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Seokheun Choi, Assistant Professor of Electrical and Computer Engineering at the Watson School of Engineering and Applied Sciences, photographed at his laboratory in the Engineering and Science Building at the Innovative Technologies Complex with his origami battery he recently built, Monday, May 16. 2016.
Jonathan Cohen / Binghamton University
Engineers have developed a tiny, ultra-low power chip that could be injected just under the surface of the skin for continuous, long-term alcohol monitoring. The chip is powered wirelessly by a wearable device such as a smartwatch or patch. The goal of this work is to develop a convenient, routine monitoring device for patients in substance abuse treatment programs.
Press release: jacobsschool.ucsd.edu/news/news_releases/release.sfe?id=2521
Photo credit: David Baillot/UC San Diego Jacobs School of Engineering
Mayukh Nath, Computer Engineering Undergraduate Student inspects the upper unit on the Mi-TEE (Miniature Tether Electrodynamics Experiment) cubesat inside a CLaSP laboratory on North Campus in Ann Arbor, MI. before it launches into Earth's Ionosphere.
The space mission being planned by multiple student teams composed of undergraduate, Master’s, and doctoral students at the University of Michigan will test miniature electrodynamic tethers as a propulsion concept for small satellites.
The potential of the platform is tremendous: the low cost of launching satellites like picosats and femtosats into orbit due to their low mass and small size enables new paradigms for space missions using large numbers of spacecraft. Coordinated fleets of these satellites could provide the ability to perform simultaneous, multi-point sensing and rapid re-measurement of a single location.
Photo by Robert Coelius/ Michigan 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 than 25 degrees in technology and innovation are offered on the Polytechnic campus. Lab learning is crucial to these disciplines.
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
Professor Mohammad Taghi Rouhani Rankoohi
Faculty of Electrical and Computer Engineering
Shahid Beheshti University
Tehran, Iran
Sunday, April 20, 2008
تقریباً همزمان با شصت ویکمین سالروز تولد استاد برای دیدن ایشان و تبریک سالروز تولدشان بعد از مدتها به دانشگاه شهید بهشتی رفتم و این یکی از عکسهایی است که در این ملاقات گرفتم.
استاد محمدتقی روحانی رانکوهی
دانشکده مهندسی برق و کامپیوتر
دانشگاه شهيد بهشتی
تهران، ایران
یکشنبه اول اردیبهشت 1387
گفتگویی با ایشان در تاریخ 27 آبان ماه 1385 در دانشگاه شهید بهشتی
شبه اتوبيوگرافي؟
چيزي براي گفتن نيست. مخصوصاً براي کسي که دوست ندارد مطرح باشد، حالا چون پرسيديد، صرفاً براي رعايت ادب در پاسخ به سوال شما: متولد 1326 در يکي از شهرهاي شمال، (حالا مي شود اونور 59 سال)، تا 15 سالگي همانجا, بعد ديپلم رياضي از مدرسه هدف شماره 3 تهران، فارغ التحصيل 1348 دانشگاه تهران در رشته رياضي، دو سال سربازي، دو سال گچ خوردن در دبيرستانها، حدود شش سال در فرانسه، در دانشگاه پير و ماريکوري, تحصيل در رشته انفورماتيک و تله انفورماتيک، از اول مهر 58 عضو هيات علمي در مؤسسه عالي آمار و انفورماتيک و از اواخر 60 انتقال به دانشگاه شهيد بهشتي.
اينها را هم مي شد نگفت... بگذريم. ما که باشيم! به قول ابوسعيد: "هيچ ابن هيچ".
و در دانشگاه شهيد بهشتي؟
گفتم که از سال 60 اينجا هستم، با "قيل و قال مدرسه". البته سال به سال با دانشجويان جديد در کلاس, با آدمهاي "نو به نو" مواجه شدن و شايد رمز کهنه نشدن معلمي از جمله همين باشد. دانشجويان که البته آب روانند و ميروند و"ما سنگ و کلوخيم وته جوي بمانديم" , خودم را ميگويم.
يک سؤال کليشهاي؟ يک خاطره ؟
در سال آخر جنگ تحميلي و اوج بمباران تهران, دانشجويان آزاد بودند در انتخاب بين ماندن در تهران يا گرفتن واحد در شهرهاي ديگر، اما در عين حال صلاح نبود دانشگاه بسته شود. آن ايام معاون آموزشي دانشکده بودم. ميزم را براي ثبت نام و پذيرش دانشجويان پاي پلههاي طبقه همکف دانشکده گذاشته بودند و کنار پنجرهها کيسههاي شن چيده شده بود. کلاسها هم در زيرزمين بعضي از دانشکده هاي ديگر برگزار مي شد در حالي که پشت پنجرهها کيسههاي شن چيده بودند. مي بايست مي مانديم تا دانشگاه به فعاليت خود ادامه دهد. (کاش يکي از اين موبايلها بود که به اشارهاي عکس ميگيرند...)
کجاها درس دادهايد و يا درس ميدهيد؟
سابقاً تقريبا در اکثر دانشگاههاي تهران, در حال حاضر اينجا, "شريف" و "تهران".
سابقه کارهاي اجرايي؟
سال 58 سرپرست موقت موسسه آموزش عالي آمار و انفورماتيک حدود يک سال، در اينجا سال 63 شايد يکسال مدير گروه کامپيوتر و بعد حدود نه سال معاون آموزشي دانشکده، از سال 60 تا 73 عضويت در کميته برنامه ريزي رشته کامپيوتر در وزارت, مدتي هم عضويت در کميته واژه گزيني کامپيوتر فرهنگستان.
ـ پدر database ايران غير از استادي چه ميکند؟
چه ميکند؟ شاگردي!! پدر database يعني چه؟ به قول "خطيب زاده بلخي":
"زين دو هزاران من و ما ، اي صنما من چه منم؟"، پس آن پدر بودن که هيچ ... . من حتي توي باغ هم نيستم! "يک دسته گل کو اگر آن باغ بديدي؟!" ... گفتيد کار ديگر؟ گاهي ادبيات ميخوانم, همين.
- ولي شاگردان شما نميگويند "همين"!
به هر حال در اين سالها کاري نکردهام که درخور گفتن باشد، اگر هم تا حدي، وفاي به عهد کردم. به قول حافظ:
"چگونه سر ز خجالت برآورم بر دوست که خدمتي به سزا بر نيامد از دستم"
تاليف و ترجمه؟ کارهاي ديگر؟
در اين سالها قدري جهل پراکني کرديم ... فکر مي کنم ده کتاب از ترجمه و تاليف ..., چند مقاله و طرح پپوهشي
آثار برگزيده؟ و آن کتاب سال؟
کتاب (تاليف) تشويقي در مراسم کتاب سال 72 ـ کتاب (ترجمه) تشويقي در مراسم کتاب دانشگاه تهران سال 71، کتاب (تاليف) برگزيده در مراسم کتاب سال دانشگاه تهران سال 81 و کتاب سال در مراسم کتاب سال جمهوري اسلامي ايران سال 81.
و شيوه ارائه مطالب؟
آن هم يکي از کتابهاي من است ... شايد بدانيد که در اين زمينه در دانشگاههاي خارج کتابهاي زيادي نوشتهاند از جمله کتابهاي آن قفسه روبرو. من هم اين کتاب را تاليف کردم.
و آنچه باقي ماند؟
"سلامي دوباره" به همکاران ارجمند در دانشکده و دانشگاه و آرزوي خدمتگزاري روزافزون به دانش براي آنها، و توصيهاي به خودم و دانشجويان عزيز(البته اگر در جايگاه توصيه به آنها باشم): "اهل معنا" بمانيم و متوجه به آن "اصل مستغني و پاک" و اينکه "علم انوار است در جان جهان".
تمام حقوق محفوظ است ©
Maine’s nationally recognized robotics teams and STEM student leaders were honored by Governor Paul R. LePage and Education Commissioner Stephen Bowen this morning in a ceremony that reinforced the need for students to better develop the skills that will make them – and Maine – competitive in a global economy.
Representatives from businesses always eager to hire high-wage workers with skills in science, technology, engineering and mathematics – known as STEM – including Pratt & Whitney, Jackson Labs and Mid-State Machine Products, as well as the Manufacturers Association of Maine, joined the Governor and Commissioner for the celebration in the State House Hall of Flags.
Students on robotics teams at schools in Auburn, Brewer, Cape Elizabeth, Falmouth, Mount Desert Island and Oakland showed the Governor how their robots could throw Frisbees and climb steep slopes before he presented them with his second-annual Governor’s Promising STEM Youth Awards.
“Today, it’s your education, but tomorrow, it’s your job,” Governor LePage told the students. “The future of our great state is in the young minds here in this room. My job is to make sure you stay here. Your job is to prosper. The STEM education you are experiencing today will open the doors to good paying jobs for you tomorrow and allow you to come up with great answers to the very difficult problems we face.”
Others receiving recognition from Governor LePage included Ryanne Daily (John Bapst Memorial High School) and Kelsey Burke (Dirigo High School), Maine’s two delegates to the 2013 National Youth Science Camp; Mary Butler (Bangor High School), Meagan Currie (Greely High School) and Harry Pershing (Greely High School), who competed at the Intel International Science and Engineering Fair; and Nathan Dee (Bangor High School), who will be representing the state at the National Stockholm Junior Water Prize competition in Oregon next month.
Pratt & Whitney HR Manager Deborah Chipperfield said the North Berwick-based company sees its future building jet engines in Maine and supports STEM skill development efforts here to ensure they have the skilled workforce they need to continue growing.
In the next decade, it is estimated one in seven new Maine jobs will be STEM-related and the wages associated with the jobs in these areas are 58 percent higher than wages for other Maine occupations, the Education Commissioner said.
“We have tremendous resources for STEM education in Maine and there are tremendous opportunities in STEM careers,” said Commissioner Bowen. “As the state works to develop a highly-skilled workforce and increase its competitiveness in a global economy, we have to better connect those by fostering the collaborations you see here today between PreK-12 schools, Career and Technology Education centers, higher education and industry. And the success of these students and their robots nationally and even internationally help us imagine what is possible if we are successful in that.”
One such partnership is Project Login, launched late in 2012 by Educate Maine with the UMaine System with the goal of doubling the number of Maine graduates in computer science, computer engineering, and information technology in the next four years. That project is supported by businesses like IDEXX Laboratories, WEX, Maine Medical Center, Unum and TD Bank, who need the skilled Maine workers this effort will cultivate.
Wednesday’s awards are yet another opportunity developed by Governor LePage, Commissioner Bowen and the Maine Department of Education to promote the STEM-related innovation of Maine’s students and the contributions they will one day make to the economy while raising public awareness about the importance of STEM skill development.
The state has also been a leader in the development of the Next Generation Science Standards, a rigorous, internationally benchmarked standard for science education that will ensure science content and concepts prepares critically thinking students for the colleges and careers of the 21st century.
For more information about STEM from the Maine Department of Education, visit www.maine.gov/education/maine_stem.htm.
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
Stavros V. Georgakopoulos, Assistant Professor. Department of Electrical and Computer Engineering, with origami antenna
Stavros V. Georgakopoulos, Assistant Professor. Department of Electrical and Computer Engineering, with origami antenna
Lecturer IV Mark Brehob, center, helps with Tejal Mahajan, left, and Guthrie Tabios, both computer engineering undergraduate students, as they work together in the 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
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
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
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
Peng Zhou, a postdoctoral research fellow, sets up an experiment on the roof of the Wilson Student Team Project Center on the North Campus of the University of Michigan in Ann Arbor on Friday morning, October 14, 2022.
Zhou and other members of Zetian Mi’s research group are using the large magnifying glass to focus the sunlight directly on a small semiconductor covered in water. The solar energy is used to separate the hydrogen and oxygen into separate elements. “Basically, we’re using green energy to extract hydrogen from water,” said Professor Zetian Mi.
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
Stavros V. Georgakopoulos, Assistant Professor. Department of Electrical and Computer Engineering, with origami antenna
Xinjing Huang, Graduate Student Research Assistant for Electrical and Computer Engineering, displays a transparent solar cell at ECE Professor Stephen Forrest’s lab at 1437 EECS on North Campus in Ann Arbor, MI on September 3, 2021.
The new process for generating organic photovoltaics (OPVs) incorporates non-fullerene acceptors and is resulting in expected operation lifetimes of 30 years, making them suitable for niche applications that including installation inside building windows.
OPVs are flexible, can be manufactured relatively inexpensively and recent developments by Forrests group have proven them to be semi-transparent as well as efficient.
Photo: Robert Coelius/University of Michigan Engineering, Communications & Marketing
Stavros V. Georgakopoulos, Assistant Professor. Department of Electrical and Computer Engineering, with origami antenna
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
Showing most of the professors and office staff of BYU’s Electrical and Computer Engineering Department. We had our yearly, beginning-of-school retreat in a conference room in the Marriot Center. We interrupted our meeting for a tour of the building, including sitting in the newly installed seats. We got to see the locker rooms and lounge for the basketball team and hike through the inner canyons below the seats. No actual basketball was played. This photo appears to capture every possible human emotion.
For more of my creative projects, visit my short stories website: 500ironicstories.com
Stavros V. Georgakopoulos, Assistant Professor. Department of Electrical and Computer Engineering, with origami antenna
UH Engineering’s department of Electrical and Computer Engineering hosted their 7th annual alumni mixer at Saint Arnold Brewing Company Thursday, Nov. 14, 2019.
Professor Mohammad Taghi Rouhani Rankoohi
Faculty of Electrical and Computer Engineering
Shahid Beheshti University
Tehran, Iran
Sunday, April 20, 2008
تقریباً همزمان با شصت ویکمین سالروز تولد استاد برای دیدن ایشان و تبریک سالروز تولدشان بعد از مدتها به دانشگاه شهید بهشتی رفتم و این یکی از عکسهایی است که در این ملاقات گرفتم.
استاد محمدتقی روحانی رانکوهی
دانشکده مهندسی برق و کامپیوتر
دانشگاه شهيد بهشتی
تهران، ایران
یکشنبه اول اردیبهشت 1387
تمام حقوق محفوظ است ©
Christopher B. Roberts and Joseph Cowan, electrical and computer engineering (Outstanding Alumni recipient)
Maine’s nationally recognized robotics teams and STEM student leaders were honored by Governor Paul R. LePage and Education Commissioner Stephen Bowen this morning in a ceremony that reinforced the need for students to better develop the skills that will make them – and Maine – competitive in a global economy.
Representatives from businesses always eager to hire high-wage workers with skills in science, technology, engineering and mathematics – known as STEM – including Pratt & Whitney, Jackson Labs and Mid-State Machine Products, as well as the Manufacturers Association of Maine, joined the Governor and Commissioner for the celebration in the State House Hall of Flags.
Students on robotics teams at schools in Auburn, Brewer, Cape Elizabeth, Falmouth, Mount Desert Island and Oakland showed the Governor how their robots could throw Frisbees and climb steep slopes before he presented them with his second-annual Governor’s Promising STEM Youth Awards.
“Today, it’s your education, but tomorrow, it’s your job,” Governor LePage told the students. “The future of our great state is in the young minds here in this room. My job is to make sure you stay here. Your job is to prosper. The STEM education you are experiencing today will open the doors to good paying jobs for you tomorrow and allow you to come up with great answers to the very difficult problems we face.”
Others receiving recognition from Governor LePage included Ryanne Daily (John Bapst Memorial High School) and Kelsey Burke (Dirigo High School), Maine’s two delegates to the 2013 National Youth Science Camp; Mary Butler (Bangor High School), Meagan Currie (Greely High School) and Harry Pershing (Greely High School), who competed at the Intel International Science and Engineering Fair; and Nathan Dee (Bangor High School), who will be representing the state at the National Stockholm Junior Water Prize competition in Oregon next month.
Pratt & Whitney HR Manager Deborah Chipperfield said the North Berwick-based company sees its future building jet engines in Maine and supports STEM skill development efforts here to ensure they have the skilled workforce they need to continue growing.
In the next decade, it is estimated one in seven new Maine jobs will be STEM-related and the wages associated with the jobs in these areas are 58 percent higher than wages for other Maine occupations, the Education Commissioner said.
“We have tremendous resources for STEM education in Maine and there are tremendous opportunities in STEM careers,” said Commissioner Bowen. “As the state works to develop a highly-skilled workforce and increase its competitiveness in a global economy, we have to better connect those by fostering the collaborations you see here today between PreK-12 schools, Career and Technology Education centers, higher education and industry. And the success of these students and their robots nationally and even internationally help us imagine what is possible if we are successful in that.”
One such partnership is Project Login, launched late in 2012 by Educate Maine with the UMaine System with the goal of doubling the number of Maine graduates in computer science, computer engineering, and information technology in the next four years. That project is supported by businesses like IDEXX Laboratories, WEX, Maine Medical Center, Unum and TD Bank, who need the skilled Maine workers this effort will cultivate.
Wednesday’s awards are yet another opportunity developed by Governor LePage, Commissioner Bowen and the Maine Department of Education to promote the STEM-related innovation of Maine’s students and the contributions they will one day make to the economy while raising public awareness about the importance of STEM skill development.
The state has also been a leader in the development of the Next Generation Science Standards, a rigorous, internationally benchmarked standard for science education that will ensure science content and concepts prepares critically thinking students for the colleges and careers of the 21st century.
For more information about STEM from the Maine Department of Education, visit www.maine.gov/education/maine_stem.htm.
Gabor Temes, a professor of electrical and computer engineering at Oregon State University. (Photo by Herma Ornes)
Geraldina Interiano-Wise, UH Cullen College of Engineering Artist-in-Residence, performs a live art-neuroscience production of The Nahual Project at the Moody Center at Rice University Tuesday, April 20, 2021. A component of the Creativity Up Close series, the event was a collaboration of Dr. Jose Contreras-Vidal (UH) and Dr. Anthony Brandt (Rice).
Pictured (l. to r.) are Dr. Mohammadreza Ghahremani, assistant professor of computer engineering, Outstanding Faculty Award in Research; Dr. Amy DeWitt, associate professor of sociology, Outstanding Faculty Award in Service; Dr. Scott Beard, provost; Dr. Stacey Kendig, chair of the Department of Health, Physical Education, Recreation, and Sport, Outstanding Faculty Award for Advising; and Dr. Jordan Mader, associate professor of chemistry, Outstanding Faculty Award for Teaching.