• Wireless Power Transfer Systems: Current Issues and Future Opportunities

    Room KHE 225, Ryerson University

    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.

  • Using and Evaluating Gamification as a Strategy of Engagement in the Classroom

    KHE 225, 340 Church Street, Ryerson University

    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.

  • Blackberry’s Platform for True End-to-End Mobile Security for Healthcare

    Centennial College Progress Campus, Room A3-17

    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.

  • Algorithms and Ethics

    KHE 225, 340 Church Street, Ryerson

    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.

  • Digital Health Initiatives at eHealth Ontario

    Room A3-21, Centennial College, Progress Campus, 941 Progress Ave., Toronto, Ontario, M1G 3T8

    Friday November 11, 2016 at 11:30 a.m. Hosna Sedghi, Project Manager at eHealth Ontario, will be presenting “Digital Health Initiatives at eHealth Ontario”. Speaker: Hosna Sedghi, MSc, PMP Project Manager, eHealth Ontario Day & Time: Friday, November 11, 2016 11:30 a.m. – 12:30 p.m. Location: Room A3-21, Centennial College, Progress Campus 941 Progress Ave., Toronto, Ontario, M1G 3T8 Map: http://www.centennialcollege.ca/about-centennial/contact-us/campus-locations/ Organizers: IEEE Toronto WIE, Nicoleta Zouri IEEE Toronto WIE, Magnetics, Measurement/Instrumentation-Robotics, Maryam Davoudpour Registration: Registration is free, but space is limited. Please register via email to Nicoleta Zouri Abstract: eHealth Ontario was established by the provincial government in September 2008 as an independent agency of the Ontario Ministry of Health and Long-Term Care. eHealth Ontario is enabling physicians and health care providers to establish and maintain electronic health records (EHRs) for all of Ontario’s 13 million residents. Biography: With a background in software engineering Hosna Sedghi has worked as a project manager at eHealth Ontario for the past 3 years and as a project lead previous to that. Hosna has extensive experience with HL7 standards, business analysis, system analysis, integration, and health information.

  • Health Informatics Evening at Centennial College

    Room L1-02, Centennial College, Progress Campus 941 Progress Ave., Toronto

    Wednesday November 16, 2016 at 5:30 p.m. Igor Sirkovich, Vikki Leung, Karim Keshavjee and Jimmy Poulin, will be presenting “Health Informatics Evening at Centennial College”. Speakers & Agenda: 5:15 to 5:30 Event Registration 1. Igor Sirkovich from 5:30 PM to 6:00 PM Founder and CEO of Xpertera HL7 FHIR and eHealth Architecture Consultant at Ontario Ministry of Health and Long-Term Care Presentation title: Current initiatives at the Ministry of Health and eHealth Ontario, pan-Canadian standards collaborative, and health informatics standards (HL7 FHIR), Xpertera introduction. 2. Vikki Leung from 6:00 PM to 6:30 PM Full Stack Developer at Interdev Technologies Inc. Presentation title: Technology used for Community Paramedic Services, Interdev Technologies 3. Karim Keshavjee, MD from 6:30 PM to 7:00 PM CEO of InfoClin Inc. Adjunct Professor at University of Toronto, University of Victoria Visiting Scholar at Ryerson University Associate Member at Centre for Evaluation of Medicine, McMaster University Numerous publications on Health Informatics studies and medicine Presentation title: Health Apps by Design: A reference architecture for mobile apps for health 4. Jimmy Poulin from 7:00 PM to 7:30 PM Director of Operations at m-Health Solutions Presentation title: ECG signal remote collection via mobile wireless external recorder and smartphone. 5. NSERC speaker (name will be announced later) from 7:30 PM to 8:00 PM Presentation: Funding opportunities for College Students in Science and Technologies programs. 8:00 to 8:30 PM Networking Day & Time: Wednesday, November 16, 2016 5:30 p.m. – 8:30 p.m. Location: Room L1-02, Centennial College, Progress Campus 941 Progress Ave., Toronto, Ontario, M1G 3T8 Map: http://www.centennialcollege.ca/about-centennial/contact-us/campus-locations/ Organizers: IEEE Toronto WIE, Nicoleta Zouri IEEE Toronto WIE, Magnetics, Measurement/Instrumentation-Robotics, Maryam Davoudpour Registration: Registration is free, but space is limited. Please register via email to Nicoleta Zouri Abstract: Offered as part of the Experiential Learning process for students in Health Informatics Program at Centennial College, this event facilitate skills and knowledge transfer between audience and speakers through an interactive session. Digital health solutions will be discussed and software demos will be presented.

  • Operational-Log Analysis for Big Data Systems: Challenges and Solutions

    Room: ENG 288, 245 Church Street, Toronto, Ontario M5B 2K3

    Friday November 18, 2016 at 12:00 p.m. Dr. Andriy Miranskyy, Assistant Professor at the Department of Computer Science, Ryerson University, will be presenting “Operational-Log Analysis for Big Data Systems: Challenges and Solutions”. Speaker: Dr. Andriy Miranskyy Assistant Professor, Department of Computer Science, Ryerson University Day & Time: Friday, November 18, 2016 12:00 p.m. – 1:00 p.m. Location: George Vari Centre for Computing and Engineering Ryerson University Room: ENG 288 245 Church Street, Toronto, Ontario M5B 2K3 Map – http://www.ryerson.ca/maps – Look for ENG Registration: Registration is free, but space is limited. Please register via this link: http://tinyurl.com/systemsEvent Organizers: IEEE Toronto Systems Chapter, Alexei Botchkarev albot@ieee.org IEEE Toronto WIE, Magnetics, Measurement/Instrumentation-Robotics and Computer Science Department of Ryerson University IEEE Toronto WIE Chair: Maryam Davoudpour maryam.davoudpour@ieee.org Abstract: Big data systems (BDSs) are complex, consisting of multiple interacting hardware software components, such as distributed compute nodes, networking, databases, middleware, business intelligence layer, and high availability infrastructure. Any of these components can fail. Finding the failures’ root causes is extremely laborious. Analysis of BDS-generated logs can speed up this process. The logs can also help improve testing processes, detect security breaches, customize operational profiles, and aid with any other tasks requiring runtime-data analysis. However, practical challenges hamper log analysis tools’ adoption. The logs emitted by a BDS can be thought of as big data themselves. When working with large logs, practitioners face seven main issues: scarce storage, unscalable log analysis, inaccurate capture and replay of logs, inadequate log-processing tools, incorrect log classification, a variety of log formats, and inadequate privacy of sensitive data. This talk describes the challenges and practical solutions faced while building and institutionalizing dynamic analysis tools in the industry. Biography: Andriy Miranskyy is an assistant professor at the Department of Computer Science, Ryerson University. His research interests are in the area of mitigating risk in software engineering, focusing on software quality assurance, program comprehension, software requirements, project risk management, Big Data, and Green IT. Andriy received his Ph.D. in Applied Mathematics at the University of Western Ontario. He has 17 years of software engineering experience in information management and pharmaceutical industries. Prior to joining Ryerson, Andriy worked as a software engineer in the IBM Information Management division at the IBM Toronto Software Laboratory; currently, he is the Faculty Fellow of the IBM Centre for Advanced Studies. He has served as Guest Editor for a special edition of IEEE Software as well as organizer, committee member, and reviewer for several software engineering workshops and conferences.

  • AI-Based Software Defect Predictors: Applications and Benefits and Lessons Learned

    KHE 225, Ryerson University, 340 Church Street, Toronto

    Monday November 21, 2016 at 11:00 a.m. Dr. Ayse Basar Bener, professor and director of Data Science Laboratory at Ryerson University, will be presenting “AI-Based Software Defect Predictors: Applications and Benefits and Lessons Learned”. Speaker: Dr. Ayse Basar Bener Professor, Director of Data Science Laboratory, Department of Mechanical and Industrial Engineering Director of Big Data, Office of Provost and Vice President Academic Ryerson University Day & Time: Monday, November 21, 2016 11:00 a.m. – 12:00 p.m. Location: KHE 225, Ryerson University, 340 Church Street, Toronto Contact: Maryam Davoudpour Organizer: WIE, Magnetics, Measurement/Instrumentation-Robotics, Computer Science Department of Ryerson University Abstract: Software analytics guide practitioners in decision making throughout the software development process. In this context, prediction models can help managers efficiently organize their resources and identify problems by analyzing patterns on existing project data in an intelligent and meaningful manner. In this talk I will share my experiences building and deploying AI (machine learning) models in software organizations over 15 years. We have encountered similar data analytics patterns in diverse organizations and in different problem cases. I will give examples from deployed projects and discuss these patterns following a “software analytics” framework: problem identification, data collection, descriptive statistics, and decision making. Biography: Dr. Ayse Basar Bener is a professor and the director of Data Science Laboratory (DSL) in the Department of Mechanical and Industrial Engineering, Ryerson University. She is the director of Big Data in the Office of Provost and Vice President Academic at Ryerson University. She is a faculty research fellow of IBM Toronto Labs Centre for Advance Studies, and affiliate research scientist in St. Michael’s Hospital in Toronto. Her current research focus is big data applications to tackle the problem of decision-making under uncertainty by using machine learning methods and graph theory to analyze complex structures in big data to build recommender systems and predictive models. She is a member of AAAI, INFORMS, AIS, and senior member of IEEE.

  • Who Are We Studying in Social Media: Bots or Humans?

    Room ENG 288, George Vari Centre for Computing and Engineering, 245 Church Street

    Thursday November 24, 2016 at 12:00 p.m. Dr. Anatoliy Gruzd, Associate Professor of Ted Rogers School of Management and Canada Research Chair in Social Media Data Stewardship, will be presenting “Who Are We Studying in Social Media: Bots or Humans?”. Speaker: Dr. Anatoliy Gruzd Associate Professor Ted Rogers School of Management, Ryerson University Canada Research Chair in Social Media Data Stewardship Day & Time: Thursday, November 24, 2016 12:00 p.m. – 1:00 p.m. Location: Room ENG 288, George Vari Centre for Computing and Engineering, 245 Church Street Ryerson University, Toronto, Ontario, M5B 2K3 Map: http://www.ryerson.ca/maps – Look for ENG Organizers: IEEE Toronto Systems Chapter, Alexei Botchkarev IEEE Toronto WIE, Magnetics, Measurement/Instrumentation-Robotics, Computer Science Department of Ryerson University Maryam Davoudpour Registration: Registration is free, but space is limited. Please register via http://tinyurl.com/systemsChapterEvent24 Abstract: Researchers studying various online and computer-mediated communities used to be able to argue that the online is an extension of the offline, and that offline and online are just different slices of real life. But the increasing number of bots in our datasets and the increasing use of algorithmic filtering by social media giants are widening the gap between online and offline, and between computer-mediated and algorithm-driven communication. This in turn makes some online data less reliable, at least for those of us studying human behavior. It also begs the question, if we are using data from social media for modelling, are we modelling human behavior in social media or simply reverse engineering how bots and other algorithms operate? Therefore, there is an urgent need to better understand the nature of bots and algorithmic filtering, and their influence on users’ online interactions, not just from a computational, but also from sociological perspective. This talk will discuss some of the key challenges and possible solutions to detecting social bots in the context of conducting social media research. Biography: Dr. Anatoliy Gruzd is a Canada Research Chair in Social Media Data Stewardship, Associate Professor in the Ted Rogers School of Management at Ryerson University. He is also the Director of the Social Media Lab and a co-editor of a multidisciplinary journal on Big Data and Society published by Sage. Dr. Gruzd’s research initiatives explore how the advent of social media and the growing availability of social big data are changing the ways in which people communicate, collaborate and disseminate information and how these changes impact the social, economic and political norms and structures of modern society. Dr. Gruzd and his lab are also actively developing and evaluating new approaches and tools to support social media data analytics and stewardship. His research and commentaries have been reported across Canada and internationally in various mass media outlets such as Foreign Affairs, Los Angeles Times, Nature.com, The Atlantic, The Globe and Mail, The National Post, The Canadian Press, CBC TV, CBC Radio, CTV and Global TV.

  • Women in Robotics Series: Erica Tiberia, Roboticist and Educator

    Health Innovation Hub, 263 McCaul Avenue, Toronto, ON

    Thursday December 8, 2016 at 6:00 p.m. Erica Tiberia, roboticist, creative technologist, educator and entrepreneur, will be presenting “Women in Robotics Series”. Speaker: Erica Tiberia Roboticist, Creative Technologist, Educator and Entrepreneur Day & Time: Thursday, December 8, 2016 6:00 p.m. – 9:00 p.m. Location: Health Innovation Hub 263 McCaul Avenue, Toronto, ON The meeting room is on the first floor. Note that the doors to H2I will lock at 6 but someone will be there to let you in. Please knock. Organizer: IEEE Toronto Section, Engineering in Medicine and Biology Society (EMBS) and the IEEE Women in Engineering Toronto Section (WIE) RVSP at https://www.meetup.com/Get-Your-Bot-On-Robotics-Hackathon/events/234793342/ Agenda: 6:00 pm – Networking 6:30 pm – Welcome 6:40 pm – Erica Tiberia – talk and Q&A 7:40 pm – Pitches from the community – Community members can ask for assistance on their projects 8:00 pm – Networking 9:00 pm – Close Biography: Erica is a tech educator and creative technologist. She has a technical background in molecular biology and biotechnology and a passion for science communication, digital education, and emerging technology. She has designed and coordinated education programs involving electronics, robotics, digital fabrication and programming for kids and adults. She also designs, builds and programs robots and is a level 1 winner of the 2016 sample return robot NASA Centennial Challenge. Her work has been featured on Bloomberg Tech, Discovery Channel’s Daily Planet, NASA.gov and more. A scientist by training, Erica has a B.Sc. In Molecular Biology and Biotechnology from the University of Waterloo. She completed M.Sc. work on research done at the Department of Medical Biophysics at the University of Toronto. She has done molecular biology research at Cornell University, the University of Waterloo, the Hospital for Sick Children, and the Princess Margaret Cancer Center, and is an author of multiple peer reviewed scientific papers.

  • Abstraction in Situation Calculus Action Theories

    Room TRS2164, 575 Bay Street (entrance at 55 Dundas Street West), Ryerson University

    Monday January 23, 2017 at 12:00 p.m. Bita Banihashemi, PhD Candidate in Computer Science at York University, will be presenting “Abstraction in Situation Calculus Action Theories”. Speaker: Bita Banihashemi PhD Candidate, Computer Science York University Day & Time: Monday, January 23, 2017 12:00 p.m. – 1:00 p.m. Location: Room TRS2164, 575 Bay Street (entrance at 55 Dundas Street West), Ryerson University Contact: Maryam Davoudpour Organizer: WIE, Magnetics, Measurement/Instrumentation-Robotics Abstract: We develop a general framework for agent abstraction based on the situation calculus and the ConGolog agent programming language. We assume that we have a high-level specification and a low-level specification of the agent, both represented as basic action theories. A refinement mapping specifies how each high-level action is implemented by a low-level ConGolog program and how each high-level fluent can be translated into a low-level formula. We define a notion of sound abstraction between such action theories in terms of the existence of a suitable bisimulation between their respective models. Sound abstractions have many useful properties that ensure that we can reason about the agent’s actions (e.g., executability, projection, and planning) at the abstract level, and refine and concretely execute them at the low level. We also characterize the notion of complete abstraction where all actions (including exogenous ones) that the high level thinks can happen can in fact occur at the low level. Biography: Bita Banihashemi is currently a PhD candidate in Computer Science at York University. Her research is primarily focused on agent supervision, which is a form of control/customization of an agent’s behavior. Her research interests include Knowledge Representation and Reasoning, Autonomous Agents and Multi-agent Systems, and AI and the Web.

  • Micro-Scale Robots: Magnetic Actuation for Wireless Manipulation

    Room TRS2164, 575 Bay Street (Entrance at 55 Dundas Street West)

    Monday February 13, 2017 at 12:00 p.m. Dr. Diller, Assistant Professor in the department of Mechanical and Industrial Engineering at the University of Toronto, will be presenting “Micro-Scale Robots: Magnetic Actuation for Wireless Manipulation”. Speaker: Dr. Diller Assistant Professor, Mechanical and Industrial Engineering, University of Toronto Day & Time: Monday, February 13th, 2017 12:00 p.m. to 1:00 p.m. Location: Room TRS2164, 575 Bay Street (Entrance at 55 Dundas Street West) Ryerson University (TRS2164 is on the 8th floor of the building) Organizer: WIE, Measurement/Instrumentation-Robotics, Magnetics, Computer Science Department of Ryerson University Abstract: Micro-scale mobile robots can physically access small spaces in a versatile and non-invasive manner. Such microrobots under 1 mm in size have potential unique applications for object manipulation, local sensing and cargo delivery in healthcare, microfluidics and advanced materials fabrication. These devices are powered and controlled remotely using externally-applied magnetic fields for motion in 2D and 3D. This talk will introduce our experimental work in micro-manipulation using single and teams of these devices. Biography: Dr. Diller is an Assistant Professor in the department of Mechanical and Industrial Engineering at the University of Toronto. He received his B.S. and M.S. in Mechanical Engineering at Case Western Reserve University, and Ph.D. at Carnegie Mellon University in 2013. His current work focuses on fabrication and control relating to remote actuation of micro-scale devices using magnetic fields, medical robotics, smart materials, and swimming at small size scales.