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Internet of things

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Illustration of what looks like a brain made out of circuits, floating in space

The future of the IoT (batteries not required)

Benton Calhoun SM '02 PhD '06 and David Wentzloff SM '02 PhD '07 are co-founders of Everactive, which uses wireless sensing to provide continuous remote monitoring for the industrial internet of things.

May 21, 2021

Photo of Vivienne Sze sitting at a table with lots of electronic equipment

Q&A: Vivienne Sze on crossing the hardware-software divide for efficient artificial intelligence

Her research focuses on more-efficient deep neural networks to process video, and more-efficient hardware to run applications.

April 28, 2021

text analysis system

A language learning system that pays attention — more efficiently than ever before

MIT researchers’ new hardware and software system streamlines state-of-the-art sentence analysis.

February 10, 2021

An illustration of a room with symbols for: people working, typing, and walking; the weather outside; heating systems; and the internet "cloud," all with WiFi symbols next to them

Making smart thermostats more efficient

A smart thermostat quickly learns to optimize building microclimates for both energy consumption and user preference.

December 18, 2020

Iot devices

System brings deep learning to “internet of things” devices

Advance could enable artificial intelligence on household appliances while enhancing data security and energy efficiency.

November 13, 2020

everactive

The factory of the future, batteries not included

Everactive provides an industrial “internet of things” platform built on its battery-free sensors.

August 20, 2020

Michael Hawley in Siem Reap, Cambodia, 2001

Michael Hawley, former professor of media arts and sciences, dies at 58

A modern-day Renaissance man, Hawley pioneered the internet of things, won the Van Cliburn amateur piano competition, and published the world’s largest book.

June 25, 2020

We’re approaching the limit of how small transistors can get. As a result, over the past decade researchers have been working to find other ways to improve performance so that the computer industry can continue to innovate.

If transistors can’t get smaller, then coders have to get smarter

MIT CSAIL researchers say improving computing technology after Moore's Law will require more efficient software, new algorithms, and specialized hardware.

June 5, 2020

Sapple, a system developed at the MIT Computer Science and Artificial Intelligence Laboratory, analyzes in-home appliance usage to better understand health patterns, using just radio signals and a smart electricity meter.

What can your microwave tell you about your health?

An MIT system uses wireless signals to measure in-home appliance usage to better understand health tendencies.

May 18, 2020

MIT researchers’ millimeter-sized ID chip integrates a cryptographic processor, an antenna array that transmits data in the high terahertz range, and photovoltaic diodes for power.

Cryptographic “tag of everything” could protect the supply chain

Tiny, battery-free ID chip can authenticate nearly any product to help combat losses to counterfeiting.

February 20, 2020

Venkat Arun of MIT stands in front of the prototype of RFocus, a software-controlled “smart surface” that uses more than 3,000 antennas to maximize the strength of the signal at the receiver.

A smart surface for smart devices

External system improves phones’ signal strength 1,000 percent, without requiring extra antennas.

February 3, 2020

Yury Polyanskiy

Sending clearer signals

Associate Professor Yury Polyanskiy is working to keep data flowing as the “internet of things” becomes a reality.

January 11, 2020

A system designed by researchers at MIT and elsewhere enables interconnected smart devices to cooperatively pinpoint their positions in noisy environments where GPS usually fails, which is useful for emerging “localization-of-things” applications.

System helps smart devices find their position

Connected devices can now share position information, even in noisy, GPS-denied areas.

October 2, 2019

MIT researchers have designed low-cost, photovoltaic-powered sensors on RFID tags that work in sunlight and dimmer indoor lighting, and can transmit data for years before needing replacement.

Photovoltaic-powered sensors for the “internet of things”

RFID-based devices work in indoor and outdoor lighting conditions, and communicate at greater distances.

September 27, 2019

MIT researchers have developed a novel chip that can compute complex quantum-proof encryption schemes efficiently enough to protect low-power “internet of things” (IoT) devices.

Securing the “internet of things” in the quantum age

Efficient chip enables low-power devices to run today’s toughest quantum encryption schemes.

March 1, 2019