Friday, 18 December 2020 2:00 PM CET (8:00 AM EST) by Dietmar Bruckner (B&R Industrial Automation, AUSTRIA) Register now using the link below: https://attendee.gotowebinar.com/register/99048816402999565 Abstract: Ethernet POWERLINK is a communication profile for Real-Time Ethernet (RTE). It extends Ethernet according to the IEEE 802.3 standard with mechanisms to transfer data with predictable timing and precise synchronization. The communication profile meets timing demands typical for high performance automation and motion applications. It does not change basic principles of the Fast Ethernet Standard IEEE 802.3 but extends it towards RTE. Thus it is possible to leverage and continue to use any standard Ethernet silicon, infrastructure component or test and measurement equipment like a network analyzer. Presenter's bio: Dietmar Bruckner is with B&R Industrial Automation since 2013, where he is responsible for the development of Connectivity solutions. Additionally, he is a system architect for hard real-time, industrial Ethernet-based communication systems. Before, he worked for 10 years at the Institute of Computer Technology of the Vienna University of Technology. He published 70+ reviewed publications including 5 patents ...
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Friday, 18 December 2020 11:00 AM CET (6:00 PM GMT+8) by Hang Seng Che & Mahdi Tousizadeh (UM Power Energy Dedicated Advanced Centre (UMPEDAC), University of Malaya, MALAYSIA) Register now using the link below: https://attendee.gotowebinar.com/register/6483370779626978062 Abstract: The concept of fault-tolerance for electrical drives has been extensively explored from different angles, aiming to enhance the overall reliability of polyphase adjustable drives. Despite having different control perspectives, the goal has usually been pursued along the same path, which is to maintain a circular trajectory of air-gap flux in presence of open phase fault. Nevertheless, the structure, operating principles and underlying assumptions will manifest, to a large extent, into different challenges that will affect capability of the fault-tolerant controllers. In this webinar, an overview on the underlying principles of fault tolerant control for three-phase and multiphase machines is given. A couple of different fault-tolerant controllers applied on three- and six-phase drives will be presented to elucidate the various considerations required for fault tolerant drive using different current control techniques. Presenters' bio: Hang Seng Che received the B.Eng. degree in electrical engineering from the University of Malaya, Kuala Lumpur, Malaysia, in 2009. He then obtained the Ph.D. degree in electrical engineering under the auspices ...
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Joint Webinar with IEEE Transportation Electrification Community Wednesday, 9 December 2020 2:00 PM CET (8:00 AM EST) by Bharat Balagopal & Mo-Yuen Chow (North Carolina State University, USA) Register now using the link below: https://attendee.gotowebinar.com/register/2242644591223550988 Abstract: Lithium Ion Batteries play an important role in many sectors, for examples: an energy reservoir in a microgrid facility that has high penetration of renewable energy resources, a primary energy source in electric vehicles (EVs), etc. However, the rate of adoption of these batteries are a lot slower than expected because of the uncertainties introduced in term of the State of Charge (SOC), State of Health (SOH) and Remaining Useful Life (RUL) estimation. This webinar will address the issues associated with current battery monitoring systems, their pros and cons and provide insights into new technology that has been developed to not only model but also provide live status updates regarding the battery’s SOC, SOH and RUL when the battery is in use. The speakers will also introduce a relatively new concept called the State of Function (SOF) of the battery and define the relationship between the SOC, SOH, RUL and SOF of the battery. The webinar will cover two major tools, (1) the First ...
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Thursday, 24 September 2020 4:00 PM CET (10:00 AM ET) by Joanna Isabelle Olszewska (University of the West of Scotland, UK) Register now using the link below: https://attendee.gotowebinar.com/register/4396775884815142416 Abstract: Machine vision systems become pervasive in our Society, from industrial to human-centered applications. Therefore, such intelligent vision systems, which automatically process visual inputs such as raw still images, live video feeds, etc., must be both efficient and ethical. In this talk, developed solutions and algorithms based on explainable artificial intelligence and transparent computer vision approaches are presented. Presenter's bio: Joanna Isabelle Olszewska BSc(Hons) MSc(EPFL) PhD(UCL) CEng CSci FBCS FHEA is a British Computer Scientist. She is an Assistant Professor (Lecturer) with UWS, UK, and leads research in Algorithms and Softwares for Intelligent Vision Systems. She is a member of the IEEE Global Initiative for Ethical Considerations in Artificial Intelligence and Autonomous Systems. She has been invited to be Panel Speaker at the University of Edinburgh Union Debate on 'The Future of AI'. She is ACM Distinguished Speaker and has given talks, e.g. at the University of Cambridge, at conferences such as ICRA, and at events such as EPSRC/BMVA Technical Days and DDD Scotland, as well as interviews, e.g. for the BBC ...
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Tuesday, 15 September 2020 4:00 PM CET (10:00 AM ET) by Chengbin Ma (Shanghai Jiao Tong University, CHINA) Register now using the link below: https://attendee.gotowebinar.com/register/5440540073796616971 Abstract: Wireless charging or wireless power transfer (WPT) provides a convenient and viable solution without the need for major breakthrough in today's battery technology, especially in terms of energy density. At present, WPT operating at a high frequency, such as 6.78 MHz, is widely regarded as a promising candidate technology for the mid-range transfer of a medium amount of power. Physically, a higher operating frequency improves the spatial freedom of power transfer and also makes it possible to develop a more compact and lighter WPT system. At the same time, due to the high-frequency operation, circuit-level complexity and multiple objectives in the actual MHz WPT systems, system-level analysis and design are particularly important for achieving high performance (e.g., high efficiency, low noise, and robustness) of a final system. In this webinar, the main power conversion topologies are first reviewed and compared; then, taking the Class E^2 topology as an example, a systematic methodology is explained to model and design a complete MHz WPT system; finally, the methodology is further extended to multiple-receiver MHz WPT systems, ...
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