Digital Twins: the Ultimate in Internet of Things Real-Time Monitoring

Get ready for the age when every product will have a “digital twin” back at the manufacturer, a perfect copy of not just the product as it left the factory floor, but as it is functioning in the field right now. That will be yet another IoT game-changer in terms of my 4th IoT Essential Truth, “rethink products.”

Oh, and did I forget to mention that we’ll each have a personal body twin from birth, to improve our health?

For the first time we’ll really understand products, how they work, what’s needed to improve them, and even how they may be tweaked once they’re thousands of miles from the factory, to add new features, fix problems, and/or optimize efficiency.

Key to circular organizations

Even better, the twin can play a critical role in accomplishing my vision of new circular organizations (replacing obsolete hierarchies and linear processes), in which all relevant departments and functions (and even supply chain members, distribution networks and customers, where relevant) form a continuous circle with real-time IoT data as the hub).  Think of the twin as one of those manifestations of the real-time data to which all departments will have simultaneous access.

GE Digital Twin visualization

               GE Digital Twin visualization

I’ve often remarked how incredible it was that companies (especially manufacturers) were able to function as well as they did and produce products as functional as they were despite the inability to peek inside them and really understand their operations and/or problems. Bravo, industrial pioneers!

However, that’s no longer good enough, and that’s where digital twins come in.  In a WSJ blog post this week, General Electric’s William Ruh, my fav IoT visionary/pragmatist, talked about how the company, as part of its “Industrial Internet” transformation, is making digital twins a key tool:

“Every product out there will have one, and there will be an ability to connect a system, or systems of digital twins, easily. The digital twin is a model of an asset, a product such as a jet engine or a model of the blades in a jet engine. Sensors on those blades pull the data off and feed them into the digital twin. The digital twin is kept current with the data that is run off the sensors. It is in sync with the reality of the blade. Now we can ask what is the best time to change the blade, how the blade performs, options to get greater efficiency.”

Proof of the pudding?

Ruh says they’ve created a wind turbine and twin they call the “Digital Windfarm,” which generates 20% more electricity than a nearby conventional turbine.

PTC is also working on digital twins. According to the company’s Executive VP for Digital Twin, Mike Campbell,:  “It’s a model that uniquely represents a physical occurrence in the real world. This one-­to­one mapping is important. You create a relationship between the digital data and a unique product occurrence from a variety of sources: sensors, enterprise data on how it was made, what its configuration was, its geometry, how it is being used, and how it is being serviced.”

Predix

The key to digital twins is GE’s “Predix” predictive analytics software platform, which the company is extending across its entire product line. As always, the key is a constant stream of real-time data:

“weather, component messages, service reports, performance of similar models in GE’s fleets—a predictive model is built and the data collected is turned into actionable insights. This model can perform advanced planning, such as forecasting a ‘plan of the day’ for turbine operation, determining a highly efficient strategy to execute planned maintenance activities, and providing warnings about upcoming unplanned maintenance events, all of which ultimately generates more output and revenue for the customer.”

Digital doppelgängers

Here’s where the really sci-fi part kicks in: Ruh also predicts (Predix??, LOL) that GE’s medical division will soon create digital twins for you and me — at birth!

“I believe we will have a digital twin at birth, and it will take data off of the sensors everybody is running, and that digital twin will predict things for us about disease and cancer and other things. I believe we will end up with health care being the ultimate digital twin. Without it, I believe we will have data but with no outcome, or value.”

And, frankly, there’s also a spooky aspect to what GE’s doing, working with retailers to create psychographic models of customers based on their buying preferences. I’m dubious on that account: I do appreciate some suggestion about what might interest me, especially books, based on my past purchases. On the other hand, a couple of weeks I shopped for — but didn’t buy — biz cards online. Now, I get AdSense ads for these cards everywhere — even on this homepage (sorry for stuff that isn’t IoT, dear reader) Get over it, OK? Count me out when it get’s down to really granular psychographic profiles — too many risks with privacy and security.

I suspect digital twins will become a staple of the IoT, yielding critical real-time info on product status that will enable predictive maintenance and, as Ruh has written elsewhere, speeding the product upgrade process because, for the first time, designers will know exactly how the products are functioning in the field, as opposed to the total lack of information that used to be the norm. Stay tuned.

3 Steps to Make Your City a World Leader in the IoT

I don’t know about you, but, in the face of grim news globally, I’m determined to make this an incredible year of change and growth.

Happy New Year!

I took a longer than normal time off, to pick up our youngest in Hong Kong after a semester abroad in Thailand, then vacation in Bali.

Hong Kong Internet of Things Association

I started the trip with a speech to the Hong Kong Internet of Things Association, in which I laid out my vision of radical change in corporate management and organization made possible by the IoT, away from the increasingly-obsolete hierarchical and linear forms that made perfect sense in an early 20th-century setting when data was hard to gather and share, but doesn’t when the IoT can allow instant sharing of real-time data by all who need it.

But the most interesting issue came up in the following q & a, when someone asked whether Hong Kong could become a global leader in the IoT.

I told them yes, and followed up with an op-ed in today’s South China Morning Post laying out the steps.

I believe the same steps can help your city become an IoT leader, and that this is a case of the-more-the-merrier: the more cities become IoT leaders the quicker widespread innovation and IoT adoption will become, and the more liveable and efficient our cities — the necessary focus of global growth in this century, especially to meet the challenge of global warming — will become.  So here goes!

  1. Create an IoT community.The one in Boston that I founded is now three years old, and numbers almost 2,000 members. My reason for doing it was that I’d run into many people working in the IoT here (Boston is listed as having the 4th largest concentration of IoT headquarters) but they were largely working in isolation, without a forum to bring them together.

    Forming an IoT network is a crucial step, because the IoT is inherently collaborative: as I’ve written many times before, “network effects” make each individual IoT device or service more valuable if they can be combined with others (for example, Apple’s HomeKit now allows someone to simply say “Siri, it’s time for bed,” and that voice command can trigger collaborative action by a variety of devices from different manufacturers, such as turning down the thermostat, locking the front door, and turning off the lights, which makes each of these IoT devices more valuable than they would be in isolation). Equally important, face-to-face contact may spark ideas that even the most talented IoT practitioner wouldn’t have thought of, huddled alone in his or her garret (or kewl cow0rking space…).

    An association that brings together all of your IoT practitioners will create synergistic benefits for all of them.

  2. Embrace the “smart city” vision. 

    This has the biggest potential payoff for your city, whether or not it becomes a big IoT commercial hub.Traditionally, cities have been laggards in technology adoption, but that’s no longer the case, starting in 2008, when I had the extreme privilege of being a consultant to DC CTO Vivek Kundra (who later became the first US CIO, specifically because of his achievements in DC) when he launched the DC Open Data initiative and the Apps [remember, this was 2008: what the heck are these “apps”???] for America contest to design apps to capitalize on this real-time data.  Hundreds of cities worldwide have embraced the concept, and because it stresses that the solutions be open source, cities that are late to the game can quickly benefit by adopting and adapting creative solutions that others have pioneered.

    When the IoT came along, many of these cities and their entrepreneurial residents were quick to realize their real-time data could lead to IoT apps and services that would deal with many of the prime concerns of cities: traffic control, mass transit, electricity, public health, environmental quality, and water and sewage (Credit where credit is due: IBM’s pioneering Smarter Planet service started working with many of the early adopters even before the smart city movement had a name).

    Cities that have launched comprehensive smart city programs, especially Barcelona’s, which includes projects ranging from free wi-fi to health monitoring for seniors to an app to find parking spaces, have realized tangible benefits while cutting operating costs and that will be the case for newcomers as well.

    Sometimes these initiatives tap the collaborative nature of the IoT to produce a public benefit that would be hideously expensive if they were carried out by municipal workers. For example, in Boston the “Street Bump” smartphone app uses the phone’s sensors to detect if the user’s car hits a pothole, then instantly reports the exact location to the city’s Department of Public Works (DPW). In essence, every driver becomes a de facto DPW employee!

  3. Finally,  join in the worldwide “Things Network” movement.As I’ve written before, this will create citywide, free networks for IoT data exchange, in essence turning an entire city into an IoT laboratory for experimentation and mutual benefit.

    This campaign, which was crowdsourced by only 10 technology enthusiasts in Amsterdam last August, successfully created a citywide data network there in less than a month, using 10 $1200 (USD) “LoRaWan gateways.”  LoRanWan is particularly suited to the IoT because it demands little power, has long range (up to 11 km) and low bandwidth. It wouldn’t require passwords, mobile subscription and zero setup costs.

    There are already 27 cities pursuing Things Networks, and the parent organization is making the concept even easier to deploy through a successful Kickstarter campaign last Fall to raise money to build a new LoRaWan gateway that would only cost $200.

    Unlike the full involvement of city government in initiatives such as opening city data bases, a Things Network is best done by volunteers, so that it will not be co-opted by official government agencies or powerful commercial interests: it is most powerful if it’s open to absolutely anyone who wants to try out a smart Internet of Things idea, while also potentially saving the city the cost of administering an expensive program that could instead be run by volunteers at little cost.

So there you have it: 3 practical steps to make your city a world leader in the Internet of Things that will improve urban life and make the city more efficient even if you don’t make the top 10.  Let’s get cracking!

Live Blogging from the IoT Global Summit

Keynotes:
Came in on end of presentation by Rep. Suzan DelBene, D-WA, co-chair of the House IoT Caucus and an IT industry vet. Her litany of federal inaction in the face of rapidly-evolving 2015_IoT_Summittech — especially regarding privacy protections, where  the key law was enacted in 1986 — was really dispiriting, although it’s good to know there are some members of Congress who are aware of the issue and working on it.

EU Ambassador to the US, David O’Sullivan: the IoT is a “quantum leap” because of combining digital and physical world, and will have huge implications.  Europe has created single digital market. Major investments in IoT & funding research on it.  Very open research projects.  Key is breaking down barriers within the economy. They’re doing research on every aspect of IoT. Priority must be overcoming vertical silos, such as cars and health care. Must balance regulation and innovation. Security and privacy: working on a new set of protections.

Dean Brenner, SVP for Gov. Affairs, Qualcomm: everything will need some form of connectivity. Will need new connectivity paradigm. 4G LTE gives solid foundation for cellular IoT growth.  5G will be fully-deployed by 2020.

Dr. Rakesh Kushwaha, Mformation (hmmm?) Business Leader, Alcatel-Lucent: securing IoT devices. Tech & standards that are already in place to secure mobile devices can be model for I0T devices: they worked with whole range of devices. Fundamental principle of the security: securely update through device/firmware update package.   Only about 40% of IoT will be cellular-based.  Alcatel securing vehicle-mounted devices using FW/SW updates. They will launch a project called IoT Connect.

Session 2: Security for the IoT

Dean Garfield, president & CEO, Information Technology Industry Council: think of security as a design feature, not afterthought. Have to think of it in global sense (including between vertical silos). Chinese government security demands are actually counterproductive. Security can be a differentiating feature.

Joseph Lorenzo-Hall, chief technologist, Center for Democracy and Technology: “IoT Spectrum of Insanity” — such as #IoT door locks, require protections be built in. Security by design. He thinks privacy is a bigger factor than security.

Stephen Pattison, vp of Public Affairs, ARM. Hacker only has to get it right once. You have to get it right every time!  Sensors will have to be very cheap ($5 or less), which will require real creativity.  Security will drive acceptability of IoT. Security breaches will be a major risk for IoT companies.

Chris Boyer, asst. vp, Global Public Policy, AT&T: different security concerns in each vertical domain. Functional classification determines the risk (for example, some affect interruption on critical infrastructure, or life risk). Virtualize security around the end device. Industry activities: application layers, service layer, network layer, access technologies. Looking 4 acceptable risk management levels.

Rory Gray, global head of sales, Intercede: “need world of trusted digital identities.” “Identity is the new currency.”

Government procurement standards may drive privacy and security by design.

Adam Thierer: are we overestimating how much people really care about IoT security (vs. the “cool” factor??).

Afternoon Privacy Panel:

Gary Shapiro, president & CEO, CSA: he disagrees that you should HAVE to give permission to have your info shared: cites all the benefits of sharing data. Thinks we went overboard with HIPPA & privacy. Announcing agreement on guiding principles for sharing health info from #QS devices. A sense that products will be unwelcomed if they create privacy or security issues: example of an Intel engineer who has vision problems. On a personal basis, his mother had terrible time with Alzheimer’s: he’s upset he won’t have access to a Google face recognition technology.

Rob Atkinson, president, Information Technology and Innovation Foundation: “privacy fundamentalists” argue really heavy regulation is way to protect privacy.  BUT, no empirical studies underlying that. Pew survey showed few people believe their landline or credit card data will be private, YET almost everyone uses credit cards or phones: i.e., no correlation between people’s belief in privacy of various technologies and their actual use of the technology.  Overly stringent privacy regulations will reduce their availability. Much of real value of IoT data is from secondary use of the data, which would be undermined by tough regulation. Way too early to put regulatory regime into place for IoT: too early.

Maneesha Mithal, assoc. director, Division of Privacy & Identity Protection, Bureau of Consumer Protection, FTC: two fairly controversial aspects of their 2013 workshop: minimizing data collection debate — said you shouldn’t collect all sorts of data forever, BUT, perhaps collect less sensitive data if they could still derive value. Second issue was “notice and choice.” Tried a middle ground: room for notice and choice,  Discussion of regulation: middle ground on regulation: shouldn’t have specific IoT regulation, but should have general, baseline privacy and security protections. We don’t bring “gotcha cases.”  Could have program that would provide incentives for self-regulation.

Gilad Rosner, Founder, Internet of Things Privacy Forum:  “notice & choice” has been the default privacy & security approach for Internet, but it “fundamentally places the burden of privacy protection on the individual.” A presidential group said the responsibility should rest with the provider, not the user.  Hallmark of a civil society is being regulated.

Day Two:

smart health panel:

You can access my “Smart Aging” presentation on Slide Share.

Peter Ohnemus of dacadoo, a Swiss company, gave an overview of IoT and healthcare and talked briefly about his company’s Health Score, a 0-1000 score assigned to participating individuals based on their real-time scores on factors including movement, nutrition, sleep and stress.

Chantal Worzala of the American Hospital Association gave an overview of issues such as information interoperability and new wellness incentives.

Robert Jarrin, senior director of gov. affairs for Qualcomm, talked about some of the policy issues. FDA now has dedicated staff for electronic devices, and they are now not requiring regulatory compliance for some basic devices.

Smart Home panel:

Hmm. Little actual focus on smart homes in this one…

Cees Links, ceo, Green Peak Technologies: they are a chip manufacturer, “wireless plumbers.” Shipped 1M Zigbee chips. “IoT is not about things, it’s about services.” “Smart Home should be called a butler.” Confusion about IoT standards: thinks ZigBee & Bluetooth will survive, proprietary standards won’t.

Ilkka Lakaniemi, chair, European Commission’s Future Internet Public-Private Partnership Program: working on smart cities strategies, esp. ones that are scalable. Working with NIST on common standards for the demo grants in US & EU. 61 cities involved.

Tobin Richardson, president & ceo, ZigBee Alliance. ZigBee, wi-fi & Bluetooth will form basis of a stable ecosystem. Dollar chip is the goal, getting there quickly.

Paul Feenstra, sr. vp of government & external affairs, The Intelligent Transport Society of America: evolution over last 5 years from car focus to a really varied multi-modal transportation industry. Shocking how we accept the high death rate & congestion on highways. 80% of crashes could be avoided by connected cars.

Business Models for the IoT:

Ana Sancho, Libellium: they manufacture sensor networks for the IoT. Solve problems from smart cities to agriculture & water resources. More than 90 different sensors. They just see very early testing the water with IoT on part of their clients: not widescale implementation.

 

 

 

 

 

 

 

I’ll Speak Twice at Internet of Things Global Summit Next Week

I always love the Internet of Things Global Summit in DC because it’s the only IoT conference I know of that places equal emphasis on both IoT technology and public policy, especially on issues such as security and privacy.

At this year’s conference, on the  26th and 27th, I’ll speak twice, on “Smart Aging” and on the IoT in retailing.

2015_IoT_SummitIn the past, the event was used to launch major IoT regulatory initiatives by the FTC, the only branch of the federal government that seems to really take the IoT seriously, and understand the need to protect personal privacy and security. My other fav component of last year’s summit was Camgian’s introduction of its Egburt, which combines “fog computing,” to analyze IoT data at “the edge,” and low power consumption. Camgian’s Gary Butler will be on the retail panel with me and with Rob van Kranenburg, one of the IoT’s real thought leaders.

This year’s program again combines a heady mix of IoT innovations and regulatory concerns. Some of the topics are:

  • The Internet of Things in Financial Services and the Insurance sector (panel includes my buddy Chris Rezendes of INEX).
  • Monetizing the Internet of Things and a look at what the new business models will be
  • The Connected Car
  • Connected living – at home and in the city
  • IoT as an enabler for industrial growth and competition
  • Privacy in a Connected World – a continuing balancing act

The speakers are a great cross-section of technology and policy leaders.

There’s still time to register.  Hope to see you there!

 

 

AliveCor Mobile ECG: the IoT Can Save Your Life!

Got your attention? I find there’s nothing like the fear of death to focus one’s attention.

AiiveCor

AliveCor

Somehow I managed to forget blogging about one of the real highlights of last Spring’s RE-WORK Connect Summit here in Boston: the AliveCor Mobile ECG.*

Perhaps the most important thing about the Mobile ECG is that it is not just a helpful Quantified Self fitness device, but has past the rigors of the FDA licensing process, building both users’ and docs’ confidence in its reliability as a diagnostic tool, and also underscoring that  IoT devices can be significant parts of mobile health strategies. As Dr. Albert said to Forbes, ““No one cares whether their Fitbit is accurate or not …. A point of here or there. With ECGs, that’s different.”  In 2015 the FDA also approved an algorithm instantly letting you know if your reading was normal.

Because of the FDA approval, I put the Alive ECG in that special category of IoT devices and services that are important both in their own right and because of their symbolic role, especially when they meet my test of the IoT allowing “what can you do that you couldn’t do before,” in this case, a self-administered device that isn’t just generally informative about your fitness level, but also gives reliable medical documentation (especially since this allows that documentation to come as part of your activities of daily living, not requiring you to be in the artificial setting of a doctor’s office or hospital). 

I see it as a critical tool in my “Smart Aging” paradigm.

Atrial fibrillation (a common abnormal heart rhythm), the condition the ECG documents, is a huge, and growing, problem. The latest figures I could find, from four years ago, show that people who suffer from it are hospitalized twice as frequently as those who don’t have it, and the annual costs in the US alone are $26 billion.

I found the price on Froogle as low as $86 for one to fit a 5s. Sweeeet!

Here’s how it works.  The AliveCor is always available when you suspect you may have a heart problem, because it’s your smart-phone’s case! How brilliant is that?  You just rest the two metal pads on your fingers or chest to record an ECG in 30 seconds.

AliveCor ap reading

AliveCor ap reading

AliveCor has recently beefed up its app by adding the “Heart Journal.” After each reading, you just tap on a Symptom, Activity or Diet tag to add it to your recording, or, like a lot of Quantified Self apps, you can also add in notes between readings about possible indicators such as what you’re eating or your activities. The Beat Fluctuation feature lets you see how your heartbeat changes from beat to beat.

I couldn’t help but think how the AliveCor would have helped me last Winter, when Boston endured the 1-in-26,315-years-Winter-From-Hell (nope: no typo!) .  Like everyone else, I was perilously perched on my ladder, 20′ high, sticking my left hand through the ladder to pound away at an ice dam to my right with a REALLY heavy sledge hammer.  Unlike many others doing the same thing, I’m old enough (ahem..) that this counted as Risky Business.  After several hours, I started to feel chest pain.  Two days and many heart tests later, I emerged from the hospital with my own diagnosis confirmed: just a muscle strain caused by the weird position of my hammering. Couldn’t help thinking that if I’d had an AliveCor on my phone, I could have just whipped it out, taken a reading while on the ladder, and, as the web site sez,” AliveCor’s FDA-cleared Normal Detector will determine right away when your ECG is normal,” and gone back to chipping away!

Loved this quote about the AliveCor’s significance:

“Just as the introduction of thermometers and blood pressure cuffs in the past century helped patients to monitor their health, now the ability to record one’s own electrocardiogram – and get an interpretation instantly – empowers the 21st century patient to take charge of their heart health.” –Ronald Karlsberg, MD Clinical Professor of Medicine, Cedars-Sinai Heart Institute


 

*in my defense, I was mesmerized by AliveCor founder  Dr. David Albert’s colorful bowties….

 

Criteria to evaluate IoT “SmartAging” devices

Posted on 25th July 2015 in aging, design, health, home automation, m-health

I haven’t been able to put a lot of time into fleshing out my “SmartAging” paradigm, which combines Quantified Self devices to change seniors’ relationship to their doctors into a partnership and give them incentives to improve their fitness, with smart home devices that make it easier to manage their homes through automation.

So here’s an attempt to move that along, a draft of (hopefully) objective criteria.  I’d love to hear your comments on additional criteria or changes to these, and hope to soon set up a formal system where seniors will evaluate devices in their homes using these criteria.

Smart Aging device evaluation criteria:

Ease of Use

  1. Does it give you a choice of ways to interact, such as voice, text or email?
  2. Is it easy for you to program, or allow someone else to do it remotely?
  3. Does it have a large display and controls?
  4. Is it intuitive?
  5. Does it require professional installation?
  6. Is it flexible: can it be adjusted? Is it single purpose, or does it allow other devices to plug in and create synergies?
  7. Does it complicate your life, or simplify it?
  8. Do any components require regular charging, or battery replacement.

Privacy, Security, and Control

  1. Is storage local vs. cloud or company’s servers? Is data encrypted? Anomized?
  2. Do you feel creepy using it?
  3. Is it password-protected?
  4. Is security “baked in” or an afterthought?
  5. Can you control how, when, and where information is shared?
  6. Will it work when the power goes out?

Affordability

  1. Are there monthly fees? If so, low or high? Long term contract required?
  2. Is there major upfront cost?
  3. Does full functioning require accessories?
  4. Minimum cost/maximum cost

Design/UX

  1. Is it stylish, or does the design” shout” that it’s for seniors? “Medical” looking?
  2. Is the operation or design babyish?
  3. Would younger people use it?
  4. Is it sturdy?
  5. Does it have “loveability” (i.e., connect with the user emotionally)? (This term was coined by David Rose in Enchanted Objects, and refers to products that are adorable or otherwise bond with the user.)

Architecture

  1. Inbound
    1. Protocols supported (eg. Bluetooth, BluetoothLE, WiFi, etc)
    2. Open or closed architecture
  2. Outbound
    1. Protocols supported (eg. WiFi, Ethernet, CDMA, GSM, etc)
    2. Data path (cloud, direct, etc)
  3. Remote configuration capability (i.e., by adult child)

Features and Functions

  1. Reminders
    1. Passive, acknowledge only
    2. Active dispensing (of meds)
  2. Home Monitoring
    1. Motion/Passive Activity Monitoring
    2. Environmental Alarms (Smoke, CO, Water, Temp)
    3. Intrusion Alarms (Window etc)
    4. Facilities/Infrastructure (Thermostat)
  3. Health Monitoring
    1. Vitals Collection
    2. Wearables Activity Monitoring
    3. Behavioral/Status Polling (How are you feeling today?)
    4. Behavioral Self-improvement
  4. Communications Monitoring
    1. Landline/Caller ID
      1. Identify scammers
    2. eMail and computer use
      1. Identify scammers
    3. Mobile phone use
  5. Fixed Personal Emergency Response System (PERS)
  6. Mobile Personal Emergency Response System (PERS)
  7. Fixed Fall Detection/Prediction
  8. Mobile Fall Detection/Prediction
  9. Telehealth (Video)
  10. New and Innovative Features

Eureka! MYLE TAP: Nice Example of IoT Letting You Do Something You Couldn’t

I like to occasionally feature products that aren’t earth-shaking in their own right (such as the cameleon shoes that can change their appearance with the swipe of an app) , but nicely illustrate one of my IoT acid tests: what can you do that you couldn’t do before?

I love those, because they can get our creative juices boiling to think of other unprecedented IoT devices.

The MYLE TAP Thought Recorder

Here’s a nice example that I suspect may itself facilitate a lot of “Archimedes Moments” (just coined that one, LOL), where IoT users will leap from their baths and run nude through the streets, shrieking “Eureka,” because of their sudden insights into some great new IoT device (actually not sure of that image.  Are IoT enthusiasts slim and attractive?),

One little factoid really makes this one come alive: “the average person generates over 70,000 thoughts a day.” Now that’s a staggering unstructured data challenge!

Might be of particular interest, Dear Readers, to those of us on the far side of 50 who have a ton of great ideas but, how shall we say this delicately, don’t always remember them 15 minutes later).

At any rate, the crowd-funded ($83,707 raised so far, by 755 people in 15 days, compared to a $50,000 goal. As of this writing the campaign goes for 16 more days, so you can still get in on the ground-floor.) MYLE TAP will allow users to effortlessly record their thoughts in real-time (which, BTW, is a crucial element in how the IoT really transforms everything: instead of limited data, obtained retroactively, we can get limitless data now, when we can still act on it).

To activate the attractive device you simply tap it.  It understands 42 languages right out of the box!

There are some really neat components of the device that could really make your life a lot simpler because you can speak what you want to record (I don’t know about you, but the more I learn about the powers of Siri and her friends, the more I think voice-interface is really the way to go in the future, especially for tech-averse seniors, the targets of my Smart Aging concept). As the site says, “your saved notes are analyzed by context to generate you meaningful results via smartphone applications.” Here are the first uses:

  • Calorie Counter: “’I had one Caesar salad and one big apple.’ MYLE calculates how many calories you have consumed.”
  • Budget & Spending: “’Spent $7 on coffee and $40 on gas’, and MYLE enters it into your personal and business expense tracker.”  IMHO, this could be a REAL value!
  • Grocery List: “Tell MYLE ‘buy eggs, milk, flour,’ Your shopping list is built automatically.”
  • Calendar: “Tell MYLE ‘Pick Sophia up from school at four,’ and a new item is added to your calendar.”
  • Social Media: “Share your memorable event or experience. One tap can post can post it on your Facebook or Twitter account.”
  • Exercise: “Excercise with your MYLE TAP. Build and keep records of your progress.”

I can already do a lot of these things with my iPhone and Apple Watch, and perhaps the Watch will eventually do all these things once developers have created new apps, but I like the idea of a single, snazzy-looking device that can do all of them. And, smart people that they are, the MYLE developers have developed an open SDK and API. Once the IFTTT community gets hold of it, they’ll come up with ideas to extend the device’s utility that the MYLE folks never would have conceived of!

The MYLE TAP — doing something that we couldn’t do before!


 

Here are the technical details, courtesy of Atmel:

“Based on an Atmel | SMART SAM4S MCU, the super compact and lightweight gadget is equipped with an accelerometer, a Bluetooth Low Energy module, a few LEDs and a built-in battery capable of running up to a week on a single charge. MYLE TAP boasts some impressive memory as well, with a storage capacity of up to 2,000 voice notes.”

 

McKinsey IoT Report Nails It: Interoperability is Key!

I’ll be posting on various aspects of McKinsey’s new “The Internet of Things: Mapping the Value Beyond the Hype” report for quite some time.

First of all, it’s big: 148 pages in the online edition, making it the longest IoT analysis I’ve seen! Second, it’s exhaustive and insightful. Third, as with several other IoT landmarks, such as Google’s purchase of Nest and GE’s divestiture of its non-industrial internet division, the fact that a leading consulting firm would put such an emphasis on the IoT has tremendous symbolic importance.

McKinsey report — The IoT: Mapping the Value Beyond the Hype

My favorite finding:

“Interoperability is critical to maximizing the value of the Internet of Things. On average, 40 percent of the total value that can be unlocked requires different IoT systems to work together. Without these benefits, the maximum value of the applications we size would be only about $7 trillion per year in 2025, rather than $11.1 trillion.” (my emphasis)

This goes along with my most basic IoT Essential Truth, “share data.”  I’ve been preaching this mantra since my 2011 book, Data Dynamite (which, if I may toot my own horn, I believe remains the only book to focus on the sweeping benefits of a paradigm shift from hoarding data to sharing it).

I was excited to see that the specific example they zeroed in on was offshore oil rigs, which I focused on in my op-ed on “real-time regulations,” because sharing the data from the rig’s sensors could both boost operating efficiency and reduce the chance of catastrophic failure. The paper points out that there can be 30,000 sensors on an rig, but most of them function in isolation, to monitor a single machine or system:

“Interoperability would significantly improve performance by combining sensor data from different machines and systems to provide decision makers with an integrated view of performance across an entire factory or oil rig. Our research shows that more than half of the potential issues that can be identified by predictive analysis in such environments require data from multiple IoT systems. Oil and gas experts interviewed for this research estimate that interoperability could improve the effectiveness of equipment maintenance in their industry by 100 to 200 percent.”

Yet, the researchers found that only about 1% of the rig data was being used, because it rarely was shared off the rig with other in the company and its ecosystem!

The section on interoperability goes on to talk about the benefits — and challenges — of linking sensor systems in examples such as urban traffic regulation, that could link not only data from stationary sensors and cameras, but also thousands of real-time feeds from individual cars and trucks, parking meters — and even non-traffic data that could have a huge impact on performance, such as weather forecasts.  

While more work needs to be done on the technical side to increase the ease of interoperability, either through the growing number of interface standards or middleware, it seems to me that a shift in management mindset is as critical as sensor and analysis technology to take advantage of this huge increase in data:

“A critical challenge is to use the flood of big data generated by IoT devices for prediction and optimization. Where IoT data are being used, they are often used only for anomaly detection or real-time control, rather than for optimization or prediction, which we know from our study of big data is where much additional value can be derived. For example, in manufacturing, an increasing number of machines are ‘wired,’ but this instrumentation is used primarily to control the tools or to send alarms when it detects something out of tolerance. The data from these tools are often not analyzed (or even collected in a place where they could be analyzed), even though the data could be used to optimize processes and head off disruptions.”

I urge you to download the whole report. I’ll blog more about it in coming weeks.

Every IoT office needs this graphic on privacy and security

Long-time readers know that I frequently rant that privacy and security are Job 1 when it comes to the IoT.  

No apologies: it’s because I spent many years in corporate crisis management, and I learned the hard way that public trust is hard to earn, easy to lose, and, once lost, difficult or impossible to regain.

That’s why I was so glad to see this really informative, attractive, and scary infographic from Zora Lopez at Computer Science Zone, because it lays everything out so vividly.  Among the key points:

  1. (seen this before, but it still astounds me) In 2011, 20 typical households generated as much data as the entire Internet did as recently as 2008.
  2. the number of really-large (on scale of e-Bay, Target, etc.) data thefts grow annually.
  3. the bad guys particularly go after extremely sensitive data such as health, identity and financial.

It concludes with a particularly sobering reminder (you may remember my comment on the enthusiastic guys who presented at Wearables + Things and cheerfully commented that they would eventually get around to privacy and security — NOT!):

The barrier to entry in tech has never been lower, leaving many new organizations to later grapple with unsatisfactory security.” (my emphasis)

So: print a copy of the following for every employee and new hire, and put it on the cube’s wall immediately (here’s the original URL: http://www.computersciencezone.org/wp-content/uploads/2015/04/Security-and-the-Internet-of-Things.jpg#sthash.c6u2POMr.dpuf)

IoT Privacy and Security, from Computer Science Zone

Apple & IBM partnership in Japan to serve seniors a major step toward “Smart Aging”

As Bob Seger and I prepare to turn 70 (alas, no typo) on Wednesday (as long as he’s still singing “Against the Wind” I know I’m still rockin’) my thoughts turn to my “Smart Aging” paradigm, which combines Quantified Self devices that can change our relationships with doctors into a partnership and give us encouragement to do more fitness activities and smart home devices that make it easier for seniors to run their homes and avoid institutionalization.

That’s why I was delighted to read this week about Apple (obligatory disclaimer: I work part-time at The Apple Store, especially with “those of a certain age,” but am not privy to any of their strategy, and my opinions are solely my own) and IBM teaming with Japan Post (hmm: that’s one postal service that seems to think creatively. Suspect that if one B. Franklin still ran ours, as he did in colonial days, we’d be more creative as well…) to provide iPads to Japan’s seniors as part of Japan Post’s “integrated lifestyle support group” (the agency will actually go public later this year, and the health services will be a key part of its services).

Apple and IBM announced, as part of their “enterprise mobility” partnership that will also increase iPads’ adoption by businesses, that they will provide 5 million iPads with senior-friendly apps to Japanese seniors by 2020.  IBM’s role will be to develop app analytics and cloud services and “apps that IBM built specifically for elderly people .. for medication adherence … exercise and diet, and … that provide users with access to community activities and supporting services, including grocery shopping and job matching.”

The overall goal is to use the iPads and apps to connect seniors with healthcare services and their families.  I can imagine that FaceTime and the iPads’ accessibility options will play a critical role, and that current apps such as Lumosity that help us geezers stay mentally sharp will also be a model.

According to Mobile Health News, the partnership will offer some pretty robust services from the get-go:

“If seniors or their caregivers choose, they can take advantage of one of Japan Post Groups’ post office services, called Watch Over where, for a fee, the mail carriers will check in on elderly customers and then provide the elderly person’s family with an update. 

“In the second half of this year, customers can upgrade the service to include iPad monitoring as well.After Japan Post Group pilots the iPads and software with 1,000 seniors for six months, the company will expand the service in stages.”

Lest we forget, Japan is THE harbinger of what lies ahead for all nations as their populations age. 20% of the population was already over 65 in 2006,  38% will be in 2055.  As I’ve said before in speeches, the current status quo in aging is simply unsustainable: we must find ways for seniors to remain healthy and cut the governmental costs of caring for them as they grow as a percentage of the population.  As Japan Post CEO Taizo Nishimuro (who looks as if he’s a candidate for the new services — y0u go, guy!) said, the issue is “most acute in Japan — we need real solutions.”

IBM CEO Ginni Rometty said her company will take on a 3-part mission:

“First, they’ll be working on ‘quality of life apps,’ both by building some themselves and by integrating others, all of which will be aimed at accessibility first. The key target will be iOS, since it’s a mobile-first strategy in keeping with our changed computing habits. Second, they’re working on developing additional accessibility features not yet available, and third they’re helping Japan Post with the service layer required to deliver this to the elderly.”

Sweet! — and it reminds me of the other recently announced IBM/Apple announcement, in that case with J & J, to build a robust support structure for Apple’s new open-source ResearchKit and HealthKit platform to democratize medical research.  The IoT ain’t nothin’ without collaboration, after all.

Cook, according to TechCrunch, put the initiative in a global context (not unlike his environmental initiatives, where, IMHO, he’s become THE leading corporate change agent regarding global warming):

“Tim Cook called the initiative ‘groundbreaking,’ saying that it is ‘not only important for Japan, but [also] has global implications. Together, the three of us and all the teams that work so diligently behind us will dramatically improve the lives of millions of people.’

“…. The Apple CEO talked about how the company aims to ‘help people that are marginalized in some way, and empower them to do the things everyone else can do.” He cited a UC Irvine study which details how remote monitoring and connection with loved ones via iPad help instill a sense of confidence and independence in seniors. He added that he believes what the companies are doing in Japan is also scalable around the world.”

It will be interesting to see exactly how the partnership addresses the challenge of creating those senior-friendly “quality of life” apps: as someone who’s on the front-lines of explaining even Apple’s intuitive devices to older customers, I can tell you that many seniors begin are really frightened by these technologies, and it will take a combination of great apps and calm, patient hand-holding to put them at ease.

As I enter my 7th decade, I’m pumped!