Wearable Technology Quotes

AI-powered passive monitoring is taking off and has huge advantages over the traditional way of monitoring patients. The advantage of passive monitoring, as opposed to data collected from wearables, is that it doesn’t require patients or seniors to actively wear a device at all times. Used in a hospital setting, the tech reduces healthcare workers’ risk of exposure to COVID-19 by limiting their contact with patients and automating data collection for vital signs. Also, camera-based monitoring is unpopular for the simple reason that a lot of people don’t like being watched by a camera.

There are people out there so heavily specialized in wearable technology that they call shirts with networked devices built into them “wearable shirts.” They’re so deep into their own silo of futurism that they’ve forgotten how shirts work.

Apps which allow us to see our own data allow us to see ourselves. We look at our data doubles as we gazed into the mirror as teenagers wondering who we were and who we might be. We look at our data in much the same ways as you might flick through your selfies to find the one that shows you the way you want to be seen.

Blog and written status updates are descendents of diaries, memoirs, commonplace books and autobiographies. Selfies are descendants of visual artists’ self-portraits, and the quantitative modes of lifelogs, personal maps, productivity records and activity trackers are descendants of genres such as accounting, habit tracking and to-do lists.

social media in general filters out people who are not effective neoliberal subjects.

We fine-tune our moods with pharmaceuticals and classic rock. Craft our meals around our allergies and ideologies. Customize our bodies with cross training, with ink and metal, with surgery and wearable technologies. We can choose a vehicle to express our hipness or hostility. We can move to a neighborhood that matches our social values, find a news outlet that mirrors our politics, create a social network that “likes” everything we say or post. With each transaction and upgrade, each choice and click, life moves closer to us, and the world becomes our world.

The internet is still at the beginning of its beginning. It is only becoming. If we could climb into a time machine, journey 30 years into the future, and from that vantage look back to today, we’d realize that most of the greatest products running the lives of citizens in 2050 were not invented until after 2016. People in the future will look at their holodecks and wearable virtual reality contact lenses and downloadable avatars and AI interfaces and say, “Oh, you didn’t really have the internet”—or whatever they’ll call it—“back then.

Ian Bogost writes about a ‘rhetoric of failure’ in games designed so that the player cannot win (2007, 85). One could put Tetris or Space Invaders in such a category – the blocks or missiles keep falling until the player fails to keep them at bay, meaning that you will always, ultimately, lose the game. The winning situation, if there is one, is to get a higher score than your friends. Perhaps, as Janet Murray wrote of Tetris, this is a metaphor for a typical American life (1997, 144).

They live inside of what is essentially one huge wearable. Everyone connected to everyone even when they shit.

In 2013, 96% of all connected wearable devices were activity trackers, 3% were smartwatches, and 1% were smart glasses. Tellingly, 82% of users believe that wearable tech has enhanced their lives. By 2017, 64 million shipments of such devices are expected (8 times larger than in 2012). Global spending on wearable technology is estimated to be $19 billion by 2018.

In the world of Wearable Technology Evolution wear is the best

MOUNTAIN VIEW, CA—Following the company’s announcement that it would discontinue public sales of the wearable technology, Google officials confirmed Monday that all unsold units of Google Glass would be donated to underprivileged assholes in Africa. “We are committed to positively impacting the lives of poverty-stricken smug pricks by distributing the surplus inventory of Google Glass to self-important fucks throughout sub-Saharan Africa,” a statement released by the company read in part, adding that the program will provide the optical head-mounted technology, as well as professional training sessions, to destitute communities of conceited dicks from Sierra Leone, to Somalia, to Botswana. “This gesture will help tens of thousands of poor and needy men, women, and children across the continent who have never had the opportunity to walk around looking like a pompous jackass all day long. From the moment they turn on their new Google Glass in clear view of others, they’ll immediately start experiencing the undeserved sense of superiority currently lacking in their lives.” At press time, Google confirmed that the first devices had been presented to an indigent family of complete fucking jerkoffs from the Republic of Guinea.

In short, fitness wearables solve the "December Dilemma." The holidays are coming and you're looking to buy a cool present for someone you love. Your budget is around $200 and you want the present to communicate how much you care. Voilà! The FitBit/Misfit/Apple Watch fits the bill.

If I ever wondered why so many people are so hostile to the tangible visible incarnations of the permeating invisible features of postmodern society, I need to look no further: according to populist narratives perpetuated by the media convergence, technology is the domain of experts who, having the wisdom of mini-deities invested with all the power of the corporate state, are not - cannot - be human.

The only case where a company might want to position a new product in a known category is when the category itself is defined and understood by buyers, but a strong leader has not yet been established. In technology we see this in new and emerging market categories. For example, “smart glasses” for consumers have been on the market for years and many people understand the basic functionality of smart glasses as being a sort of wearable display and/or camera. Some folks can name a handful of vendors that sell them (Epson or North might come to mind), but most people would be hard-pressed to name a “leader” in this market. In this case, North doesn’t need to create an entirely new category from scratch (although it certainly has the opportunity to shape the details of what customers expect from products within it), and it can position itself to be the leader of the entire market, since no clear leader exists yet. The

These wearable, embeddable, ingestible, and portable devices collecting your health data are not working alone. They are all connected in an Internet of Body (IoB), working to amass a 360-degree view of your health.

As neurotechnology and the algorithms decoding them continue to improve, EEG-based systems will become the gold standard in workplace fatigue monitoring. Not just employers but society as a whole may soon decide that the gains in safety and productivity are well worth the costs in employee privacy. But how much we ultimately gain from workplace brain wearables depends largely on how employers leverage the technology. Will employees receive real-time feedback from the devices so they can act on it themselves? Will managers directly monitor employees’ incidence of fatigue? If so, will they use that information to improve workplace conditions? Or will it justify disciplinary actions, pay cuts, and terminations of employees who suffer from fatigue more often?

Security was, though, an ongoing rock-paper-scissors match between technologies that all seemed to want different things. The lobby of the building, its elevators and stairwells, and its exterior belts of walkways and gardens had all been covered by security cameras from the very beginning of Zula and Csongor’s tenancy. In those days a security guard would sit all day behind a reception desk in the lobby, keeping an eye on the main entrance, glancing down from time to time at an array of flat-panel monitors that showed him the feeds from those cameras. But the desk had been torn out some years ago and replaced with a big saltwater aquarium. The building still employed a security firm. But those guards who were human, and who were actually on site, spent most of the day up on their feet, strolling about the property while keeping track of events in wearable devices. Some of the “guards” were just algorithms, analyzing video and audio feeds for suspicious behavior, recognizing faces and cross-checking them against a whitelist of residents, friends, and neighbors, and a blacklist of predators, stalkers, and ex-husbands. Anything ambiguous was forwarded to a Southeast Asian eyeball farm.

Your microbiome looks perfect,” Google tells you. “Also, blood glucose levels are good, vitamin levels fine, but an increased core temperature and IgE levels…” “Google—in plain English?” “You’ve got a virus.” “A what?” “I ran through your last forty-eight hours of meetings. It seems like you picked it up Monday, at Jonah’s birthday party. I’d like to run additional diagnostics, would you mind using the…” Well, take your pick. Alphabet’s healthcare division, called Verily Life Sciences, is developing a full range of internal and external sensors that monitor everything from blood sugar to blood chemistry. And that’s just Alphabet. The list of once multimillion-dollar medical machines now being dematerialized, demonetized, democratized, and delocalized—that is, made into portable and even wearable sensors—could fill a textbook.

Unlocking the Benefits of Continuous Glucose Monitors: A Comprehensive Guide Continuous Glucose Monitors (CGMs) have revolutionized diabetes management, offering real-time insights into blood sugar levels like never before. As the prevalence of diabetes continues to rise globally, understanding the significance of CGMs becomes paramount. Let's delve into the world of CGMs, exploring their benefits, functionality, and impact on diabetes care. What are Continuous Glucose Monitors? Continuous Glucose Monitors are wearable devices that continuously track glucose levels throughout the day and night. Unlike traditional glucose meters, CGMs provide real-time data, offering a comprehensive view of glucose fluctuations and trends. Benefits of Continuous Glucose Monitors Continuous Monitoring CGMs provide a continuous stream of glucose data, empowering individuals to make informed decisions about their diet, exercise, and medication. Early Detection CGMs can detect both hypo- and hyperglycemic episodes before they become severe, enabling prompt intervention. Improved Diabetes Management By providing insights into how different factors affect blood sugar levels, CGMs facilitate personalized diabetes management strategies. Enhanced Quality of Life CGMs reduce the need for frequent fingerstick testing, minimizing discomfort and improving overall quality of life for individuals with diabetes. Remote Monitoring CGMs can be integrated with smartphone apps, allowing caregivers and healthcare providers to remotely monitor glucose levels and provide timely assistance. How do Continuous Glucose Monitors Work? CGMs consist of three main components: a sensor, transmitter, and receiver/display device. Measurement of glucose levels in the interstitial fluid is performed by the sensor, which is commonly inserted beneath the skin. The transmitter sends this data to the receiver/display device, where users can view real-time glucose readings and trends. Conclusion Continuous Glucose Monitors represent a significant advancement in diabetes management, offering unparalleled insights and convenience. With their ability to provide continuous glucose monitoring, early detection of fluctuations, and personalized insights, CGMs are transforming the lives of individuals with diabetes worldwide. Embracing this technology can lead to better diabetes management, improved quality of life, and reduced risk of diabetes-related complications.

The Impact of Continuous Glucose Monitors on Diabetes Management Continuous Glucose Monitors (CGMs) have revolutionized diabetes management by providing real-time insights into blood sugar levels. These small wearable devices offer a continuous stream of data, enabling individuals with diabetes to make informed decisions about their health. Unlike traditional glucose meters, which only provide a snapshot of blood sugar levels at a single moment, Continuous Glucose Monitors track fluctuations and trends throughout the day and night. This constant monitoring allows for better glycemic control and reduces the risk of complications associated with diabetes. One of the key benefits of CGMs is their ability to provide immediate feedback on how food, physical activity, and medication affect blood sugar levels. This empowers individuals to make timely adjustments to their lifestyle and treatment plans. Moreover, CGMs offer enhanced convenience by eliminating the need for frequent finger pricks. Instead, users can simply wear the device and receive continuous glucose readings without interruption. Another advantage of Continuous Glucose Monitors is the ability to set customizable alerts and alarms for high or low blood sugar levels. These notifications help individuals to take prompt action to prevent dangerous situations such as hypoglycemia or hyperglycemia. Furthermore, many CGM systems allow for data sharing with healthcare providers, facilitating more personalized and collaborative diabetes management. This improves communication between patients and healthcare professionals, leading to better treatment outcomes. Overall, Continuous Glucose Monitors have improved diabetes management by delivering real-time insights, convenience, and glycemic control. Embracing this technology can empower individuals with diabetes to take control of their health and live fuller, healthier lives.

The Game-Changer in Diabetes Management: Continuous Glucose Monitors Continuous Glucose Monitors (CGMs) have revolutionized diabetes management, offering real-time insights into blood sugar levels like never before. In this article, we'll delve into the significance of CGMs, their benefits, and why they are a game-changer for individuals living with diabetes. Understanding Continuous Glucose Monitors Continuous Glucose Monitors are wearable devices that constantly monitor glucose levels in the interstitial fluid, providing users with real-time data on their blood sugar levels. Unlike traditional finger-prick tests, CGMs offer a continuous stream of information, allowing for proactive management of diabetes. Benefits of Continuous Glucose Monitors Real-Time Monitoring: CGMs offer instant feedback on blood sugar levels, enabling users to make informed decisions about their diet, medication, and lifestyle choices. Early Detection of Trends: CGMs track glucose trends over time, allowing users to identify patterns and adjust their management strategies accordingly. Improved Diabetes Management: With continuous monitoring, individuals can better manage their blood sugar levels, reducing the risk of hyperglycemia and hypoglycemia episodes. Enhanced Quality of Life: CGMs provide greater freedom and flexibility, reducing the need for frequent finger pricks and offering peace of mind to individuals and their caregivers. Why CGMs Are a Game-Changer Precision Medicine: Continuous Glucose Monitors enable personalized diabetes management by providing individualized insights into glucose fluctuations and responses to various factors. Empowerment Through Data: CGMs empower users with valuable data, enabling them to take control of their health and make informed decisions in collaboration with healthcare providers. Continuous Innovation: Advancements in CGM technology, such as improved accuracy and connectivity features, continue to enhance the user experience and expand the capabilities of these devices. Integration with Digital Health Ecosystem: CGMs seamlessly integrate with mobile apps and other digital health platforms, facilitating data sharing, remote monitoring, and telehealth consultations. Conclusion Continuous Glucose Monitors represent a significant advancement in diabetes management, offering real-time insights, personalized care, and improved quality of life for individuals living with diabetes. As technology continues to evolve, CGMs will play an increasingly vital role in empowering individuals to live healthier, more active lives while effectively managing their condition.

- Who is your product’s user? - What is the user doing right before your intended habit? - Come up with three internal triggers that could cue your user to action. Refer to the “5 Whys Method” described in this chapter. - Which internal trigger does your user experience most frequently? - Finish this brief narrative using the most frequent internal trigger and the habit you are designing: “Every time the user (internal trigger), he/she (first action of intended habit).” - Refer back to the question about what the user is doing right before the first action of the habit. What might be places and times to send an external trigger? - How can you couple an external trigger as closely as possible to when the user’s internal trigger fires? - Think of at least three conventional ways to trigger your user with current technology (emails, notifications, text messages, etc.). Then stretch yourself to come up with at least three crazy, or currently impossible, ideas for ways to trigger your user (wearable computers, biometric sensors, carrier pigeons, etc.). You may find that your crazy ideas spur some new approaches, which may not be so crazy after all. In a few years, new technologies will create all sorts of currently unimaginable triggering opportunities.

Building a Better Battery Boyoun Kim By BRIAN X. CHEN and NICK BILTON SAN FRANCISCO — The next breakthrough smartphone, or maybe the one after that, might not have a traditional battery as its sole source of power. Instead, it could pull energy from the air or power itself through television, cellular or Wi-Fi signals. Engineers at Apple even tried for many years to build a smarter battery by adding solar charging to iPhones and iPods, a former Apple executive said. And they have continued to experiment with solar charging, two people who work at the company said. Batteries, long the poor cousin to computer chips in research-obsessed Silicon Valley, are now the rage. As tech companies push their businesses into making wearable devices like fitness bands, eyeglasses and smart watches, the limitations of battery technology have become the biggest obstacle to sales and greater profits. Consumers are unlikely to embrace a wristwatch computer like the one being worked on by Apple, or Google’s smart glasses, if they work only a few hours between charges and must be removed to be plugged in.

Accenture, the management consultancy, forecasts the wearable technology market, currently worth $1bn-$3bn a year, will rise to $18bn by 2018.

ReWalk developed by Argo Medical Technologies in Israel. He applied for their research program and trained in their use. Typical patients need twenty to seventy sessions to learn how to use these wearable robots. Woo mentioned how thrilling it was to be able to again stand next to his wife and give her a hug, and to walk with his children to the park.

Legal opposition and social protest have surfaced in relation to the digitalization of books,24 the collection of personal information through Street View’s Wi-Fi and camera capabilities,25 the capture of voice communications,26 the bypassing of privacy settings,27 the manipulation of search results,28 the extensive retention of search data,29 the tracking of smartphone location data,30 wearable technologies and facial-recognition capabilities,31 the secret collection of student data for commercial purposes,32 and the consolidation of user profiles across all Google’s services and devices,33 just to name several instances. Expect to see drones, body sensors, neurotransmitters, “digital assistants,” and other sensored devices on this list in the years to come.

Abstract: There are three distinct modes of self-representation in digital media: written, visual and quantitative.

Nurses could wear a sensor that detects heart rate and helps them fight off fatigue on long shifts, Bartow said, or manufacturing companies could strap GPS-enabled smart watches on workers to hassle them if their breaks are too long. It's easy to see how this could quickly become annoying. Sixty-six percent of Millennials and 58 percent of all workers said they would be willing to use wearable technology if it allowed them to do their job better, according to a survey last year by Cornerstone OnDemand. That leaves plenty of people uneasy about it. That resistance could hurt productivity, says Ethan Bernstein, an assistant professor of leadership at Harvard Business School. He has studied the "transparency paradox," which says that production in the workplace can slow down if employees know the bosses are watching. "It will be much harder to see if these are actually improving productivity or if, because people change when they're watched, they produce a different outcome," he said.

activity, diet, smoking and alcohol consumption are highly related to epidemic of obesity [2]. Some of this information, such as alcohol and tobacco use, is regularly documented by clinicians. Other information, such as dietary behaviors and physical activity, isn’t typically captured, but may be tracked by new technology (such as wearable computers commonly referred to as “wearables”) and integrated into electronic health records (EHRs).

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DO THIS NOW Refer to the answers you came up with in the last “Do This Now” section to complete the following exercises: Who is your product’s user? What is the user doing right before your intended habit? Come up with three internal triggers that could cue your user to action. Refer to the 5 Whys Method described in this chapter. Which internal trigger does your user experience most frequently? Finish this brief narrative using the most frequent internal trigger and the habit you are designing: “Every time the user (internal trigger), he/she (first action of intended habit).” Refer back to the question about what the user is doing right before the first action of the habit. What might be places and times to send an external trigger? How can you couple an external trigger as closely as possible to when the user’s internal trigger fires? Think of at least three conventional ways to trigger your user with current technology (e-mails, notifications, text messages, etc.). Then stretch yourself to come up with at least three crazy or currently impossible ideas for ways to trigger your user (wearable computers, biometric sensors, carrier pigeons, etc.). You could find that your crazy ideas spur some new approaches that may not be so nutty after all. In a few years new technologies will create all sorts of currently unimaginable triggering opportunities.

Fortunately, we’re entering a new era of medicine. Doctors no longer need to serve as the middlemen for interpreting lab results. This new era will benefit patients profoundly. Levels CEO Sam Corcos calls this concept “bio-observability”—the ability to observe your own biology through technologies like wearables, continuous monitors, and direct-to-consumer (DTC) lab testing. Let me be clear: bio-observability is one of the most disruptive trends our health care industry faces. You should not blindly trust your doctor and you should not blindly trust me. You should trust your own body. Your body can “speak” to you through accessible testing and real-time data from wearable sensors that help you understand how individual symptoms are connected to overall metabolic health.