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In a computer engineering school in the suburbs of Paris.
Tutorials on the topic of artificial intelligence.
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"En Travaux Dirigés à l'EFREI. Déc 2000."
Décembre 2000. Travaux dirigés d'Intelligence artificielle à l'EFREI, école d'ingénieurs en informatique (Villejuif).
Middle and High School Students and their parents attend the Electrical & Computer Engineering Workshop as part of Discover Engineering on North Campus of the University of Michigan in Ann Arbor, MI on August 1, 2019.
Photo by Robert Coelius/Michigan Engineering, Communications and Marketing
Pascale Fung, Chair Professor, Department of Electronic and Computer Engineering, Hong Kong University of Science and Technology, Hong Kong SAR, Chinaa and Bertram Shi, Professor, Hong Kong University of Science and Technology, Hong Kong SAR, China speaking in the Hacking Machines for Humanity with Hong Kong University of Science and Technology session at the at the Annual Meeting of the New Champions 2023 in Tianjin, People's Republic of China, 27 June 2023. Tianjin Meijiang Convention Center - Betazone. Copyright: World Economic Forum/Faruk Pinjo
DAVOS/SWITZERLAND, 21JAN15 - Pascale Fung , Professor, Department of Electronic and Computer Engineering, Hong Kong University of Science and Technology, Hong Kong SAR captured during the session Merging Virtual and Physical Worlds in the congress centre at the Annual Meeting 2015 of the World Economic Forum in Davos, January 21, 2015.
WORLD ECONOMIC FORUM/Benedikt von Loebell
Pascale Fung, Chair Professor, Department of Electronic and Computer Engineering, Hong Kong University of Science and Technology, Hong Kong SAR, Chinaa and Bertram Shi, Professor, Hong Kong University of Science and Technology, Hong Kong SAR, China speaking in the Hacking Machines for Humanity with Hong Kong University of Science and Technology session at the at the Annual Meeting of the New Champions 2023 in Tianjin, People's Republic of China, 27 June 2023. Tianjin Meijiang Convention Center - Betazone. Copyright: World Economic Forum/Faruk Pinjo
Middle and High School Students and their parents attend the Electrical & Computer Engineering Workshop as part of Discover Engineering on North Campus of the University of Michigan in Ann Arbor, MI on August 1, 2019.
Photo by Robert Coelius/Michigan Engineering, Communications and Marketing
Source: livinghistories.newcastle.edu.au/nodes/view/43821
This photo appeared in the News, Volume 12, Number 16, September 15 to 29, 1986. The text was:
"Theory put into practice
The Department of Electrical and Computer Engineering has developed an international reputation for its work on control theory. Control theory strives to solve the problems associated with controlling dynamic systems.
Over the past three years the Department has become involved in several scientific and industrial control problems which allow control theory to be put into practice. Two particularly interesting projects are servo control system for the Australia Telescope project and a rolling mill thickness control system.
Through TURNA (the University’s Research Company) the Department of Electrical and Computer Engineering has become consultants and sub-contractors to CSIRO to develop a digital servo control system and a multiprocessor computer system for the Australia Telescope project.
The project consists of seven 22 metre steerable antennae or radio telescope dishes. These antennae will be located at Culgoora, north-west NSW. The antennae are required to be pointed accurately and in unison at a point in the heavens in conditions where the earth is rotating and the wind my by gusting. The Department initially received $36,000 to develop control theory.
In conjunction with the CSIRO, Associate Professor Robin Evans and Dr Robert Betz of Electrical and Computer engineering Department carried out design and simulation studies to develop a digital servo control system which will point the antennae dish with an accuracy of around 2-3 arc seconds even in moderately windy condition.
A further $44,000 was provided to build a prototype servo control computer one of which will be installed in the base of all seven antennae. This phase represents putting the theory into practice. Over the past 12 months Professor A. Cantoni, Professor R. Evans, Dr R. Betz, Dr S. Chan and Technical Officer Daryl Cramm have developed this prototype. The prototype consists of eight high performance microprocessors which communicate over a multibus via 2 port memories. There are three feed back control loops: one for azimuth (sideways pointing); one for elevation; and one for the subreflector. Each servo control computer will receive commands from a central computer at the rate of 15 times per second. This enables the dishes to maintain a fixed position by moving to cancel out the affects of the Earth’s rotation.
The CSIRO has developed the Central Computer System and the Department has worked in close liaison with the CSIRO throughout the project.
At present 2 pre-production servo control computers are being built by the Department and will be installed in December, 1986.
Professor Evans explained that this project represents a healthy interaction between theory and practice and several new theories have resulted from developing the prototype digital servo control systems.
The Department has also working in conjunction with Industrial Automation Services at Speers Point to develop a rolling mill eccentricity control which allows metal to be rolled to within a few micros accuracy. At present the metal is rolled between 2 huge rollers which are not uniformly round and this results in variation of the metal thickness. Professor G. Goodwin of the Department has developed a control system based on theoretical algorithms which adjusts the rollers in such a way that this eccentricity is removed. This results in great cost savings for the manufacturer as less metal is required to obtain optimum strength and manufacture of the metal into tin has fewer problems.
This system is currently on trail at Australian Iron and Steel (AIS), Port Kembla and results are extremely encouraging. Considerable interest has been shown in the system by overseas rolling mill manufactures."
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.
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Grason Humphrey graduated Summa Cum Laude in December 2019 with a Bachelor of Science in Electrical Engineering and Computer Engineering and will graduate in December 2020 with a Master of Science in Electrical Engineering. He received the Outstanding Senior Award and ranked number one in the Department of Electrical and Computer Engineering. Grason served as a member and president of the Alpha Omega Campus Ministry. Off campus, Grason volunteered as a web designer for HOPE worldwide hospitals in Cambodia and was a volunteer American Sign Language teacher for Neighbor2Neighbor. Grason will intern with Black & Veatch this summer before completing his graduate degree. Photo by Rhiannon See.
Middle and High School Students and their parents attend the Electrical & Computer Engineering Workshop as part of Discover Engineering on North Campus of the University of Michigan in Ann Arbor, MI on August 1, 2019.
Photo by Robert Coelius/Michigan Engineering, Communications and Marketing
Mayukh Nath, Computer Engineering Undergraduate Student, works on the antennae of the Mi-TEE cubesate inside the Climate & Space Research Building at
2455 Hayward Street in Ann Arbor, MI. on March 31, 2019.
Mi-TEE (Miniature Tether Electrodynamics Experiment) is a proof of concept run by Professor of Electrical Engineering and Computer Science Brian Gilchrist and is a part of the University of Michigan's Multidisciplinary Design Program that will help space explorers better understand the feasibility of a novel propulsion technology – miniature electrodynamic (ED) tethers – as means to provide propellantless propulsion to new classes of very small satellites known as picosats and femtosats.
A NASA space mission for MiTEE - 1 is planned for the first quarter of 2020.
Photo by Robert Coelius/Michigan Engineering, Communications and Marketing
Stavros V. Georgakopoulos, Assistant Professor. Department of Electrical and Computer Engineering, with origami antenna
Six years ago for a Computer Engineering course at UT, I lead a group of developers to design a virtual tour of the Umlauf Sculpture Garden in Austin, Texas. It was a java based application that panned through jpegs of each statue for a 360 degree view of the art work. Each statue required about a 100+ photos to achieve the desired effect. So with my handy Olympus 5050, a tripod and unlimited access to the grounds I spent my semester (among other things) circling statues and shooting pictures.
The overall project was a success and our code was featured on their website for a considerable period of time.(It has since been redesigned) It was humbling to return to the grounds many years removed from being a student and sporting a point and shoot. As if I was visiting old friends who'd I hadn't seen in a while. Please allow me reintroduce these characters to you in my Umlauf Set.
I appreciate all comments, feedback and criticisms and will return the favor.
Keep creating and stay thirsty my friends!
Middle and High School Students and their parents attend the Electrical & Computer Engineering Workshop as part of Discover Engineering on North Campus of the University of Michigan in Ann Arbor, MI on August 1, 2019.
Photo by Robert Coelius/Michigan Engineering, Communications and Marketing
Dr. Mark Aune, Honors Program Director, and Sebastian DeLong, computer engineering major, Strike a Spark annual conference at PennWest California, April 19, 2023
Electrical and Computer Engineering PhD Ceremony
May 13th, 2023
Studio Theater, Cohon University Center
The NEES Equipment Site at the University of Nevada, Reno is a multiple-shake-table facility (with three identical biaxial and one six degree-of-freedom shake-tables) that is suitable for conducting research on long, spatially distributed, structural and geotechnical systems. The facility is operational and managed as a national shared-use NEES equipment site, with teleparticipation capabilities, to provide new earthquake engineering research testing capabilities for large structural systems through 2014.