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Byron Yu , Associate Professor, Electrical and Computer Engineering; Associate Professor, Biomedical Engineering, Carnegie Mellon University, USA at the World Economic Forum - Annual Meeting of the New Champions in Tianjin, People's Republic of China 2016. Copyright by World Economic Forum / Greg Beadle
Byron Yu , Associate Professor, Electrical and Computer Engineering; Associate Professor, Biomedical Engineering, Carnegie Mellon University, USA at the World Economic Forum - Annual Meeting of the New Champions in Tianjin, People's Republic of China 2016. Copyright by World Economic Forum / Greg Beadle
Electrical & Computer Engineering research scientist Ding Wang and graduate student Minming He from Prof. Zetian Mi's group, University of Michigan, are working on the epitaxy and fabrication of high electron mobility transistors (HEMTs) based on a new nitride material, ScAlN, which has been demonstrated recently as a promising high-k and ferroelectric gate dielectric that can foster new functionalities and boost device performances."
Monday, February 27, 2022.
Photo by Marcin Szczepanski/Lead Multimedia Storyteller, Michigan Engineering
Electrical & Computer Engineering research scientist Ding Wang and graduate student Minming He from Prof. Zetian Mi's group, University of Michigan, are working on the epitaxy and fabrication of high electron mobility transistors (HEMTs) based on a new nitride material, ScAlN, which has been demonstrated recently as a promising high-k and ferroelectric gate dielectric that can foster new functionalities and boost device performances."
Monday, February 27, 2022.
Photo by Marcin Szczepanski/Lead Multimedia Storyteller, Michigan Engineering
Brandon Tarter, right, a masters student in electrical and computer engineering, and Ana Rivero Valles, a masters student in mechanical engineering, make preparations for researching motion sickness mitigation solutions for passengers of autonomous vehicles, before a test run with a research participant at the University of Michigan’s Mcity Test Facility in Ann Arbor on Saturday, November 12, 2022. The research is a project lead by Daniel Schulman and fellow Mechanical Engineering PhD Nishant Jalgaonkar.
Autonomous vehicles create the opportunity for passengers to perform productive tasks during their commutes. However, it is estimated that motion sickness afflicts one in three adults in the United States traveling in passenger vehicles. The aim of their project is to design, build, and test a motion sickness mitigation system such as an active seat, active restraint, active passenger stimuli, and active productivity interface.
Photo: Brenda Ahearn/University of Michigan, College of Engineering, Communications and 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.
Byron Yu , Associate Professor, Electrical and Computer Engineering; Associate Professor, Biomedical Engineering, Carnegie Mellon University, USA at the World Economic Forum - Annual Meeting of the New Champions in Tianjin, People's Republic of China 2016. Copyright by World Economic Forum / Greg Beadle
Mechanical Engineering-Engineering Mechanics Capstone Senior Design Team
Low Voltage Piezoelectric Bone Sculptor
Team Members: James Berry, Electrical Engineering; Michael
Braun, Computer Engineering; Alexandra Cereska
and Janelle Rupkalvis, Biomedical Engineering;
Lee Southerton and Eric Wilkening, Mechanical
Engineering
Advisor: Radheshyam Tewari, Mechanical Engineering-
Engineering Mechanics
Sponsor: Stryker Instruments
Project Overview
We have partnered with Stryker Instruments to
address the market need for improved bone
resection instrumentation by developing a proofof-
concept prototype bone resection device, the
JamJel. The JamJel operates at a sub-ultrasonic
frequency and employs a piezoelectric actuator, or
stack configuration to produce oscillatory motion of
a cutting accessory. Piezoelectric stacks generate
high force, are compact in size, and enable
precise longitudinal displacement control by the
user. The design incorporates three piezoelectric
stacks arranged in a triangular formation around a
pivot plate. Mechanical leverage amplifies the 90
μm piezoelectric stack displacement, permitting
longitudinal, transverse and rotary motion at the
cutting accessory tip, singly or in combination.
A new power saving chip developed by engineers at the University of California San Diego could significantly reduce or eliminate the need to replace batteries in Internet of Things (IoT) devices and wearables. The so-called wake-up receiver wakes up a device only when it needs to communicate and perform its function. It allows the device to stay dormant the rest of the time and reduce power use.
The technology is useful for applications that do not always need to be transmitting data, like IoT devices that let consumers instantly order household items they are about to run out of, or wearable health monitors that take readings a handful of times a day.
Full story: jacobsschool.ucsd.edu/news/news_releases/release.sfe?id=2896
Photo credit: David Baillot/UC San Diego Jacobs School of Engineering
The Electrical and Computer Engineering graduates at the Walter Scott Jr. College of Engineering 2021 Fall Commencement. December 17, 2021
Electrical and Computer Engineering Senior Design Team at the 2015 Design Expo at Michigan Tech
Team Members
Rion Mott, Evan Bajek, Michael Spenle, and Daryl
Bennet, Electrical Engineering
Advisor
John Lukowski, Electrical and Computer Engineering
Sponsor
ITC Holdings
Project Overview
ITC Holdings is the nation’s largest independent
electricity transmission company. ITC has
transmission systems throughout the Midwest
and supply a peak load over 25,000 megawatts.
Geomagnetically-Induced Current (GIC) is a
phenomenon caused when solar winds interact
with the earth’s magnetosphere causing DC
currents to be created in AC transmission lines that
can damage transformers and other equipment.
Transformers and GIC mitigation are both
expensive. A GIC monitoring system can determine
what protection and mitigation is required for ITC’s
transmission system. The project is a continuation
from last year to further develop a system not only
to detect GIC but also communicate this data using
the existing ITC networks.
Team Members
Corey Downing, Ben Turner, Jeremy Mims, Stuart
Montgomery, and Jordan Kubista, Mechanical
Engineering
Advisor
Charles Van Karsen, Mechanical Engineering-
Engineering Mechanics
Sponsors
Fiat Chrysler Automobiles, ArcelorMittal
Project Overview
The team was charged with the design and
implementation of a side cargo access and human
entry point on a RAM 1500 truck bed. The forward
section of the truck bed has limited access for
many types of cargo. A forward access system
will provide improved usage of this area and allow
more efficient load and unload activities. The new
design allows ease of access to cargo stored inside
and near the front of the truck bed. It allows ease
of entry into and out of the truck bed. It meets
all functional objectives of a truck bed and door
systems such as durability, sag, set, closing efforts.
The design accommodates typical customer
accessories such as tonneau covers, bed caps, tie
downs and cargo dividers.
Transvenous Micra Pacemaker
GIC detection test setup
CAD model of the Side Access System
J. Alex Halderman, Professor of Electrical Science and Computer Engineering, sips a cup of coffee at Fleetwood Diner in downtown Ann Arbor on February 9, 2017. It was a day removed after the “spoofed” emails were sent. Not one to usually lose sleep over the stresses of his work, Halderman had only slept four hours the night before.
Photo: Joseph Xu/Multimedia Content Producer, University of Michigan - College of Engineering
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
Electrical & Computer Engineering research scientist Ding Wang and graduate student Minming He from Prof. Zetian Mi's group, University of Michigan, are working on the epitaxy and fabrication of high electron mobility transistors (HEMTs) based on a new nitride material, ScAlN, which has been demonstrated recently as a promising high-k and ferroelectric gate dielectric that can foster new functionalities and boost device performances."
Monday, February 27, 2022.
Photo by Marcin Szczepanski/Lead Multimedia Storyteller, Michigan Engineering
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.
Electrical & Computer Engineering research scientist Ding Wang and graduate student Minming He from Prof. Zetian Mi's group, University of Michigan, are working on the epitaxy and fabrication of high electron mobility transistors (HEMTs) based on a new nitride material, ScAlN, which has been demonstrated recently as a promising high-k and ferroelectric gate dielectric that can foster new functionalities and boost device performances."
Monday, February 27, 2022.
Photo by Marcin Szczepanski/Lead Multimedia Storyteller, Michigan Engineering
"A real lab! It's so nice to be in a real lab!" -Peter Fuss
This is Prof. Shai Revzen's Biologically Inspired Robotics and Dynamical Systems (BIRDS) Lab, where they build innovative robots modeled on living creatures.
Source: livinghistories.newcastle.edu.au/nodes/view/46629
About this photograph:
The Department of Electrical and Computer Engineering Is playing host to two overseas experts in the communication and control field while doing research in the Department Dr Arthur Harvey, his wife, Margaret and Dr Thomas Smed. Harvey: Minneapolis, Wisconsin, USA and Smed; University of Uppsala, Sweden.
This image was scanned from a photograph in the University's historical photographic collection held by Cultural Collections at the University of Newcastle, NSW, Australia.
If you have any information about this photograph, or would like a higher resolution copy, please contact us or leave a comment in the box below.
Description: Student walking to class. Behind the bridge connecting Electrical and Computer Engineering building to the Engineering Center is the Construction Management building. The view is to the north.
Date of Original: Septe1982-1983
Item Number: ACa56-1982-1983.7
Ordering Information: library.ndsu.edu/archives/collections-institute/photograp...
Byron Yu , Associate Professor, Electrical and Computer Engineering; Associate Professor, Biomedical Engineering, Carnegie Mellon University, USA at the World Economic Forum - Annual Meeting of the New Champions in Tianjin, People's Republic of China 2016. Copyright by World Economic Forum / Greg Beadle
Paul Stokley will graduate with a Bachelor of Science in Computer Engineering. Within Goodnight, Paul has served as both a mentor and STEM Coach. He has worked as an Embedded Software Engineering Intern at Extron Electronics for multiple summers. After graduation, Paul will be completing the ABM program to earn his Masters in Computer Engineering while working part time at Extron Electronics.
Aubrey Hammis, a junior electrical and computer engineering student, is a summer intern at Factory ZERO, General Motors’ first fully dedicated electric vehicle assembly plant. She analyzes end-of-line electrical diagnostic tests for the Cadillac Escalade IQ, learning how to read schematic diagrams and gaining more knowledge about electric vehicle circuitry.