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Claire brought Jack back home from university today. With his new Computer Engineering degree, he was able to unpack and setup his computer and get online with no help at all. :)
Engineers with the Armament Research Development and Engineering Center (ARDEC) display a computer software innovation at the Army Science Conference, Orlando, Fla., Nov. 29, 2010. U.S. Army photo by Tracy Robillard.
Computer Engineering Undergraduate Gurpreet Singh Kalsi undergoes the efficiency test at the 2019 Applied Collegiate Exoskeleton Competition inside the Bob and Betty Beyster Building on North Campus in Ann Arbor MI. on Saturday May 18, 2019.
This final test of the competition is designed to see if the exoskeleton is, in fact, reducing the mechanical energy expenditure of the user by using a metabolic tester that uses indirect calorimetry to measure strain on the user with and without the aid of the exoskeleton.
This year the University of Michigan STARX Team took first place at the competition. Seven other collegiate teams attended.
Photo: Robert Coelius/Michigan Engineering, Communications & Marketing
Michela Becchi, assistant professor of electrical and computer engineering at the University of Missouri-Columbia, was presented with the the President’s Award for Early Career Excellence. Interim VP for Academic Affairs Bob Schwartz made the announcement with MU College of Engineering Dean, Elizabeth Loboa.
Computer Engineering Undergraduate Gurpreet Singh Kalsi (right) vaults over barriers approximately 2 feet high while being timed by Engineering Undergraduate Truman Michael Stovall at the 2019 Applied Collegiate Exoskeleton Competition inside the Bob and Betty Beyster Building on North Campus in Ann Arbor Michigan on Saturday May 18, 2019.
The ACE Competition is a cross-university competition aimed at testing the functional capabilities of exoskeletons designed and built by their respective universities. The purpose of this is to help push forward and increase interest in this relatively new and upcoming technology of exoskeletons by creating a friendly event where teams can test the actual real-world potential of their designs. Eight teams brought their own models to compete with the University of Michigan taking first place overall.
Photo: Robert Coelius/Michigan Engineering, Communications & Marketing
Computer Engineering Undergraduate Gurpreet Singh Kalsi undergoes the fourth obstacle test at the 2019 Applied Collegiate Exoskeleton Competition inside the Bob and Betty Beyster Building on North Campus in Ann Arbor Michigan on Saturday May 18, 2019.
Six obstacles in all were constructed to test the durability and effectiveness of each team's model. University of Michigan's STARX team won the maximum amount of points from each obstacle test and took home the first place prize at the competition.
Photo: Robert Coelius/Michigan Engineering, Communications & Marketing
Pascale Fung, Professor, Department of Electronic and Computer Engineering, Hong Kong University of Science and Technology, Hong Kong SAR capture during the Session: "Artificial Intelligence Unleashed" at the World Economic Forum - Annual Meeting of the New Champions in Dalian, People's Republic of China 2017. Copyright by World Economic Forum / Sikarin Fon Thanachaiary
A new array of brain sensors can record electrical signals directly from the surface of the human brain in record-breaking detail. The new brain sensors feature densely packed grids of either 1,024 or 2,048 embedded electrocorticography (ECoG) sensors. They are more flexible and 100 times thinner than the ECoG grids used in the clinic. If approved for clinical use, these new sensors would offer neurosurgeons brain-signal information directly from the surface of the brain's cortex in 100 times higher resolution than what is available today.
A team led by electrical engineers at the University of California San Diego reported the new brain sensors in a paper published by the journal Science Translational Medicine.
Full story: jacobsschool.ucsd.edu/news/release/3393
Credit: David Baillot / UC San Diego Jacobs School of Engineering
Dr. Kevin L. Lear (Professor of Electrical & Computer Engineering) (left) and Dr. David S. Dandy (head of the Department of Chemical & Biological Engineering and co-investigator on the project) (right) show components used in their new approach to lowering biomedical test costs. This immunosensor could be used for testing a variety of infectious diseases or other medical issues. August 24, 2009
Amy LaViers, graduate student in Electrical and Computer Engineering (ECE), is working on a project involving an "automaton" robotic dance.
Thomas Matrejek will graduate with a Bachelor of Science in Electrical and Computer Engineering and a minor in Theatre. Thomas received dean’s list every semester, is graduating Summa Cum Laude and is a University Scholar. Outside of the classroom Thomas participated in 15 theatrical productions with University Theatre including 5 onstage appearances, as a theatrical sound designer, as a theatrical lighting designer and as a lighting designer for the Boykin Cultural Center in Wilson North Carolina. Thomas also got out of the classroom experience as a DevOps Intern at Extron Electronics and as a Virtualization and Automation Engineer at Oracle. Thomas represented our program as the first scholar to be a Goodnight Ambassador for four years, as a STEM Coach, Transfer Retreat Leader and a two time participant in our Mountains to Coast trip. After graduation, Thomas will work as a Cloud Software Engineer at Oracle in Morrisville as part of the Environments and Service team.
Electrical engineers at the University of California San Diego have developed a temperature sensor that runs on only 113 picowatts of power — 628 times lower power than the state of the art and about 10 billion times smaller than a watt. This near-zero-power temperature sensor could extend the battery life of wearable or implantable devices that monitor body temperature, smart home monitoring systems, Internet of Things devices and environmental monitoring systems.
Press release: jacobsschool.ucsd.edu/news/news_releases/release.sfe?id=2252
Friends stop to catch up in the hall of Carrier Hall. Photo by Robert Jordan/Ole Miss Communications
Amy LaViers, graduate student in Electrical and Computer Engineering (ECE), is working on a project involving an "automaton" robotic dance.
Ella Atkins, professor of aerospace engineering, and Jessy Grizzle, professor of electrical and computer engineering and director of Michigan Robotics, talk with media about the new M-Air advanced robotics facility on North Campus of the University of Michigan in Ann Arbor, MI on March 28, 2018.
The facility is a netted, 9,600 gross square ft., four-story complex situated next to the site where the Ford Motor Company Robotics Building will open in late 2019.
Photo: Levi Hutmacher/Michigan Engineering, Communications & Marketing
Ashmeet Chandok, a electrical and computer engineering masters student, speaks with Mark Brehob, in the EECS building on the North Campus of the University of Michigan on Wednesday afternoon, September 28, 2022.
The 373/473 lab, was led by both Matthew Smith, an adjunct assistant professor, and Mark Brehob, a lecturer IV, both from Electrical Engineering and Computer Science. The two were on hand to answer questions and offer advice as students utilized the lab for projects that ranged from motion and robotics, to personally selected design/build endeavors.
Photo: Brenda Ahearn/University of Michigan, College of Engineering, Communications and Marketing
Assistant Professor of Electrical and Computer Engineering, Necmiye Ozay troubleshoots with EECS Graduate Student Research Assistant Petter Nilsson at Mcity Test Facility in Ann Arbor, MI. on September 13, 2017.
Ozay’s group designs algorithms that can take information about the rules of the road, the specs of the car, and the laws of physics and then produce a program that enables the car to drive itself safely. Unlike programming designed for specific models of cars in particular locations, this more general way to program a self-driving car can work for different vehicles in different countries.
Photo by Robert Coelius
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Michigan Engineering
@UMengineering
Amy LaViers, graduate student in Electrical and Computer Engineering (ECE), is working on a project involving an "automaton" robotic dance.
The NAIT HP center is where computer engineering and communication technology is taught. It is a very impressive building any time of the year but the blue Christmas lights on the trees make it a great building to shoot for blue hour as well.
Isaac Bromley-Dulfano, left, an electrical engineering undergraduate student, and Tomas Fernandez, a computer engineering undergraduate, work together programing a robot to respond and move toward a target in the lab for Matthew Smith and Mark Brehob in the EECS building on the North Campus of the University of Michigan on Wednesday afternoon, September 28, 2022.
The 373/473 lab, was led by both Matthew Smith, an adjunct assistant professor, and Mark Brehob, a lecturer IV, both from Electrical Engineering and Computer Science. The two were on hand to answer questions and offer advice as students utilized the lab for projects that ranged from motion and robotics, to personally selected design/build endeavors.
Photo: Brenda Ahearn/University of Michigan, College of Engineering, Communications and Marketing
Amy LaViers, graduate student in Electrical and Computer Engineering (ECE), is working on a project involving an "automaton" robotic dance.