2017 Agreement Between Players and NBA Says Practice Games Only
From Fitbit Trackers for the average consumer to the Zephyr Bioharness, which is allowed by Major League Baseball for players during actual games, wearable sports technology is hitting fields, tracks and gyms right and left. But not the basketball courts of the NBA, according to a recent decision between the organization and the Players Association.
The collective bargaining agreement released earlier this year states explicitly (and more than 250 pages into the document) that, “No Team may request a player to use any Wearable unless such device is one of the devices currently in use as set forth in Section 13(f)below or the device and the Team’s cybersecurity standards have been approved by the Committee.”
Section F makes it clear that players will only wear the device on a voluntary basis. The agreement further states that devices can be worn during practice— but not games.
Wearable devices for professional athletes measure everything from movement information (such as distance, velocity, acceleration, deceleration, jumps, and changes of direction), to biometric information (heart rate, heart rate variability, skin temperature, blood oxygen, hydration). Depending on the device, other health, fitness and performance information is gathered.
The technology is not, by today’s standard, new. The Adidas miCoach Elite Team System (one of approved devices for practice) hit the market in 2013. It’s touted, by Adidas, as the first of its kind “that uses physiological data in real time sending it straight to a coach’s tablet on the sideline. The system not only provides real-time insights during training, but tracks total training impact, collects and manages data and is highly portable.”
The goal of the system was to “offer insights into player performance and work rate, helping teams achieve and maintain peak physical performance.”
Apparently unconvinced about the need for wearable devices—but well aware that there’s no turning back from the wearable tech trend—the 2017 agreement sets up a committee to continue to explore the issue.
Wearable technology is far from limited to watches and glasses. Though smart clothing is admittedly taking longer to catch on, the possibilities are really endless when apparel is ascribed that “smart” quality that makes IoT products unique.
What if, for example, your pants were embedded with sensors that could tell you about your body, movements, and need throughout the day? Smart trousers are far from just a pipe dream. With various different visions in mind, several technology/apparel companies are developing pants that do more than just fit.
Sweetflexx, for example, sells leggings with “resistance band technology” to help wearers burn up to 255 extra calories a day, when worn. Their unique fabric technology is designed with comfort in mind, with crushed jade stone infused to lower body temperature by 10 degrees, and harness everyday movement to challenge muscles and tone your body.
Another type of smart athletic pants, developed by Athos, measures your muscular effort and maps it on a smartphone app. The app can tell you whether or not you are reaching your maximum muscle potential, if you are favoring one side of your body of another, or if some muscles are working harder than others.
There are also “smart tights” available for yoga enthusiasts. Sydney-based Nadi X comes with an app, and areas of the tights vibrate where posture and form need to be adjusted.
But as we’re discovering more and more, wearables have application outside of just sports. As one example, wearable tech trousers for tradesmen have been designed to keep workers safe. Developed by Snickers — the workwear company, not the candy — the pants house a device that collects data to alert wearers about knee protection and loud noise levels. The idea is to improve the health and safety of the employees wearing them, who may not realize when their health or safety is threatened. The data collection element of these wearables can help employers make adjustments that ensure safer, healthier conditions for workers.
Does wearing smart pants, necessarily, make you a smarty-pants? Maybe! The whole point of wearable technology is to add value and function, and it follows that the more value an item of clothing has, the smarter an investment it is. Though the examples listed probably aren’t for everybody, they do a great job of demonstrating that wearable technology has potential beyond wristwear.
“There’s no better time to strike than when you’re winning.” That’s according to Cedric Brown, Interactive Marketing Content Manager for the Miami Heat. On a recent panel called “The Evolution of Sports Fan Experience, Powered By Technology, hosted by Social Media Week Miami, Brown and other Miami tech marketing specialists came together to talk about how Miami teams are modernizing the fan experience–and why a winning team can make all the difference.
Sports teams across the country are undergoing a shift from paper to mobile for tickets. In 2016, this is mostly a welcome change: as Brown points out, “people just don’t use paper anymore.” Four or five years ago, the Miami Heat introduced mobile ticketing at a time it might have not been so popular, if it weren’t for one fact: The Heat were NBA champions from 2011 through 2014. “We noticed that fans hate change,” Brown said. “It’s a lot easier to push a mobile app….when they come to see a great product on the floor.”
Ticketing is just one of many changes disrupting the sports fan experience, but it’s an important one. More people are getting tickets on their phones now than ever, with mobile ticketing expected to account for one in two tickets by 2019. The New York Yankees recently switched over to mobile ticketing entirely, and many teams have apps that makes purchasing easier.
Why make this shift to mobile? There are great benefits on both ends: for fans, there is an element of convenience, fun, and cool rewards; for teams and brands, it is an opportunity to energize fans, bring in additional revenue, and reach sometimes aloof millennial audiences.
Technology can get fans excited, sure, but what excites fans most of all? A winning team. Unfortunately, it’s hard to be excited about poor performance. There’s a cycle: winning teams energize fans, who enable marketers and developers to implement new user-servicing technology, which energizes fans even more, who in turn (hopefully) energize the team to continue winning. Wherever this cycle begins, the idea is simple: fans should have an awesome experience. And losing teams? Fans won’t come out for them, the team won’t profit, less technology will be implemented…. You get the idea.
The relationship between winning, fan experience and technology, of course, begs the question: where does money fit into the equation? The teams with the most wins have the highest payrolls, and are therefore more likely to attract talented CEOs, coaches, and athletes. According to Forbes, “the highly sought-after player is motivated by a combination of the following influences: big money, big money markets where a player can earn bigger-time endorsements, big lifestyles, and the opportunity to play for the biggest time-honored franchises in the history of the sport.”
In a ranking of 2016’s most tech-savvy sports teams, then, it’s no coincidence that the New York Yankees come out on top followed by the Dallas Cowboys.
Where do 2016’s champions stand? The Denver Broncos, who won the most recent Super Bowl, were ranked #14—the second most innovative NFL team. The Broncos having been betting on technology both before and after winning the last two Super Bowls. They have used augmented reality to partner with brands, implementing a “Twitter vending machine” to reward fans, and most recently to host a STEM hackathon.
The Cleveland Cavaliers, who won the NBA champion and are ranked at #10, have adopted 3D mapping technology, virtual reality behind-the-scenes campaigns, and will provide play-by-play “augmented audio” to fans soon.
Then you have the Chicago Cubs, who won the World Series for the first time in over a century. Some have suggested it was their use of big data in analyze pitching performance that helped them finally seal the deal. We’ll have to see if the momentum from the win motivates them to lean into tech trends even more.
All things considered, the Miami Heat remains a great example of how winning empowers teams to take technology to the next level. Their multi-year success brought their fans from a local level to a global level, and ever since the team has been leveraging technology to reach fans across the world. They have redesigned their mobile app and are moving swiftly toward all-digital ticketing. Other winning teams should follow suit.
It’s true that a majority of fans are destined for disappointment regardless of how innovative the fan experience is made to be. But making the journey engaging is worth the while. As long as teams can keep fans on board through the highs and lows that inevitably come, they should be able to make gains in technology too. Just like Brown said—strike when you’re winning, and hope that when you strike out, the fans will stay.
Professional athletes make great money—but only for a few years—and far too often their financial gains are lost shortly after they stop playing.
While it varies athlete to athlete, on average an NFL player’s career will last just under four years and Major League Baseball players get a whopping 5.6 years, according to The Bleacher Report.
During that time, these pros can make (again, on average) anywhere from $1.5 million to $4.8 million.
That money has to last them a lifetime. Savvy players (and their agents and managers) know this, which means they know that they have to invest. Interestingly, more and more athletes are funneling their funding towards tech start-ups, whether as straight-up investments or as full-on partnerships.
A recent article in Entrepreneur discusses the start-ups, everything from coaching to photography apps, that NBA stars Steph Curry and Kevin Seraphin are backing.
The National Football League Players Association is so supportive of sports-meeting-start-ups that last year the organization facilitated a “tech tour.” Players toured companies in Silicon Valley, talking with game designers at EA, learning the ins and outs of businesses such as Uber, really seeing inside the innovations.
Why technology? There are several possible reasons. As the Entrepreneur article points out, these are athletes who’ve grown up with technology.
There’s also the potential for high returns—which could appeal to the competitive nature of professional athletes. Apple is still one best-performing stocks ever.
Regarding the start-ups, there’s evidence that playing a competitive sport makes you less-likely to be alarmed by high-risk investments.
Besides, while 90 percent of start-ups fail that’s still better odds than going pro. The NCAA reports that less than two percent of college basketball and football players make it to the pros. The odds are better for baseball, at just over nine percent.
Whether it’s the appeal of a competitive marketplace, the thrill of the risk, or simply wanting to invest in their own financial future, putting money into technology does seem to be trending among athletes.
Which is great, given the long history of pros going broke after successful athletic careers.
While technology and start-ups might seem like a risk for people new to the investment game, investment pros and pro athletes know, the only shots you’re guaranteed to miss are those you don’t take.
“If only they could talk.” How many times has an animal lover, or a farmer, lamented over this lack of communication?
What if there were technology available that didn’t quite let animals talk, but it did allow for information—lots of it—to be shared? Today’s wearable and ingestible technology for animals is doing just that, in ways large and small.
On the home front, one study showed that microchipping a pet meant that it was more than twice as likely for that pet to be reunited with its owner, if found and turned over to a shelter.
But microchips, which are simple, implanted, identification devices, are the tip of the animal tech iceberg.
GPS tracking is doing wonders for preservation and conservation efforts. Since 2013, scientists have been using GPS, combined with satellite weather and terrain information (the Environmental-Data Automated Track Annotation, or Env-DATA, system) to track the migratory patterns of the Galapagos Albatross, a threatened species.
Scientists from Commonwealth Scientific and Industrial Research Organisation (CSIRO), Australia’s national science agency, put tiny GPS trackers on thousands of bees in Tasmania. The goal is to gather data about their habits (where and how far they travel) and to monitor disruptions that could indicate a problem with the swarm.
According to their website, “If we can model their movements, we’ll be able to recognize very quickly when their activity shows variation and identify the cause.
This will allow farmers and fruit growers to increase the benefit received from this free pollination service, and will also allow us to monitor for any biosecurity risks such as Varroa mite.”
Health is key not just in migratory or at-risk animal populations, but also in farm animals where illness can spread rapidly and cause huge losses quickly.
iNOVOTEC Animal Care has created a stomach sensor (as in, it’s in the cow’s stomach) that enables farmers to catch illnesses earlier, making for healthier lives for the livestock, and saving money.
The system is able to track pH, temperature, estrus—essentially most of the information needed to proactively deal with any health problem or concern.
RFIDs (Radio-Frequency Identification), the small electronic devices that consist of a small chip and an antenna, are being used to huge advantage in India’s dairy industry.
From the home front of pet identification, to the migratory world of the birds and the bees, to the huge industry of dairy farming, it’s clear that the better the technology and data, the better the problem-solving.
Among the most intriguing innovations in wearable technology is high-tech clothing. Will we all be decked out in smart clothes from head-to-toe in the future? Will our shirts and sneakers be collecting data and making suggestions? Some people think so, and it could be athletes that are the first to roll up their sensored sleeves and getting down to business.
Companies are already designing high-tech clothing for athletes. For example, take “e-skin” by the wearable tech company Xenoma. This smart shirt tracks gestures and makes suggestions on form to athletes.
How does it work? E-skin is made with Printed Circuit Fabric, which has stretchable sensors and wires embedded into the textile during manufacturing. A centralized “hub” sits in the middle of the shirt, able to transmit data to a smartphone, tablet, or other devices.
Xenoma offers an e-skin software development kit so that developers can create apps that take advantage of e-skin’s innovative capabilities. The kit starts at $5000.
One use of e-skin that you can witness on video? E-skin for golfers. The shirt succeeds in analyzing the wearer’s swing, form and stance. Then it provides feedback to help the athlete improve. It could do much the same for any sport.
Xenoma also showed off e-skin this January at the Consumer Electronics Show (CES), this time for its gaming capability. Able to record data at 60-frames a second, e-skin can translate your movements into digital form, animating game characters on screen.
What more do you need from e-skin? Try machine washable (check), rechargeable (check), and long-lasting (it has a four-hour battery life). Xenoma is expected to release a consumer version for around $600 by mid-2017.
For gamers, especially of the VR variety, it could be an amazing way to get an immersive and active experience out of gaming. I expect it will be even better for athletes, acting as a very personal trainer that knows your body better than you do. For the rest of us, it can remind us to breathe and relax, let us know if our posture is poor, and encourage us to live a more active lifestyle.
Every year, the Consumer Electronics Show unveils the hottest new tech products and trends, which predictably leave tech junkies drooling with anticipation. This is just as true for sports technology, which makes its debut in various iterations at CES to the delight of those like myself with interest in this growing field.
2017’s CES opened on January 5 in Las Vegas with just as much fanfare as usual, and with it a slew of amazing new products.
FitBit, which recently acquired Pepple, unveiled its new personal trainer app. It is also partnering with nutrition app Habit, indoor training bike company Peloton, and VR sports pioneer VirZOOM, and even Uber — though we may just have to wait and see what comes of these. Nonetheless, FitBit has proven itself an industry leader in athletic wearable tech.
Another product that cropped up at CES was Athlete Recovery Sleepwear, introduced by Under Armor. In partnership with Tom Brady, Under Armor’s product promises to help regulate body temperature and improve sleep for better daytime performance.
Other smart apparel at CES include the Pro Team Shirt, which comfortable operates as a heart monitor and GPS, a smart baseball training shirt from SwingIQ, and a smart running shoe by Sensoria and VIVOBAREFOOT.
Biometric data wearables are also proving to be a trend, and the less visible, the better. According to Sports Illustrated, a trend called “hearables,” as demonstrated by in-ear data trackers by Bodytrak, KUAI, and the Dash. These small devices are perfect for collecting internal metrics, like core body temperature, while also having the ability to play music. Fun!
All in all, it looks like another successful CES for athletes and for fans. It’s clearer than ever that as technology gets more advanced, so does the athletic prospects and fan experience of those that adopt it.
If high stress levels tend to rule your days and you’re committed to living a healthier lifestyle, technology may be able to help you out. Cigna has unveiled the Cigna Virtual Relaxation Pod that gives you a chance to escape reality for a while — a two-minute break that works to push the reset button on your day.
The pod makes use of virtual reality technology using the Oculus Rift headset and headphones. You’ll enter a sound-insulated environment for a multi-sensory experience. The entire experience induces a state of mindfulness and relaxation, an opportunity to explore a virtual environment with expert-guided meditation. You’ll be locked in a sound-insulated pod and all you need to do is sit back, relax, and breathe deeply. You get to choose your environment: a Zen garden, a tropical beach, or a woodland campsite. You’ll go on a two-minute sensory journey that allows you to just let go, escaping from reality to experience a state of mindfulness.
In an interview with Medical Daily, Cigna Solution Architect Rachel Stein shares that Oculus technology helps transport the user to a relaxing environment where they can take advantage of the benefits of mindfulness therapy. The pod engages all the senses, making you aware of your current state of mind. The guided meditation helps you maintain a state of mindfulness, peace, and calm, in a relaxing setting.
The team behind the Cigna Virtual Relaxation Pod are hoping to see the pod installed inside hospital lobbies and other places where people tend to feel tense, nervous, or anxious. Just a couple of minutes in this pod can promote a meditative state which helps induce a state of calm and natural relaxation.
Would you be first in line to settle in to a virtual relaxation pod? Innovative experiences like these could be the next generation of health and wellness. Virtual reality can control the mind and in ways that make significant changes to our health and well-being.
As technology becomes omnipresent in people’s lives–people go about their lives smartphone in hand–it follows that we would no longer have to carry technology, but simply slip it on. Smartwatches and fitness trackers are the first widespread wave of wearable technology, but they certainly will not be the last. These wrist devices are already gathering vast amounts of information about their wearers that can be translated into lifestyle research, which will inevitably lead to even more convenient tech accessories.
The trick with wearable technology, however, has not been ease of use, but style. The trendsetters who pioneer new fashion styles could also pave the way for wearable tech, but it will need to look the part. The contradiction is in the name: for technology to be wearable, it will need to look enough like fashion. But tech geeks have never been known as fashion plates, so what happens when these two worlds collide?
For decades, Apple has been the frontrunner for sleek product design, and indeed, their Apple Watch–like their phones–can now command a wait. However, a wearable not only needs to look good enough to be shown off, but needs to function well enough to become essential. Otherwise, why wear it in the first place? Fashion is famously ephemeral, but wearable technology cannot afford to be so short-lived. Although new models will be released, both the functionality and aesthetic need to meet certain standards for wearable tech to be fully integrated into people’s lives.
Wearable technology also offers a valuable service to athletes that could make it a functional part of sports uniforms. Major League Baseball players experimented with wearable technology this past year on a voluntary basis. Approved devices were evaluated and tested before they were allowed on the field, and rules govern the gathering and use of information. But wearable technology could greatly help athletes and their support staff monitor players’ health and performance when they are most active.
Technology isn’t going away, which means it will likely become even more integral to our daily lives. What better way to weave technology into the day-to-day than by wearing it?
It turns out that the future of space exploration may look more like Avatar than other popular science fiction depictions. Those cinematic organic blue avatars are a form of wearables–mechanical exoskeletons that allow for remote control of robots. The immediate implications of such technology include deep space exploration that would drastically reduce risk to humans, as well as ambulatory capabilities for those paralyzed or without full control of their limbs.
NASA worked for years to build a robotic exoskeleton with The Florida Institute for Human and Machine Cognition (IHMC). Weighing in at 57 pounds, the X1 exoskeleton could both restrict and enable limb movement. The former capacity could provide valuable exercise for astronauts through muscle resistance, particularly during longer spells in space or on expeditions, replacing bulkier exercise machines. The exoskeleton can also transmit biometrics back to scientists planetside. As the technology is developed further, a machine exoskeleton could provide extra power for astronauts on the surface of a distant planet, helping them to walk with less gravity, for example.
Astronauts at the International Space Station tested another form of wearable technology: a joystick developed by the European Space Agency. The METERON (Multi-Purpose End-To-End Robotic Operations Network) research collaboration between countries like the Netherlands, Germany, the United States, and Russia is interested in giving astronauts in orbit the ability to teleoperate robots on the planet’s surface. The highly-sensitive joystick will simulate the force of objects on a planet’s or moon’s terrain, resisting the astronaut’s control.
Testing in the International Space Station will help METERON better understand how this kind of control–which most people experience in video games–feels for those operating in little or no gravity, with extended exposure to weightlessness. Officials from the European Space Agency explained their vision: “’Future planetary exploration may well see robots on an alien surface being teleoperated by humans in orbit above them—close enough for real-time remote control, without any significant signal lag, to benefit from human resourcefulness without the expense and danger of a manned landing.’”
Just a year ago, in late 2015, NASA gave MIT’s Computer Science and Artificial Intelligence Laboratory (CSAIL) the R5 robot known as “Valkyrie,” that is expected to be part of Mars missions. These humanoid robots can pave the way for astronauts’ arrival, reducing human risk, and stick around to assist astronauts on missions. “‘Human-robotic collaboration’” is seen as critical for longer missions like Mars.
Most recently, DFKI spearheaded the CAPIO project, which produced an exoskeleton that remotely steers a robot called AILA. This project improved on the fine motor skills of the robotic avatar: AILA can even send sensory feedback to the wearer of the CAPIO exoskeleton. The ideal test would involve sending AILA to the International Space Station and testing the remote connection from the planet’s surface.
All this research, development, and investment indicates that wearables are seen as the way forward for space exploration, at least until it can be made safer for humans. But even with improvements, wearables will likely still be an invaluable resource for exploring the true unknown, as we venture deeper and further into space.