Thursday, May 16, 2019

Friday Thinking 17 May 2019

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  
In the 21st century - the planet is the little school house in the galaxy.
Citizenship is the battlefield of the 21st  Century

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

Contents
Quotes:

Articles:



In the book, when you write about the present day — you talk about climate, you talk about resources, but you also talk about the threat of nuclear war and nuclear weapons. It may be kind of a foolish question to ask, but … how do you rank those threats?
I’m repressing a chuckle because I know how people react when I answer that. Whenever somebody tells me, “How should we prioritize our efforts?” My answer is, “We should not be prioritizing our efforts.” It’s like someone asking me, “Jared, I’m about to get married. What is the most important factor for a happy marriage?” And my response is, “If you’re asking me what is the most important factor for a happy marriage, I’d predict that you’re going to get divorced within a few years.” Because in order to have a happy marriage you’ve got to get 37 things right. And if you get 36 right but you don’t get sex right, or you don’t get money right, or you don’t get your in-laws right, you will get divorced. You got to get lots of things right.

So for the state of the world today, how do we prioritize what’s going on in the world? We have to avoid a nuclear holocaust. If we have a nuclear holocaust, we’re finished, even if we solve climate change. We have to solve climate change because if we don’t solve climate change but we deal with a nuclear holocaust, we’re finished. If we solve climate change and don’t have a nuclear holocaust but we continue with unsustainable resource use, we’re finished. And if we deal with the nuclear problem and climate change and sustainable use, but we maintain or increase inequality around the world, we’re finished. So, we can’t prioritize. Just as a couple in a marriage have to agree about sex and children and in-laws and money and religion and politics. We got to solve all four of those problems.

Jared Diamond: There’s a 49% Chance the World As We Know It Will End by 2050




Unlike habitat destruction, carbon emissions and other signatures of the Anthropocene epoch, the technologies being tested today are designed for consciously taking control of some of the key physical processes that shape our world. The bedrock laws of nature don’t disappear, of course, but they become subject to a deeper kind of manipulation. You could think of these as not simply ‘cosmetic’ changes but ‘metabolic’ ones. Charles Darwin, Gregor Mendel and the conventions of atmospheric physics become subject to a delicate kind of renegotiation.

The crossing of this line represents radically new territory for both our species and for the planet. Nature itself will be shaped by processes redesigned and ‘improved’ by geneticists and engineers. We should call this transition the beginning of a ‘synthetic age’, a time in which background constants are increasingly replaced by artificial and ‘improved’ versions of themselves. This remaking of the metabolism of the Earth strikes at the very core of how we understand our surroundings and our role in them.

An Anthropocene epoch requires one kind of psychological adjustment. A synthetic age demands something considerably more.

Forget the Anthropocene: we’ve entered the synthetic age




People often need to act and make decisions in situations in which causality is poorly understood, where there is considerable uncertainty and people hold different beliefs and have personal biases. However, people very reluctantly acknowledge that they face ambiguity at work. Problems in organizations tend to get labeled as lack of information. It feels more professional to try to solve a knowledge management problem that is called lack of information than a problem that is called confusion.

Knowledge workers are often put in a position where they have to negotiate some understanding of what they face. The same event means different things to different people and just getting more information will not help them. What will help is a setting where they could negotiate and construct fresh ideas that would include their multiple interpretations of what they experience. The challenge is that managers often treat the existence of multiple views as a symptom of a weakness rather that as an accurate and needed barometer of uncertainty.

Confusion and ambiguity




This is an important signal - which may be much stronger than most people assume. A 5 min read that is worthy of consideration.

The Underpopulation Bomb

While the global population of humans will continue to rise for at least another 40 years, demographic trends in full force today make it clear that a much bigger existential threat lies in global underpopulation.

That worry seem preposterous at first. We’ve all seen the official graph of expected human population growth. A steady rising curve swells past us now at 7 billion and peaks out about 2050. The tally at the expected peak continues to be downgraded by experts; currently UN demographers predict 9.2 billion at the top. The peak may off by a billion or so, but in broad sweep the chart is correct.

But curiously, the charts never show what happens on the other side of the peak. The second half is so often missing that no one even asks for it any longer. It may be because it is pretty scary news. The untold story of the hidden half of the chart is that it projects a steady downward plunge toward fewer and fewer people on the planet each year — and no agreement on how close to zero it can go. In fact there is much more agreement about the peak, than about how few people there will be on the planet in a 100 years.

A lower global population is something that many folks would celebrate. The reason it is scary is that the low will keep getting lower. All around the world the fertility rate is dropping below replacement level country by country so that globally there will soon be an un-sustaining population. With negative population growth each generation produces fewer offspring, who producer fewer still, till there are none. Right now Japan’s population is way below replacement level; indeed Japan is losing total population; every year there are fewer and fewer Japanese. Most of Europe, Eastern Europe, Russia, the Former Soviet Republics, and some Asia countries are running below replacement levels. It goes further than Japan. Today Germany and Ukraine have absolute population decline; they are already experiencing the underpopulation bomb.


We all know that there are now more people over 65 than under 15 (in many developed countries). This is an very important signal - not just related to elders - but to all forms of designs aimed and making things adult-tamper-proof. :) In fact there are too many design crimes against humanity to count.

I wrote the book on user-friendly design. What I see today horrifies me

The world is designed against the elderly, writes Don Norman, 83-year-old author of the industry bible Design of Everyday Things and a former Apple VP.
Despite our increasing numbers the world seems to be designed against the elderly. Everyday household goods require knives and pliers to open. Containers with screw tops require more strength than my wife or I can muster. (We solve this by using a plumber’s wrench to turn the caps.) Companies insist on printing critical instructions in tiny fonts with very low contrast. Labels cannot be read without flashlights and magnifying lenses. And when companies do design things specifically for the elderly, they tend to be ugly devices that shout out to the world “I’m old and can’t function!” We can do better.

WHAT OLDER CONSUMERS WANT AND NEED
As we age, we have more experience with life, which can make us better decision-makers and managers. Crystalized intelligence, it is called, and it gets better with experience. A caveat is that we often face physical changes that designers fail to account for into their work.


This is a good signal - a 3 min read by Kevin Kelly on the future of film - at least certainly animated film.

Virtual Live-Action in a Virtually Real Film

The new Disney movie Lion King marks a threshold for a new way of making a film, another step erasing the line between artifice and reality, between the virtual and the natural.

The entire set of the film — all the background and characters –are virtual, that is, computer created. The entire movie was shot in what we would today call VR. As this article makes clear, the director John Favreau says “We’ve basically built a multiplayer VR filmmaking game just for the purposes of making this movie.” This is a method that will be ordinary, if not normal, for many movies in the future.

Lion King is the cumulation of four strands of new filming: 1) CGI, computer special effects, 2) wholly animated movies like Pixar’s Coco or Up, and 3) the “previs” multiplied by a 1,000 and 4) VR and video games. The special effects guru Robert Legato says “Everybody does VFX movies, everybody does animated movies, everybody does live-action movies — but to mix all of them together to make something that belies how it was done is, I think, the game-changing portion of all this.”


Drones are appearing everywhere and soon maybe very small indeed. But more than small they maybe ever more difficult to spot. The 6 min video is very illustrative.

This Robot Hummingbird Is Almost as Agile as the Real Thing

Purdue roboticists have built a bio-inspired micro air vehicle that flies much like a real hummingbird
Hummingbirds are some of the most nimble fliers on Earth. Their speed and agility are spectacular, driven by the complex muscles that control their wings. This is a difficult system for robots to emulate, and in general, the small winged robots that we’ve seen have relied on compromises in control in order to be able to use flapping wings for flight.

At Purdue University’s Bio-Robotics Lab, Xinyan Deng and her students are taking a very deliberately bio-inspired approach towards winged robotic flight that has resulted in one of the most capable robotic hummingbirds we’ve ever seen. It’s just about the same size and shape as the real thing, and the researchers hope it will be able to perform the same sorts of acrobatic maneuvers as an actual hummingbird. And more importantly, it’s robust enough that it can use its wings as sensors to navigate around obstacles, meaning that it has a shot at being useful outside of a lab.


This is an amazing signal of a potentially transformative computational paradigm - it is still far from primetime - but could be a technology that will seem like magic in the future.
The temperature of the magnet did not increase at all as this process requires energy of only one quantum of the terahertz light—a photon—per spin.

Energy-free superfast computing invented by scientists using light pulses

The invention uses magnets to record computer data which consume virtually zero energy, solving the dilemma of how to create faster data processing speeds without the accompanying high energy costs.

Today's data centre servers consume between 2 to 5% of global electricity consumption, producing heat which in turn requires more power to cool the servers.
The problem is so acute that Microsoft has even submerged hundreds of its data centre services in the ocean in an effort to keep them cool and cut costs.

an international team publishing in Nature has solved the problem by replacing electricity with extremely short pulses of light—the duration of one trillionth of a second—concentrated by special antennas on top of a magnet.
This new method is superfast but so energy efficient that the temperature of the magnet does not increase at all.


Here’s a signal that may reach commercial applications in the next decade transforming the world with cheaper, larger and ubiquitous screens.

Smallest pixels ever created could light up color-changing buildings

The smallest pixels yet created—a million times smaller than those in smartphones, made by trapping particles of light under tiny rocks of gold—could be used for new types of large-scale flexible displays, big enough to cover entire buildings.

The colour pixels, developed by a team of scientists led by the University of Cambridge, are compatible with roll-to-roll fabrication on flexible plastic films, dramatically reducing their production cost. The results are reported in the journal Science Advances.

The pixels are the smallest yet created, a million times smaller than typical smartphone pixels. They can be seen in bright sunlight and because they do not need constant power to keep their set colour, have an energy performance that make large areas feasible and sustainable.

The pixels could enable a host of new application possibilities such as building-sized display screens, architecture which can switch off solar heat load, active camouflage clothing and coatings, as well as tiny indicators for coming internet-of-things devices.


The future of hearing enhancement is also entangled with AI, sensors and monitoring our physical and psychological well being. This is a longish article but a nice summary of the current state of hearables.

Hearables Will Monitor Your Brain and Body to Augment Your Life

Devices tucked inside your ears will make technology more personal than ever before
The ear is like a biological equivalent of a USB port. It is unparalleled not only as a point for “writing” to the brain, as happens when our earbuds transmit the sounds of our favorite music, but also for “reading” from the brain. Soon, wearable devices that tuck into our ears—I call them hearables—will monitor our biological signals to reveal when we are emotionally stressed and when our brains are being overtaxed. When we are struggling to hear or understand, these devices will proactively help us focus on the sounds we want to hear. They’ll also reduce the sounds that cause us stress, and even connect to other devices around us, like thermostats and lighting controls, to let us feel more at ease in our surroundings. They will be a technology that is truly empathetic—a goal I have been working toward as chief scientist at Dolby Laboratories and an adjunct professor at Stanford University.

the abilities of AI-based virtual assistants have, of course, blossomed in recent years. Your smart speaker is much more useful than it was even six months ago. And by no means has its ability to understand your commands finished improving. In coming years, it will become adept at anticipating your needs and wants, and this capability will transfer directly to hearables.

What might we expect from early offerings? Much of the advanced research in hearables right now is focusing on cognitive control of a hearing aid.

This kind of device will be attractive to pretty much all of us, not just people struggling with some degree of hearing loss. The sounds and demands of our environments are constantly changing and introducing different types of competing noise, reverberant acoustics, and attention distractors. A device that helps us create a “cone of silence” (remember the 1960s TV comedy “Get Smart”?) or gives us superhuman hearing and the ability to direct our attention to any point in a room will transform how we interact with one another and our environments.

Within five years, a new wave of smart hearing aids will be able to recognize stress, both current and anticipatory. These intelligent devices will do this by collecting and combining several kinds of physiological data and then using deep-learning tools to tune the analysis to individuals, getting better and better at spotting and predicting rising stress levels. The data they use will most likely include pulse rate, gathered using optical or electrical sensors, given that a rising heart rate and shifts in heart rate variability are basic indicators of stress.


Science Fiction isn’t what it used to be - as everyday the future seems closer than ever. Here’s another Star Trek and Galaxy Hitchhiker’s technology looming on the horizon.

Google’s Translatotron converts one spoken language to another, no text involved

Every day we creep a little closer to Douglas Adams’ famous and prescient Babel fish. A new research project from Google takes spoken sentences in one language and outputs spoken words in another — but unlike most translation techniques, it uses no intermediate text, working solely with the audio. This makes it quick, but more importantly lets it more easily reflect the cadence and tone of the speaker’s voice.

Translatotron, as the project is called, is the culmination of several years of related work, though it’s still very much an experiment. Google’s researchers, and others, have been looking into the possibility of direct speech-to-speech translation for years, but only recently have those efforts borne fruit worth harvesting.


This is an excellent signal of the emerging digital environment.

Korea’s New 5G Futuristic Hospital

Hologram visitors, indoor navigation, facial recognition security, and voice-controlled rooms are coming to a hospital in South Korea
When Yonsei University Health System opens its newest hospital next year, in Yongin, about 25 miles outside of Seoul, it will be decked out with some of tech’s hottest gadgets.

Very sick patients in isolation rooms can visit with holograms of their loved ones. Visitors will find their way around the hospital using an augmented reality (AR)-based indoor navigation system. Authorized medical workers will use facial recognition to enter secure areas. Patients can call a nurse and control their bed, lights, and TV with an Alexa-style voice assistant.

That’s the vision, at least. Yonsei and Korean telecommunications company SK Telecom, last week jointly announced that they had signed a memorandum of understanding to build technology for the futuristic hospital, scheduled to open in February 2020. SK Telecom will support the technology with a 5G network, and is considering securing it with quantum cryptography, according to the announcement.


Here’s a growing signal of the emergence of how combinations of sciences including the domestication of DNA are advancing.

Genetically engineered phage therapy has rescued a teenager on the brink of death

It’s a remarkable story of recovery, but it’s unclear how useful this sort of therapy could become.

The background: Isabelle Holdaway had been given less than a 1% chance of survival after a lung transplant, carried out to combat the symptoms of cystic fibrosis, left her with an antibiotic-resistant infection. She had been sent home and was in a terrible physical condition: underweight, with liver failure, and with lesions on her skin from the infection.

A breakthrough: Her consultant at Great Ormond Street Hospital in London worked with a team at the University of Pittsburgh to develop an untested phage therapy. This treatment used a cocktail of three phages, which are viruses that solely attack and kill bacteria. Two of the three phages, selected from a library of more more than 10,000 kept at the University of Pittsburgh, had been genetically engineered to be better at attacking the bacteria. The therapy was injected into her bloodstream twice daily and applied to the lesions on her skin, according to Nature Medicine.

Now: Holdaway is not fully cured, but her infection is under control. Virtually all her lesions have cleared. She is still having twice-daily injections of the therapy, and her treatment team is planning to add a fourth phage to try to clear her of the infection entirely.

The promise: Antibiotic resistance is a growing emergency, and phage therapy is being held up as a potential treatment for antibiotic-resistant superbugs. It’s a promising avenue, but it’s a deeply personalized form of therapy, and we must be careful extrapolating too much from this single case study alone, which was not a full clinical trial.


The domain of Do-It-Yourself (DIY) is mature and spreading to many new areas. There’s been ongoing weak signals about DIY genome hacking - I think the signals are getting stronger.

From DIY editing to matchmaking by DNA: how human genomics is changing society

In the past, the target markets for businesses working on human genomics were the academic sphere (universities, research institutions) and pharmaceuticals. Over the last decade, a new target audience has emerged: the general public. This was facilitated by the drop in the price of molecular biology techniques able to read complete genomes to around $100. Many old and new companies, including start-ups, have taken advantage of this opportunity: by 2022, the genomics business is expected to grow into a $24 billion industry.

What are these new companies offering?
1. Gene therapy:
2. Direct to consumer genetic testing (DTC-GT)
3. Equipment and reagents for do-it-yourself biology (DIY bio)
4. Buying and selling genetic data

What is the role of citizens on human genomics?
For more than half of these new businesses, the target audiences are citizens, and by the use of powerful social media and marketing campaigns, they can reach large numbers of people worldwide. In the report Omics in Society: Social, Legal and Ethical aspects of Human Genomics we note that the booming business in human genomics has opened many opportunities for development, but also that it sometimes overlooks ethical and legal considerations. It is imperative we bring non-scientific groups into this debate, in order to discuss moral issues such as:


A small signal of the emerging change in energy geopolitics.

Britain passes one week without coal power for first time since 1882

Landmark follows government pledge to phase out coal-fired electricity by 2025
Britain has gone a week without using coal to generate electricity for the first time since Queen Victoria was on the throne, in a landmark moment in the transition away from the heavily polluting fuel.

The last coal generator came off the system at 1.24pm on 1 May, meaning the UK reached a week without coal at 1.24pm on Wednesday, according to the National Grid Electricity System Operator, which runs the network in England, Scotland and Wales.

Coal-fired power stations still play a major part in the UK’s energy system as a backup during high demand but the increasing use of renewable energy sources such as wind power means it is required less. High international coal prices have also made the fuel a less attractive source of energy.

The latest achievement – the first coal-free week since 1882, when a plant opened at Holborn in London – comes only two years after Britain’s first coal-free day since the Industrial Revolution.


Here’s another signal of the inevitable transformation of our energy geopolitics.

Chile just signed the cheapest unsubsidized power in the world at ¢2.91/kWh.

Solarpack Corp. Tecnologica, a firm from Spain, won an auction for a 120 megawatts solar power plant at a cost of $29.10 per megawatt-hour. There are absolutely no subsidies which means this is the cheapest power plant in the world.

Previously, Dubai’s Electricity and Water Authority (DEWA) accepted a 2.99$c/kWh bid for an 800-megawatt plant. At the time this was the lowest asking bid for energy ever but the auction in Chile just beat it by 0.08 cents per kilowatt-hour.


Hello everyone, I am a co-founder and board member of theSpace - a Non-Profit Social Enterprise whose aim is to enable adults on the autism spectrum (and others with cognitive disability apprentice for creative self-employment and life-long self-development. This year we have initiated our 3rd Kickstarter Campaign. We are seeking additional funds to acquire new computer equipment and to offer financial support for our members who lack the funds but wish to learn.
Please consider supporting this effort - any amount will help.

theSpace Creative Hub: Next Phase

We're growing and ready to bring our social initiative to a next level!
We're happy to say that we've had great success AND recognition offering a place that truly understands lifelong learning and authentic opportunities for developing identity, self-advocacy skills and generative community. Each member artist is already developing a network of peers and becoming recognized for a body of work which, in turn, is being lauded by community partners. Each is evolving a sense of enhanced value and place, as they learn amazing skills and apprentice for creative self-employment and belonging.

Over the past three years, we've established ourselves as an innovative and groundbreaking central hub for creative engagement and entrepreneurship here in Ottawa! We've accomplished our goals and we're ready for more!
It's hard to believe that it's only been a few short years since you helped theSpace to realize our dream! Beginning as a social initiative lead by community advocates, parents, academics and artists, to address post-graduation gaps in Autism and intellectual disability resources in our community--we're well on our way to doing what we set out to do! Thank you!

We're happy to say that we've had great success AND recognition offering a place that truly understands lifelong learning and authentic opportunities for developing identity, self-advocacy skills and generative community. Each member artist is already developing a network of peers and becoming recognized for a body of work which, in turn, is being lauded by community partners. Each is evolving a sense of enhanced value and place, as they learn amazing skills and apprentice for creative self-employment and belonging.

Thursday, May 9, 2019

Friday Thinking 10 May 2019

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  
In the 21st century - the planet is the little school house in the galaxy.
Citizenship is the battlefield of the 21st  Century

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

Content
Quotes:

Articles:



It is only juvenile intelligence that analyzes things and arrives at conclusions. If your intelligence is sufficiently evolved and mature, you realize that the more you analyze, the further away you are from any conclusion.

Sadhguru - "Inner Engineering: A Yogi’s Guide to Joy”




The past few decades have increasingly highlighted that much of the activity in sensory networks is intrinsically generated, rather than driven by external stimuli. Compare the activity in the visual cortex of an animal in complete darkness with that of an animal looking around, and it’s difficult to tell the two apart. Even in the absence of light, sets of neurons in the cortex begin to fire together, either at the same time or in predictable waves. This correlated firing persists as a so-called metastable state for anywhere from a few hundred milliseconds to a few seconds, and then the firing pattern shifts to another configuration. The metastability, or tendency to hop between transient states, continues after a stimulus is introduced, but some states tend to arise more often for a particular stimulus and are therefore thought of as “coding states.”

It also highlights the need to move away from focusing on single neurons that respond to particular cues, and toward making internal states and dynamics more explicit in our understanding of sensory networks — even for the most basic sensory stimuli. “It’s much easier to say that a neuron increases its firing rate,” said Anan Moran, a neurobiologist at Tel Aviv University in Israel. But to understand how organisms work, “you cannot account only for the stimulus, but also for the internal state,” he added. “And this means that our previous [understanding of] the mechanism used by the brain to achieve perception and action and so on needs to be reevaluated.”

Brains Speed Up Perception by Guessing What’s Next




The last 40 years of research across multiple scientific disciplines has proven, with certainty, that homo economicus does not exist. Outside of economic models, this is simply not how real humans behave. Rather, Homo sapiens have evolved to be other-regarding, reciprocal, heuristic, and intuitive moral creatures. We can be selfish, yes—even cruel. But it is our highly evolved prosocial nature—our innate facility for cooperation, not competition—that has enabled our species to dominate the planet, and to build such an extraordinary—and extraordinarily complex—quality of life. Pro-sociality is our economic super power.

Economists are not wrong when they attribute the material advances of modernity to market capitalism’s genius for self-organizing an increasingly complex and intricate division of knowledge, knowhow, and labor. But it’s important to recognize that the division of labor was not invented in the pin factories of Adam Smith’s eighteenth century Scotland; at some level, it has been a defining feature of all human societies since at least the cognitive revolution. Even our least complex societies, small bands of hunter-gatherers, are characterized by a division of labor—hunting and gathering—if largely along gender lines. The division of labor is a trait that is universal to our prosocial species.

Viewed through this prosocial lens, we can see that the highly specialized division of labor that characterizes our modern economy was not made possible by market capitalism. Rather, market capitalism was made possible by our fundamentally prosocial facility for cooperation, which is all the division of labor really is.

This dispute over behavioral models has profound non-academic consequences. Many economists, while acknowledging its flaws, still defend homo-economicus as a useful fiction—a tool for modeling and understanding the economic world. But it is much more than just an economic model. It is also a story we tell ourselves about ourselves that gives both permission and encouragement to some of the worst excesses of modern capitalism, and of contemporary moral and social life.

How to Destroy Neoliberalism: Kill ‘Homo Economicus’




the culture industries are very much caught up in the search for monopoly rent. It’s interesting that they’re called “industries” these days, which means that there’s a commodification of culture and an attempt to commodify the cultural commons and even commodify history, which is an astonishing process.

Capitalism and the Urban Struggle




This is a very important signal from Kevin Kelly - signalling the need to re-imagine a more appropriate economic, governance, and political framework for understanding the fundamental ‘anti-rival’ nature of information (including data) as a global commons. The need to resit and enclosure movement of knowledge, the Internet and the emerging digital environment.

Data Manifesto

1) Data cannot be owned. By anybody.

2) The natural habitat of data is in the commons. It is born in the commons, and will return to the commons, even if it is granted temporary monopolies. The longer it spends in the commons, the better.

3) Data is a shared resource, that only exists in relationship to its sources and substrates.

4) Any party that touches or generates a bit of data has rights and responsibilities about that data.

5) Rights always have corresponding responsibilities.

6) Control of data is both a right and responsibility that is always shared.

7) Privacy is a misunderstanding that does not apply to data.

8) Data is made more valuable by being connected to other data. Solitary data is worthless.

9) Data is made more valuable by moving. Storage is weak because it halts, “Movage” is better.

10) Both directions of movage are important — where it came from, where it goes.

11) The meta data about where data goes is as important as where it came from.

12) Ensuring bi-directionality, the symmetry of movage, is important to the robustness of the data net.

13) Data can generate infinite derivative data (meta data) but they all follow the same rules.

14) When new data is generated from data (meta data) the rights and responsibilities of the first generation proceed to the second.

15) At the same time, meta data has claims of rights and responsibilities upon the root data.

16) Data can be expensive or free, determined by the market. It has no inherent value.

17) Data is easy to replicate in time (free copies) and difficult to replicate over time (digital decay). The only way to carry data into the future is if it is exercised (moved) by those who care about it.

18) Like all other shared resources, data can suffer from the tragedy of the commons, and this commons must be protected by governments.

19) As the number of entities, including meta data, touching a bit of data expands over time, with claims of rights and responsibilities, some values will dilute and some will amplify.

20) To manage the web of relationships, rights and responsibilities of data will require technological and social tools that don’t exist yet.


This is an interesting 7 min video signal of how an undercurrent of digital activism is working to provide alternatives to for-profit social media,

Distributed social media - Mastodon & Fediverse Explained

Mastodon is a "federated" social network that works like Twitter. It puts the control of data into the user's hands, not in a single corporation.

Mastodon uses ActivityPub to make sure that each Mastodon instance can reach the others.

ActivityPub is also implemented by other applications such as PeerTube and Plume. This is what makes up the *Fediverse*: a collection of social networks that function as a single one.


The future challenges including climate change - requires multi-dimensional innovations and transdisciplinary work. The focus must include technologies, social, governance and economic institutional innovations. This is a long article signalling one such approach.

Fix the broken food system in three steps

Build a global network for mapping, modelling and managing agriculture, biodiversity, trade and nutrition, argue Guido Schmidt-Traub, Michael Obersteiner and Aline Mosnier.
Land use and food production are not meeting people’s needs. Agriculture destroys forests and biodiversity, squanders water and releases one-quarter of global greenhouse-gas emissions. Yet one-third of food is wasted, 800 million people remain undernourished, 2 billion are deficient in micronutrients, and obesity is on the rise. These figures will worsen as the planet warms, soils degrade and the global population grows, urbanizes and consumes more.

Threats to agriculture, climate and health are entwined. Yet policies treat each in isolation and are misaligned. National strategies for mitigating climate change pay scant attention to biodiversity and food security. The European Union’s Common Agricultural Policy includes steps to reduce emissions from livestock and fertilizers, for example, but offers no way of improving diets.

What is needed are strategies for managing land-use and food systems together. These would consider links between agriculture, water, pollution, biodiversity, diets and greenhouse-gas emissions. Each sector and country can tailor solutions. But global coordination, learning and knowledge-sharing will also be necessary to ensure that the net result is sustainable and resilient, and in line with the Sustainable Development Goals (SDGs) and the 2015 Paris climate agreement.

Here we describe three steps for developing such integrated approaches.


From the brain that changes itself - to AI generated visuals that could be tailored to develop specific neural capabilities or treat specific neural conditions - this is a signal worth tracking.
Viewing any image triggers some kind of neural activity in a brain. But neuroscientist Kohitij Kar of MIT and colleagues wanted to see whether the AI’s deliberately designed images could induce specific neural responses of the team’s choosing.

An AI used art to control monkeys’ brain cells

Such tailored regulation of neural activity could lead to new types of neuroscience experiments
New artwork created by artificial intelligence does weird things to the primate brain.
When shown to macaques, AI-generated images purposefully caused nerve cells in the monkeys’ brains to fire more than pictures of real-world objects. The AI could also design patterns that activated specific neurons while suppressing others, researchers report in the May 3 Science.

This unprecedented control over neural activity using images may lead to new kinds of neuroscience experiments or treatments for mental disorders. The AI’s ability to play the primate brain like a fiddle also offers insight into how closely AIs can emulate brain function.

The AI responsible for the new mind-bending images is an artificial neural network — a computer model composed of virtual neurons — modeled after the ventral stream. This is a neural pathway in the brain involved in vision (SN Online: 8/12/09). The AI learned to “see” by studying a library of about 1.3 million labeled images. Researchers then instructed the AI to design pictures that would affect specific ventral stream neurons in the brain.


The promise of artificial photosynthesis could provide us ways to capture carbon in addition to other technologies aimed at reducing our production of carbon. A hopeful weak signal ready for trial.

World’s first ‘BioSolar Leaf’ to tackle air pollution in White City

Imperial College London is to collaborate with startup Arborea to develop pioneering ‘BioSolar Leaf’ technology to improve air quality in White City.
The technology, which is the first of its kind in the world, purifies the air through the photosynthesis of microscopic plants, removing greenhouse gases from the environment whilst generating breathable oxygen.

Arborea have developed an innovative cultivation system which facilitates the growth of tiny plant-life - such as microalgae, diatoms and phytoplankton - on large solar panel-like structures. These can then be installed on land, buildings and other developments to improve surrounding air quality.

The team say that Arborea’s cultivation system can remove carbon dioxide and produce breathable oxygen at a rate equivalent to a hundred trees from the surface area of just a single tree.

The system also produces a sustainable source of organic biomass from which Arborea extracts nutritious food additives for plant-based food products.


A signal for contributing to how we meet the challenges of climate change and terra-forming. There’s a 2 min video.
“We now have a case confirmed of what species we can plant and in what conditions,” Irina Fedorenko, co-founder of Biocarbon Engineering, told Fast Company. “We are now ready to scale up our planting and replicate this success.”

These tree-planting drones are firing ‘seed missiles’ into the ground. Less than a year later, they’re already 20 inches tall.

In September 2018, a project in Myanmar used drones to fire “seed missiles” into remote areas of the country where trees were not growing. Less than a year later, thousands of those seed missiles have sprouted into 20-inch mangrove saplings that could literally be a case study in how technology can be used to innovate our way out of the climate change crisis.

According to Fedoranko, just two operators could send out a mini-fleet of seed missile planting drones that could plant 400,000 trees a day -- a number that quite possibly could make massive headway in combating the effects of manmade climate change.


This is a very interesting signal related to new materials for ecological consumption. There’s a 1 min video showing these in action.

Edible water bottles

London-based tech startup Skipping Rocks Lab wants to make packaging disappear. They have created a water bottle you can eat.

Ooho! is a spherical packaging made of seaweed, entirely natural and biodegradable. Inspired by egg yolks, water is trapped inside layers made up of brown algae and calcium chloride and can be drunk when those membranes are punctured. The membranes have been compared to the skin of an apple, as they can then be eaten or thrown away.

The goal is to create a waste-free alternative to plastic bottles and cups with material that cheaper than plastic and can encapsulate any beverage including water, soft drinks, spirits and cosmetics.


When will the internal combustion engine become displaced as the most affordable choice? It seems to be getting closer.
Analysts have for several years been using a sort of shorthand for describing an electric vehicle battery: half the car’s total cost. That figure, and that shorthand, has changed in just a few years. For a midsize U.S. car in 2015, the battery made up more than 57 percent of the total cost. This year, it’s 33 percent. By 2025, the battery will be only 20 percent of total vehicle cost.

Electric Car Price Tag Shrinks Along With Battery Cost

Choosing an electric car over its combustion-engine equivalent will soon be just a matter of taste, not a matter of cost.
Every year, BloombergNEF’s advanced transport team builds a bottom-up analysis of the cost of purchasing an electric vehicle and compares it to the cost of a combustion-engine vehicle of the same size. The crossover point — when electric vehicles become cheaper than their combustion-engine equivalents — will be a crucial moment for the EV market. All things being equal, upfront price parity makes a buyer’s decision to buy an EV a matter of taste, style or preference — but not, for much longer, a matter of cost.

Every year, that crossover point gets closer. In 2017, a BloombergNEF analysis forecast that the crossover point was in 2026, nine years out. In 2018, the crossover point was in 2024 — six years (or, as I described it then, two lease cycles) out.

The crossover point, per the latest analysis, is now 2022 for large vehicles in the European Union. For that, we can thank the incredible shrinking electric vehicle battery, which isn’t so much shrinking in size as it is shrinking — dramatically — in cost.


The hydrogen economy has taken longer than many expected - here’s a good signal of its continued progress - maybe it’s around the corner.

Clean fuel cells could be cheap enough to replace gas engines in vehicles

Advancements in zero-emission fuel cells could make the technology cheap enough to replace traditional gasoline engines in vehicles, according to researchers at the University of Waterloo.

The researchers have developed a new fuel cell that lasts at least 10 times longer than current technology, an improvement that would make them economically practical, if mass-produced, to power vehicles with electricity.

"With our design approach, the cost could be comparable or even cheaper than gasoline engines," said Xianguo Li, director of the Fuel Cell and Green Energy Lab at Waterloo. "The future is very bright. This is clean energy that could boom."

A paper on their work, Enhancing fuel cell durability for fuel cell plug-in hybrid electric vehicles through strategic power management, appears in the journal Applied Energy.


Another signal of several things - a new line of evidence related to climate change as well as how AI and machine learning are providing fundamentally new ways to analyse data for new patterns.
"We are seeing more El Niños forming in the central Pacific Ocean in recent decades, which is unusual across the past 400 years," said lead author Dr. Mandy Freund.

Impossible research produces 400-year El Nino record, revealing startling changes

Australian scientists have developed an innovative method using cores drilled from coral to produce a world first 400-year long seasonal record of El Niño events, a record that many in the field had described as impossible to extract.

The record published today in Nature Geoscience detects different types of El Niño and shows the nature of El Niño events has changed in recent decades.

This understanding of El Niño events is vital because they produce extreme weather across the globe with particularly profound effects on precipitation and temperature extremes in Australia, South East Asia and the Americas.

The 400-year record revealed a clear change in El Niño types, with an increase of Central Pacific El Niño activity in the late 20th Century and suggested future changes to the strength of Eastern Pacific El Niños.


Moving beyond facial recognition AI is progress to whole body recognition and as with all technology this is both exciting and hugely scary.

A multi-scale body-part mask guided attention network for person re-identification

Person re-identification entails the automated identification of the same person in multiple images from different cameras and with different backgrounds, angles or positions. Despite recent advances in the field of artificial intelligence (AI), person re-identification remains a highly challenging task, particularly due to the many variations in a person's pose, as well as other differences associated with lighting, occlusion, misalignment and background clutter.

Researchers at the Suning R&D Center in the U.S. have recently developed a new technique for person re-identification based on a multi-scale body-part mask guided attention network (MMGA). Their paper, pre-published on arXiv, will be presented during the 2019 CVPR Workshop spotlight presentation in June.

"Person re-identification is becoming a more and more important task due to its wide range of potential applications, such as criminal investigation, public security and image retrieval," Honglong Cai, one of the researchers who carried out the study, told TechXplore. "However, it remains a challenging task, due to occlusion, misalignment, variation of poses and background clutter. In our recent study, our team tried to develop a method to overcome these challenges."


And if we are worried about ‘deep fakes’ we move from full body recognition to even deeper fakes. Hollywood will be both excited and scared.

Amazing AI Generates Entire Bodies of People Who Don’t Exist

The algorithm whips up photorealistic models and outfits from scratch.
A new deep learning algorithm can generate high-resolution, photorealistic images of people — faces, hair, outfits, and all — from scratch.

The AI-generated models are the most realistic we’ve encountered, and the tech will soon be licensed out to clothing companies and advertising agencies interested in whipping up photogenic models without paying for lights or a catering budget. At the same time, similar algorithms could be misused to undermine public trust in digital media.


Another signal of advancing capacity to access media via multichannels simultaneously. This is worth the view.

Android Q’s Live Caption feature adds real-time subtitles to any audio or video playing on your phone

It even works when using video chat apps
Google waited until I/O 2019 to demonstrate one of the most impressive features of Android Q. It’s called Live Caption, and when enabled, you’ll see any video or audio you play on your phone transcribed in real time — with extremely accurate results. Live Captions are overlaid on top of whatever app you’re using, be it YouTube, Instagram, Pocket Casts, or anything else, and it also supports video chat apps like Skye and Google’s own Duo. It’ll even work with video or audio that you record yourself.

“For 466 million deaf and hard of hearing people around the world, captions are more than a convenience — they make content more accessible. We worked closely with the Deaf community to develop a feature that would improve access to digital media,” Google wrote in a blog post.


There are some who still feel prediction of the future is possible - here’s an interesting signal about the progress in prediction.
Key developments in observation, numerical modeling, and data assimilation have enabled these advances in forecast skill. Improved observations, particularly by satellite remote sensing of the atmosphere and surface, provide valuable global information many times per day. Much faster and more powerful computers, in conjunction with improved understanding of atmospheric physics and dynamics, allow more-accurate numerical prediction models. Finally, improved techniques for putting data and models together have been developed.

Advances in weather prediction

In 1938, an intense hurricane struck the New England coast of the United States without warning, killing more than 600 people. Since then, death tolls have dropped dramatically even though coastal populations have swelled. Many people and organizations contributed to this improvement. But, as the American Meteorological Society celebrates its 100th anniversary, the improvement in forecasting stands out. Modern 72-hour predictions of hurricane tracks are more accurate than 24-hour forecasts were 40 years ago (see the figure), giving sufficient time for evacuations and other preparations that save lives and property. Similar improvements in forecasting tropical cyclone tracks have been achieved by other leading agencies worldwide.

Weather forecasts from leading numerical weather prediction centers such as the European Centre for Medium-Range Weather Forecasts (ECMWF) and National Oceanic and Atmospheric Administration's (NOAA's) National Centers for Environmental Prediction (NCEP) have also been improving rapidly: A modern 5-day forecast is as accurate as a 1-day forecast was in 1980, and useful forecasts now reach 9 to 10 days into the future (1). Predictions have improved for a wide range of hazardous weather conditions, including hurricanes, blizzards, flash floods, hail, and tornadoes, with skill emerging in predictions of seasonal conditions.

Because data are unavoidably spatially incomplete and uncertain, the state of the atmosphere at any time cannot be known exactly, producing forecast uncertainties that grow into the future. This sensitivity to initial conditions can never be overcome completely. But, by running a model over time and continually adjusting it to maintain consistency with incoming data, the resulting physically consistent predictions greatly improve on simpler techniques. Such data assimilation, often done using four-dimensional variational minimization, ensemble Kalman filters, or hybridized techniques, has revolutionized forecasting.


This is an summary of a new book by Stuart Kauffman - a nice complementary piece to the limits of predictability and the development of an understanding of life and evolution that extends beyond a ‘Physics Worldview’ of causality.

The new physics needed to probe the origins of life

Stuart Kauffman’s provocative take on emergence and evolution energizes Sara Imari Walker.
A World Beyond Physics: The Emergence and Evolution of Life Stuart A. Kauffman Oxford University Press (2019)
Among the great scientific puzzles of our time is how life emerged from inorganic matter. Scientists have probed it since the 1920s, when biochemists Alexsandr Oparin and J. B. S. Haldane (separately) investigated the properties of droplets rich in organic molecules that existed in a ‘prebiotic soup’ on the primitive Earth…

What was missing then, as now, is a concrete theory for the physics of what life is, testable against experiment — which is likely to be more universal than the chemistry of life on Earth. Decades after Oparin and Haldane, Erwin Schrödinger’s 1944 book What Is Life? attempted to lay conceptual foundations for such a theory. Yet, more than 70 years and two generations of physicists later, researchers still ponder whether the answers lie in unknown physics. No one has led the charge on these questions quite like Stuart Kauffman.

His key insight is motivated by what he calls “the nonergodic world” — that of objects more complex than atoms. Most atoms are simple, so all their possible states can exist over a reasonable period of time. Once they start interacting to form molecules, the number of possible states becomes mind-bogglingly massive. Only a tiny number of proteins that are modestly complex — say, 200 amino acids long — have emerged over the entire history of the Universe. Generating all 20200 of the possibilities would take aeons. Given such limitations, how does what does exist ever come into being?

This is where Kauffman expands on his autocatalytic-sets theory, introducing concepts such as closure, in which processes are linked so that each drives the next in a closed cycle. He posits that autocatalysing sets (of RNA, peptides or both) encapsulated in a sphere of lipid molecules could form self-reproducing protocells. And he speculates that these protocells could evolve. Thus, each new biological innovation begets a new functional niche fostering yet more innovation. You cannot predict what will exist, he argues, because the function of everything biology generates will depend on what came before, and what other things exist now, with an ever-expanding set of what is possible next.

Because of this, Kauffman provocatively concludes, there is no mathematical law that could describe the evolving diversity and abundance of life in the biosphere. He writes: “we do not know the relevant variables prior to their emergence in evolution.” At best, he argues, any ‘laws of life’ that do exist will describe statistical distributions of aspects of that evolution. For instance, they might predict the distribution of extinctions. Life’s emergence might rest on the foundations of physics, “but it is not derivable from them”, Kauffman argues.