Sentences with phrase «lead devices team»

Microsoft shows how to flush decades of Nokia goodwill away Microsoft gets less than $ 10 per Windows Phone unit Microsoft - Nokia deal: Reaction from the Twitter trenches Elop drops Nokia CEO role to lead devices team under Microsoft deal Microsoft - Nokia deal: 11 quick facts Microsoft to buy Nokia's devices, services unit for $ 7.2 B

Microsoft shows how to flush decades of Nokia goodwill away Microsoft gets less than $ 10 per Windows Phone unit Microsoft - Nokia deal: Reaction from the Twitter trenches Elop drops Nokia CEO role to lead devices team under Microsoft deal Microsoft to buy Nokia's devices, services unit for $ 7.2 B

The device is the latest technology innovation from a 22 - person research team led by Balooch.

These customer conversations led the Tidepool team to further refine their understanding of the device makers» economics.

As mobile devices continue to change the way people interact with the world around them, we will work with the Deck team in creating design - led software and productivity solutions.»

Rene started his career as a medical device industry analyst and was ultimately promoted to lead a global medical device market intelligence team based in Toronto, India and China, with the Millennium Research Group (MRG), a division of the Decision Resources Group (DRG).

Feb. 19, 2013 — A team at the NUS Department of Electrical & Computer Engineering led by Dr Qiu Cheng - Wei has come out with an optical device to «engineer» ghosts.

NFL teams use a device during the draft (referenced above in my lead on the Niners) called the draft - trade value chart, which assigns points to every pick in the draft.

Alvarez, who spent a decade leading healthcare and clinical research teams, interviewed about 5,000 women about what their pumping experiences and worked with her husband, a mechanical engineer who specializes in medical devices, to create a prototype out of a surgical glove, washer, syringe and duct tape.

A research team led by scientists from Brigham and Women's Hospital has developed a novel technology platform that enables the continuous and automated monitoring of so - called «organs - on - chips» — tiny devices that incorporate living cells to mimic the biology of bona fide human organs.

A team led by Brown University neuroscientist John Donoghue has implanted sensors in the brains of four quadriplegic patients that connect signals from the motor cortex to output devices, thereby enabling paralyzed patients to move computer cursors, control robotic limbs, and operate wheelchairs.

One team, led by scientists in the United Kingdom and Brazil, drove more than 1,200 miles across Brazil — «a Top Gear — style road trip,» one scientist quipped — with a portable device that could produce a complete catalog of the virus's genes in less than a day.

Within months a team led by David Smith of Duke University in Durham, North Carolina, had built such a device using exotic «metamaterials» — materials with unusual electromagnetic properties that are not found in nature.

Now Tittel's group, and a separate team led by Nicolas Gisin at the University of Geneva in Switzerland, have created practical, solid - state quantum - memory devices.

As it can take weeks to grow human cells into intact differentiated and functional tissues within Organ Chips, such as those that mimic the lung and intestine, and researchers seek to understand how drugs, toxins or other perturbations alter tissue structure and function, the team at the Wyss Institute for Biologically Inspired Engineering led by Donald Ingber has been searching for ways to non-invasively monitor the health and maturity of cells cultured within these microfluidic devices over extended times.

Now, a team led by George Grüner at the University of California, Los Angeles, has printed a supercapacitor for the first time, building on earlier theoretical work to provide quick bursts of power that today's electronics devices demand.

Scientists at Queen's University Belfast have been working as part of an international team to develop a new process, which could lead to a new generation of high - definition (HD), paving the way for brighter, lighter and more energy efficient TVs and smart devices.

In an effort to create a power source for future implantable technologies, a team led by Michael Mayer from the University of Fribourg, along with researchers from the University of Michigan and UC San Diego, developed an electric eel - inspired device that produced 110 volts from gels filled with water, called hydrogels.

University Professor of Applied Physics Stephen Arnold and his team at the New York University Tandon School of Engineering have made a discovery that could lead to Star Trek - like biosensor devices capable of flagging the barest presence in blood of a specific virus or antibody, or protein marker for a specific cancer; or sniffing out airborne chemical warfare agents while they are still far below toxic levels.

Now a team led by Matthias Troyer of ETH Zurich in Switzerland has tested a D - Wave Two computer against a conventional machine running an optimised algorithm — and found no evidence of superior performance in the quantum device.

A team led by Latha Venkataraman, professor of applied physics and chemistry at Columbia Engineering and Xavier Roy, assistant professor of chemistry (Arts & Sciences), published a study today in Nature Nanotechnology that is the first to reproducibly demonstrate current blockade — the ability to switch a device from the insulating to the conducting state where charge is added and removed one electron at a time — using atomically precise molecular clusters at room temperature.

Prof. Cho and his research team have developed a new type anode material that would be used in place of a conventional graphite anode, which they claim will lead to lighter and longer - lasting batteries for everything from personal devices to electric vehicles.

To resolve the mystery around their complex defensive behavior, a Canadian research team, led by Dr. Sean McCann, Simon Fraser University, have used simple components to develop and construct a device that consequently helped them to locate the species - specific alarm pheromones in three wasp groups.

An emergency medicine physician and a network engineer led a team called Final Frontier Medical Devices to develop a Star Trek — inspired device that yesterday won the international Qualcomm Tricorder X Prize, The Washington Post reports.

A team of researchers from the National University of Singapore (NUS) has developed a novel handheld device, known as CLiKX, for the treatment of a condition called Otitis Media with Effusion (OME), or «glue ear», which is the leading cause of hearing loss and visits to the doctors among children worldwide.

Led by Dr Yang Hyunsoo, the team developed a new device structure useful for the next generation MRAM chip which can potentially be applied to enhance the user experience in consumer electronics, including personal computers and mobile devices such as laptops and mobile phones.

A team of researchers led by John Rogers, a materials scientist at the University of Illinois, Urbana - Champaign, has developed a way to incorporate widely available rigid electronic components into a structure that would still be flexible like Kim's device.

Thanks to a new four - year $ 15.8 M grant from the U.S. Department of Defense's Defense Advanced Research Projects Agency (DARPA), Columbia Engineering Professor Ken Shepard, a pioneer in the development of electronics that interface with biological systems, is leading a team to do just that: invent an implanted brain - interface device that could transform the lives of people with neurodegenerative diseases or people who are hearing and visually impaired.

Dr. Michael Kilgard, associate director of the Texas Biomedical Device Center (TxBDC) and Margaret Forde Jonsson Professor of Neuroscience in the School of Behavioral and Brain Sciences, led the research team with Dr. Seth Hays, the TxBDC director of preclinical research and assistant professor of bioengineering in the Erik Jonsson School of Engineering and Computer Science, and postdoctoral researcher Eric Meyers PhD» 17.

Lead author Jeremy Munday, now a postdoc in physics at the California Institute of Technology, says that his team's research may lend itself to producing ultrasensitive detectors and almost friction - free devices by separating their components via Casimir repulsion.

The Nanoscale Advanced Integrated Systems (NAIS) Lab Team at Korea Advanced Institute of Science and Technology (KAIST), led by Professor Hyeon - Min Bae of the Electrical Engineering Department and researchers at OBELAB, a spin - off startup of NAIS Lab (hereinafter «the KAIST team»), is ready to launch its first NIRS device, NIRSIT, to the neuroimaging world as early as March 2Team at Korea Advanced Institute of Science and Technology (KAIST), led by Professor Hyeon - Min Bae of the Electrical Engineering Department and researchers at OBELAB, a spin - off startup of NAIS Lab (hereinafter «the KAIST team»), is ready to launch its first NIRS device, NIRSIT, to the neuroimaging world as early as March 2team»), is ready to launch its first NIRS device, NIRSIT, to the neuroimaging world as early as March 2016.

A team of biomedical engineers at Washington University in St. Louis, led by Lihong Wang, PhD, the Gene K. Beare Distinguished Professor of Biomedical Engineering, has developed the world's fastest receive - only 2 - D camera, a device that can capture events up to 100 billion frames per second.

While functional MRI has been the leading neuroimaging device used by researchers for cognitive research, the KAIST team is confident that this will change over a short period of time from the introduction of NIRSIT.

A team of researchers led by North Carolina State University has found that stacking materials that are only one atom thick can create semiconductor junctions that transfer charge efficiently, regardless of whether the crystalline structure of the materials is mismatched — lowering the manufacturing cost for a wide variety of semiconductor devices such as solar cells, lasers and LEDs.

In an effort to overcome these limitations, a team at the Wyss Institute for Biologically Inspired Engineering led by its Founding Director, Donald Ingber, M.D., Ph.D., had previously engineered a microfluidic «Organ - on - a-Chip» (Organ Chip) culture device in which cells from a human intestinal cell line originally isolated from a tumor were cultured in one of two parallel running channels, separated by a porous matrix - coated membrane from human blood vessel - derived endothelial cells in the adjacent channel.

In what is believed to be the first study of the prevalence of Ebola infection in international responders the research team, led by the London School of Hygiene & Tropical Medicine and funded by the Wellcome Trust, enrolled 300 UK and Ireland healthcare and other frontline workers ¹ for the study and sent them oral fluid collection devices.

«Because FPGAs are programmable and they tightly couple software and hardware interfaces, there's concern they may introduce a whole new class of vulnerabilities compared to other microelectronic devices,» said Lee W. Lerner, a researcher who leads the GTRI team studying FPGA security.

The remaining two people, who had no known exposure or symptoms, had positive results, but follow - up testing using different methods was negative, making Ebola virus infection very unlikely.The research team, led by the London School of Hygiene & Tropical Medicine and funded by the Wellcome Trust, enrolled 300 UK and Ireland healthcare and other frontline workers ¹ for the study and sent them oral fluid collection devices.

In order to measure the proportions of the oxygen isotopes in the zircons, the team, led by scientist Alexander Nemchin, used a device called an ion microprobe.

Now, for the first time, a team of scientists led by Professor Simon Schultz and Dr Luca Annecchino at Imperial College London has developed a robot and computer programme that can guide tiny measuring devices called micropipettes to specific neurons in the brains of live mice and record electrical currents, all without human intervention.

However, a new sensor developed at MIT could change that: A research team led by professor Michael Cima has invented an injectable device that reveals oxygen levels over several weeks and can be read with magnetic resonance imaging (MRI).

A team led by Latha Venkataraman, professor of applied physics and chemistry at Columbia Engineeringand Xavier Roy, assistant professor of chemistry (Arts & Sciences), published a study (DOI 10.1038 / nnano.2017.156) today in Nature Nanotechnology that is the first to reproducibly demonstrate current blockade — the ability to switch a device from the insulating to the conducting state where charge is added and removed one electron at a time — using atomically precise molecular clusters at room temperature.

The cardiology team performs its 100th lead extraction surgery — a delicate procedure to replace the thin wiring of lifesaving heart devices such as pacemakers or implantable defibrillators.

The advances she has led with her team in microfabricated pillar devices have pushed the state of the art in radiation detection.

He ran research and development for the medical device business unit of Minnesota - based SurModics and led a team of engineers at California - based Target Therapeutics, now Stryker Neurovascular.

«The charge carriers in our material are highly mobile and can move very fast under electric fields, allowing logic devices to switch rapidly such as for the on / off operation in transistors,» said UT's Ramki Kalyanaraman, who led the team.

Salleo's group led a multidisciplinary team of researchers in making a systematic study of a likely culprit of the inconsistent transistor performance in polycrystalline devices: the «grain» boundaries between crystals.

But by teaming up with OverDrive, a leading distributor of ebooks and other digital content and tapping into their extensive network of school and public libraries, the Amazon Kindle and Kindle apps (on PC and mobile devices) will help to improve the accessibility of literature in the transforming digital age of our treasured libraries.

Manage a lucrative business, with access for your team, clients, affiliates and leads on any internet device.

- after the remakes of Terry's Wonderland 3D and Dragon Quest Monsters 2, Yuji Horii asked the team what should be next - the choices were Caravan Heart (GBA), a professional version of Dragon Quest Monsters 2, or a brand new game - the staff made the plot together with Takeshi Uchikawa (who is currently directing Dragon Quest XI)- the suggestion was to make the theme become something catchy, which lead to a science fiction vibe - Horii said «anything's alright as long as it's interesting» - the creation of the Dragon Quest Monsters: Super Light helped build Joker 3 - fan feedback from the mobile game was used, which lead to monster stats being seen - the Reactor device lets you easily see all the things that occur on the field - the team had some trouble bringing together the ridable monsters aspect of the game, but eventually worked it out - the full game starts off with monsters that players can ride on land - you'll eventually unlock sea, air, and multi-jump land rising monsters - a «Big Air ride» was teased as well - by clearing the story, features will be unlocked that further modify monsters such as abilities and changing their sizes - Stealth Boxes which can not be found without using the Reactor only contains useful items that are optional - compulsory items that are needed to be found with the Reactor are placed in non-stealth locations - accessories can strengthen monsters, but monster strength is mainly determined from raising and combining them - features more offense - related content in the form of new spells and skills - new water - type spells are included - new skills added enable more detailed adjustments in versus, adding more strategic features - one of the items that can be bought with Communication Coins has the same effect with «Key of Encounters» - this lets players recruit monsters a bit more easily they've befriended before - since Communication Coins can only be obtained from multiplayer battles, it's completely optional - people who still do StreetPass but don't want to do multiplayer battles can still get them by combining monsters - DLC monsters are planned to be added regularly post-release until around Golden Week (April 29 — May 5)- - A national tournament is also planned, with more details coming later - carryover feature from Dragon Quest Monsters 2 that comes into play after the ending - players can bring up to 10 monsters which are ranked A or below from DQM2 to DQMJ3 each day