PlayerMaker is a performance insight product for football teams. It’s a complete coaching tool which tracks and analyses metrics for physical, technical, tactical and biomechanical data as well auto-tagging video for fast and easy analysis.

The PlayerMaker strap houses a 6-axis motion sensor with accelerometer and gyro units that measure acceleration and radial velocity at 1000 times per second. Unique motion sensors on a player’s boot provide a significantly larger dataset than any other product. They detect every ball touch and build accurate gait profiles – without affecting performance.

The machine learning algorithms determine between different movements. Data is instantly sent to the analysis platform on the iPad Using BluetoothTM. Encased in unique durable silicon, the sensor is safe under impact in all playing conditions, and its position does not impact player performance.

Related New York City FC Partners with PLAYR Soccer GPS Tracking System

The company said it built the world’s largest football database over four years and used it to ‘teach’ their advanced machine learning algorithms to play football. They can determine football movements and handle unpredictable situations. The technology has been tested by top universities and proven to be very accurate.

Case Studies

Millwall Football Club

Dan Mlinar, lead Youth Development Phase Coach at Millwall Football Club in London, has been coaching youth football teams for 9 years. He was introduced to PlayerMaker in January 2018.

“Quite simply, the players put the sensors on their boots before entering the field; we deliver the session and 5 minutes after training finishes, we already have the data on the team’s profile page within the PlayerMaker dashboard,” Milnar said.

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“PlayerMaker allows me to analyze the technical and physical abilities of my players and trialists. I use PlayerMaker to analyze my sessions; ensuring we achieved the outcome we wanted for the players.”

A few months later, Millwall FC Academy implemented the PlayerMaker smart footwear for the U16s team.

“The amount of data collected means we get a holistic understanding of what’s happening every time the player is out in the field,” said Jim Summersby, the Sports Scientist for the U16 players.

Related How Wearables Could Help Gloomy US Soccer Get Back on Track

Maccabi Tel Aviv

Maccabi Tel Aviv is another football team that benefited from the Playermaker.

Ilan Richardson, Head of Sports Science at Maccabi Tel Aviv. Using a mix of PlayerMaker’s own software and its integration capabilities with other systems, Ilan is able to see how players are progressing over time as well as a get a more complete understanding about whether teams are hitting their goals for training sessions.

Playermaker helps provide coaches at Maccavi Tel Aviv a holistic view about how the academy is performing, allowing them to make sure that the footballing philosophy of the team is being embraced by the entire staff.

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The Samsung Galaxy Watch was launched in August 2018. So, as August 2019 begins it’s already time to start thinking about its successor. There’s a strong possibility that Samsung’s newest smartwatch – likely called the Galaxy Watch 2 – will land in August 2019.

Read more Samsung’s Galaxy Watch Active 2 Will Come in 3 Models and ECG

Previously, many thought that Samsung would release Galaxy Watch 2 alongside the Samsung Galaxy Note 10 on August 7. But since it didn’t happen, it could be months before we see Galaxy Watch 2 hitting the market.

“The only release date rumor takes the form of leaked timeline documents which suggest the Samsung Galaxy Watch 2 will land in quarter 3 of 2019, meaning any time between now and the end of September. However, there's a high chance that if accurate these were actually referring to the Galaxy Watch Active 2,” reports James Rogerson in Tech Radar.

There isn’t much information about the design of Galaxy Watch 2 but it’s been reported that Samsung made fairly major improvements to the new watch. The original Galaxy Watch was actually fairly bulky, heavy, and wasn’t nearly as lightweight as, say, the Apple Watch.

According to rumors, Samsung may give the Galaxy Watch 2 a sleek new design to match the Samsung Galaxy Watch Active.

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There is likely to be a round face and a rotating bezel for navigating Tizen, but the folks would greatly appreciate a slimmer and more premium-looking case.

Samsung may make a big change in the software by switching from its own Tizen software to Google’s Wear OS. This move by Samsung was widely rumored in 2018, but in the end the Korean tech giant stuck with Tizen for the Galaxy Watch. If Samsung makes this change for the Galaxy Watch 2, then rotating bezel will also be changed.

Read more Marvell, Samsung Extend Long-Term Partnership for 5G Wireless Networks

Whichever OS Samsung chooses, we can be sure that the Galaxy Watch 2 will pack a wide range of health and fitness tracking features – either through Samsung Health app, or with Google Fit.

As for price, there aren’t any rumors yet, but the original Galaxy Watch started at $329 (for the smaller 42mm version), so the Galaxy Watch 2 will probably cost at least that much.

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Researchers at Carnegie Mellon University (CMU) have developed smart wearable patch that can be worn like a band-aid. Their innovation, called ElectroDermis, represents new advances in electronic skin patches that are stretchy and conform to the body. The device can be used for a variety of medical, fitness, or lifestyle purposes.

“We envision a future where electronics can be temporarily attached to the body, but in functional and aesthetically pleasing way,” wrote the researchers.

Related KIST Researchers Develop Hydrogel-Based High-Performance Sensors for Wearables

The project is a combined effort from engineers at Carnegie Mellon’s Soft Machines Lab and Morphing Matter Lab.

For the developers of wearable devices, the challenge has been finding a way to make these devices flexible. But the research team led by Eric Markvicka and Guanyun Wang, wanted to make a more complicated device, which involves components for signal processing, wireless communication and power. The CMU researchers made the wiring from copper sheets cut in a wavy form to make them bend more easily.

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“Specifically, we achieve high functionality by discretizing rigid print circuit boards into individual islands,” the researchers explained. “The islands are then assembled on a spandex-blend fabric to increase robustness and reusability.”

They also concocted a multilayered fabrication method by putting fabric over TPU film, copper trace, z-tape, electrical components, and skin adhesive. This gives the wearer full mobility and makes it possible for the piece to be reusable, as the adhesive layer can simply be replaced.

Related Carnegie Mellon Researchers Develop Ultra-Thin Electronic Tattoos that Can Power Wearables

ElectroDermis patches can be made in less than an hour and last on the body for hours or days.

The scientists say their new device could be applied to monitor vital signs, track fitness markers, measure food consumption or make a smart wound healing bandage.

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Apple has been continuing its efforts to establish itself in the healthcare platform by adding health monitoring features to its iPhone and smartwatch. Now, the company has teamed up with Eli Lilly to see if data from Apple devices can help identify early signs of dementia. The results of the feasibility study showed that sensors from consumer-grade devices like iPhones, Apple Watches, iPads and Beddit sleep monitors can spot mild cognitive impairment or Alzheimer’s disease.

Related German Researchers Develop Sensor-Packed Wristband to Improve Lives of Dementia Patients

“Over the past few years, we’ve seen how data and insights derived from wearables and mobile consumer devices have enabled people living with health conditions, along with their clinicians, to better monitor their health,” Nikki Marinsek, data scientist at Evidation Health and the study’s first author, said in a statement. “We know that insights from smart devices and digital applications can lead to improved health outcomes but we don’t yet know how those resources can be used to identify and accelerate diagnoses. The results of the trial set the groundwork for future research that may be able to help identify people with neurodegenerative conditions earlier than ever before.”

For the study, the team recruited 113 participants, of whom 31 were suffering from dementia and other cognitive impairments. The control group of 82 participants were free from any type of cognitive ailments. All participants were provided an iPhone, Apple Watch and Beddit sleep tracker and were asked to refrain from treating symptoms with medication during the test phase.

The researchers used sensors in the iPhone to track steps taken, while data was pulled from apps that incorporate typing functions. The handset was also used to conduct a daily survey. Apple Watch tracked movement, heart rate, workout sessions, app usage, breathe sessions, hours standing and other metrics, while Beddit was employed to measure a user’s circadian rhythm.

The study found that people with symptoms of cognitive decline typed more slowly, typed less regularly and sent fewer text messages than healthy participants. They also have a greater reliance on support apps and are less inclined to fill out surveys. Still, the researchers said there are limitations to the study, which didn’t draw any long-term conclusions because more analysis is needed.

Related Wearable Tech Can Safely Detect Atrial Fibrillation, Says Apple Heart Study

There’s also the risk of presenting results to patients because of the increased anxiety it can cause. Plus, the authors write, there’s not much people can do to stem the decline.

The study will be discussed on Thursday at a conference in Alaska.

Italian lifestyle brand bONE Tech has introduced IceBRKR – the world's first ski goggles to integrate bone conduction audio and Bluetooth 5.0 MESH Intercom technology. The goggles are designed to make the skiing or snowboarding experience safer and more entertaining. The Kickstarter Campaign, which was launched on August 8 raised $46,265, surpassing its funding goal of $30,000 USD in just a few days.

Related Don’t Let Injuries Take You Downhill, Be Safe and Have Fun with These Skiing Wearables This Winter

IceBRKR provides a comfortable fit with its patented bendable arms that pivot to assure gentle but constant contact between the transducer and the user's ears. It delivers amazing sound for making calls or listening to music all while allowing users to hear what's going on around them. The arms' patented design is so flexible that users can also choose to place them directly over their helmet to give an incredible 360-degree sound experience (sound is delivered through the vibrations of the helmet shell). The audio perception is perfect, and in stereo without resorting to using headphones, earphones and external microphones, making the sound experience complete and comfortable, said the company in a press release.

“IceBRKR is the answer to staying as connected as you want to be on the slopes,” said CEO Marco Collini, founder of bONE Tech. “You can take calls, listen to music or podcasts, all without removing your gloves or mask or blocking out the sound around you.”

With its incorporated Bluetooth 5.0 MESH Intercom technology, IceBRKR recognizes compatible MESH devices that are paired together (from 2 to 18 devices) and easily connects with them at a radius of up to 1 mile. The pairing is intuitive, and once initiated, remains active lasting for 72 hours in stand-by and 24 in continuous use. When the system recognizes the devices, it will pair immediately.

Functions such as the control and the on/off button are located on the lower part of the goggles’ frame. Also located on the lower part of the frame are an App control key and the conference function activation key (with pairing modes).

Related Atomic Unveils Smart Connected Ski Boot

A light/sound feedback (blue/red LED) signals the connection and pairing active/dropped with other IceBRKR masks and/or devices. The incorporated bi-directional microphone is located near the vocal emission source.  The buttons are "invisible" but naturally accessible without having to remove the glove or look at the frame.

IceBRKR’s impeccable design features a magnetic, swappable dual lens with proprietary geometry that mimics the anatomical curvature of the eye to maximize peripheral vision and minimize distortion, as well as polarized lenses with an iridium coating to minimize glare and heighten contrast.

Italian lifestyle brand bONE Tech has introduced IceBRKR – the world's first ski goggles to integrate bone conduction audio and Bluetooth 5.0 MESH Intercom technology. The goggles are designed to make the skiing or snowboarding experience safer and more entertaining. The Kickstarter Campaign, which was launched on August 8 raised $46,265, surpassing its funding goal of $30,000 USD in just a few days.

Related Don’t Let Injuries Take You Downhill, Be Safe and Have Fun with These Skiing Wearables This Winter

IceBRKR provides a comfortable fit with its patented bendable arms that pivot to assure gentle but constant contact between the transducer and the user's ears. It delivers amazing sound for making calls or listening to music all while allowing users to hear what's going on around them. The arms' patented design is so flexible that users can also choose to place them directly over their helmet to give an incredible 360-degree sound experience (sound is delivered through the vibrations of the helmet shell). The audio perception is perfect, and in stereo without resorting to using headphones, earphones and external microphones, making the sound experience complete and comfortable, said the company in a press release.

“IceBRKR is the answer to staying as connected as you want to be on the slopes,” said CEO Marco Collini, founder of bONE Tech. “You can take calls, listen to music or podcasts, all without removing your gloves or mask or blocking out the sound around you.”

‍

‍

With its incorporated Bluetooth 5.0 MESH Intercom technology, IceBRKR recognizes compatible MESH devices that are paired together (from 2 to 18 devices) and easily connects with them at a radius of up to 1 mile. The pairing is intuitive, and once initiated, remains active lasting for 72 hours in stand-by and 24 in continuous use. When the system recognizes the devices, it will pair immediately.

Functions such as the control and the on/off button are located on the lower part of the goggles’ frame. Also located on the lower part of the frame are an App control key and the conference function activation key (with pairing modes).

Related Atomic Unveils Smart Connected Ski Boot

A light/sound feedback (blue/red LED) signals the connection and pairing active/dropped with other IceBRKR masks and/or devices. The incorporated bi-directional microphone is located near the vocal emission source.  The buttons are "invisible" but naturally accessible without having to remove the glove or look at the frame.

IceBRKR’s impeccable design features a magnetic, swappable dual lens with proprietary geometry that mimics the anatomical curvature of the eye to maximize peripheral vision and minimize distortion, as well as polarized lenses with an iridium coating to minimize glare and heighten contrast.

‍

Apple has been continuing its efforts to establish itself in the healthcare platform by adding health monitoring features to its iPhone and smartwatch. Now, the company has teamed up with Eli Lilly to see if data from Apple devices can help identify early signs of dementia. The results of the feasibility study showed that sensors from consumer-grade devices like iPhones, Apple Watches, iPads and Beddit sleep monitors can spot mild cognitive impairment or Alzheimer’s disease.

Related German Researchers Develop Sensor-Packed Wristband to Improve Lives of Dementia Patients

“Over the past few years, we’ve seen how data and insights derived from wearables and mobile consumer devices have enabled people living with health conditions, along with their clinicians, to better monitor their health,” Nikki Marinsek, data scientist at Evidation Health and the study’s first author, said in a statement. “We know that insights from smart devices and digital applications can lead to improved health outcomes but we don’t yet know how those resources can be used to identify and accelerate diagnoses. The results of the trial set the groundwork for future research that may be able to help identify people with neurodegenerative conditions earlier than ever before.”

‍

For the study, the team recruited 113 participants, of whom 31 were suffering from dementia and other cognitive impairments. The control group of 82 participants were free from any type of cognitive ailments. All participants were provided an iPhone, Apple Watch and Beddit sleep tracker and were asked to refrain from treating symptoms with medication during the test phase.

The researchers used sensors in the iPhone to track steps taken, while data was pulled from apps that incorporate typing functions. The handset was also used to conduct a daily survey. Apple Watch tracked movement, heart rate, workout sessions, app usage, breathe sessions, hours standing and other metrics, while Beddit was employed to measure a user's circadian rhythm.

The study found that people with symptoms of cognitive decline typed more slowly, typed less regularly and sent fewer text messages than healthy participants. They also have a greater reliance on support apps and are less inclined to fill out surveys. Still, the researchers said there are limitations to the study, which didn’t draw any long-term conclusions because more analysis is needed.

Related Wearable Tech Can Safely Detect Atrial Fibrillation, Says Apple Heart Study

There’s also the risk of presenting results to patients because of the increased anxiety it can cause. Plus, the authors write, there’s not much people can do to stem the decline.

The study will be discussed on Thursday at a conference in Alaska.

‍

With the growing popularity of medical wearables, demand is rising for thin wearables that can be used to collect and store important health information about the wearer. Devices currently available in the market are bulky to wear, offer slow response times and suffer a drop-in performance over time. Researchers at the University of Houston have now developed a wearable device that is so thin it’s barely noticeable to the user and lighter than a Band-Aid but can track and record important health information.

Read more Soft Wearable Health Monitor Continuously Measures ECG, Breathing, Heart Rate

The device allows the wearer to move naturally and is less noticeable than wearing a Band-Aid, said Cunjiang Yu, Bill D. Cook Associate Professor of Mechanical Engineering at the University of Houston and lead author for the paper, published as the cover story in Science Advances, reports University of Houston.

“Everything is very thin, just a few microns thick,” said Yu, who also is a principal investigator at the Texas Center for Superconductivity at UH. “You will not be able to feel it.”

The new device can be used as a prosthetic skin for a robotic hand or other robotic devices, with a robust human-machine interface that allows it to automatically collect information and relay it back to the wearer.

“What if when you shook hands with a robotic hand, it was able to instantly deduce physical condition?” Yu asked – as well as for situations such as chemical spills, which are risky for humans but require human decision-making based on physical inspection.

A metal oxide semiconductor on a polymer base, offers manufacturing advantages and can be processed at temperatures lower than 300 C.

Read more PolyU Researchers Develop Flexible High-Energy Textile Lithium Battery for Wearables

“We report an ultrathin, mechanically imperceptible, and stretchable (human-machine interface) HMI device, which is worn on human skin to capture multiple physical data and also on a robot to offer intelligent feedback, forming a closed-loop HMI,” the researchers wrote. “The multifunctional soft stretchy HMI device is based on a one-step formed, sol-gel-on-polymer-processed indium zinc oxide semiconductor nanomembrane electronics.”

Sports Tech company FORM Athletica launched its Form Swim Goggles with an augmented reality display, which enable athletes to see performance metrics they need in the moment. The goggles can be worn underwater.

The device is soft like a combination of Google Glass-style AR heads-up display and Fitbit-style tracking. It is meant specifically and exclusively for swimming.

Read more Cosinuss One Now Provides You New Possibilities with Update for Swimming

The smart display delivers metrics like split times, distance, and more—intelligently, as you swim. Developed in collaboration with top competitive swimmers and coaches, the FORM Swim Goggles are the missing piece in every swimmer’s swim bag, according to FORM.

The googles work on either eye, you just need to turn them over (and flip the display orientation).

“Head to a pool and the only thing you need to do is tell the goggles the width of the pool you're jumping in to. There are pre-selected options for the most common sizes, 25 meters, 25 yards, 50 meters or 50 yards, or the option for a custom size. You pick if you're planning to do laps or drills, and you're ready to swim, in the care of the system and its algorithms, designed to detect your swimming style,” reports EndGadget.

The see-through smart display is built right into the goggles’ lens, delivering metrics without obstructing your vision.

The premium design features a hydrodynamic profile and high-grade materials, with 5 included nose bridge sizes for a watertight seal and an optimal fit.

About durability, the goggles are said to have FDA-certified silicone eye seals and the same permanent, chemical-resistant anti-fog used in diving masks. They’re also covered under a one-year limited warranty.

Read more DigiLens Announces AR Waveguide Displays for Smart Motorcycle Helmets

Along with the googles, the FORM Swim App is also available to download for iOS and Android. The app lets you customize the metrics displayed in the goggles, review your swims out of the pool, and share your workout stats with your coach. The app can be downloaded for free from the iOS App Store and Google Play.

The goggles can be ordered via www.formswim.com for $199, and shipping is free across the U.S. and Canada.

Sports Tech company FORM Athletica launched its Form Swim Goggles with an augmented reality display, which enable athletes to see performance metrics they need in the moment. The goggles can be worn underwater.

The device is soft like a combination of Google Glass-style AR heads-up display and Fitbit-style tracking. It is meant specifically and exclusively for swimming.

Read more Cosinuss One Now Provides You New Possibilities with Update for Swimming

The smart display delivers metrics like split times, distance, and more—intelligently, as you swim. Developed in collaboration with top competitive swimmers and coaches, the FORM Swim Goggles are the missing piece in every swimmer’s swim bag, according to FORM.

The googles work on either eye, you just need to turn them over (and flip the display orientation).

“Head to a pool and the only thing you need to do is tell the goggles the width of the pool you're jumping in to. There are pre-selected options for the most common sizes, 25 meters, 25 yards, 50 meters or 50 yards, or the option for a custom size. You pick if you're planning to do laps or drills, and you're ready to swim, in the care of the system and its algorithms, designed to detect your swimming style,” reports EndGadget.

‍

The see-through smart display is built right into the goggles’ lens, delivering metrics without obstructing your vision.

The premium design features a hydrodynamic profile and high-grade materials, with 5 included nose bridge sizes for a watertight seal and an optimal fit.

About durability, the goggles are said to have FDA-certified silicone eye seals and the same permanent, chemical-resistant anti-fog used in diving masks. They’re also covered under a one-year limited warranty.

Read more DigiLens Announces AR Waveguide Displays for Smart Motorcycle Helmets

Along with the googles, the FORM Swim App is also available to download for iOS and Android. The app lets you customize the metrics displayed in the goggles, review your swims out of the pool, and share your workout stats with your coach. The app can be downloaded for free from the iOS App Store and Google Play.

The goggles can be ordered via www.formswim.com for $199, and shipping is free across the U.S. and Canada.

‍

With the growing popularity of medical wearables, demand is rising for thin wearables that can be used to collect and store important health information about the wearer. Devices currently available in the market are bulky to wear, offer slow response times and suffer a drop-in performance over time. Researchers at the University of Houston have now developed a wearable device that is so thin it’s barely noticeable to the user and lighter than a Band-Aid but can track and record important health information.

Read more Soft Wearable Health Monitor Continuously Measures ECG, Breathing, Heart Rate

The device allows the wearer to move naturally and is less noticeable than wearing a Band-Aid, said Cunjiang Yu, Bill D. Cook Associate Professor of Mechanical Engineering at the University of Houston and lead author for the paper, published as the cover story in Science Advances, reports University of Houston.

“Everything is very thin, just a few microns thick,” said Yu, who also is a principal investigator at the Texas Center for Superconductivity at UH. “You will not be able to feel it.”

‍

The new device can be used as a prosthetic skin for a robotic hand or other robotic devices, with a robust human-machine interface that allows it to automatically collect information and relay it back to the wearer.

“What if when you shook hands with a robotic hand, it was able to instantly deduce physical condition?” Yu asked – as well as for situations such as chemical spills, which are risky for humans but require human decision-making based on physical inspection.

A metal oxide semiconductor on a polymer base, offers manufacturing advantages and can be processed at temperatures lower than 300 C.

Read more PolyU Researchers Develop Flexible High-Energy Textile Lithium Battery for Wearables

“We report an ultrathin, mechanically imperceptible, and stretchable (human-machine interface) HMI device, which is worn on human skin to capture multiple physical data and also on a robot to offer intelligent feedback, forming a closed-loop HMI,” the researchers wrote. “The multifunctional soft stretchy HMI device is based on a one-step formed, sol-gel-on-polymer-processed indium zinc oxide semiconductor nanomembrane electronics.”

‍

A new report by MRS Research Group on Smart Contact Lenses market studies the intense structure of the Smart Contact Lenses market. The report breaks down the business from a 360-degree point of view from the essential market information and moving to various critical aspects which empowers the user to gain details of the ecosystem of the Smart Contact Lenses market. This report provides a full prediction of global Smart Contact Lenses market based on CAGR which offered report in terms of % for the forecasted period. This will help the users to make definite decisions based on prediction chart, reports Industry Updates.

This report evaluates the growth drivers, restraining factors, and opportunities at length. The examination of the prominent trends, driving forces, and the challenges assist the market participants and stakeholders to understand the issues they will have to face while operating in the worldwide market for Smart Contact Lens in the long run.

The report values Global Smart Contact Lenses market at USD XX million in 2016 and is expected to reach USD XX million by the end of 2022, growing at a CAGR of XX% between 2016 and 2022.

The key players covered in this study – Sensimed AG, Google, Samsung, Sony, PEGL, Research Institute, KAIST, Ghent University, Belgium.

Read more Imec, UGent and SEED Develop Hydrogel-Based Smart Contact Lens

Geographically, this report is segmented into several key Regions, with production, consumption, revenue (million USD), market share and growth rate of Smart Contact Lenses in these regions, from 2012 to 2022 (forecast), covering:

• North America
• Europe
• China
• Japan
• Southeast Asia
• India

On the basis of product, this report displays the production, revenue, price, market share and growth rate of each type, primarily split into

• Disposable Type
• Frequent Replacement Type

On the basis on the end users/applications, this report focuses on the status and outlook for major applications/end users, consumption (sales), market share and growth rate of Smart Contact Lenses for each application, including

• Medical Field
• Military Field
• Social Entertainment
• Others

Additionally, the Smart Contact Lenses report provide insights on the existing laws, policies, along with guidelines which makes the document useful for managers, analysts, business consultants and different key individuals to study and understand market trends, drivers and market challenges.

What if Amazon Alexa or Google Assistant could read your mind and act according to what you are thinking? That may soon be possible with a new gadget called AlterEgo, created by MIT Media Lab graduate student Arnav Kapur. The device could help a person with speech impediment or be used to dictate words for a computer to read out.

Read more Kenyan Invents Smart Gloves that Turn Sign Language Gestures into Audio Speech

“Our idea was: could we have a computing platform that’s more internal, that melds human and machine in some ways and that feels like an internal extension of our own cognition?”, said Kapur.

Kapur’s device resembles a jawbone hooked around the ear and attached to the user’s face between lip and chin. AlterEgo Uses a bone conduction system to hear and respond to the wearer’s internal voice via electrodes attached to the skin.

Although it doesn’t actually read the electrical signals from your brain, AlterEgo lets you silently ask questions, and then either have the answer fed back to you via bone-conduction technology. For a person with a speech impediment, it could also be used to dictate words for a computer to read out, reports Digital Trends.

Kapur envisions it as a new form of computer, which can be used in a way that is less demanding of your attention than tapping and swiping on a smartphone and more intimate than giving commands at Alexa. Though the device is still just a prototype, he imagines it being helpful in our everyday life.

Read more EyeControl AI powered Headset for Locked-In Syndrome Patients Available on NHS Supply Chain

“Throughout the history of personal computing, computers have always been external systems or entities that we interact with: desktops, smartphones, artificial intelligence tools, and even robots,” Kapur told Digital Trends. “Could we flip this paradigm? Could we augment and extend human abilities and weave the powers of computing and machine intelligence as an intrinsic human cognitive ability.”

What if Amazon Alexa or Google Assistant could read your mind and act according to what you are thinking? That may soon be possible with a new gadget called AlterEgo, created by MIT Media Lab graduate student Arnav Kapur. The device could help a person with speech impediment or be used to dictate words for a computer to read out.

Read more Kenyan Invents Smart Gloves that Turn Sign Language Gestures into Audio Speech

“Our idea was: could we have a computing platform that’s more internal, that melds human and machine in some ways and that feels like an internal extension of our own cognition?”, said Kapur.

Kapur’s device resembles a jawbone hooked around the ear and attached to the user’s face between lip and chin. AlterEgo Uses a bone conduction system to hear and respond to the wearer’s internal voice via electrodes attached to the skin.

Although it doesn’t actually read the electrical signals from your brain, AlterEgo lets you silently ask questions, and then either have the answer fed back to you via bone-conduction technology. For a person with a speech impediment, it could also be used to dictate words for a computer to read out, reports Digital Trends.

‍

Kapur envisions it as a new form of computer, which can be used in a way that is less demanding of your attention than tapping and swiping on a smartphone and more intimate than giving commands at Alexa. Though the device is still just a prototype, he imagines it being helpful in our everyday life.

Read more EyeControl AI powered Headset for Locked-In Syndrome Patients Available on NHS Supply Chain

“Throughout the history of personal computing, computers have always been external systems or entities that we interact with: desktops, smartphones, artificial intelligence tools, and even robots,” Kapur told Digital Trends. “Could we flip this paradigm? Could we augment and extend human abilities and weave the powers of computing and machine intelligence as an intrinsic human cognitive ability.”

‍

A new report by MRS Research Group on Smart Contact Lenses market studies the intense structure of the Smart Contact Lenses market. The report breaks down the business from a 360-degree point of view from the essential market information and moving to various critical aspects which empowers the user to gain details of the ecosystem of the Smart Contact Lenses market. This report provides a full prediction of global Smart Contact Lenses market based on CAGR which offered report in terms of % for the forecasted period. This will help the users to make definite decisions based on prediction chart, reports Industry Updates.

This report evaluates the growth drivers, restraining factors, and opportunities at length. The examination of the prominent trends, driving forces, and the challenges assist the market participants and stakeholders to understand the issues they will have to face while operating in the worldwide market for Smart Contact Lens in the long run.

The report values Global Smart Contact Lenses market at USD XX million in 2016 and is expected to reach USD XX million by the end of 2022, growing at a CAGR of XX% between 2016 and 2022.

The key players covered in this study – Sensimed AG, Google, Samsung, Sony, PEGL, Research Institute, KAIST, Ghent University, Belgium.

Read more Imec, UGent and SEED Develop Hydrogel-Based Smart Contact Lens

‍

Geographically, this report is segmented into several key Regions, with production, consumption, revenue (million USD), market share and growth rate of Smart Contact Lenses in these regions, from 2012 to 2022 (forecast), covering:

• North America
• Europe
• China
• Japan
• Southeast Asia
• India

On the basis of product, this report displays the production, revenue, price, market share and growth rate of each type, primarily split into

• Disposable Type
• Frequent Replacement Type

On the basis on the end users/applications, this report focuses on the status and outlook for major applications/end users, consumption (sales), market share and growth rate of Smart Contact Lenses for each application, including

• Medical Field
• Military Field
• Social Entertainment
• Others

Additionally, the Smart Contact Lenses report provide insights on the existing laws, policies, along with guidelines which makes the document useful for managers, analysts, business consultants and different key individuals to study and understand market trends, drivers and market challenges.

‍

Continuous, long-term monitoring of health is important for treatment process; it provides doctors with subtle information about the patient’s health. However, children, elderly, and people with various conditions often have difficulty wearing body-worn sensors. Scientists at Georgia Tech have developed a wireless wearable device that can be worn on the body for long-term to measure a range of physiological signals.

Related Wireless, Soft, Flexible Sensors Show Promise in Monitoring Premature Babies

The soft and conformable monitor can measure electrocardiogram (ECG), heart rate, respiratory rate and motion activity data as much as 15 meters to a portable recording device such as a smartphone or tablet computer. The electronics are mounted on a stretchable substrate and connected to gold, skin-like electrodes through printed connectors that can stretch with the medical film in which they are embedded, reports Georgia Tech News Center.

“This health monitor has a key advantage for young children who are always moving, since the soft conformal device can accommodate that activity with a gentle integration onto the skin,” said Woon-Hong Yeo, an assistant professor in the George W. Woodruff School of Mechanical Engineering and Wallace H. Coulter Department of Biomedical Engineering at the Georgia Institute of Technology. “This is designed to meet the electronic health monitoring needs of people whose sensitive skin may be harmed by conventional monitors.”

Because the device conforms to the skin, it avoids signal issues that can be created by the motion of the typical metal-gel electrodes across the skin. The device can even obtain accurate signals from a person who is walking, running or climbing stairs.

“When you put a conventional electrode on the chest, movement from sitting up or walking creates motion artifacts that are challenging to separate from the signals you want to measure,” he said. “Because our device is soft and conformal, it moves with the skin and provides information that cannot be seen with the motion artifacts of conventional sensors.”

The monitor uses three gold electrodes embedded in the film that also contains the electronic processing equipment. The entire health monitor is just three inches in diameter, and a more advanced version under development will be half that size. The wireless monitor is now powered by a small rechargeable battery, but future versions may replace the battery with an external radio-frequency charging system.

“The monitor could be worn for multiple days, perhaps for as long as two weeks,” Yeo said. “The membrane is waterproof, so an adult could take a shower while wearing it. After use, the electronic components can be recycled.”

Related UC-Berkeley Researchers Develop Flexible Sensor to Map Blood-Oxygen Levels Across the Body

The researchers developed two versions of the monitor. One is based on medical tape and designed for short-term use in a hospital or other care facility, while the other uses a soft elastomer medical film approved for use in wound care. The latter can remain on the skin longer, the Georgia Tech report said.

“The devices are completely dry and do not require a gel to pick up signals from the skin,” Yeo explained. “There is nothing between the skin and the ultrathin sensor, so it is comfortable to wear.”

Fossil’s new Gen 5 Smartwatch comes with an updated spec sheet and new battery modes which promise increased autonomy. The watches are powered by Snapdragon Wear 3100 chipset and runs Wear OS.

Related Fossil Launches Sport Smartwatch on Snapdragon Wear 3100 platform and Wear OS

The new smartwatch is set to integrate Cardiogram, an app that uses deep neural network technology to detect various heart conditions, preinstalled. The Cardiogram platform has been tested to detect sleep apnea, diabetes, hypertension and atrial fibrillation, reports MobiHealthNews.

“For several years, the health and wellness industry has been converging with smartwatch technology — and Fossil knew there was a tremendous opportunity to provide a connected option for the design-conscious consumer looking to bring style to their wrist,” Steve Evans, EVP of Fossil Group, said in a statement.

The Gen 5 Touchscreen Smartwatch has a 44-millimeter case size with a 1.3-inch digital display. It follows the brands’ design strategy that focuses on merging new tech with classic watch design.

The watches come in six color variants, which range from a sleek black to rose gold.

The watches come equipped with 1GB of RAM and 8GB of storage, both about twice the usual allotment.

The Gen 5 smartwatches also feature an extended battery life, voice calling, swim-proof speakers, increased storage and the heart rate tracking feature Cardiogram’s platform will rely on. They’ve also got NFC for Google Pay, Wi-Fi, GPS, 30-meter water-proofing, and a speaker.

Related Google Agrees to Buy Fossil’s Secret Smartwatch Tech for $40 Million

This is the first time Fossil is adding a speaker to its smartwatches. The speaker will allow you to hear answers from the Google Assistant, receive sound alerts and even play music. It’s paired with an onboard microphone. The speaker is swim proof up to three atmospheres, so it should be OK for a quick dip and rain.

The watches are on sale, starting at $295 from Fossil’s online store. Amazon won’t ship them until early next month, but you can pre-order now.

Fossil’s new Gen 5 Smartwatch comes with an updated spec sheet and new battery modes which promise increased autonomy. The watches are powered by Snapdragon Wear 3100 chipset and runs Wear OS.

Related Fossil Launches Sport Smartwatch on Snapdragon Wear 3100 platform and Wear OS

The new smartwatch is set to integrate Cardiogram, an app that uses deep neural network technology to detect various heart conditions, preinstalled. The Cardiogram platform has been tested to detect sleep apnea, diabetes, hypertension and atrial fibrillation, reports MobiHealthNews.

“For several years, the health and wellness industry has been converging with smartwatch technology — and Fossil knew there was a tremendous opportunity to provide a connected option for the design-conscious consumer looking to bring style to their wrist,” Steve Evans, EVP of Fossil Group, said in a statement.

The Gen 5 Touchscreen Smartwatch has a 44-millimeter case size with a 1.3-inch digital display. It follows the brands' design strategy that focuses on merging new tech with classic watch design.

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The watches come in six color variants, which range from a sleek black to rose gold.

The watches come equipped with 1GB of RAM and 8GB of storage, both about twice the usual allotment.

The Gen 5 smartwatches also feature an extended battery life, voice calling, swim-proof speakers, increased storage and the heart rate tracking feature Cardiogram's platform will rely on. They’ve also got NFC for Google Pay, Wi-Fi, GPS, 30-meter water-proofing, and a speaker.

Related Google Agrees to Buy Fossil’s Secret Smartwatch Tech for $40 Million

This is the first time Fossil is adding a speaker to its smartwatches. The speaker will allow you to hear answers from the Google Assistant, receive sound alerts and even play music. It's paired with an onboard microphone. The speaker is swim proof up to three atmospheres, so it should be OK for a quick dip and rain.

The watches are on sale, starting at $295 from Fossil’s online store. Amazon won’t ship them until early next month, but you can pre-order now.

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Continuous, long-term monitoring of health is important for treatment process; it provides doctors with subtle information about the patient’s health. However, children, elderly, and people with various conditions often have difficulty wearing body-worn sensors. Scientists at Georgia Tech have developed a wireless wearable device that can be worn on the body for long-term to measure a range of physiological signals.

Related Wireless, Soft, Flexible Sensors Show Promise in Monitoring Premature Babies

The soft and conformable monitor can measure electrocardiogram (ECG), heart rate, respiratory rate and motion activity data as much as 15 meters to a portable recording device such as a smartphone or tablet computer. The electronics are mounted on a stretchable substrate and connected to gold, skin-like electrodes through printed connectors that can stretch with the medical film in which they are embedded, reports Georgia Tech News Center.

“This health monitor has a key advantage for young children who are always moving, since the soft conformal device can accommodate that activity with a gentle integration onto the skin,” said Woon-Hong Yeo, an assistant professor in the George W. Woodruff School of Mechanical Engineering and Wallace H. Coulter Department of Biomedical Engineering at the Georgia Institute of Technology. “This is designed to meet the electronic health monitoring needs of people whose sensitive skin may be harmed by conventional monitors.”

Because the device conforms to the skin, it avoids signal issues that can be created by the motion of the typical metal-gel electrodes across the skin. The device can even obtain accurate signals from a person who is walking, running or climbing stairs.

“When you put a conventional electrode on the chest, movement from sitting up or walking creates motion artifacts that are challenging to separate from the signals you want to measure,” he said. “Because our device is soft and conformal, it moves with the skin and provides information that cannot be seen with the motion artifacts of conventional sensors.”

‍

‍

The monitor uses three gold electrodes embedded in the film that also contains the electronic processing equipment. The entire health monitor is just three inches in diameter, and a more advanced version under development will be half that size. The wireless monitor is now powered by a small rechargeable battery, but future versions may replace the battery with an external radio-frequency charging system.

“The monitor could be worn for multiple days, perhaps for as long as two weeks,” Yeo said. “The membrane is waterproof, so an adult could take a shower while wearing it. After use, the electronic components can be recycled.”

Related UC-Berkeley Researchers Develop Flexible Sensor to Map Blood-Oxygen Levels Across the Body

The researchers developed two versions of the monitor. One is based on medical tape and designed for short-term use in a hospital or other care facility, while the other uses a soft elastomer medical film approved for use in wound care. The latter can remain on the skin longer, the Georgia Tech report said.

“The devices are completely dry and do not require a gel to pick up signals from the skin,” Yeo explained. “There is nothing between the skin and the ultrathin sensor, so it is comfortable to wear.”

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The demand for wearable devices, including smartwatches, fitness bands and smart patches is increasing rapidly. These devices require high-performance sensors on surfaces of various shapes and types.

Now, researchers at the Korea Institute of Science and Technology have developed a transfer-printing technology that uses hydrogel and nano ink to easily create high-performance flexible sensors of diverse shapes and structures. These sensors can be used in smartwatches, fitness trackers and medical wearables.

Read more KIST Develops 3D Soft Robots That Look Like Living Creatures

Hydrogel is a three-dimensional hydrophilic polymer network that absorbs large amounts of water.

Transfer-printing is a procedure for creating electrical gadgets through which electrodes are imprinted on a transfer mold and then transferred to a final substrate.

The research team was led by Dr. Hyunjung Yi of the Post-Silicon Semiconductor Institute.

Transfer printing works in a way similar to that of a tattoo sticker: just as sticking the tattoo sticker onto the skin and then removing the paper section leaves the image on the skin, this process creates a structure on one surface and then transfers it onto another. The technology doesn’t melt the hydrogel, maintaining its desired characteristics.

Using the porous and hydrophilic nature of hydrogels, the KIST team inkjet-printed an aqueous solution-based nano ink onto a hydrogel layer (which was solidified onto a topographic surface).

To prove their technology in practice, the researchers transferred nanoelectrodes directly onto a glove to create a modified sensor that can immediately detect finger movements. It also created a flexible, high-performance pressure sensor that can measure the pulse in the wrist.

Read more Maxim’s Health Sensors are Ultra-Small, Use Low Power and Deliver Clinical-Grade Accuracy for Next-Gen Wearables

“The outcome of this study is a new and easy method for creating flexible, high-performance sensors on surfaces with diverse characteristics and structures. We expect that this study will be utilized in the many areas that require the application of high-performance materials onto flexible and/or non-traditional substrates, including digital healthcare, intelligent human-machine interfaces, medical engineering, and next-generation electrical materials,” said Yi.