Building) Centennial College, Progress Campus 941 Progress Ave Toronto, ON M1K 5E9 Canada Room Map: https://p.widencdn.net/l4raeq Campus Map: https://www.google.com/maps/place/941+Progress+Ave,+Scarborough,+ON+M1G+3T8,+Canada/@43.7851523,-79.2292043,17z/data=!3m1!4b1!4m5!3m4!1s0x89d4d0f2145b3791:0x3da1359f5640d4 7f!8m2!3d43.7851523!4d-79.2270156 RSVP Required: https://events.vtools.ieee.org/m/41285 Abstract: The internet of things (IoT) is giving rise to previously undiscovered revenue opportunities that can transform existing business models through connected devices and innovative insights. Because of this potential, many companies are racing to get involved. But what exactly is IoT and what does it mean to the future of your organization? Join us for a forum that demystifies IoT by providing a realistic understanding of what it is, what it requires, and how organizations can use it to kick-start their business transformation. Biography: Steve Wright is a Solutions Architect at Exosite, where he helps clients close the gap between a successful engineering project and a profitable connected products business. Steve excels at working with companies to define the right tool set of hardware, software, and business strategy to succeed in their IoT deployments. He started his career as a software engineer in data acquisition systems before moving into project management and sales. Steve’s experience includes turbine engine testing, semiconductor manufacture, and custom software development. He has an MS in Software Engineering from University of St. Thomas in St. Paul, MN and is an Alumni of the IEEE Society. |
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Thursday October 27, 2016 at 1:00 p.m. Prof. Sadaoki Furui, IEEE Fellow and President of Toyota Technological Institute at Chicago, will be presenting “Perspectives of Automatic Speech Recognition (ASR) Technology”. Speaker: Prof. Sadaoki Furui IEEE Fellow President of Toyota Technological Institute at Chicago Day & Time: Thursday, October 27, 2016 12:00 p.m. – 1:00 p.m. Location: TRS 1129 Ryerson University Toronto Abstract: DNNs (Deep Neural Networks) based on “deep learning” have significantly raised the automatic speech recognition (ASR) performance as of several years ago. This talk gives an overview of major DNN-based techniques successfully used in acoustic and language modeling for ASR. However, what we can do with ASR technology is still very limited, and we still have many challenges that cannot be solved simply by relying on the capability of DNNs. Data sparseness is one of the most difficult problems in constructing ASR systems, since speech is highly variable and it is too costly to construct annotated “big speech data” covering all possible variations. We need to focus on how to collect rich and effective speech databases covering a wide range of variations, active learning for automatically selecting data for annotation, cheap, fast and good-enough transcription, and efficient supervised, semi-supervised, or unsupervised training/adaptation, based on advanced machine learning techniques. We also need to extend current efforts and think deeply about and analyze how human beings are recognizing/understanding speech, and implement various knowledge sources in ASR systems using machine learning techniques to achieve innovations. This talk focuses on my personal perspectives for the future of speech recognition research. Biography: Sadaoki Furui Received the B.S., M.S., and Ph.D. degrees from the University of Tokyo, Japan in 1968, 1970, and 1978, respectively. After joining the Nippon Telegraph and Telephone Corporation (NTT) Labs in 1970, he has worked on speech analysis, speech recognition, speaker recognition, speech synthesis, speech perception, and multimodal human-computer interaction. From 1978 to 1979, he was a visiting researcher at AT&T Bell Laboratories, Murray Hill, New Jersey. He was a Research Fellow and the Director of Furui Research Laboratory at NTT Labs. He became a Professor at Tokyo Institute of Technology in 1997. He was Dean of Graduate School of Information Science and Engineering, and Director of University Library. He was given the title of Professor Emeritus and became Professor at Academy for Global Leadership in 2011. He is now serving as President of Toyota Technological Institute at Chicago (TTI-C). He has authored or coauthored around 1,000 published papers and books. He was elected a Fellow of the IEEE, the Acoustical Society of America (ASA), the Institute of Electronics, Information and Communication Engineers of Japan (IEICE) and the International Speech Communication Association (ISCA). He received the Paper Award and the Achievement Award from the IEEE SP Society, the IEICE, and the Acoustical Society of Japan (ASJ). He received the ISCA Medal for Scientific Achievement, and the IEEE James L. Flanagan Speech and Audio Processing Award. He received the NHK (Japan Broadcasting Corporation) Broadcast Cultural Award and the Okawa Prize. He also received the Achievement Award from the Minister of Science and Technology and the Minister of Education, Japan, and the Purple Ribbon Medal from Japanese Emperor. |
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All members, along with their guest, are invited to attend the IEEE Toronto Section Annual General Meeting (AGM). The AGM is an occasion to celebrate the achievements of the Toronto Section, made possible by its dedicated volunteers and members. We are pleased to announce that Sandro Perruzza, CEO of the Ontario Society of Professional Engineers will deliver the keynote address, discussing ways to strengthen the engineering profession in Ontario. Date: Saturday, October 29, 2016 Time: 6:30 pm — 10 pm Cost: Life members and their guest: $50 per person. Other members and their guest: $70 per person. Contact our section secretary, Ali Nabavi for details. Location: 21 Old Mill Rd, Toronto, ON, Canada Program: 6:30 PM: Reception and Cash bar 7:00 PM: Formal program: – Dinner – Section report by Dr. Thamir Murad, section chair – Keynote address by Sandro Perruzza, CEO of OSPE – Section awards Please notice the following: • Dress code is Elegant Casual. • Seats are limited; RSVP is mandatory. We look forward to seeing you all on October 29, 2016! Biography for Sandro Perruzza: Sandro Perruzza is the Chief Executive Officer of the Ontario Society of Professional Engineers (OSPE). Sandro is also on the Board of Directors of Minerva Canada, whose mandate is to embed Health and Safety curriculum into University Engineering and Business Programs across Canada. He has been recognized for the ability to translate complex concepts and situations into unique and practical solutions through a balance of strong business acumen supported by excellent analytical and communication skills. This has allowed him to develop solutions that have been implemented in fortune 500 companies, as well as in small and medium sized enterprises. He has a Bachelor of Science in Mathematics from McMaster University, as well as a Diploma in Occupational Health and Safety from McMaster. Prior to joining OSPE, Sandro was the President of Focus on Results Consulting and Chief of Client Services at Workplace Safety & Prevention Services, the largest Health and Safety Association in Canada, where he was a sitting member of the Ontario Ministry of Labour’s Prevention Operations Forum. Sandro lives in Oakville, with his wife and four children, and is actively involved in the community and volunteer’s his time, including coaching a competitive boy’s soccer team. |
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Monday October 31, 2016 at 11:00 a.m. Dr. Richard Lachman, Associate Professor, will be presenting “Algorithms and Ethics”. Speaker: Dr. Richard Lachman Associate Professor, Digital Media in RTA School of Media Day & Time: Monday, October 31, 2016 11:00 a.m. – 12:00 p.m. Location: KHE 225, 340 Church Street, Ryerson Contact: Maryam Davoudpour Organizer: WIE, Magnetics, Measurement/Instrumentation-Robotics, Computer Science Department of Ryerson University Abstract: Software algorithms are becoming more and more influential on the daily lives of citizens. Netflix, Spotify, Facebook, and Google openly discuss their use of algorithms as part of their operations, and mainstream critics have discussed the effects of filter-bubbles and echo-chambers on our points of view. However, algorithms are increasingly embedded in governmental and legal systems – with mathematical models influencing everything from teacher evaluations to police dispatch locations, and even parole board hearings. Algorithms exert their influence over our social, political, legal, financial, and educational systems, with average citizens and politicians having little understanding of how computation affects the conventions, laws, and assumptions that underlay our society . What are the responsibilities of computer scientists and software engineers towards an ethical practice as algorithmic decision-making becomes integrated into policy? Biography: Dr. Richard Lachman directs Zone Learning for Ryerson University, Research Development for the Faculty of Communication and Design, and the Experiential Media Institute (formerly the Transmedia Research Centre). He is an Associate Professor, Digital Media in the RTA School of Media, and also serves as a Technology and Creative Consultant for entertainment and software-development projects. Dr Lachman completed his doctorate at UNE (Australia) studying software recommendation-engines, did his undergraduate work in Computer Science at MIT, and holds a masters degree from the MIT Media Lab’s “Interactive Cinema” group. His work with the Petz artificial-life software has over 3 million units shipped worldwide, his later transmedia projects have garnered a Gemini, CNMA and Webby Honouree awards, and he has lead projects with UNICEF, TIFF, Penguin UK, Kobo, CTV, the Discovery Channel Canada, the Banff Centre for the Arts, and the CRTC. His areas of research include virtual reality, transmedia storytelling, digital documentaries, augmented/locative experiences, mixed realities, and collaborative design thinking. |
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November 2-4, IEEE Signal Processing Society (SPS) is hosting a Winter School on Distributed Signal Processing for Secure Cyber Physical Systems at Concordia. Speakers: This event consists of presentations given by internationally well-known Distinguished Speakers including members of IEEE Signal Processing Society Board of Governors, 6 IEEE Fellows, and a Notable Industry-based Presentation form PwC’s Cybersecurity & Privacy Practice in Canada as follows: Prof. Ali Sayed (UCLA, President-Elect of IEEE SPS); Prof. Georgios Giannakis (IEEE Fellow, University of Minnesota); Prof. Pramod Varshney (IEEE Fellow, Syracuse University); Prof. Deepa Kundur (IEEE Fellow, University of Toronto); Prof. Anna Scaglione (IEEE Fellow, Arizona State University); Prof. Tongwen Chen (IEEE Fellow, University of Alberta); Prof. Mark Coates (McGill University), and; Mr. Sajith Nair, Partner in PwC’s Cybersecurity & Privacy in Canada. About The Event: This is a unique opportunity for Concordia’s students/researchers, working/interested in security and signal processing, to learn more about the state-of-the-art research, get the chance to talk in person with elite and internationally well-known researchers, and to start/build the bases for future research collaborations. Register: Please check the School’s Homepage (below) for the call for participation (CPF), Biography of the invited speakers, and Registration details: https://users.encs.concordia.ca/~i-sip/s3pcps2016/ Advanced Manufacturing Canada: Conference & Exhibition will take place at Toronto Congress Centre (South Building) on November 2-3, 2016. Day & Time: November 2-3, 2016 Location: Toronto Congress Centre (South Building) Toronto, Ontario Teaser Video: https://youtu.be/A5ZRyXC00kg Advanced Manufacturing Canada (AMC) is bringing industry, government and academia together for a two-day conference and exhibition focused on fostering a national dialogue about how the manufacturing community can leverage Advanced Manufacturing to stimulate innovation, increase productivity, and compete in the global marketplace now and into the future. AMC is bringing the brightest minds, the latest technologies, and the businesses that need them together to continue the conversations and provide the solutions focused on the topics and technologies – automation and robotics, automation economics, additive manufacturing, and workforce development – that will shape the future of manufacturing. |
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Thursday November 3, 2016 at 12:00 p.m. Prof. Angelo All, Division of Neuroscience and Neuroengineering at the Johns Hopkins School of Medicine, will be presenting “Acute, Sub-acute and chronic Therapeutic Strategies Post-SCI”. Speaker: Prof. Angelo All Division of Neuroscience and Neuroengineering, Department of Biomedical Engineering, Department of Neurology at the Johns Hopkins School of Medicine (JHU) Research Director at the Department of Orthopedic Surgery and Department of Biomedical Engineering, SiNAPSE Institute at the National University of Singapore (NUS) Director Spinal Cord Injury and Repair Research Laboratory at the JHU and NUS Day & Time: Thursday, November 3, 2016 12:00 p.m. – 1:00 p.m. Location: Lecture Theatre (Basement), University Health Network-Toronto Rehabilitation Institute 550 University Avenue, Toronto, Ontario, Canada M5G 2A2 Co-sponsored by University Health Network-Toronto Rehabilitation Institute No Admission Charge Abstract: Among neurological disorders, the cost of spinal cord injury (SCI) to society ranks second only after mental retardation. Acute SCI can manifest as ‘anatomically intact’ with spared demyelinated and electrically defunct axons showing physiological discontinuity across the site of lesion. Even if only a small number of spared fibers remain after SCI, with immediate treatment, the quality of life of patients can be greatly improved. Early knowledge of the extent of spared fibers will help rehabilitation therapists and scientists as well as neurologists to plan time-sensitive strategic treatment options. The therapeutic strategies would be tailored in order to ensure the survival of neurons post-primary injury and limit secondary phase of injury. Scientists and physicians would also need to devise ways to prevent progression of the injury and improve the microenvironment around the injury for treatment by using, for example, stem cell that aims to produce therapeutically-induced functional recovery. We have developed in vivo rodent models and quantitative assessment techniques and methods that can reliably quantify the repair and regeneration post-injury and demonstrate objective neuro-electro-physiological assessments of SCI recovery and rehabilitation. First, I will present experimental methods to create calibrated contusive SCI model and the neuroelectrophysiological function monitoring using Evoked Potentials (EP). The second part of my presentation involves the investigation of the effects of therapeutic hypothermia (acute), application of conjugated polymers for drug delivery within intraparenchymal of spinal cord and limiting the secondary phase of injury (sub-acute) and third, human stem cell replacement (chronic) therapy postcontusive SCI. I will present preliminary results on the effects of temperature manipulation on EP signals and a novel design of biodegradable polymers for drug delivery as well as the results of transplanting human stem cell derived oligodendrocyte progenitors to aid recovery of spinal cord function. Our expectation is that these techniques would be applicable in basic research as well as be able to translatable for future clinical studies. Biography: Angelo H. ALL, M.D., MBA, started his higher education in Pharmacy School, graduated from Medical School, continued his career as a surgery fellow and obtained a MBA degree from the Johns Hopkins University. Since 2000, his Biomedical and Neuro-Engineering research at the Johns Hopkins Medical Institute has shaped his career. Dr. ALL is an Assistant Professor at the Division of Neuroscience and Neuroengineering, Department of Biomedical Engineering and Department of Neurology at the Johns Hopkins School of Medicine (JHU), Baltimore, USA. He also holds faculty position of Assistant Professor and is the Research Director at the Department of Orthopedic Surgery and Department of Biomedical Engineering as well as SiNAPSE Institute at the National University of Singapore (NUS). He is the director of the Spinal Cord Injury and Repair Research Laboratory at the JHU and NUS. Dr. ALL has established a very productive multidisciplinary translational research project through collaborations with scientists in both Medical and Engineering fields. The focus of his research is Central Nervous System (CNS) injury, repair and regeneration. His translational research projects involve cell replacement therapy using oligodendrocyte precursor cells derived from embryonic, iPSC and Directly Converted stem cells, as well as hypothermia treatment in the contusive model of Spinal Cord Injury (SCI). In addition, part of his laboratory team is also investigating the application of nanoparticles to limit the secondary phase of SCI. Recently, his laboratory is developing the “Optomedicine” – we adopt Optogenetics-based approaches for rehabilitative treatment post-SCI. Optomedicine allows us to regulate the electrical activity of neuronal population cells with millisecond spatiotemporal precision. We are also testing the hypothesis of delivering genes into neurons of the CNS in a pioneering method that would translate “Optomedicine” into clinical settings. Dr. ALL Lab pioneered the monitoring and quantitative analysis of somatosensory and motor evoked potentials for assessment of long-term electrical integrity at various stages of pre- and post-injury. He and his team of researchers studied plasticity and adaptive changes in CNS, which enable reorganization of spared neuropathways following neurotrauma. He also uses different imaging techniques to monitor anatomical changes in the CNS architectures at various time points. These images allow the identification of spared fibers and the tracking of the extent of secondary injury to determine the therapeutic benefits of the various treatment strategies. |
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