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Aubrey Beal, an electrical and computer engineering graduate student, taught at Easterling Correctional Facility in Clio, Ala., for the College of Human Sciences’ Alabama Prison Arts + Education Project.
TEMPE - February 27, 2020 - ASU Now - Interplanetary Initiative Lab - Ali Bahremand, a second-year doctoral student in computer engineering, sets up an augmented reality headset at the opening of the Interplanetary Initiative Lab, in the repurposed locker room of the Sun Devil Hall, Thursday, February 27, 2020. He and fellow doctoral student Lauren Gold designed the software for both the augmented headset and a virtual reality headset that gave tours of Mars. The Lab, a facility devoted to interdisciplinary research and development, contains roughly 6,800 square feet of in-house, design-build-fly space, making it one of the more diverse lab environments at ASU. It includes a prototyping space area, electronics lab, shop, vacuum testing area, ground station and clean room. These features will benefit students and faculty as well as external partners looking to collaborate on the interdisciplinary projects of the Interplanetary Initiative. Offering rapid building and testing capabilities, the Lab will facilitate accelerated progress on multiple projects at once while providing on-site staff engineers to manage the space and mentor teams. The Lab offers potential for outside funding and corporate partnerships. Photo by Charlie Leight/ASU Now
Summer Undergraduate Research Fellowship (SURF): Clarence Hardwick, Electrical and Computer Engineering, working with Dr. Christopher Middlebrook, ECE; Project: Satellite Identification and Tracking by Spectral Measurements at AMJOCH Observatory
Xiangfeng Wang earned his PhD from Rice in applied physics in January 2009. He has accepted a position with Intelligent Automation Inc. in Rockville, MD.
Ajit Srivastava earned his PhD from Rice in electrical & computer engineering in August 2008. He has accepted a position with the Institute of Quantum Electronics, ETH Zurich, Switzerland.
Pictured (from left to right)
Front Row: Ajit Srivastava, Xiangfeng Wang, Prof. Junichiro Kono, Jonah Shaver, Stephen Goebel
Back Row: Prof. Alexey Belyanin, Lei Ren, Yang Li, Chanjuan Sun, (?), Bill Rice, Erik Harox, Eri Maruyama
The Department of Electrical and Computer Engineering is housed in the Bossone Research Center. The Center is located on the south side of Market Street between the 30th Street station and the 32nd street.
Close-up of a Electrical and Computer engineering team's "Smart Domestic Life" project model.
Read more about the Fifth annual Design Day at WSU's College of Engineering: bit.ly/2VUfbQh
Georgios Giannakis, PhD
Professor of Electrical and Computer Engineering at the University of Minnesota
Director of the Digital Technology Center
Monday, Nov. 18, 2019, 3:30 p.m.
Donna E. Shalala Student Center, Senate Room 302
1300 Miller Drive Coral Gables, FL 33146
Abstract
We live in an era of data deluge. Pervasive sensors collect massive amounts of information on every bit of our lives, churning out enormous streams of raw data in various formats. Mining information and learning from unprecedented volumes of data promises to limit the spread of epidemics and diseases, identify trends in financial markets, learn the dynamics of emergent social-computational systems, and also protect critical infrastructure including the smart grid and the Internet’s backbone network. While Big Data can be definitely perceived as a big blessing, big challenges also arise with large-scale datasets. This talk will overview challenges and opportunities emerging in the analytical and algorithmic foundations that are widely referred to as Data Science, and Network Science, the latter for data residing on graphs formed by agents that are interconnected (or networked) either physically or through their interdependencies.
Georgios Giannakis, PhD, received his diploma in Electrical Engineering from the Ntl. Tech. Univ. of Athens, Greece, 1981. From 1982 to 1986 he was with the Univ. of Southern California (USC), where he received his MSc. in Electrical Engineering, 1983, MSc. in Mathematics, 1986, and Ph.D. in Electrical Engr., 1986. He was with the U. of Virginia from 1987 to 1998, and since 1999 he has been a professor with the U. of Minnesota, where he holds a Chair in Wireless Communications, a University of Minnesota McKnight Presidential Chair in ECE, and serves as director of the Digital Technology Center. His general interests span the areas of communications, networking and statistical signal processing – subjects on which he has published more than 450 journal papers, 750 conference papers, 25 book chapters, two edited books and two research monographs (h-index 143). Current research focuses on data science and network science with applications to social, brain, and power networks with renewables. He is the (co-) inventor of 33 patents issued, and the (co-) recipient of 9 best journal paper awards from the IEEE Signal Processing (SP) and Communications Societies. He also received Technical Achievement Awards from the SP Society (2000), from EURASIP (2005), and the inaugural IEEE Fourier Tech. Field Award (2015). He is a Fellow of EURASIP, and has served the IEEE in various posts including that of a Distinguished Lecturer.
Georgios Giannakis, PhD
Professor of Electrical and Computer Engineering at the University of Minnesota
Director of the Digital Technology Center
Monday, Nov. 18, 2019, 3:30 p.m.
Donna E. Shalala Student Center, Senate Room 302
1300 Miller Drive Coral Gables, FL 33146
Abstract
We live in an era of data deluge. Pervasive sensors collect massive amounts of information on every bit of our lives, churning out enormous streams of raw data in various formats. Mining information and learning from unprecedented volumes of data promises to limit the spread of epidemics and diseases, identify trends in financial markets, learn the dynamics of emergent social-computational systems, and also protect critical infrastructure including the smart grid and the Internet’s backbone network. While Big Data can be definitely perceived as a big blessing, big challenges also arise with large-scale datasets. This talk will overview challenges and opportunities emerging in the analytical and algorithmic foundations that are widely referred to as Data Science, and Network Science, the latter for data residing on graphs formed by agents that are interconnected (or networked) either physically or through their interdependencies.
Georgios Giannakis, PhD, received his diploma in Electrical Engineering from the Ntl. Tech. Univ. of Athens, Greece, 1981. From 1982 to 1986 he was with the Univ. of Southern California (USC), where he received his MSc. in Electrical Engineering, 1983, MSc. in Mathematics, 1986, and Ph.D. in Electrical Engr., 1986. He was with the U. of Virginia from 1987 to 1998, and since 1999 he has been a professor with the U. of Minnesota, where he holds a Chair in Wireless Communications, a University of Minnesota McKnight Presidential Chair in ECE, and serves as director of the Digital Technology Center. His general interests span the areas of communications, networking and statistical signal processing – subjects on which he has published more than 450 journal papers, 750 conference papers, 25 book chapters, two edited books and two research monographs (h-index 143). Current research focuses on data science and network science with applications to social, brain, and power networks with renewables. He is the (co-) inventor of 33 patents issued, and the (co-) recipient of 9 best journal paper awards from the IEEE Signal Processing (SP) and Communications Societies. He also received Technical Achievement Awards from the SP Society (2000), from EURASIP (2005), and the inaugural IEEE Fourier Tech. Field Award (2015). He is a Fellow of EURASIP, and has served the IEEE in various posts including that of a Distinguished Lecturer.
Purdue University’s Elmore Family School of Electrical and Computer Engineering today (Sept. 29) celebrated the completion of new, cutting-edge research space. The Chiminski Family Collaborative Research Hub is located on the second floor of the Materials and Electrical Engineering Building (MSEE). It was made possible by a generous gift from alumnus John R. Chiminski and his wife Laura A. Chiminski.
Gage Glupker and Karthik Urs, Computer Engineering BSE Students, work on designing circuits using a small particle accelerator in the Space Research Building on North Campus of the University of Michigan in Ann Arbor, MI on August 11, 2016.
Photo: Joseph Xu, Michigan Engineering Communications & Marketing
Jacob Walker will graduate with a Bachelor of Science in Computer Engineering. Jacob was a wolves den finalist and serves as the Chief Tech Officer with the helping hands project, where he has been a member since 2018. In 2019 he participated in the green study abroad program to Iceland. Outside of campus he completed an internship with Asensus surgical. This summer Jacob will complete an internship with Garmin before returning to NC State to complete his accelerated masters degree in Computer Engineering.
Gage Glupker and Karthik Urs, Computer Engineering BSE Students, work on designing circuits using a small particle accelerator in the Space Research Building on North Campus of the University of Michigan in Ann Arbor, MI on August 11, 2016.
Photo: Joseph Xu, Michigan Engineering Communications & Marketing
Purdue University’s Elmore Family School of Electrical and Computer Engineering today (Sept. 29) celebrated the completion of new, cutting-edge research space. The Chiminski Family Collaborative Research Hub is located on the second floor of the Materials and Electrical Engineering Building (MSEE). It was made possible by a generous gift from alumnus John R. Chiminski and his wife Laura A. Chiminski.
Recently I was opportuned to photograph Students from the department of Electrical/Electronics/Computer Engineering at the University of Lagos. So I did a portrait of some of the girls as showcased in the picture below.
These students are in their final year and you can hardly tell they are Engineering students. After going through five years of rigorous and complex studying conditions, they still look radiant and fresh. I personally love their sense of beauty and carriage.
I leave you to make comments...Well they all score above 70% as a Beauty Model from me.
Flickr: www.flickr.com/photos/jidefx/
Blog: jideodukoya.com/blog/
Young Bangkok
Portrait: Thayathorn Piwpong
- 21 years old
- Student
- Computer Engineering at Kasetsart University, Bangkok
Keith Porter, UMich Computer Engineering BSE, introduces his team's project at the 2012-2013 Michigan Clean Energy Venture Challenge at the Ross School of Business in Ann Arbor, MI on February 15, 2013.
Photo: Joseph Xu, Michigan Engineering Communications & Marketing
Georgios Giannakis, PhD
Professor of Electrical and Computer Engineering at the University of Minnesota
Director of the Digital Technology Center
Monday, Nov. 18, 2019, 3:30 p.m.
Donna E. Shalala Student Center, Senate Room 302
1300 Miller Drive Coral Gables, FL 33146
Abstract
We live in an era of data deluge. Pervasive sensors collect massive amounts of information on every bit of our lives, churning out enormous streams of raw data in various formats. Mining information and learning from unprecedented volumes of data promises to limit the spread of epidemics and diseases, identify trends in financial markets, learn the dynamics of emergent social-computational systems, and also protect critical infrastructure including the smart grid and the Internet’s backbone network. While Big Data can be definitely perceived as a big blessing, big challenges also arise with large-scale datasets. This talk will overview challenges and opportunities emerging in the analytical and algorithmic foundations that are widely referred to as Data Science, and Network Science, the latter for data residing on graphs formed by agents that are interconnected (or networked) either physically or through their interdependencies.
Georgios Giannakis, PhD, received his diploma in Electrical Engineering from the Ntl. Tech. Univ. of Athens, Greece, 1981. From 1982 to 1986 he was with the Univ. of Southern California (USC), where he received his MSc. in Electrical Engineering, 1983, MSc. in Mathematics, 1986, and Ph.D. in Electrical Engr., 1986. He was with the U. of Virginia from 1987 to 1998, and since 1999 he has been a professor with the U. of Minnesota, where he holds a Chair in Wireless Communications, a University of Minnesota McKnight Presidential Chair in ECE, and serves as director of the Digital Technology Center. His general interests span the areas of communications, networking and statistical signal processing – subjects on which he has published more than 450 journal papers, 750 conference papers, 25 book chapters, two edited books and two research monographs (h-index 143). Current research focuses on data science and network science with applications to social, brain, and power networks with renewables. He is the (co-) inventor of 33 patents issued, and the (co-) recipient of 9 best journal paper awards from the IEEE Signal Processing (SP) and Communications Societies. He also received Technical Achievement Awards from the SP Society (2000), from EURASIP (2005), and the inaugural IEEE Fourier Tech. Field Award (2015). He is a Fellow of EURASIP, and has served the IEEE in various posts including that of a Distinguished Lecturer.
Research Professor in the Department of Electrical & Computer Engineering, University of California, Santa Barbara, and Professor Emeritus in the Ming Hsieh Department of Electrical Engineering, University of Southern California, Los Angeles
Monday, Feb. 29, 2018
Abstract:
The field of digital signal processing (DSP) has been a very active area of research and application for more than six decades. This broad development has paralleled in time the rapid development of high-speed electronic digital computers, microelectronics and integrated circuit fabrication technologies. An ever-increasing assortment of integrated circuits specifically tailored to perform common DSP functions is available to the design engineer as system building blocks or parts-in-trade. DSP methodologies have been applied to consumer electronics, communications, automotive electronics, instrumentation, medical electronics, tomography and acoustic imaging, cartography, seismology, speech recognition, robotics and other fields. In his talk, Dr. Mitra will provide a brief overview of the initial developments in DSP and review some of the important advances made during the nearly-60-year period of its growth, and will describe a number of its key applications. He will conclude with speculation on DSP’s future trends and directions.
Dr. Sanjit K. Mitra is a Research Professor in the Department of Electrical & Computer Engineering, University of California, Santa Barbara. Dr. Mitra has published over 700 papers in the areas of analog and digital signal processing, and image and video processing. He has also authored and co-authored twelve books, and holds six patents. Dr. Mitra has served IEEE in various capacities including service as the President of the IEEE Circuits & Systems Society in 1986.
Dr. Mitra has received many awards including the 2009 Athanasios Papoulis Award of the European Association for Signal Processing, the 2005 SPIE Technology Achievement Award of the International Society for Optical Engineers; the University Medal of the Slovak Technical University, Bratislava, Slovakia in 2005; the 2006 IEEE James H. Mulligan, Jr. Education Medal; and the 2013 IEEE Gustav Robert Kirchhoff Award. He is the co-recipient of the 2000 Blumlein-Browne-Willans Premium of the Institution of Electrical Engineers (London). He has been awarded Honorary Doctorate degrees from the Tampere University of Technology, Finland, the Technical University of Bucharest, Romania, and the Technical University of Iasi, Romania.
He is a member of the U.S. National Academy of Engineering, a member of the Norwegian Academy of Technological Sciences, an Academician of the Academy of Finland, a foreign member of the Finnish Academy of Sciences and Arts, a foreign member of the Croatian Academy of Sciences and Arts, international member of the Croatian Academy of Engineering and the Academy of Engineering, Mexico, and a Foreign Fellow of the National Academy of Sciences, India and the Indian National Academy of Engineering. Dr. Mitra is a Life Fellow of the IEEE.
Dr. Walter Karlen, a postdoc with UBC's Electrical & Computer Engineering in Medicine research group,
gave UAEM a hands-on tour of the Phone Oximeter and discussed how this technology could be widely distributed to LMIC.
From the project's website (www.phoneoximeter.org/):
"Pairing pulse oximeters with mobile phones will catapult pulse oximetry from the hospital into non-hospital settings. The inherent computing power of the mobile phone, its peripheral resources (LCD display; audio, serial and USB connectivity), battery power and everyday availability offer the opportunity to create a low-cost stand alone device that can be used by non-specialist healthcare workers and even patients at home. Real-time wireless communication of results to specialists offers another distinct advantage over traditional pulse oximeters. We are developing just such as intelligent mobile device, the Phone Oximeter. Some of the potential applications we are exploring are:
-Monitoring anesthesia in the developing world
-Respiratory disease management in our communities"
Further info:
Phone Oximeter karaoke intro video:
www.youtube.com/watch?v=Jh7aW1__HdA
Dr. Walter Karlen Grand Challenges Canada Rising Stars in Global Health application video:
applications.grandchallenges.ca/viewVideo/28735E6AA1EA22F...
Keith Porter, UMich Computer Engineering BSE, introduces his team's project, A2B Bikeshare, at the 2012-2013 Michigan Clean Energy Venture Challenge at the Ross School of Business in Ann Arbor, MI on February 15, 2013.
Photo: Joseph Xu, Michigan Engineering Communications & Marketing
University of Illinois construction of the new Department of Electrical and Computer Engineering Building.
Gage Glupker and Karthik Urs, Computer Engineering BSE Students, work on designing circuits using a small particle accelerator in the Space Research Building on North Campus of the University of Michigan in Ann Arbor, MI on August 11, 2016.
Photo: Joseph Xu, Michigan Engineering Communications & Marketing