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In Our Hyperconnected Future, Regulation Will Be Instant and Irresistible
BY JASON DORRIERON FEB 03, 2015| COMMUNITY, DISCUSSION 99  1
Last week, a man crash landed his drone on the White House lawn. Evidently, the individual, a member of a US intelligence agency, had been drinking and was showing off his drone to a friend when he lost control of the craft.


Any other house and lawn and no problem. Obviously, not the case here. The president called for more drone regulations. Headlines fretted White House security. And DJI, the drone’s maker, grounded drones in the Washington DC area with a GPS software patch.

And perhaps that last item is the most intriguing. A maker of a physical product reached out through cyberspace and disabled it to comply with the law. (In fact, the update couldn’t be forced on owners as the drones aren’t internet connected, but if owners want to benefit from other updates, they have to accept that one.)

Now, it’s not to say DJI’s move doesn’t make sense. The fledgling drone industry is just getting its feet, and the FAA is still considering how to regulate it. Bad press about runaway drones in high-security areas? Not really all that ideal. Also, since 9/11, the airspace around Washington DC has been highly restricted. It’s not hard to see why the rule make sense in Washington. If a drone can carry a camera, it can carry more lethal packages and deliver them at a distance.

DJI had also already established a few thousand no-fly zones surrounding airports. Such no-fly zones are as much about safety as malevolent acts—mistakes happen, and we wouldn’t want a jet engine inhaling an errant toy aircraft.

But underneath all that is the fact that a simple software update can dramatically change what an already owned product can do. Most updates add functionality, but in this case an update took functionality away.

Where most regulated products rely on the threat of punishment and law enforcement to ensure people follow rules, with computer-based physical products, we may be witnessing the birth of a new, distinctly modern regulatory era.

Imagine a future in which the FAA rules on a particular item—say, no drones within 100 feet of federal buildings. Prior regulations have been put in place that require all drone makers to update their no-fly zones within five days. Almost instantly, no drone can fly within some new set of GPS coordinates. Why might this be appealing to regulators? In theory, the rule requires less enforcement because drones are physically prevented from flaunting it.

We’ve been talking drones, but they’re just one early example. There are others.

Tesla digital display.
Tesla digital display.
Tesla, for example, is well-known for pushing automatic software updates to its cars. And these aren’t just updates to the dashboard readout. Elon Musk just announced a software tweak to improve the Tesla Model S P85D’s acceleration by 0.01 seconds—small but significant in the high-end market where accelerations are measured and compared in hundredths of seconds.

As we head toward an increasingly driverless future, cars will become more like computers on wheels than wheels with computers. What regulations could be written into software? Speed limits? No-drive zones? Car won’t start until you put on your seatbelt?

And, of course, it doesn’t end there either. Analysts expect billions of new physical devices to come online in the next decade. The Internet of Things may afford the government real-time regulatory enforcement—government mandated thermostat settings to save energy or restricted water usage in a drought, for example.

Could such a system be abused? No doubt about it.

Well-meaning regulations with unforeseen consequences are written regularly. Authoritarian regimes that already keep a tight grip on their countries' internet could, in the future, control much more. Further, regulatory software updates would likely only work for the law-abiding—those motivated to circumvent them will find a way.

But so it is with any technology. It’s trite but true—technology is a double-edged sword. The ability to wirelessly update a product may also extend its life and slow obsolescence. Your Tesla might get faster or smoother acceleration. Your drone may become a better flier in high winds or learn to do a flip off the palm of your hand.

What do you think? How does ownership change when the maker of a product can modify it at will? Is regulatory enforcement at a distance a good thing? Or does it herald an era of stifling control? A little of each perhaps?

Image Credit: giovanni/Flickr; Steve Jurvetson/Wikimedia Commons

Quoted from senders

http://kff.org/infographic/the-requirement-to-buy-coverage-under-the-affordable-care-act/


by age.....we will pay.....the ONLY selling point is the 'pre-existing' diagnosis....which means that EVERYONE will be compelled,
like cattle to undergo 'basic testing' to keep the VIG in the public's interest.....compliance beyond vaccination.....you'll see...

I'm not sure what fu(king rosey glasses everyone purchased........

Quoted from Sombody

Your hilarious.  Poor boy.  You live in Schenectady ?  Yes you are a slave - sort of like your from Mississippi.  You have very dark glasses on.

You are mandated to have car insurance. Your premium depends on how you drive. Do you have a problem with that ? any complaints ?

Im sorry I dont have a problem with that and I dont have a problem with the ACA

Your cog in the wheel mentality just doesn't fly with me . I am not oppressed .  

By the way thank you for the information from Kaiser.

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The Acceleration of Acceleration: How The Future Is Arriving Far Faster Than Expected
BY STEVEN KOTLERON FEB 07, 2015| FEATURED, FUTURE, SINGULARITY 28  0
This article co-written with Ken Goffman.

One of the things that happens when you write books about the future is you get to watch your predictions fail. This is nothing new, of course, but what’s different this time around is the direction of those failures.

Used to be, folks were way too bullish about technology and way too optimistic with their predictions. Flying cars and Mars missions being two classic—they should be here by now—examples. The Jetsons being another.

But today, the exact opposite is happening.

Take Abundance. In 2011, when Peter Diamandis and I were writing that book, we were somewhat cautious with our vision for robotics, arguing that we were still ten to fifteen years away from a major shift.

And we were wrong.

Just three years later, Google went on a buying spree, purchasing eight different robotics companies in less than six months, Amazon decided it was time to get into the drone delivery (aka flying robots) business, and Rethink Robotics released Baxter (a story explored in my new release Bold), the first user-friendly industrial robot to hit the market.


Baxter was the final straw. With a price tag of just $22,000 and a user-friendly interface a child could operate, this robot is already making the type of impact we were certain would show up around 2025.

And we’re not the only ones having this experience.

Last year, Ken Goffman—aka RU Sirius—the founder of that original cyberpunk journal Mondo 2000 and longtime science, technology and culture author—published Transcendence, a fantastic compendium on transformative technology. Goffman has spent nearly 40 years working on the cutting edge of the cutting edge and is arguably one of a handful of people on the planet whose futurist credentials are truly unassailable—yet he too found himself way too conservative with his futurism.

You really have to stop and think about this for a moment. For the first time in history, the world’s leading experts on accelerating technology are consistently finding themselves too conservative in their predictions about the future of that technology.

This is more than a little peculiar. It tells us that the accelerating change we’re seeing in the world is itself accelerating. And this tells us something deep and wild and important about the future that’s coming for us.

So important, in fact, that I asked Ken to write up his experience with this phenomenon. In his always lucid and always funny own words, here’s his take on the dizzying vertigo that is tomorrow showing up today:

In the early ‘90s, the great science fiction author William Gibson famously remarked, “The future is here. It’s just not very evenly distributed.” While this was a lovely bit of phraseology, it may have been a bit glib at the time. Nanotechnology was not even a commercial industry yet. The hype around virtual reality went bust. There were no seriously funded brain emulation projects pointing towards the eventuality of artificial general intelligence (now there are several). There were no longevity projects funded by major corporations (now we have the Google-funded Calico). You couldn’t play computer games with your brain. People weren’t winning track meets and mountain climbing on their prosthetic legs. Hell, you couldn’t even talk to your cell phone, if you were among the relatively few who had one.

A thought-controlled, robotic prosthetic leg made by the Rehabilitation Institute of Chicago’s (RIC).
A thought-controlled, robotic prosthetic leg made by the Rehabilitation Institute of Chicago’s (RIC).
Over the last few years, the tantalizing promises of radical technological changes that can alter humans and their circumstances have really started to come into their own. Truly, the future is now actually here, but still largely undistributed (never mind, evenly distributed).

During the process of writing and editing (with Jay Cornell) a book about these types of advances, I got to experience the head spinning vertiginous nature of technological and scientific acceleration.

The book, Transcendence: The Disinformation Encyclopedia of Transhumanism and the Singularity, was written primarily in 2013 and released at the start of this year. In the between-time, astonishing, mind blowing things occurred in many of the areas we wrote about. In at least one case, cryonics, we were very skeptical while writing about it. But the future started to get weirder behind our backs.

Here are just a few of the things that hit the news in 2014 and thus far in 2015 that bode well for a strange, interesting and promising near future.

• Cryonics: Doctors at UPMC Presbyterian Hospital in Pittsburgh will place ten patients with life-threatening gunshot or knife wounds in a sort of suspended animation, theoretically allowing them more time to fix the injuries. They won’t quite be raising the dead through science, but if this work succeeds, cryonics will have to be taken very seriously as an alternative to dying.

• Nanobots in the human body: This year, nanotech scientists working in Israel announced a trial of nanobots to fight cancer. As the website Next Big Future exclaimed, “This is the development of the vision of nanomedicine. This is the realization of the power of DNA nanotechnology. This is programmable DNA nanotechnology.”

Nanotech enthusiasts have long treasured the hope that molecular “robots” — i.e., nanobots — could be designed to enter the body and eat plaque, kill cancerous cells, repair damaged tissue and, in general, act like a team of minuscule crack repairmen (or repairpersons, if you prefer) fixing anything that starts to go wrong before it can create much damage. This year marks a first really big hopeful step towards that potentially healthy and long-lived future.

(Video: Ido Bachelet talks DNA nanobots at a London event late last year.)



• 3D printed organs: Organovo used a 3D printer to make liver tissue. Fully printed replacement organs are only a matter of time. If nanotech can’t keep your organs young, print a new one.

• Reversing aging: Harvard Researchers have discovered a chemical that can actually reverse aging cells in mice. We continue to gather evidence that aging can be slowed, stopped and now reversed in living creatures, including mammals. We work our way up the food chain towards our selves.

• Brain enhancement: Researchers at Duke University found a type of neuron that can tell stem cells to make more new neurons. The scientists involved actually point to intelligence increase as a goal of their project, saying that they hope that they will find ways to “engage certain circuits of the brain to lead to a hardware upgrade.”

More brain enhancement: In the area of optogenetics and neuroscience, researchers successfully manipulated brain activity with pulses of laser light.

• Still more brain enhancement: DARPA announced a four year plan to create a brain implant that can restore memories. As Cornell and I noted in our book, we are on the cusp of technologies that can preserve memories, erase memories and, on a more frightening note, implant memories. DARPA also has a five-year program to create a brain implant that can fight mental disorders. Again, the ambiguity of allowing the army to alter your brain must be noted, but given the suffering caused by mental illness, this would seem, in balance, to be a good thing

We live in a time when the announcement of a transgender man giving birth (it happened) or a system that shows images of your thoughts and dreams on a screen (it happened in 200 barely rates a blip and a raised eyebrow amidst the deluge of news items related to science, or global troubles, or Kim Kardashian’s rear parts. But what William Gibson said is now true. The future is here. It’s just not (evenly) distributed yet.”

The speed of change can sometimes be overwhelming. At the same time, the time lag between the tantalizing possibilities of things like nanobots in the bloodstream or longevity treatments, and their actual functional availability, can be frustrating. It’s up to each of us to stay as informed and as engaged as we can so that we can individually and collectively shape how these things get done and how they get used.