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Keith Porter (right) and Ansgar Strother (left), UMich Computer Engineering BSE Students, speak about their 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
Brian Daniels, Computer Engineering BSE Student, demonstrates his group's project, the Hail-Met!, at the Fall 2014 Multidisciplinary Design Expo at the Duderstadt Center on December 4, 2014.
The device allows for entertainment, communication, and enhanced safety.
Photo: Joseph Xu, Michigan Engineering Communications & Marketing
Dhiman Sengupta, Computer Engineering BSE Student, explains his group's project to Ahmed Saleh, Computer Engineering BSE Student, at the Design Expo on North Campus on April 18, 2013.
Photo: Joseph Xu, Michigan Engineering Communications & Marketing
Changyeong Jeong, PhD Candidate in Electrical and Computer Engineering, handles an ultrathin Ag film based OLED inside Professor Jay Guo’s lab at 3537 G.G. Brown on North Campus in Ann Arbor MI on May 5, 2021.
Guo’s group is systematically improving the light power distribution in OLEDs by removing the waveguide mode and optimizing the organic stacks and the ultrathin AG anode. This simple yet effective method leads to significantly enhanced performance of the external quantum efficiency of the OLED.
Jeong and Guo’s solution is not only simple in process but also can achieve high throughput and low cost with excellent compatibility with the large-scale manufacturing process in the display industry. In principle, the modal elimination approach introduced in this work could be extended to other solid-state light emitting diodes (LEDs) such as perovskites, quantum-dots, or III-V based LEDs since all of which are susceptible to the issue of light trapping as waveguide mode.
Photo: Robert Coelius/University of Michigan Engineering, Communications & Marketing
Matthew Mckay, Professor, Department of Electronic and Computer Engineering, The Hong Kong University of Science and Technology, Hong Kong SAR, China speaking during the session: Ask About: Smart Vaccines at the World Economic Forum - Annual Meeting of the New Champions in Tianjin, People's Republic of China 2018
Copyright by World Economic Forum / Sikarin Thanachaiary
Research and teaching are opportunities for Shiwen Mao to work with students. The Samuel Ginn Endowed Professor of electrical and computer engineering conducts research in next generation wireless technology and wireless applications. A recent creation is SonarBeat, a contact-free vital sign monitoring system.
Liz Chrisman/ATU MARCOMM
Music & Computer Engineering double major Jordan Davis carries on a conversation with a fellow student during a marketing shoot for the university.
Shivam Patel, a masters student in computer engineering, holds up part of the “train” that precedes the cubesat Patel and his team designed as they and three other teams prepare to launch four cubesats as part of AEROSP 495 and 740 classes at the Plumb Lake County Park near Sturgis, Michigan on Tuesday morning, December 6, 2022.
The goal of the courses is to give students the opportunity to design and build complex satellite-like flight vehicles. The high-altitude balloons, which are filled with helium, rise into the stratosphere emulating some key aspects of spaceflight. According to Graduate Student Instructor Gage Bergman, "The stratosphere is an extreme environment, it experiences vast temperature differences, and also requires students to develop robust and reliable systems because once a balloon is released, there is no way to retrieve it - just like actual spaceflight.” Bergman is a masters student in aerospace engineering.
Photo: Brenda Ahearn/University of Michigan, College of Engineering, Communications and Marketing
Bending laser light around sharp turns and corners—without scattering—is now possible thanks to a new laser cavity developed by electrical engineers at UC San Diego. This is the first laser cavity that can fully confine and propagate light in any shape imaginable. The work could lead to faster computers and optical fibers that perform well even when they’re bent in different directions.
Electrical engineering professor Boubacar Kante and his team published their discovery, called a "topological cavity," in the Oct. 12 issue of Science.
Press release: bit.ly/TopologicalCavity
Photo by Melgar Photography. Credit: Electrical & Computer Engineering at the University of Michigan, Ann Arbor
Harpreet Singh, electrical and computer engineering professor, poses for a class picture with his Winter 2013 Digital Logic 1 class.
Jeremy Bos, Michael Maurer, Douglas Sims; Electrical and Computer Engineering
Advisors: Dr. Michael C. Roggemann, Dr. Christopher Middlebrook
The Paulding Mystery Light is a purportedly unexplained optical phenomenon, occurring nightly, deep in the woods of Michigans Upper Peninsula. Each evening up to a hundred spectators gather at the end of a washed out road to observe the flickering light. In local legends, the origin of the light is often attributed to the paranormal. As a student-run research project The Michigan Tech Student Chapter of the SPIE initiated a project in 2008 to understand the cause of the Paulding Lights. A team was formed pairing graduate and undergraduate researchers and under guidance from faculty. Previous investigations by paranormal skeptics attributed the lights to automobile headlights though the exact source location was not identified. These investigators also failed to address claims that the light appeared to move or dance along the horizon. Our team applied a number of techniques toward identifying and then verifying the source location of the Paulding Light. Beginning with observation through a telescope, the team moved to using tools such as detailed topographical maps and more common tools such as Google Street View to identify a candidate source location. The candidate source location was then validated by first, recreating the light using a stopped vehicle. Additional verification was achieved by recording the traffic flow at the source location and examining the correlations both heuristically and stochastically. A spectrometer was also brought to bear on the light allowing the team to compare the spectrum of the Paulding light to the spectrum of various automotive headlamps. Our findings, presented here, indicate that the source of the Paulding light is automobile traffic on a stretch of road about 7 km from the viewing location. This conclusion is supported overwhelming by the data we have collected. In addition to our findings, we also provide some speculation on the cause of the more spectacular claims surrounding these mystery lights and possibilities for future work.
Mackillo Kira, professor of Electrical Engineering and Computer Science, and Markus Borsch, PhD student in electrical and computer engineering, work together in Kira’s office going over some of the fundamental light emission properties for semiconductors in the Engineering Research Building on the North Campus of the University of Michigan in Ann Arbor on Wednesday, August 17, 2022.
Kira, who is also a physics professor for the College of Literature, Science and the Arts, is the group leader of the Michigan Engineering Quantum Science Theory Lab. He and his team are developing a cluster-expansion-based quantum theory that allows them to realize: semiconductor quantum optics, quantum-optical spectroscopy, terahertz spectroscopy, and Atomic Bose-Einstein condensates.
Photo: Brenda Ahearn/University of Michigan, College of Engineering, Communications and Marketing
A team led by Duygu Kuzum's lab has developed a neuroinspired hardware-software co-design approach that could make neural network training more energy-efficient and faster. Their work could one day make it possible to train neural networks on low-power devices such as smartphones, laptops and embedded devices.
Full story: jacobsschool.ucsd.edu/news/news_releases/release.sfe?id=2692
Photo credit: David Baillot/UC San Diego Jacobs School of Engineering
More portable, fully wireless smart home setups. Lower power wearables. Batteryless smart devices. These could all be made possible thanks to a new ultra-low power Wi-Fi radio developed by UC San Diego engineers. It enables Wi-Fi communication at 5,000 times less power than commercial Wi-Fi radios.
Full story: jacobsschool.ucsd.edu/news/news_releases/release.sfe?id=2977
Photos by: David Baillot/UC San Diego Jacobs School of Engineering
Li Zexiang, Professor, Department of Electronic and Computer Engineering, Hong Kong University of Science and Technology, Hong Kong SAR in Discover! Robot Revolution at the World Economic Forum, AMNC 14, Annual Meeting of the New Champions in Tianjin, People's Republic of China 2014. Copyright by World Economic Forum / Sikarin Fon Thanachaiary
Mackillo Kira, professor of Electrical Engineering and Computer Science, and Markus Borsch, PhD student in electrical and computer engineering, work together in Kira’s office going over some of the fundamental light emission properties for semiconductors in the Engineering Research Building on the North Campus of the University of Michigan in Ann Arbor on Wednesday, August 17, 2022.
Kira, who is also a physics professor for the College of Literature, Science and the Arts, is the group leader of the Michigan Engineering Quantum Science Theory Lab. He and his team are developing a cluster-expansion-based quantum theory that allows them to realize: semiconductor quantum optics, quantum-optical spectroscopy, terahertz spectroscopy, and Atomic Bose-Einstein condensates.
Photo: Brenda Ahearn/University of Michigan, College of Engineering, Communications and Marketing
A team led by Duygu Kuzum's lab has developed a neuroinspired hardware-software co-design approach that could make neural network training more energy-efficient and faster. Their work could one day make it possible to train neural networks on low-power devices such as smartphones, laptops and embedded devices.
Full story: jacobsschool.ucsd.edu/news/news_releases/release.sfe?id=2692
Photo credit: David Baillot/UC San Diego Jacobs School of Engineering
Diego Krapf, Assistant Professor of Electrical and Computer Engineering and Kristin Jevsevar, Masters student in Biomedical set up a laser for fluorescence immunoassay for the detection of tuberculosis antigens with single molecule sensitivity in Krapf’s lab at the CSU Engineering Research Center. December 17, 2009
Li Zexiang, Professor, Department of Electronic and Computer Engineering, Hong Kong University of Science and Technology, Hong Kong SAR in Discover! Robot Revolution at the World Economic Forum, AMNC 14, Annual Meeting of the New Champions in Tianjin, People's Republic of China 2014. Copyright by World Economic Forum / Sikarin Fon Thanachaiary
Courtney Brewer (BSEE '05, MSEE '08), works in the laboratory of Dr. Carmen Menoni at the NSF-funded EUV ERC, Colorado State University Department of Electrical and Computer Engineering
Ian Larson, Computer Engineering BSE Student and Solar Car Team member, tests the team's car in the North Commuter Lot on June 9, 2013.
Photo: Joseph Xu, Michigan Engineering Communications & Marketing
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
A team led by Duygu Kuzum's lab has developed a neuroinspired hardware-software co-design approach that could make neural network training more energy-efficient and faster. Their work could one day make it possible to train neural networks on low-power devices such as smartphones, laptops and embedded devices.
Full story: jacobsschool.ucsd.edu/news/news_releases/release.sfe?id=2692
Photo credit: David Baillot/UC San Diego Jacobs School of Engineering
Portraits of J. Alex Halderman, professor of computer science and engineering at the University of Michigan, on Friday afternoon, October 14, at Sweetwaters Coffee and Tea in Ann Arbor.
Halderman is director of the University of Michigan Center for Computer Security and Society and director of the Michigan CSE Systems Lab.
Photo: Brenda Ahearn/University of Michigan, College of Engineering, Communications and Marketing
A team led by Duygu Kuzum's lab has developed a neuroinspired hardware-software co-design approach that could make neural network training more energy-efficient and faster. Their work could one day make it possible to train neural networks on low-power devices such as smartphones, laptops and embedded devices.
Full story: jacobsschool.ucsd.edu/news/news_releases/release.sfe?id=2692
Photo credit: David Baillot/UC San Diego Jacobs School of Engineering
Ankita Mahajan, an undergraduate in the Electrical and Computer Engineering Department, takes part in the Women in Electrical and Computer Engineering (WECE) Breadboarding 101 Workshop in the Electrical Engineering and Computer Science building on the North Campus of the University of Michigan on Tuesday evening, February 15, 2022. The workshop was lead by Enakshi Deb, and Hannah Parrish, both students in the ECE Department.
The Women in Electrical and Computer Engineering at the University of Michigan began in 2020 with a conversation between Enakshi Deb (the current president) and Isha Bhatt (former president). In 2022 the group was able to meet in person for the first time.
Photo: Brenda Ahearn/University of Michigan, College of Engineering, Communications and Marketing
Mackillo Kira, professor of Electrical Engineering and Computer Science, and Markus Borsch, PhD student in electrical and computer engineering, work together in Kira’s office going over some of the fundamental light emission properties for semiconductors in the Engineering Research Building on the North Campus of the University of Michigan in Ann Arbor on Wednesday, August 17, 2022.
Kira, who is also a physics professor for the College of Literature, Science and the Arts, is the group leader of the Michigan Engineering Quantum Science Theory Lab. He and his team are developing a cluster-expansion-based quantum theory that allows them to realize: semiconductor quantum optics, quantum-optical spectroscopy, terahertz spectroscopy, and Atomic Bose-Einstein condensates.
Photo: Brenda Ahearn/University of Michigan, College of Engineering, Communications and Marketing
Photo by Melgar Photography. Credit: Electrical & Computer Engineering at the University of Michigan, Ann Arbor
Rachel Li, right, and Albert Anwar, both undergraduate students in the Electrical and Computer Engineering department, set up gear for a test run with the Michigan Mars Rover outside the Ford Robotics Building on the North Campus of the University of Michigan in Ann Arbor, MI on Saturday, February 5, 2022.
The goal of Saturday’s test was validating the long range communications between the rover the base station. They were also testing their ability to transmit drive commands and a camera stream. The Michigan Mars Rover Team will be competing in the 2022 University Rover Challenge which will take place the first week of June at the Mars Desert Research Station in Hanksville, Utah.
Photo: Brenda Ahearn/University of Michigan, College of Engineering, Communications and Marketing
Ankita Mahajan, an undergraduate in the Electrical and Computer Engineering Department, takes part in the Women in Electrical and Computer Engineering (WECE) Breadboarding 101 Workshop in the Electrical Engineering and Computer Science building on the North Campus of the University of Michigan on Tuesday evening, February 15, 2022. The workshop was lead by Enakshi Deb, and Hannah Parrish, both students in the ECE Department.
The Women in Electrical and Computer Engineering at the University of Michigan began in 2020 with a conversation between Enakshi Deb (the current president) and Isha Bhatt (former president). In 2022 the group was able to meet in person for the first time.
Photo: Brenda Ahearn/University of Michigan, College of Engineering, Communications and Marketing