Thursday, December 20, 2018

Friday Thinking 21 Dec 2018

Hello all – Merry Seasonings

Friday Thinking is a humble curation of my foraging in the digital environment. My purpose is to pick interesting pieces, based on my own curiosity (and the curiosity of the many interesting people I follow), about developments in some key domains (work, organization, social-economy, intelligence, domestication of DNA, energy, etc.)  that suggest we are in the midst of a change in the conditions of change - a phase-transition. That tomorrow will be radically unlike yesterday.

Many thanks to those who enjoy this.

In the 21st Century curiosity will SKILL the cat.

Jobs are dying - Work is just beginning. Work that engages our whole self becomes play that works. Techne = Knowledge-as-Know-How :: Technology = Embodied Know-How  

“Be careful what you ‘insta-google-tweet-face’”
Woody Harrelson - Triple 9

Content
Quotes:

Articles:




Who owns the information?
Privacy advocate and scholar Bob Gellman illustrates the intractability of this problem with an example of how medical information can simultaneously belong to a patient, the patient’s family, the school, pharmacy, supermarket, pediatrician, drug manufacturer, social media platform, various web sites, Internet tracking and advertising companies and Internet service providers. Each of these actors has an interest in the same information about a child’s illness.

This example generalizes because almost all information about people concerns their interaction with others.  If I bought something from you, then you sold it to me. People are social creatures and most of what they do is in relationship with other people.

Author Larry Downes emphasizes the point that when information is about more than one person, it is impossible to determine how a property right should be allocated: “Would it be shared property, owned equally by everyone referenced? If not, would any one person hold a veto?”

Privacy Is Not A Property Right In Personal Information




As if stand-alone technologies weren’t advancing fast enough, we’re in age where we must study the intersection points of these technologies. How is what’s happening in robotics influenced by what’s happening in 3D printing? What could be made possible by applying the latest advances in quantum computing to nanotechnology?

Along these lines, one crucial tech intersection is that of artificial intelligence and genomics. Each field is seeing constant progress, but Jamie Metzl believes it’s their convergence that will really push us into uncharted territory, beyond even what we’ve imagined in science fiction. “There’s going to be this push and pull, this competition between the reality of our biology with its built-in limitations and the scope of our aspirations,” he said.

Readable, writable, and hackable, what’s clear is that human beings are recognizing that we are another form of information technology, and just like our IT has entered this exponential curve of discovery, we will have that with ourselves,  - And it’s intersecting with the AI revolution.

“We all need to be part of an inclusive, integrated, global dialogue on the future of our species,”

Designer Babies, & Their Babies: How AI & Genomics Will Impact Reproduction




Much has been written about PPPs: public private partnerships. But for vital issues such as climate change, a third partner has been missing: the plural sector.

Otherwise known as “civil society”, and other labels, this is the sector of NGOs, foundations, cooperatives, many of the world’s renowned universities, and more, including social initiatives and social movements—much of all this community-based. In other words, included here are all the associations that are neither public nor private, that is, owned not by the state or by private investors, but by members (as in cooperatives), or else, like trusts, by no-one.

This sector is huge–think of all such activities you have associated with in the past week. Yet it has been obscured by the centuries-old divide between left and right, government controls and market forces. Now we are discovering, with a vengeance, that no healthy society, like no stable stool, can balance itself on two legs. A third is required–the plural sector—alongside those called private and public.

Henry Mintzberg - PPPPs for Climate Change




But when each of us set out to understand the other’s generation, we realized the distinctions between us and the generations we represent aren’t that profound below the surface. That’s important, because with five generations currently working alongside each other, focusing too closely on our differences threatens to become a major distraction from our common goals.

In fact, we have found that we essentially want the same things on the job: passion and love for what we do, learning every day, and helping others along the way, all with a deep sense of purpose. We drew this conclusion not just from comparing our own preferences, but also from interviews with dozens of members from each of our generations.

Three ideas to foster intergenerational harmony in the workplace




In our pursuit of ‘getting more things done,’ we’ve lost sight of the true meaning of productivity.

Productivity isn’t about getting more things done, rather it’s about getting the right things done, while doing less.

The best way to figure out the right things to focus on and the best ways to tackle them, is to spend more time alone with your thoughts and embrace solitude.

And just like Einstein, you’ll achieve much more and unleash your potential.

Einstein on the only productivity tip you’ll ever need to know




Charlemont has about 1,300 residents and covers about 26 square miles in northwest Massachusetts. Town officials estimate that building a municipal fiber network reaching 100 percent of homes would cost $1,466,972 plus interest over 20 years.

An increase in property taxes would cover the construction cost. But the town would also bring in revenue from selling broadband service and potentially break even, making the project less expensive than Comcast's offer.

"With 59 percent of households taking broadband service, the tax hike would be 29 cents [per $1,000 of assessed home value], similar to that for Comcast," a Recorder article last month said. "But if 72 percent or more of households subscribe to the municipal-owned network, there is no tax impact, because subscriber fees would pay for it."

Currently, Comcast covers about 9.5 percent of Charlemont, while Verizon DSL is available in about 88 percent, according to estimates by BroadbandNow.

The town plans to charge $79 a month for standalone Internet service with gigabit download and upload speeds and no data caps, though the price could rise to $99 a month if fewer than 40 percent of households buy the service. The town also plans to offer phone and TV service at rates cheaper than Comcast's.

Comcast rejected by small town—residents vote municipal fiber instead





This is an important signal - although unpredictable - it points out that there are other existential challenges for all living systems on earth.
The last reversal occurred between 772,000 and 774,000 years ago. Since then, the field has almost reversed 15 times, called an excursion, dropping in strength significantly but not quite reaching the threshold needed before rising again. This is when we are most at risk - as the field decays and then recovers its strength. The last excursion occurred 40,000 years ago, and evidence suggests we are heading in that direction again.

Earth’s magnetic poles could start to flip. What happens then?

As Earth's magnetic shield fails, so do its satellites. First, our communications satellites in the highest orbits go down. Next, astronauts in low-Earth orbit can no longer phone home. And finally, cosmic rays start to bombard every human on Earth.
This is a possibility that we may start to face not in the next million years, not in the next thousand, but in the next hundred. If Earth’s magnetic field were to decay significantly, it could collapse altogether and flip polarity – changing magnetic north to south and vice versa. The consequences of this process could be dire for our planet.

Most worryingly, we may be headed right for this scenario.
‘The geomagnetic field has been decaying for the last 3,000 years,’ said Dr Nicolas Thouveny from the European Centre for Research and Teaching of Environmental Geosciences (CEREGE) in Aix-en-Provence, France. ‘If it continues to fall down at this rate, in less than one millennium we will be in a critical (period).’

Dr Thouveny is one of the principal investigators on the five-year EDIFICE project, which has been running since 2014. Together with his colleagues, he has been investigating the history of Earth’s magnetic field, including when it has reversed in the past, and when it might again.


This is a good article summarizing the global picture of the state of development of AI.

The AI boom is happening all over the world, and it’s accelerating quickly

The second annual AI Index report pulls together data and expert findings on the field’s progress and acceleration
The rate of progress in the field of artificial intelligence is one of the most hotly contested aspects of the ongoing boom in teaching computers and robots how to see the world, make sense of it, and eventually perform complex tasks both in the physical realm and the virtual one. And just how fast the industry is moving, and to what end, is typically measured not just by actual product advancements and research milestones, but also by the prognostications and voiced concerns of AI leaders, futurists, academics, economists, and policymakers. AI is going to change the world — but how and when are still open questions.

Today, findings from a group of experts were published in an ongoing effort to help answer those questions. The experts include members of Harvard, MIT, Stanford, the nonprofit OpenAI, and the Partnership on AI industry consortium, among others, and they were put together as part of the second annual AI Index. The goal is to measure the field’s progress using hard data and to try and make sense of that progress as it relates to thorny subjects like workplace automation and the overarching quest for artificial general intelligence, or the type of intelligence that could let a machine perform any task a human could.


This is an interesting viewpoint from Garry Kasparov on the evolving capabilities of AI and the utility of Chess as a laboratory of logic.

Chess, a Drosophila of reasoning

The recent world chess championship saw Magnus Carlsen defend his title against Fabiano Caruana. But it was not a contest between the two strongest chess players on the planet, only the strongest humans. Soon after I lost my rematch against IBM's Deep Blue in 1997, the short window of human-machine chess competition slammed shut forever. Unlike humans, machines keep getting faster, and today a smartphone chess app can be stronger than Deep Blue. But as we see with the AlphaZero system, machine dominance has not ended the historical role of chess as a laboratory of cognition.

… the chess fruit fly is back under the microscope. Based on a generic game-playing algorithm, AlphaZero incorporates deep learning and other AI techniques like Monte Carlo tree search to play against itself to generate its own chess knowledge. Unlike top traditional programs like Stockfish and Fritz, which employ many preset evaluation functions as well as massive libraries of opening and endgame moves, AlphaZero starts out knowing only the rules of chess, with no embedded human strategies. In just a few hours, it plays more games against itself than have been recorded in human chess history. It teaches itself the best way to play, reevaluating such fundamental concepts as the relative values of the pieces. It quickly becomes strong enough to defeat the best chess-playing entities in the world, winning 28, drawing 72, and losing none in a victory over Stockfish.


The practices involved in creating knowledge within the science and arts share more than most people consider. Physical tacit knowledge is fundamental to both especially when it comes the need to ‘tinker’ with instrumentation. This is an important signal about Knowledge Management - including the skills, competencies, knowledge and agencies that are transferable across many domains of human interest.

Science in hand: how art and craft can boost reproducibility

Artists and performers inform the physical act of experimentation — Roger Kneebone, Claudia Schlegel and Alan Spivey explore.
Even shaking a sample, rather than stirring it, can change results. Why then, among the many reasons discussed for the reproducibility crisis, does lab practice not get more attention?

Most science students enter university with years of screen time under their belts, but very little experimental experience. Indeed, many early-stage PhD students struggle with the transition from predetermined practicals to independent experimentation and design, where the ability to notice tiny departures from the expected might be crucial to discovery.

Some might not have ‘good hands’. Moreover, written accounts are notoriously open to interpretation: ‘add reagent X dropwise until the solution changes from red to yellow’ seethes with potential ambiguity. Laboratory knowing takes place at the intersection between materials, tools and a researcher’s body. Its rhythms differ from those of simply absorbing facts.

We — a surgeon, a research nurse and a synthetic chemist — looked beyond science to discover how people steeped in artistic skills might help to close this ‘haptic gap’, the deficit in skills of touch and object manipulation. We have found that craftspeople and performers can work fruitfully alongside scientists to address some of the challenges. We have also discovered striking similarities between the observational skills of an entomologist and an analytical chemist; the dexterity of a jeweller and a microsurgeon; the bodily awareness of a dancer and a space scientist; and the creative skills of a scientific glassblower, a reconstructive surgeon, a potter and a chef.


In Jurassic Park the Jeff Goldblum character repeated the mantra that “Life finds a way” - this is an awesome confirmation of this and even of the possibilities of where life can exist.
“It’s like finding a whole new reservoir of life on Earth,” said Karen Lloyd, an associate professor at the University of Tennessee in Knoxville. “We are discovering new types of life all the time. So much of life is within the Earth rather than on top of it.”
The results suggest 70% of Earth’s bacteria and archaea exist in the subsurface, including barbed Altiarchaeales that live in sulphuric springs and Geogemma barossii, a single-celled organism found at 121C hydrothermal vents at the bottom of the sea.

Scientists identify vast underground ecosystem containing billions of micro-organisms

Global team of scientists find ecosystem below earth that is twice the size of world’s oceans
The Earth is far more alive than previously thought, according to “deep life” studies that reveal a rich ecosystem beneath our feet that is almost twice the size of all the world’s oceans.

Despite extreme heat, no light, minuscule nutrition and intense pressure, scientists estimate this subterranean biosphere is teeming with between 15bn and 23bn tonnes of micro-organisms, hundreds of times the combined weight of every human on the planet.

Researchers at the Deep Carbon Observatory say the diversity of underworld species bears comparison to the Amazon or the Galápagos Islands, but unlike those places the environment is still largely pristine because people have yet to probe most of the subsurface.

The team combines 1,200 scientists from 52 countries in disciplines ranging from geology and microbiology to chemistry and physics. A year before the conclusion of their 10-year study, they will present an amalgamation of findings to date before the American Geophysical Union’s annual meeting opens this week.


This is a very good signal of the emerging digital environment as a platform for ubiquitous sensors - as the article suggests not just the Internet-of-Things but the Internet-of-Living-Things (IoLT). And the consequence could be the capacity for people with augmented/virtual technologies to actually ‘feel/experience’ the world, based on exponentially growing ‘Big Data’ and AI - an new potential of ‘conscious ecological homeostasis’.
Potential applications for what the researchers call "living Internet of Things platforms" might include smart farming to measure plant health. For example, moisture and humidity sensors could assist with precision irrigation, and temperature sensors can detect whether growing conditions are optimal for specific crops. Whereas "drones can't really fly between plants, bees can fly pretty much wherever they want to get more fine-grained information than drones," Gollakota says.

Scientists Outfit Bees With Wireless Sensors to Create a "Living IoT Platform"

A research team tries to turn bees into living drones by gluing wireless sensor platforms to their backs
Drones are growing in popularity for their ability to serve as a kind of eye in the sky. However, they can generally only last up to 30 minutes on a charge because of the limits of current battery technology.

Now, a research team at the University of Washington has found a way to make bumblebees act like tiny drones. The group has developed a platform for sensing, computing, and wireless communication devices that’s small enough to piggyback on the insects.

"We wanted to leverage nature's best flying machines," says Shyam Gollakota, a computer scientist at the University of Washington, who led the research. "Insects can feed themselves—we don't need to keep recharging their batteries. Fats and sugars can store much more energy for their weight than batteries."

The scientists experimented with three species of bumblebees and found that healthy worker bees could fly and hover while carrying up to roughly 105 milligrams. Knowing this, the researchers developed an electronic platform that weighs only 102 milligrams and measures just 6.1 by 6.4 millimeters in size. It includes a 70-milligram rechargeable lithium-ion battery that can last up to seven hours, as well as a microcontroller, antenna, and sensors that could analyze humidity, temperature, and light intensity once every four seconds. Then, the research team glued these platforms onto the backs of bees. "All the electronics we used were off-the-shelf components," Gollakota says.


This is a signal to watch despite being very early in its development.
“There are all kinds of things you can do with this,” Boyden said. “Democratizing nanofabrication could open up frontiers we can’t yet imagine.”

MIT Figured out a Way to Shrink Objects to Nanoscale

A new nanotech breakthrough comes courtesy of a material you’d likely find in any nursery.
A team from MIT has figured out a way to quickly and inexpensively shrink objects to the nanoscale. It calls the process implosion fabrication, and it all starts with polyacrylate — the super-absorbent polymer typically found in baby diapers.

According to the MIT team’s paper, published Thursday in Science, the first step in the implosion fabrication process is adding a liquid solution to a piece of polyacrylate, causing it to swell.

Next, the team used lasers to bind fluorescein molecules to the polyacrylate in a pattern of their choosing. Those molecules acted as anchor points for whatever material the researchers wanted to shrink to the nanoscale.

As for what those researchers might shrink, the MIT team is already exploring potential uses for implosion fabrication, including in the fields of optics and robotics. But ultimately, they see no limit to the technique’s possible applications.


This could be very good news for all of us who worry about agriculture becoming privateered by Corporations who apply Intellectual Property tools to ‘own’ life.
The research marks an important step toward cloning hybrid grains, says Anna Koltunow of the Commonwealth Scientific and Industrial Research Organization in Glen Osmond, Australia, who wasn’t involved in the study.

Hybrid rice engineered with CRISPR can clone its seeds

The research raises hopes of making bigger crop yields more affordable
After more than 20 years of theorizing about it, scientists have tweaked a hybrid variety of rice so that some of the plants produce cloned seeds. No plant sex necessary. The feat, described December 12 in Nature, is encouraging for efforts to feed an increasingly crowded world.

Crossing two good varieties of grain can make one fabulous one, combining the best versions of genes to give crops desirable traits such as higher yields. But such hybrid grain marvels often don’t pass along those coveted genetic qualities to all seeds during reproduction. So farmers who want consistently higher yields have to pay for new hybrid seeds every year. This new lab version of hybrid rice would preserve those qualities through self-cloning, says study coauthor Venkatesan Sundaresan, a plant geneticist at the University of California, Davis.

Though 400 kinds of plants, including some blackberries and citruses, have developed self-cloning seeds naturally, re-creating those pathways in crop plants has “been harder than anyone expected,” Sundaresan says. He and his colleagues got the idea for the new research while studying “how a fertilized egg becomes a zygote, this magical cell that regenerates an entire organism,” as Sundaresan puts it.


This is a great signal related to the emerging power of ‘Big Data’, AI and other tools to begin to grasp complex systems.

Big data reveals hints of how, when and where mental disorders start

New genetic complexities emerge for schizophrenia, bipolar disorder and autism
Psychiatric disorders’ many complexities have stymied scientists looking for clear genetic culprits. But a new giant dataset holds clues to how, when and where these brain disorders begin.

Called PsychENCODE, the project’s first large data release has revealed intricate insights into the behavior of genes and the stretches of genetic material between them in both healthy brains and those from people with schizophrenia, bipolar disorder or autism spectrum disorder.

The results, split among 10 studies published online December 13 in Science, Science Advances and Science Translational Medicine, offer some of the most detailed looks yet at the links between these genetic elements and brain health. “It’s all connected, and now we have the tools to unravel those connections,” says geneticist Thomas Lehner of the National Institute of Mental Health in Bethesda, Md., who oversaw the project but wasn’t involved in the research.


A weak but important signal of emerging possibilities for both understanding and potentially aiding the treatment of brain diseases and trauma.

Functional 3-D Human Neural Networks Grown From Stem Cells

Three-dimensional human tissue culture models for the central nervous system have been developed by a team of Tufts University-led researchers. The models mimic structural and functional features of the brain and demonstrate neural activity sustained over a period of many months.

With the ability to populate a 3-D matrix of silk protein and collagen with cells from patients with Alzheimer’s disease, Parkinson’s disease, and other conditions, the tissue models allow for the exploration of cell interactions, disease progression and response to treatment.

The new 3-D brain tissue models overcome a key challenge of previous models -the availability of human source neurons. This is due to the fact that neurological tissues are rarely removed from healthy patients and are usually only available post-mortem from diseased patients.


This is an interesting signal of progress in energy generation - although the progress of last decade may seem to be ‘too little’ - if we consider that these technologies tend to exponential growth curves - the next decade may well see much more significant progress. The next decade will likely see massive change in our transportation systems - away from fossil fuels and toward renewables.

Ten charts show how the world is progressing on clean energy

Rapid progress towards clean energy is needed to meet the global ambition to limit warming to no more than 1.5C above pre-industrial temperatures.
But how are countries doing so far? In our Energy Revolution Global Outlook report, written with colleagues at Imperial College London and E4tech – and published by Drax– we rank progress in 25 major world economies.

Our report provides a league table of their efforts to clean up electricity generation, switch from oil to electric vehicles, deploy carbon capture and storage, eliminate fossil fuel subsidies and tackle energy efficiency.

Electricity has been the fastest sector of the economy to decarbonise as countries move away from coal and embrace low-cost renewables. Yet the average carbon intensity of electricity worldwide has fallen only 7% in the last decade to 450 grams of CO2 per kilowatt hour (gCO2/kWh).

The chart below maps the carbon intensity of electricity generation around the world and ranks the 25 major economies covered by our report. These countries include the G7 group of rich nations along with Brazil, Russia, India, China and South Africa (the “BRICS”) and others. These countries account for 80% of global population, 77% of global GDP and 73% of the world’s CO2 emissions.

The ten charts below compare these 25 countries today and their progress over the last decade.


This is an important signal in the phase transition currently underway in energy geopolitics.

Wind, Solar Are Now The Cheapest Sources Of Power Generation

Thanks to falling costs, unsubsidized onshore wind and solar have become the cheapest sources of electricity generation in nearly all major economies in the world, including India and China, according to a new report by Bloomberg NEF.

The comparative costs for power generation—the levelized costs of electricity (LCOE)—showed that onshore wind and solar are the cheapest power generation sources for all major economies except for Japan.

Even in India and China, where “not long ago coal was king”, solar and wind beat coal with cheaper generation, according to BNEF’s latest half-year LCOE analysis.
“In India, best-in-class solar and wind plants are now half the cost of new coal plants,” says the study, as carried by Renewable Energy Magazine.


This example is likely to become a movement across our urban landscapes as more and more cities see the economic and ecological advantages.
“The rule is necessary because it sends a clear market signal that the fifth largest economy in the world is serious about zero-emissions transit buses,” says Adrian Martinez, a staff attorney at the nonprofit Earthjustice. “Even though you’ve had a lot of transit agencies step up to the plate to commit to 100%, getting the stamp of approval from a state as big and as powerful as California is important to send a signal nationally.”

California just decided to move to 100% electric city buses

The state’s clean air agency just issued a new rule to push cities to transition faster.
A decade from now, city transit agencies in California will no longer be able to buy a bus that runs on diesel or natural gas. The California Air Resources Board, the state’s clean air agency, just voted on a new rule that will require cities to shift to 100% electric buses over time.

It’s happening at a time when many California cities are already starting to buy new electric buses; more than 100 zero-emissions buses are already on roads in the state, and hundreds more are on order. But the new rule will make things move faster.


Just to indicated that California is not an anomaly.

Shenzhen's silent revolution: world's first fully electric bus fleet quietens Chinese megacity

All 16,000 buses in the fast-growing Chinese megacity are now electric, and soon all 22,000 taxis will be too
You have to keep your eyes peeled for the bus at the station in Shenzhen’s Futian central business district these days. The diesel behemoths that once signalled their arrival with a piercing hiss, a rattle of engine and a plume of fumes are no more, replaced with the world’s first and largest 100% electric bus fleet.

Shenzhen now has 16,000 electric buses in total and is noticeably quieter for it. “We find that the buses are so quiet that people might not hear them coming,” says Joseph Ma, deputy general manager at Shenzhen Bus Group, the largest of the three main bus companies in the city. “In fact, we’ve received requests to add some artificial noise to the buses so that people can hear them. We’re considering it.”

Thursday, December 13, 2018

Friday Thinking 14 Dec 2018

Hello all – Friday Thinking is a humble curation of my foraging in the digital environment. My purpose is to pick interesting pieces, based on my own curiosity (and the curiosity of the many interesting people I follow), about developments in some key domains (work, organization, social-economy, intelligence, domestication of DNA, energy, etc.)  that suggest we are in the midst of a change in the conditions of change - a phase-transition. That tomorrow will be radically unlike yesterday.

Many thanks to those who enjoy this.

In the 21st Century curiosity will SKILL the cat.

Jobs are dying - Work is just beginning. Work that engages our whole self becomes play that works. Techne = Knowledge-as-Know-How :: Technology = Embodied Know-How  

“Be careful what you ‘insta-google-tweet-face’”
Woody Harrelson - Triple 9

Content
Quotes:

Articles:



The Question —What do you call the gooey or dry matter that collects in the corners of your eyes, especially while you are sleeping?—has over 800 distinct families of responses. The most common: (eye) boogers, sleep, (eye) gunk, and (eye) crusties.

Why the “y’all” line divides the US north from south, not east from west




reframe the very idea of disability:
Fitting and misfitting denote an encounter in which two things come together in either harmony or disjunction. When the shape and substance of these two things correspond in their union, they fit. A misfit, conversely, describes an incongruent relationship between two things: a square peg in a round hole. The problem with a misfit, then, inheres not in either of the two things but rather in their juxtaposition, the awkward attempt to fit them together.

At this moment, I would argue, many of our encounters with technology make us feel like misfits in just this way. Particularly for those of us who grew up, went to school, or first learned to use our minds in a pre-internet world, the cognitive impact of daily technology use can feel tangible, uncomfortable, and overwhelming. Our minds are changing in ways that make us feel alien to ourselves—or they’re not changing, and we feel increasingly out of step with our digital surroundings.

the temporal environment of accelerated work schedules makes formerly acceptable levels of production deficient, rendering those who cannot maintain the new speed of production debilitated. The speedup in production in the last two decades has created a whole new sector of the debilitated, if not the fully disabled: those with deficits of attention, flexibility, or sociability.

If the nature and pace of tech change are pushing more and more of us out of the neurotypical camp and into the realm of what was previously considered neuroatypical, we must remember that this is a still a new world for us, both individually and collectively. Our culture is just beginning to develop not only the technologies but the practices that will make the digital world inhabitable, and our schools and workplaces have barely begun to accommodate the changing nature of human thought and interaction.

Meanwhile, the sheer unfamiliarity of the situation leads us to overestimate its impact and disadvantages for reasons that are once again linked to our fears about disability.

To Cope with Digital Distraction, Embrace Digital Neurodiversity




the deluge of stimuli competing to grab our attention almost certainly inclines us towards instant gratification. This crowds out space for the exploratory mode of attention. When I get to the bus stop now, I automatically reach for my phone, rather than stare into space; my fellow commuters (when I do raise my head) seem to be doing the same thing. Second, on top of this, an attention-economy narrative, for all its usefulness, reinforces a conception of attention-as-a-resource, rather than attention-as-experience.

At one extreme, we can imagine a scenario in which we gradually lose touch with attention-as-experience altogether. Attention becomes solely a thing to utilise, a means of getting things done, something from which value can be extracted. This scenario entails, perhaps, the sort of disembodied, inhuman dystopia that the American cultural critic Jonathan Beller talks about in his essay ‘Paying Attention’ (2006) when he describes a world in which ‘humanity has become its own ghost’.

While such an outcome is extreme, there are hints that modern psyches are moving in this direction. One study found, for instance, that most men chose to receive an electric shock rather than be left to their own devices: when, in other words, they had no entertainment on which to fix their attention. Or take the emergence of the ‘quantified self’ movement, in which ‘life loggers’ use smart devices to track thousands of daily movements and behaviours in order to (supposedly) amass self-knowledge. If one adopts such a mindset, data is the only valid input. One’s direct, felt experience of the world simply does not compute.

Thankfully, no society has reached this dystopia – yet. But faced with a stream of claims on our attention, and narratives that invite us to treat it as a resource to mine, we need to work to keep our instrumental and exploratory modes of attention in balance. How might we do this?

To begin with, when we talk about attention, we need to defend framing it as an experience, not a mere means or implement to some other end.

there can be beauty and wonder in the unadorned act of ‘experiencing’. This might be what Weil had in mind when she said that the correct application of attention can lead us to ‘the gateway to eternity … The infinite in an instant.’

Attention is not a resource but a way of being alive to the world





That’s right. We’ve gone from it costing almost $3 billion for a clinically unacceptable genome in 2004 to less than $1,000 in 2015 for a high-quality genome that precisely analyzes the DNA you inherited from your mother and father. I just started a company called Nebula Genomics, whose intention is to make it zero dollars or less. At this point everyone should be getting paid to sequence their genomes. Because the system could save something on the order of a million dollars every time we save a single child from a rare genetic disease. That million dollars should then be spread out to all people who participated, including the 95 percent of people who didn’t get any bad news.

...One implication is that 25, 50, 250 years from now, we become a kind of clinical-trial society in which empirically driven decisions are constantly popping up. But by clinical-trial society, I mean all sorts of questions, because the information net becomes so rich — and the capacity to understand or deconvolute that information, because of computational power and because of A.I.-dependent algorithms, becomes so rich — that we begin to subject aspects of human behavior, human selves, that were previously considered outside the realm of assessment to a kind of deeper clinical assessment.

FROM GENE EDITING TO A.I. HOW WILL TECHNOLOGY TRANSFORM HUMANITY?




The digital environment is fundamentally a ‘Stack’ that totally dependent on one layer - the capacity to give every node an address. This was key to the need to develop a new standard - IPV6 which has the capacity to give every single atom in the universe a unique address (even more). The recent midterm election in the US used this as a means of voter suppression since many indigenous people on reserves do not have ‘street addresses’. I predict that the universe of knowledge will soon require every document to have it’s own IP address.
“As you move into a more global economy and more people order and get goods delivered at a distance, you need a more specific address than ‘the house with the red door across from the cathedral,’” says Merry Law, the president of a company that provides international addressing information.

Four billion people lack an address. Machine learning could change that.

Researchers at MIT and Facebook are proposing a new way to generate street addresses by extracting roads from satellite images.
An estimated 4 billion people in the world lack a physical address. Without one, residents lose access to important services like package deliveries, medical care, and disaster relief, as well as the ability to register to vote or obtain a driver’s license. Cities also have trouble planning new infrastructure, such as schools, water pipes, and electricity lines. (And this isn’t just in the developing world.)

Researchers at the MIT Media Lab and Facebook are now proposing a new way to address the unaddressed: with machine learning.

The team first trained a deep-learning algorithm to extract the road pixels from satellite images. Another algorithm connected the pixels together into a road network. The system analyzed the density and shape of the roads to segment the network into different communities, and the densest cluster was labeled as the city center. The regions around the city center were divided into north, south, east, and west quadrants, and streets were numbered and lettered according to their orientation and distance from the center.

This isn’t the only way to automate the creation of addresses. The organization what3words ( https://what3words.com/ ) generates a unique three-word combination for every 3-by-3-meter square on a global grid. The scheme has already been adopted in regions of South Africa, Turkey, and Mongolia by national package delivery services, local hospitals, and regional security teams.


The progress being made by AI seems to continue to accelerate - at least to a certain type of application. This is an interesting signal.
“Those multiplayer games are harder than Go, but not that much higher,”  Campbell tells IEEE Spectrum. “A group has already beaten the best players at Dota 2, though it was a restricted version of the game; Starcraft may be a little harder. I think both games are within 2 to 3 years of solution.”
Deep Blue was a monster of a machine built solely to play chess, and its 1997 victory over Kasparov was not overwhelming. Today, though, even a smartphone can outplay Magnus Carlsen, the reigning world champion, and do so again and again

DeepMind Achieves Holy Grail: An AI That Can Master Games Like Chess and Go Without Human Help

AlphaZero, a general-purpose game-playing system, quickly taught itself to be the best player ever in Go, chess and Shogi
DeepMind, the London-based subsidiary of Alphabet, has created a system that can quickly master any game in the class that includes chess, Go, and Shogi, and do so without human guidance.

The system, called AlphaZero, began its life last year by beating a DeepMind system that had been specialized just for Go. That earlier system had itself made history by beating one of the world’s best Go players, but it needed human help to get through a months-long course of improvement. AlphaZero trained itself—in just 3 days.

The research, published today in the journal Science, was performed by a team led by DeepMind’s David Silver. The paper was accompanied by a commentary by Murray Campbell, an AI researcher at the IBM Thomas J. Watson Research Center in Yorktown Heights, N.Y.

“This work has, in effect, closed a multi-decade chapter in AI research,” writes Campbell, who was a member of the team that designed IBM’s Deep Blue, which in 1997 defeated Garry Kasparov, then the world chess champion. “AI researchers need to look to a new generation of games to provide the next set of challenges.”

AlphaZero can crack any game that provides all the information that’s relevant to decision-making; the new generation of games to which Campbell alludes do not. Poker furnishes a good example of such games of “imperfect” information: Players can hold their cards close to their chests. Other examples include many multiplayer games, such as StarCraft II, Dota, and Minecraft. But they may not pose a worthy challenge for long.

Problems in life rarely come with all the information needed for their solution. That’s why an AI that can master any game of imperfect information might find application way beyond gaming, say in financial modeling, even war. A self-driving car equipped with such an AI might finally conquer the roads, producing wild success for whichever company first perfects the idea.


This is more than a weak signal - but still has a lot of uncertainty. It’s important to track as it could enable a significant wave of disruptive technologies.

The record for high-temperature superconductivity has been smashed again

Chemists found a material that can display superconducting behavior at a temperature warmer than it currently is at the North Pole. The work brings room-temperature superconductivity tantalizingly close.
Superconductivity is the weird phenomenon of zero electrical resistance that occurs when some materials are cooled below a critical temperature. The best superconductors have to be cooled with liquid helium or nitrogen to get cold enough (often as low as -250 °C or -480 F) to work. The holy grail for researchers is the idea that a material could be made to superconduct at around 0 °C — so-called "room temperature" superconductivity. If such a thing was ever discovered it would unleash a wide range of new technologies, including super-fast computers and data transfer.

The work comes from the lab of Mikhail Eremets and colleagues at the Max Planck Institute for Chemistry in Mainz, Germany. Eremets and his colleagues say they have observed lanthanum hydride (LaH10) superconducting at the sweltering temperature of 250 K, or –23 °C.

The caveat is that the sample has to be under huge pressure: 170 gigapascals, or about half the pressure at the center of the Earth.


This is a very important signal related to how we create social conditions the support wellness. The graphs are worth the view.

Why US life expectancy is falling, in three charts

The US Centers for Disease Control and Prevention released three separate reports today (Nov. 29) on the declining life expectancy of Americans.

Between 2016 and 2017, the average life expectancy of someone born in the US decreased from 78.7 to 78.6 years. Although that may not seem like much, it adds to a more worrying trend: the only other time in US history that death rates have fallen steadily was a century ago, between 1915 and 1918. In that time frame, the US entered World War I, and the Spanish flu pandemic, which would ultimately kill 1 million Americans, began.

“Life expectancy is improving in many places in the world. It shouldn’t be declining in the [US],” Joshua Sharfstein, a physician and dean of the Johns Hopkins school of public health, told the Post. “I think this is a very dismal picture of health in the United States.” In neighboring Canada, for example, life expectancy is 82.3 years, and has been on the rise without any dip since 1992. Mexico’s life expectancy is currently 77.1, but that number has risen every single year since the World Bank began keeping records in 1960.


This is very good news - when it’s ready for primetime.

Australian researchers develop 10-minute cancer test

Researchers in Australia have developed a 10-minute test that can detect the presence of cancer cells anywhere in the human body, according to a newly published study.
The test was developed after researchers from the University of Queensland found that cancer forms a unique DNA structure when placed in water.
The test works by identifying the presence of that structure, a discovery that could help detect cancer in humans far earlier than current methods, according to the paper published in journal Nature Communications.

"Discovering that cancerous DNA molecules formed entirely different 3D nanostructures from normal circulating DNA was a breakthrough that has enabled an entirely new approach to detect cancer non-invasively in any tissue type including blood," Professor Matt Trau said in a statement.

The 10-minute test developed in Australia is yet to be used on humans, and large clinical trials are needed before it can be used on prospective patients. But the signs are positive.
Tests on more than 200 tissue and blood samples detected cancerous cells with 90% accuracy, the researchers said.

It's been used only to detect breast, prostate, bowel and lymphoma cancers, but they're confident the results can be replicated with other types of the disease.


For those you enjoy Yuval Harari - this is a great 40 min video talking about the emerging capacity to ‘hack the human body’ because of the developing digital environment and its atmosphere of data.

Yuval Noah Harari on Impact Theory

Yuval and Tom explore the potential implications of hacking humans, both the benefits and the risks. They also discuss how we can hack ourselves in a positive way.


This is another signal of what could be an emerging idea entangled with a desire for a new and better political-economic paradigm. But maybe it’s a signal of the possibility of another ‘atypical’ president?
I’m running for president because I know that we’re in the third inning of the greatest economic transformation of industry in the world and that our politicians don’t understand it all.

Universal income vs. the robots: Meet the presidential candidate fighting automation

7 questions for Andrew Yang, the 2020 US presidential candidate pushing for basic income.
Andrew Yang announced he is vying for the 2020 Democratic presidential nomination back in February. His mission? Preparing America for automation.

But how is he going to do that? I got the chance to sit down with him at the Work Awesome conference in New York yesterday to ask him about his stances on trucking automation, AI policy, and his favorite topic, universal basic income (UBI).


The accelerating transformation of energy geopolitics continues to produce signals - this article include a 1 min video.

New catalyst material produces abundant cheap hydrogen

QUT chemistry researchers have discovered cheaper and more efficient materials for producing hydrogen for the storage of renewable energy that could replace current water-splitting catalysts.

Professor Anthony O'Mullane said the potential for the chemical storage of renewable energy in the form of hydrogen was being investigated around the world.
Professor O'Mullane said the stored hydrogen could then be used in fuel cells.

"Fuel cells are a mature technology, already being rolled out in many makes of vehicle. They use hydrogen and oxygen as fuels to generate electricity – essentially the opposite of water splitting.
"With a lot of cheaply 'made' hydrogen we can feed fuel cell-generated electricity back into the grid when required during peak demand or power our transportation system and the only thing emitted is water."


Another signal - at least a claim to watch - but whether it is this company or another - the trend is clear and approaching faster than many expect.
Within the next five to seven years, the cost of a battery pack will likely reach $100 a kilowatt hour. Why is that important? Because at that cost, electric vehicles will reach cost and range parity with gasoline cars without subsidies. And you give it another 15 to 20 years and we're likely to see deep penetration of EVs around the world, and with no tailpipe emissions, EVs will reduce air pollution, which is a major problem in many cities around the world. After 100 years of gasoline-based automobiles, this is a tectonic shift.

Chinese Company Says It Will Soon Cross $100 Battery Threshold, Slaying The Gasoline Car

Envision Energy will produce batteries for $100 per kilowatt hour by 2020, the Shanghai company's founder and CEO said at Stanford University, predicting the price will drop to $50 only five years later and end the reign of the internal-combustion engine.

Envision's analysts realized they could achieve these goals after the company purchased Nissan's battery division earlier this year,  CEO Lei Zhang said at Stanford University's Global Energy Forum. Stanford just released video of Lei's remarks, which came in response to a slightly more conservative prediction by Stanford's Arun Majumdar.

"I have something to add on to Arun's comment," Lei said. "He mentioned by 2022 we are able to reach $100 per kilowatt hour, but I say we are able to arrive much earlier. By 2020 we are able to deliver the cost of $100 U.S. Just recently we bought a Japanese battery company, so we have very detailed analyzed this trend of cost, so we are able, probably by 2025, to achieve $50 U.S. dollar per kilowatt hour."


An important signal from this summer, but even more relevant in light of the Current Alberta Gov.’s reaction to oil price declines and the planning for future pipelines.
natural gas plants built today could be rendered uncompetitive well before their rated lifespan. They could become “stranded assets,” saddling utility ratepayers and investors with the costs of premature decommissioning
It’s worth noting that batteries have advantages over peakers other than price. They’re faster to build. A natural gas plant takes three to five years, while Elon Musk promised South Australia he would build them the world’s largest battery bank in 100 days or it would be free — and he delivered.

Clean energy is catching up to natural gas

The natural gas “bridge” to sustainability may be shorter than expected.
For around 10 years, the conventional wisdom in the energy sector has been that natural gas is ascendant. Coal is dirty, and it’s getting expensive, but it’s too early to jump all the way to renewable energy. To get from the fossil fuel present to the renewable future, we will need ... a bridge.

Natural gas is meant to be that bridge, a way to reduce our emissions relative to coal while we work on scaling up renewables. (The shift from coal to gas is a big part of why US emissions have declined over the past few years.)

In its role as a bridge, natural gas seems to have a comfortable future. First, it will replace coal and nuclear “baseload” plants, and then, as renewables grow to supply the bulk of power, it will provide flexibility, filling in the gaps where variable renewables (wind and solar) fall short. By playing these multiple roles, natural gas will long outlive coal and prove useful well into the latter half of the 21st century. It will enjoy a long, slow exit.

Or so the story goes.
Around 2015, though, just five years into gas’s rise to power, complications for this narrative began to appear. First, wind and solar costs fell so far, so fast that they are now undercutting the cost of new gas in a growing number of regions. And then batteries — which can “firm up” variable renewables, diminishing the need for natural gas’s flexibility — also started getting cheap faster than anyone expected. It happened so fast that, in certain limited circumstances, solar+storage or wind+storage is already cheaper than new natural gas plants and able to play all the same roles (and more).

The cost of natural gas power is tethered to the commodity price of natural gas, which is inherently volatile. The price of controllable, storable renewable energy is tethered only to technology costs, which are going down, down, down. Recent forecasts suggest that it may be cheaper to build new renewables+storage than to continue operating existing natural gas plants by 2035.


California is only the first US state - but other countries have already smelled the coffee and have legislated what seems like a ‘no-brainer’.

California officially becomes first in nation mandating solar power for new homes

‘Historic undertaking’ expected to boost number of rooftop solar panels across the Golden State.
California officially became the first state in the nation on Wednesday, Dec. 5 to require homes built in 2020 and later be solar powered.
To a smattering of applause, the California Building Standards Commission voted unanimously to add energy standards approved last May by another panel to the state building code.

Two commissioners and several public speakers lauded the new code as “a historic undertaking” and a model for the nation.
“These provisions really are historic and will be a beacon of light for the rest of the country,” said Kent Sasaki, a structural engineer and one of six commissioners voting for the new energy code. “(It’s) the beginning of substantial improvement in how we produce energy and reduce the consumption of fossil fuels.”

The new provisions are expected to dramatically boost the number of rooftop solar panels in the Golden State. Last year, builders took out permits for more than 115,000 new homes — almost half of them for single-family homes.


The vertical farm that has been much discussed as a new agricultural paradigm has a new twist. While not ready for primetime - the article provides a detailed explanation.

Old coal mines can be 'perfect' underground food farms

Abandoned coal mines across the UK could be brought back to life as huge underground farms, according to academics.
Mine shafts and tunnels are seen as "the perfect environment" for growing food such as vegetables and herbs.
The initiative is seen as a way of providing large-scale crop production for a growing global population.

Advocates say subterranean farms could yield up to ten times as much as farms above ground.
President of the World Society of Sustainable Energy Technology, Prof Saffa Riffat, believes the scheme would be a cost-effective way of meeting the growing need for food.

It could also breathe new life into many mines that have been closed since the decline of the UK coal industry in the late 1980s and offer a cheaper alternative to vertical farming in giant greenhouses.


This is a fascinating signal - of how technology enables the ‘extended mind’ and the implications for the future of work, especially if we can also hold in mind (pun intended) how AI can augment our capabilities. There are 5 short video - illustrating this beta test.

Cafe opens in Tokyo staffed by robots controlled by paralyzed people

On 26 November, a ribbon cutting ceremony was held in the Nippon Foundation Building in Akasaka, Tokyo for a very special kind of cafe.
Developed by Ory, a startup that specializes in robotics for disabled people, the OriHime-D is a 120 cm (4-foot) tall robot that can be operated remotely from a paralyzed person’s home. Even if the operator only has control of their eyes, they can command OriHime-D to move, look around, speak with people, and handle objects.

However, as the “beta” in its name suggests, this is a limited run and will only remain open until 7 December.
During this time a staff of ten people, with conditions such as ALS or spinal cord injuries and working from home, are paid 1,000 yen (US$8.80) an hour (a standard wage for part-time work in Japan) to serve up coffee and interact with the clientele. But more importantly than money, these people are also given a newfound independence.


Another important signal in the rise of Robotics and AI.
“Around the world, even the cheapest labor market can’t compete with us,” Tang Xinhong, chairman of Tianyuan, told China Daily last year, referring to the cost of producing each T-shirt, which he expected to be only 33 U.S. cents.

Your Next T-Shirt Will Be Made by a Robot

Georgia Tech spin-off SoftWear Automation is developing ultrafast sewing robots that could upend the clothing industry
Sometime later this year, dozens of robots will spring into action at a new factory in Little Rock, Ark. The plant will not make cars or electronics, nor anything else that robots are already producing these days. Instead it will make T-shirts—lots of T-shirts. When fully operational, these sewing robots will churn them out at a dizzying rate of one every 22 seconds.

For decades, the automation of the sewing of garments has vexed roboticists. Conventional robots excel at manipulating rigid objects but are rather inept at handling soft, flexible materials like fabric. Early attempts to automate sewing included treating pieces of cloth with starch to temporarily make them stiff, allowing a robot to manipulate them as if they were steel sheets. This and other approaches, however, never became commercially viable, mainly because the clothing industry has resisted automation by relying on cheap labor in developing countries.

Now a Georgia Tech spin-off, SoftWear Automation, in Atlanta, claims to have built a practical sewing robot. And it doesn’t need starch. Rather, it’s based on a much higher-tech approach, one that combines machine vision and advanced manipulators. At the Arkansas factory, owned by Tianyuan Garments Co., one of China’s largest apparel manufacturers, SoftWear’s robots, called Sewbots, will equip 21 production lines, designed to make 23 million T-shirts per year for Adidas.


There is no reason that a nation’s cities couldn’t collaborate to form national (or international) open-source foundations that can provide both the hardware clouds and open-source software platforms that would enable every city to enact a ‘costless’ coordination platform to displace the privateering efforts of entities such as Uber, AirBnB, Taskrabbit, and so much more. Each ‘smart city’ could implement a digital infrastructure enabling citizen to self-organize the coordination between those who can offer with those who need.

Uber Is Headed for a Crash

By steamrolling local taxi operations in cities all over the world and cultivating cheerleaders in the business press and among Silicon Valley libertarians, Uber has managed to create an image of inevitability and invincibility. But the company just posted another quarter of jaw-dropping losses — this time over $1 billion, after $4.5 billion of losses in 2017. How much is hype and how much is real?

The notion that Uber, the most highly valued private company in the world, is a textbook “bezzle” — John Kenneth Galbraith’s coinage for an investment swindle where the losses have yet to be recognized — is likely to come as a surprise to its many satisfied customers. But as we’ll explain, relying on the extensive work of transportation expert Hubert Horan, Uber’s investors have been buying your satisfaction in the form of massive subsidies of services. What has made Uber a good deal for users makes it a lousy investment proposition. Uber has kept that recognition at bay via minimal and inconsistent financial disclosures combined with a relentless and so far effective public-relations campaign depicting Uber as following the pattern of digitally based start-ups whose large initial losses transformed into strong profits in a few years.


One more important signal of the emerging technology of drones. If this technology can disrupt current forms of delivery - than militaries have to rethink what the future of other forms of ‘delivery’ is. Do we need to invest in person piloted air-land-sea platforms? Or is the future a vast swarm of diverse drone capabilities? Which will be more economically feasible and provide a capacity for rapid adaptability?

Alphabet’s Wing spinoff is about to launch drone deliveries in Finland

Alphabet’s Wing spinoff is set to launch a drone delivery service in Helsinki, Finland’s capital, in spring next year, the company has announced. It will be its first operation in Europe.
The news: It will just be a small-scale trial, with the drones only able to carry packages weighing up to 3.3 pounds (1.5 kilograms) on a round trip of up to 20 miles. Wing is pitching the drones as an environmentally friendly choice, claiming they have a carbon footprint less than a 20th that of traditional deliveries. Wing graduated from Google’s X division in July to become a separate company, after six years of development.

Drone delivery: Wing is asking Finnish would-be users what they would like to have delivered, with options including medicine, groceries, and lunch. It obviously sees Finland's interesting weather as a good testing ground, too. “If our drones can deliver here, they can deliver anywhere,” Wing says. It has spent the last 18 months trialing drone deliveries in southeastern Australia, which poses fewer challenges in that department.


This is truly an important signal - AI and robotic not only enhance human capability - but providing a new foundation for augmenting the capacity for self-directed enhancement of more lifeforms.

This Plant Is Driving Its Own Robot

A robot that can detect a plant's electrochemical signals goes where the plant wants it to go
Cybernetics usually refers to humans enhancing themselves with robotic parts. Sometimes, we heard about animal-robot cyborgs, or insect-robot cyborgs. It’s not all that often that we hear about plant-robot cyborgs, because what’s a plant going to do with a robot, right? But you could argue that plants have the most to gain from robotic enhancements, because otherwise (with a few totally cool exceptions) plants aren’t capable of mobility or manipulation at all.

It’s straightforward to see how mobility and manipulation could be useful for plants, but the real question is, How do you get a plant to tell its robotic parts what to do? At the MIT Media Lab, Harpreet Sareen is trying to figure this out, and Elowan the mobile cybernetic plant is just the first in “a series of plant-electronic hybrid experiments.”