Prof. Iniguez wanted to held the distinguished lecture in person at the NanoP competence center of the THM University of Applied Sciences in Gießen Germany. Due to the increasing numbers of infected persons by COVID in Germanyand Europe and the announced new regulations, the EDS Germany Chapter, the Technische Hochschule Mittelhessen and Prof. Iniguez decided to shift the planned hybrid lecture to a fully virtual lecture. “This is the only option which makes sense at the current situation.” The distinguished lecture on “Roadmap of Flexible Electronics” was held on November 23, 2021. It was organized by the EDS Germany Chapter and co-sponsored by the NanoP from THM – University of Applied Sciences. The DL was attended by 33 IEEE participants, as well as other non IEEE members. The distinguished lecture of Benjamin from DEEEA, University Rovira i Virgili, Spain gave an overview and perspective on the concept roadmap of flexible electronics. The lecture started with an introduction into the topic. Gave same market share values and focus on the most promising materials organic and oxide semiconductors. Different devices, their scope and potential stakeholders were shown. Afterwards, a technology status was reported by Prof. Iniguez including the challenges and potential solutions. The lecture finished with some recommendations with focus on modeling, especially where modeling can support technology finding solutions. The lecture concluded with an increasing demand by wearable’s and the need of flexible electronics which are biodegradable.
2021 International Conference on Visual Communications and Image Processing (VCIP) wird in Munich, DE vom 2021-12-05 bis 2021-12-08 stattfinden. Die Germany Section CAS Chapter ist ein Sponsor dieser Veranstaltung. https://www.vcip2021.org/ 2021 International Conference on Visual Communications and Image Processing (VCIP) is scheduled to be held in Munich, DE on 2021-12-05 to 2021-12-08. The Germany Section CAS Chapter is a sponsor of this event. https://www.vcip2021.org/
The EDS Germany Chapter and NanoP proudly presents Prof. Hiroshi Iwai Vice Dean and Distinguished Professor from ICST. NYCU, Taiwan for a Distinguished Lecture on “Impact and Future of Nanoelectronics”. The lecture will be held on 18th February 2022 at 10am Berlin time. Interest participants please register via IEEE vTools by the following link: https://meetings.vtools.ieee.org/m/293182 Abstract: Progress of micro-/nano-electronics in the past 50 years was tremendous. Because of the continuous size reduction of the electron devices, the performance, cost, energy consumption, volume, and weight of electronic machines/systems have improved with the order of billions to trillion times in comparison with the early 1990’s when electronics started with vacuum tubes. Microelectronics started at the beginning of 1970’s with LSI (Large Scale Integrated circuits) with the minimum device feature size of 10 µm providing us the microprocessors, and improved our society dramatically. Now, the nano-CMOS VLSIs (Very Large Scale Integrated circuits) with the minimum feature size of 10 nm order, provided us intelligent smart society with internet, 5G smart phone, and AI machine. While demands of the smart society to high-performance semiconductor devices are increasing, the downsizing of the electron devices is approaching to its limit, and there will be no pico-electronics anymore next to the nano-electronics. In this presentation, the present status and future of nanoelectronics are explained. Hiroshi Iwai Biography: Prof. Hiroshi Iwai was born in Tokyo, Japan and received B.E. and Ph.D. degrees from the University of Tokyo. He worked at Toshiba Corporation from 1973 to 1999, developing NMOS, CMOS, BiCMOS, and mixed-signal LSI technologies and products. In 1999, he moved to Tokyo Institute of Technology and conducted nano CMOS research until 2020. In 2020, he received the Yushan Scholar title from the Taiwan government and worked at ICST, NCTU. He is currently a Vice Dean and Distinguished Chair Pofessor, ICST, NYCU, Taiwan and a Professor Emeritus, Tokyo Institute of Technology, Japan. His received awards include IEEE J.J. Ebers Award, Yamazaki Teiich Prize, IEEE Paul Rapapport Award, IEEE Cledo Brunetti Award, ECS Thomas Callinan Award, and ECS Gordon E. Moore Medal. He is a life fellow of IEEE, anawarded life member and fellow of ECS, and a fellow of IEEJ, IEICE, and JSAP. He served as chairs/members/editors of academic societies/conferences/journals. He served the President of IEEE EDS, the Director of IEEE Division I and Chair of ECS Japan Section.
E&H – Instant Best Friends Forever Electromagnetic field theory is probably not the most favorite topic for many engineers, but it is crucial for understanding EMC. Many times, teaching of electromagnetic fields includes a lot of heavy mathematics obscuring the actual physics of electromagnetic fields. In this presentation, I use 3D electromagnetic field simulations to visualize the behavior of fields and how it results in effects that are important for EMC. After a short introduction to the calculation methods, I will discuss concepts that we use daily like voltage, current, power transfer and shielding in terms of electromagnetic fields. Some of the content you will probably have heard of, some of it might be surprising. 08.03.2022, 17:00 Uhr Zoom: https://ovgu.zoom.us/j/65212681357?pwd=T085Q3k5MUtUL01yaDhXNXkybkIzUT09 Meeting-ID: 652 1268 1357 Kenncode: 751648 The slides will be provided on demand after the meeting: http://sites.ieee.org/germany-emc/contact-us/ About the speaker: Dr. Andreas Barchanski - Andreas is a senior solution consultant for electromagnetic simulation at Dassault Systemes in Darmstadt, Germany. After receiving his PhD in numerical electromagnetics from the Darmstadt University of Technology in 2007 he has joined CST that later became a part of Dassault Systems. His main interest lies in the simulation of electromagnetic compatibility of electronic systems, ranging from high-speed digital to power electronics. Organisation: Dr.-Ing. Miroslav Kotzev, Ericsson Antenna Technology Germany IEEE German EMC Chapter - Coordinator Technical Teleconferences ieee_german_emc_chapter_technical_teleconference_AndreasBarchanski_updated
Methods of Machine Learning: Tools or Toys for EMC Engineering? Over the past few years various methods of machine learning (ML) have attracted attention in engineering disciplines. EMC engineering is one of them and in this presentation we try to understand why and how they help with tasks that are essential to EMC. After a short introduction into ML representative EMC related publications are reviewed and results from our own research in the area of power integrity are presented. 22.03.2022, 17:00 Uhr Zoom: https://ovgu.zoom.us/j/65212681357?pwd=T085Q3k5MUtUL01yaDhXNXkybkIzUT09 Meeting-ID: 652 1268 1357 Kenncode: 751648 The slides will be provided on demand after the meeting: http://sites.ieee.org/germany-emc/contact-us/ About the speaker: Christian Schuster received the Diploma degree in physics from the University of Konstanz, Germany, in 1996, and the Ph. D. degree in electrical engineering from the Swiss Federal Institute of Technology (ETH), Zurich, Switzerland, in 2000. Since 2006 he is full professor and head of the Institute of Electromagnetic Theory at the Hamburg University of Technology (TUHH), Germany. Prior to that he was with the IBM T. J. Watson Research Center, Yorktown Heights, NY, where he was involved in high-speed optoelectronic package and backplane interconnect modeling and signal integrity design for new server generations. His currents interests include signal and power integrity of digital systems, multiport measurement and calibration techniques, and development of electromagnetic simulation methods for communication electronics. Within the IEEE he was serving as a Distinguished Lecturer for the EMC Society in the period 2012-2013, as a member of the Board of Directors of the EMC Society in 2015, and as the Chair of the German IEEE EMC Chapter in the period 2016-2019. Currently he is an Associate Editor for the IEEE Transactions on EMC and again a member of the Board of Directors of the EMC Society. Organisation: Dr.-Ing. Miroslav Kotzev, Ericsson Antenna Technology Germany IEEE German EMC Chapter - Coordinator Technical Teleconferences ieee_german_emc_chapter_professional_talk_Christian_Schuster_updated
The IEEE Global Engineering Education Conference (EDUCON) 2022 is the 13th in a series of conferences that rotate among central locations in IEEE Region 8 (Europe, Middle East, and Africa). EDUCON is the flagship conference of the IEEE Education Society. Held every year since 2010, EDUCON provides an opportunity to scientists, professional engineers, and students to present their work, publish their results, exchange ideas and network for future scientific and industrial collaborations. The conference will continue to serve as a catalyst for connecting local and international stakeholders hence adding value to the global dialogue on how to positively contribute to the solution of the world’s engineering education. Accepted and presented papers will be published in the conference and will be submitted to the IEEE Xplore Digital Library and appear in the Conference Proceedings Citation Index (CPCI) - an integrated index within Web of Science. call for papers educon 2022
2022 IEEE 7th 5G++ Summit Dresden wird in Dresden vom 2022-05-12 bis 2022-05-12 stattfinden. Die IEEE Communications Society ist ein Sponsor dieser Veranstaltung. http://5gsummit.org/dresden/ 2022 IEEE 7th 5G++ Summit Dresden is scheduled to be held in Dresden on 2022-05-12 to 2022-05-12. The IEEE Communications Society is a Sponsor of this event. http://5gsummit.org/dresden/
New Developments in Antenna Measuring TechniquesAntennas are wave mode changers, that are classically described by a set of antenna parameters such as input impedance, gain, directivity, antenna factor and radiation diagram. Due to progressing complexity and integration of transmission systems, the exact knowledge of these parameters is getting more and more important. For the measurement of quantities conforming to standards, different measurement setups in absorber chambers and on open-area test sites exist. With progressing computational capabilities, computationally intensive methods based on near-field-to-far-field transformation gain importance. Flying measurement platforms based on autarkic multicopters are used for the characterization of large stationary antenna systems. The talk shows somenew developments. 12.05.2022, 17:00 Uhr Zoom: https://ovgu.zoom.us/j/65212681357?pwd=T085Q3k5MUtUL01yaDhXNXkybkIzUT09Meeting-ID: 652 1268 1357Kenncode: 751648 About the speaker:Thomas Kleine-Ostmann was born in Lemgo, Germany, in 1975. He received the M.Sc.degree in Electrical Engineering from the Virginia Polytechnic Institute and State University, Blacksburg, VA, USA, in 1999, the Dipl.-Ing. degree in Radio Frequency Engineering from Technische Universität (TU) Braunschweig, Germany, in 2001, and the Dr.-Ing. degree from TU Braunschweig, Germany, in 2005. Since 2006, he has been with the Electromagnetic Fields Group, PTB, Braunschweig, working as a permanent scientist. Currently, he is working on realization and transfer of the electromagnetic field strength, electromagnetic compatibility, antenna measuring techniques and THz metrology. In 2007, he became head of the Electromagnetic Fields Group, in 2012, of the Electromagnetic Fields and Antenna Measuring Techniques Group, and in 2020, of the Department High Frequency and Electromagnetic Fields. Dr. Kleine-Ostmann is a lecturer at TU Braunschweig since 2007. After his habilitation in the field of radio frequency engineering he was appointed Privatdozent becoming an external faculty member in 2014. He is giving lectures on Microwave and Wireless Metrology. Dr. Kleine-Ostmann is a member of the VDE and the URSI. He received the Kaiser-Friedrich Research Award in 2003 for his work on a continuous-wave THz imaging system. Organisation:Dr.-Ing. Miroslav Kotzev, Ericsson Antenna Technology GermanyIEEE German EMC Chapter - Coordinator Technical Teleconferences ieee_german_emc_chapter_professional_talk_Kleine-Ostmann