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Archive for the ‘wearables’ category: Page 12

Dec 3, 2023

Long in the Bluetooth: Scientists develop a more Efficient way to Transmit Data between Our Devices

Posted by in categories: mobile phones, wearables

University of Sussex researchers have developed a more energy-efficient alternative to transmit data that could potentially replace Bluetooth in mobile phones and other tech devices. With more and more of us owning smart phones and wearable tech, researchers at the University of Sussex have found a more efficient way of connecting our devices and improving battery life. Applied to wearable devices, it could even see us unlocking doors by touch or exchanging phone numbers by shaking hands.

Professor Robert Prance and Professor Daniel Roggen, of the University of Sussex, have developed the use of electric waves, rather than electromagnetic waves, for a low-power way to transmit data at close range, while maintaining the high throughput needed for multimedia applications.

Bluetooth, Wifi, and 5G currently rely on electromagnetic modulation, a form of wireless technology which was developed over 125 years ago.

Dec 1, 2023

Enhancing supercapacitor performance through design optimization of laser-induced graphene and MWCNT coatings for flexible and portable energy storage

Posted by in categories: energy, nanotechnology, wearables

The field of supercapacitors consistently focuses on research and challenges to improve energy efficiency, capacitance, flexibility, and stability. Low-cost laser-induced graphene (LIG) offers a promising alternative to commercially available graphene for next-generation wearable and portable devices, thanks to its remarkable specific surface area, excellent mechanical flexibility, and exceptional electrical properties. We report on the development of LIG-based flexible supercapacitors with optimized geometries, which demonstrate high capacitance and energy density while maintaining flexibility and stability. Three-dimensional porous graphene films were synthesized, and devices with optimized parameters were fabricated and tested. One type of device utilized LIG, while two other types were fabricated on LIG by coating multi-walled carbon nanotubes (MWCNT) at varying concentrations.

Nov 30, 2023

Solos AirGo3, Wearable ChatGPT

Posted by in category: wearables

The new Solos AirGo3 Smartglasses look like regular frames, but feature ChatGPT, making them more than another pair of audio smartglasess, and they’re priced at an accessible $199.99.


Smartglasses just got a lot smarter.

Nov 27, 2023

Team uses gold nanowires to develop wearable sensor that measures two bio-signals

Posted by in categories: biotech/medical, chemistry, information science, nanotechnology, wearables

A research team led by Professor Sei Kwang Hahn and Dr. Tae Yeon Kim from the Department of Materials Science and Engineering at Pohang University of Science and Technology (POSTECH) used gold nanowires to develop an integrated wearable sensor device that effectively measures and processes two bio-signals simultaneously. Their research findings were featured in Advanced Materials.

Wearable devices, available in various forms like attachments and patches, play a pivotal role in detecting physical, chemical, and electrophysiological signals for disease diagnosis and management. Recent strides in research focus on devising wearables capable of measuring multiple bio-signals concurrently.

However, a major challenge has been the disparate materials needed for each signal measurement, leading to interface damage, complex fabrication, and reduced device stability. Additionally, these varied signal analyses require further signal processing systems and algorithms.

Nov 21, 2023

Researchers develop a stretchable and efficient wearable thermoelectric energy harvester

Posted by in categories: energy, wearables

Dr. Hyekyoung Choi and Min Ju Yun’s research team from the Energy Conversion Materials Research Center, Korea Electrotechnology Research Institute (KERI), has developed a technology that can increase the flexibility and efficiency of a thermoelectric generator to the world’s highest level by using “mechanical metamaterials” that do not exist in nature. The research results were published in Advanced Energy Materials.

In general, a material shrinks in the vertical direction when it is stretched in the horizontal direction. It is like when you press a rubber ball, it flattens out sideways, and when you pull a rubber band, it stretches tightly.

The amount of transversal elongation divided by the amount of axial compression is Poisson’s ratio. Conversely, mechanical metamaterials, unlike materials in nature, are artificially designed to expand in both the horizontal and vertical directions when it is stretched in the horizontal direction. Metamaterials have a negative Poisson’s ratio.

Nov 16, 2023

Wearable device harnesses body sounds for continuous health monitoring

Posted by in categories: biotech/medical, health, wearables

The devices demonstrated clinical-grade accuracy and introduced novel functionalities not seen in prior research or clinical care.


Northwestern University.

Furthering the scope of such examinations, a team of researchers at Northwestern University (NU) is now presenting novel wearable technology much more advanced than the intermittent measures made during periodic medical examinations.

Continue reading “Wearable device harnesses body sounds for continuous health monitoring” »

Nov 14, 2023

Glasses use sonar, AI to interpret upper body poses in 3D

Posted by in categories: augmented reality, health, robotics/AI, virtual reality, wearables

Throughout history, sonar’s distinctive “ping” has been used to map oceans, spot enemy submarines and find sunken ships. Today, a variation of that technology – in miniature form, developed by Cornell researchers – is proving a game-changer in wearable body-sensing technology.

PoseSonic is the latest sonar-equipped wearable from Cornell’s Smart Computer Interfaces for Future Interactions (SciFi) lab. It consists of off-the-shelf eyeglasses outfitted with micro sonar that can track the wearer’s upper body movements in 3D through a combination of inaudible soundwaves and artificial intelligence (AI).

With further development, PoseSonic could enhance augmented reality and virtual reality, and track detailed physical and behavioral data for personal health, the researchers said.

Nov 14, 2023

AI Pin Wants To Be A Star Trek Communicator And Kill Smartphones

Posted by in categories: mobile phones, robotics/AI, wearables

Published 6 seconds ago.

We’re getting one step closer to wearable Star Trek technology in the form of a new device called the “Ai Pin.” (via Humane). The AI Pin was created by a startup company called Humane, which is primarily led by ex-Apple employees who want to transform how we interact with our devices.

Nov 10, 2023

The next great health wearable? Earbuds that analyze brain waves and sweat content

Posted by in categories: biotech/medical, health, neuroscience, wearables

A first-of-its-kind flexible sensor turns a pair of earbuds into a device capable of recording brain activity and analyzing sweat, making them useful for diagnosing diseases and health monitoring.

The background: Health monitoring wearables can measure our blood pressure, track our heart rates, and even detect infections before we start to feel sick, helping us take better care of ourselves and potentially even giving us a way to prevent the spread of diseases.

The devices are useless if no one wants to wear them, though, so finding designs that are comfortable and easy to integrate into daily life is key. Because earbuds are already popular, researchers have used them as the basis for health monitoring devices that record brain activity to predict strokes, epileptic seizures, or Parkinson’s disease.

Nov 6, 2023

Smart Glasses Revolution: Unlocking Human Potential with Phantom Technology’s AR Assistant

Posted by in categories: augmented reality, information science, robotics/AI, wearables

The future of smart glasses is about to change drastically with the upcoming release of DigiLens ARGO range next year. These innovative smart glasses will be powered by Phantom Technology’s cutting-edge spatial AI assistant, CASSI. This partnership between DigiLens, based in Silicon Valley, and Phantom Technology, located at St John’s Innovation Centre, brings together the expertise of both companies to create a game-changing wearable device.

Phantom Technology, an AI start-up founded by a group of brilliant minds, has been working diligently over the years to develop advanced human interface technologies for AI wearables. Their breakthrough 3D imaging technology allows users to identify objects in their environment, enhancing their overall experience. With DigiLens incorporating Phantom’s patented optical platform into their consumer product, customers can expect a new era of smart glasses with unparalleled features.

CASSI, the novel spatial AI assistant designed by Phantom Technology, aims to boost productivity and awareness in enterprise settings. This innovative assistant combines computer vision algorithms with a large language model, enabling users to receive step-by-step instructions and assistance for various tasks. Imagine effortlessly locating any physical object or destination in the real world with 3D precision, using your voice to generate instructions, and seamlessly managing tasks using augmented reality.

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