Archive for the ‘wearables’ category: Page 53
Jan 24, 2019
GIGadgetsVideosASU Projection Wearable
Posted by Shailesh Prasad in category: wearables
Jan 21, 2019
Tiny skin patch the size of a dollar coin uses your sweat to measure health risks without a needle
Posted by Genevieve Klien in categories: biotech/medical, health, wearables
A new wearable patch can monitor your health through your sweat.
Fitness and health trackers are everywhere, but most of them are limited to collecting data on your heartbeat, how much your moving and information you manually input to their paired apps.
That’s helpful if you’re trying to get in shape, but for people suffering from chronic conditions and diseases — like kidney disease or cystic fibrosis — more exact and frequent analyses could alert them to life-endangering changes.
Jan 19, 2019
Google is buying Fossil’s smartwatch tech for $40 million
Posted by Genevieve Klien in categories: computing, wearables
While the company is no doubt losing quality employees, Fossil is still committed to wearable tech.
Rumors about a Pixel Watch have abounded for years. Such a device would certainly make sense as Google attempts to prove the viability of its struggling wearable operating system, Wear OSeems the company is finally getting serious about the prospect. Today Fossil announced plans to sell its smartwatch IP to the software giant for $40 million.
Sounds like Google will be getting a nice head start here as well. The deal pertains to “a smartwatch technology currently under development” and involves the transfer of a number of Fossil employees to team Google.
Continue reading “Google is buying Fossil’s smartwatch tech for $40 million” »
Jan 14, 2019
What will people wear in the future? | The Economist
Posted by Derick Lee in categories: finance, robotics/AI, sustainability, wearables
Innovation in fashion is sparking radical change. In the future clothes could be computers, made with materials designed and grown in a lab.
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Continue reading “What will people wear in the future? | The Economist” »
Dec 30, 2018
What will be the biggest stories of 2019? | Part One | The Economist
Posted by Derick Lee in categories: economics, health, law enforcement, robotics/AI, sex, transportation, wearables
Power suits, robotaxis, Leonardo da Vinci mania—just a few of the things to look out for in 2019. But what else will make our top ten stories for the year ahead?
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Continue reading “What will be the biggest stories of 2019? | Part One | The Economist” »
Dec 10, 2018
Soft Robotics for the Disabled — Harvard University
Posted by Richard Darienzo in categories: robotics/AI, wearables
Nov 30, 2018
Keyboard for your knuckles lets you type using only your fingers and thumb
Posted by Shailesh Prasad in categories: mobile phones, wearables
Nov 14, 2018
Stretchable thermoelectric coils for energy harvesting in miniature flexible wearable devices
Posted by Genevieve Klien in categories: biotech/medical, engineering, internet, wearables
Miniaturized semiconductor devices with energy harvesting features have paved the way to wearable technologies and sensors. Although thermoelectric systems have attractive features in this context, the ability to maintain large temperature differences across device terminals remains increasingly difficult to achieve with accelerated trends in device miniaturization. As a result, a group of scientists in applied sciences and engineering has developed and demonstrated a proposal on an architectural solution to the problem in which engineered thin-film active materials are integrated into flexible three-dimensional (3D) forms.
The approach enabled efficient thermal impedance matching, and multiplied heat flow through the harvester to increase efficient power conversion. In the study conducted by Kewang Nan and colleagues, interconnected arrays of 3D thermoelectric coils were built with microscale ribbons of the active material monocrystalline silicon to demonstrate the proposed concepts. Quantitative measurements and simulations were conducted thereafter to establish the basic operating principles and key design features of the strategy. The results, now published on Science Advances, suggested a scalable strategy to deploy hard thermoelectric thin-films within energy harvesters that can efficiently integrate with soft material systems including human tissue to develop wearable sensors in the future.
Thermoelectric devices provide a platform to incorporate ubiquitous thermal gradients that generate electrical power. To operate wearable sensors or the “Internet of Things” devices, the temperature gradient between the surrounding environment and the human body/inanimate objects should provide small-scale power supplies. Continued advances in the field focus on aggressive downscaling of power requirements for miniaturized systems to enhance their potential in thermoelectric and energy harvesting applications. Integrated processors and radio transmitters for example can operate with power in the range of subnanowatts, some recent examples are driven via ambient light-based energy harvesting and endocochlear potential. Such platforms can be paired with sensors with similar power to enable distributed, continuous and remote environmental/biochemical monitoring.
