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Detail photo of the wires and connections that make Over the Board Chess work at the College of Engineering Design Expo in the Bob and Betty Beyster Building on the North Campus of the University of Michigan in Ann Arbor, on Thursday, November 30, 2023.
Over the Board Online Chess is a product that allows users to play chess with online opponents over Lichess (an online chess website) while sitting at a physical chess board. When the user makes their move on the board, it is streamed over Lichess to their opponent. When the opponent makes a move, their moves are played out automatically on the physical chess board. This product is helpful for those that enjoy the laxity and flexibility of online chess, but prefer having a physical board and clock in front of them. An array of Hall effect sensors under the board detect user moves and an electromagnet on an XY plotter make the opponent moves. The product comes with an integrated clock that displays both player's times, a scoreboard that displays game state, and buttons that allow the user to make a game, accept/offer draws, and resign to enhance the merged experience of online and over the board chess. There is also a mobile app that lets the user pair with the board to setup WiFi connection, Lichess login, and game configurations such as color preference and time control.
The project was a collaboration between Anna Huang, Rajin Nagpal, Braeden Mahnke, and Mandy He.
Photo: Brenda Ahearn/University of Michigan, College of Engineering, Communications and Marketing
Doctoral student Dheeraj Mohata, left, and Suman Datta, professor of electrical engineering, teamed with researchers at the University of Notre Dame to announce a breakthrough in the development of tunneling field effect transistors, a semiconductor technology that takes advantage of the quirky behavior of electrons at the quantum level. (Photo credit: Curtis Chan)
Maia Herrington, Jose Luiz Vargas, left, and Nathaniel Kalantar, right, explain their project to Ben Estell at the College of Engineering Design Expo in the Bob and Betty Beyster Building on the North Campus of the University of Michigan in Ann Arbor, on Thursday, November 30, 2023. Herrington and Estell are both undergraduates in Computer Science, Vargas is an undergrad in Aerospace Engineering, and Kalantar is an undergraduate in Electrical Engineering.
Their project, Maize Toss: Automatic Scoring System for Cornhole was created in Mark Brehob's, EECS 473: Advanced Embedded Systems Design. Their goal: Cornhole is a popular yard game in the Midwest and around the country. Because of its social nature, players often forget their score. Our project will automate this scoring with RFID. The Maize Toss system uses RFID to detect bean bags that land on the cornhole board or inside the cornhole. The system uses three main units to accomplish this: two RFID-enabled cornhole board units and a score display unit (SDU). They follow American Cornhole League conventions minus the addition of the SDU.
The project was a collaboration between Evan Edit, Maia Herrington, Elham Islam, Nathaniel Kalantar, and Jose Luiz Vargas de Mendonca.
Photo: Brenda Ahearn/University of Michigan, College of Engineering, Communications and Marketing
Doctoral student Dheeraj Mohata, left, and Suman Datta, professor of electrical engineering, teamed with researchers at the University of Notre Dame to announce a breakthrough in the development of tunneling field effect transistors, a semiconductor technology that takes advantage of the quirky behavior of electrons at the quantum level. (Photo credit: Curtis Chan)
A fountain outside the Electrical Engineering building, on Cambridge University's West Site, fires a jet of water.
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Dedication of EE lab equipment donated by B&K Precision; President/CEO Victor Tolan tours BCOE with Dean Abbaschian
Dedication of EE lab equipment donated by B&K Precision; President/CEO Victor Tolan tours BCOE with Dean Abbaschian
Doctoral student Dheeraj Mohata, left, and Suman Datta, professor of electrical engineering, teamed with researchers at the University of Notre Dame to announce a breakthrough in the development of tunneling field effect transistors, a semiconductor technology that takes advantage of the quirky behavior of electrons at the quantum level. (Photo credit: Curtis Chan)
This is pretty much my bible. I used this book a lot when I was at Devry and I am finding uses for it now. I think this was the best investment I ever made. Pretty much a good book for anything related to Electrical Engineering (including the mathematics of it). Day 215 of the project.
From right, Ruben Gonzalez, looks up as Victor Flores points to one of the screens in the Control Room of the Zetawatt-Equivalent Ultra-short laser pulse System (ZEUS) at the U-M Center for Ultrafast Optical Sciences in the Carl A. Gerstacker Building on the North Campus of the University of Michigan in Ann Arbor on Wednesday, August 14, 2024. Both are students in Franklin Dollar’s research group at the University of California, Irvine. Gonzalez is an undergraduate, Flores is working toward his PhD.
Dollar’s work involves making the plasmas and seeing what they do, and optimizing experiments to produce X-rays or particle beams. These have applications in medicine, semiconductor engineering, basic research, and more. Dollar describes the experiment he and his team are currently running as “one of the most powerful interactions in the known universe.” When the infrared laser fires it is invisible to human eyes. Additionally the laser is conveyed inside a series of metal boxes that prevent any of the light from escaping. Even so, the concrete reinforced Control Room is the nearest anyone wants to be because at peak power the laser is three petawatts, or more than 100 times the global electricity production, but only for a few quintillionths of a second. The laser itself does not create radiation, but when it reaches the experimental room, the light interacts and generates radiation. There are extensive protocols for making sure that no people are in the area, since unnecessary radiation dose is never a good thing.
Dollar got both his Masters in Electrical Engineering in 2010 and his PhD in Applied Physics in 2012, from the University of Michigan. The students on his team from Physics and Astronomy at UC, Irvine are PhD’s Josh Lewis, Christopher Gardner, Victor Flores, and undergrad Ruben Gonzalez.
Photo: Brenda Ahearn/University of Michigan, College of Engineering, Communications and Marketing