Thursday, December 17, 2020

Friday Thinking 18 Dec 2020

Friday Thinking is a humble curation of my foraging in the digital environment. Choices are based on my own curiosity and 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 is what skills the cat -
for life of skillful means .
Jobs are dying - Work is just beginning.
Work that engages our whole self becomes play that works.

The emerging world-of-connected-everything - digital environment - 
computational ecology - 
may still require humans as the consciousness of its own existence. 

To see red - is to know other colors - without the ground of others - there is no figure - differences that make a defference.  

‘There are times, ‘when I catch myself believing there is something which is separate from something else.’

“I'm not failing - I'm Learning"
Quellcrist Falconer - Altered Carbon


Content

Quotes:

How Neutral Theory Altered Ideas About Biodiversity

Elementary particles part ways with their properties

How the Slowest Computer Programs Illuminate Math’s Fundamental Limits

Kevin Kelly on Why Technology Has a Will

Narrative Collapse


Articles:

Unfiltered: How YouTube’s Content ID Discourages Fair Use and Dictates What We See Online

Making predictions about 2021 seems downright foolhardy. We did it anyway.

Kevin Kelly on Why Technology Has a Will

What Explains the Decline of Serial Killers?

Fragments of energy – not waves or particles – may be the fundamental building blocks of the universe

Drones and AI detect soybean maturity with high accuracy

Innovative universal flu vaccine shows promise in first clinical test

Vertical Farm in Copenhagen reimagines sustainable food

Researchers develop unique process for producing light-matter mixture

The lightest light – the future of digital displays and brain science

This flexible and rechargeable battery is 10 times more powerful than state of the art

Plant-based and recyclable plastic bottles using citrus peel as raw material

#micropoem





In 1968, the renowned geneticist Motoo Kimura proposed an alternative explanation, now called neutral theory. Kimura posited that most of the variation between organisms is neither advantageous nor disadvantageous. Consequently, most of the variety we see isn’t a product of the hidden hand of selection but rather of luck. “All you need is some input of variation, and random forces will do the rest,” said Armand Leroi, an evolutionary biologist at Imperial College London.

Kimura’s neutral theory of molecular evolution sparked debate because it seemed to water down the influence of selection. But the genomics revolution of the late 20th century and widespread DNA sequencing confirmed that Kimura was right; swapping out one letter for another in a gene’s code usually has little effect.

Ever since, neutral theory has been the default assumption (or null hypothesis) in genetics. “If you want to show that a given variant in a DNA sequence is under selection, you first have to really show that it can’t be just explained by neutrality,” Leroi said.

Whether we like to admit it or not, random forces are always subtly influencing the world. Neutral theory provides a framework for making these forces known and measurable. Leroi believes it should continue to expand its influence “until it becomes an integral part of explaining diversity wherever we see it in the world, be it in the supermarket or a tropical rainforest.”

How Neutral Theory Altered Ideas About Biodiversity





Temperamental properties
Aharonov and Rohrlich liken the behavior of the particle and its modular angular momentum to the grinning Cheshire cat in "Alice's Adventures in Wonderland," which appears to move on, leaving its grin behind. "Although it's very surprising that properties can leave their particles, it is not as surprising as to say that nothing happened and there was an effect," says Aharonov, comparing their explanation with the idea of the particle with its properties encountering nothing that can change the modular angular momentum, yet that property changing anyway.

Like all new concepts, Aharonov and Rohrlich's explanation is not without its criticisms, either. Rohrlich highlights the point raised by one of the (anonymous) peer reviewers of the paper, who nonetheless gave an overall positive appraisal of the paper. "They were saying, humorously, yes we avoided one problem, but we got ourselves into another problem," says Rohrlich. Yet he adds, "If you're talking about a cat and its grin, that's very strange, but of course, all of this has to translate back to elementary particles, and if an elementary particle loses its spin because its spin goes somewhere else—maybe that's something we can get used to."

Elementary particles part ways with their properties




As Turing noted in 1936, in order to compute something, a Turing machine must eventually halt — it can’t get trapped in an infinite loop. But he also proved that there’s no reliable, repeatable method for distinguishing machines that halt from machines that simply run forever — a fact known as the halting problem.

The busy beaver game asks: Given a certain number of rules, what’s the maximum number of steps that a Turing machine can take before halting?

How the Slowest Computer Programs Illuminate Math’s Fundamental Limits





understanding that progress—the progress that we have had—is not really visible. It’s a very small delta. So, we may only curate 1% more progress every year than we destroyed. Net progress of 1% is really not visible in any given year. But 1% compounded over decades and even centuries is what civilization is.

You have to only understand that we can enlarge and increase our ability to solve problems. 

Most of the problems we have today are from technology that we’ve invented in the past. But I’m also a techno-centric person. I believe that the solutions to the problems created by technology is not less technology, but better technology. I equate technology to a type of thinking. And if you have a stupid idea, or a hurtful idea, the solution is not to stop thinking. The decision is to have better thinking, better ideas.

the Technium still won’t be front of mind. I really like Danny Hillis’ definition of technology, which is “anything that doesn’t quite work yet.” In other words, all the new stuff. It will just always be the new stuff. And as it becomes old and now works really well, it will disappear from our awareness.

there aren’t standalone technologies. Technologies are always coming out of networks that require other related ideas to have the next one. The fact that we have simultaneous independent invention as a norm works against the idea of the heroic inventor, that we’re dependent on them for inventions. These things will come when all the other pieces are ready. 

What I’ve learned about thinking about the future is that you have to think of in terms of scenarios, you have to try to not predict. But in a sense, you have to not be surprised either. 

Kevin Kelly on Why Technology Has a Will





Describing narrative as a technology will seem like a stretch depending on how you define technology, which, as I’ve argued on a number of occasions, is a rather more complicated task than one might imagine before undertaking it. For what it’s worth, though, I am not alone in conceiving of narrative as a kind of technology.

“The primary purpose of narrative,” media scholar Katherine Hayles argued several years ago, “is to search for meaning,” which makes “narrative an essential technology for human beings, who can arguably be defined as meaning-­seeking animals.”

… you can know what you are to do only if you also know what story or stories you are a part of.

Stories of this sort also act as a filter on reality. We never merely perceive the world, we interpret it. In fact, our perception is already interpretation. And the work of interpretation depends to no small degree on the stories that we have internalized about the world. So when we hear about this, that, or the other thing happening, we tend to fit the event into our paradigmatic stories. 

To summarize, then: stories shape our identity, grant to us a sense of direction, and play an important role in our interpretation of the world.

Narrative Collapse





There seems to be an increase in the signalling that our economies have to review the concept of monopoly - if we are going to have a digital environment accountable to and supportive of democratic governance. This is one of the important topics that we have to re-imagine - not just the platform monopolies - but the growing power of copyright monopolies - we must make Intellectual Property serve society - rather than the wealthy.

Unfiltered: How YouTube’s Content ID Discourages Fair Use and Dictates What We See Online

The Internet promised to lower barriers to expression. Anyone with access to a computer and an Internet connection could share their creativity with the world. And it worked— spurring, among other things, the emergence of a new type and generation of art and criticism: the online creator—independent from major labels, movie studios, or TV networks.

However, that promise is fading once again, because while these independent creators need not rely on Hollywood, they are bound to another oligopoly—the few Internet platforms that can help them reach a broad audience. And in the case of those who make videos, they are largely dependent on just one platform: YouTube.

That dependence has real consequences for online creativity. Because YouTube is the dominant player in the online video market, its choices dictate the norms of the whole industry. And unfortunately for independent creators, YouTube has proven to be more interested in appeasing large copyright holders than protecting free speech or promoting creativity. Through its automatic copyright filter, Content ID, YouTube has effectively replaced legal fair use of copyrighted material with its own rules.

These rules disproportionately affect audio, making virtually any use of music risky. Classical musicians worry about playing public domain music. Music criticism that includes the parts of songs being analyzed is rare. The rules only care about how much is being used, so reviewers and educators do not use the “best” examples of what they are discussing, they use the shortest ones, sacrificing clarity. The filter changes constantly, so videos that passed muster once (and always were fair use) constantly need to be re-edited. Money is taken away from independent artists who happen to use parts of copyrighted material, and deposited into the pockets of major media companies, despite the fact that they would never be able to claim that money in court.


We are at the beginning of the ‘what’s next’ season - as a imagined ‘new year’ approaches - here is a signal of the ….  And of course what’s will the digital environment enable? 

Making predictions about 2021 seems downright foolhardy. We did it anyway.

BE HONEST, you’ve wanted to dump 2020 like a flaming pile of your quarantine puppy’s excrement since April. As we slog through this infernal period in various states of pandemic lockdown—a restive baseline augmented by the stress of social inequities, economic uncertainty, an unprecedented fire season, a shortage of hurricane names, remote schooling that chomps every last megabit of internet in the house, and our TV streaming backlogs dwindling to ration levels—we can’t be blamed for hoping that the stroke of midnight on December 31 somehow magically makes things right.

But we don’t know whether 2021 will be better than the year we’ve just endured. In fact, Reader of the Near Future, you already know things we don’t about 2021. Those things are not on this list. For us—and for this story—it’s November 1, 2020. Even so, we know that next year will be different. The pandemic is accelerating changes in our lives. In some cases, we’ve found we actually like things better the new way. In other cases, well—like our COVID-cushioned waistlines—things just ain’t ever going back to the way they were before. So we set out to investigate what 2021 has in store, and we focused on what each of us always cares about most: our own navels. We asked (from the home workspaces we’re so fortunate to have, in unwashed sweatpants, while mostly domesticated animals or somewhat feral children climbed across our keyboards) faculty and alumni soothsayers how our work, our homes and our play will be different in 2021.

We’ll be right about some of these. We’ll be wrong about others. After all, if there’s one thing 2020 has taught us, it’s that none of us can really predict what will happen next.


We are so disciplined into a sort of physics - billiard-ball understanding of causality - but entanglemeants enable effects-to-change-causes.

Kevin Kelly on Why Technology Has a Will

We live in a timeline that oscillates somewhere between strangeness and doom. Much of the blame gets placed on new technologies and society’s digestion of them. And though many of the growing pains we’re experiencing amount to history rhyming, our newfound access to enormous amounts of  information has produced anomalies. Notably, we can create and live in elaborate simulative bubbles. Whether via politics (QAnon) or nostalgic cultural recreations (‘80s Downtown Art Scene), many choose to roleplay a world or previous historical era while increasingly intangible forms of technology become more powerful. It’s world-building that’s become almost a new social contract: let others do what they want politically and economically, so long as we can continue to roleplay without too much interference.

Technologist Kevin Kelly has pinned this simulative aspect on technology’s function as a kind of nascent biological entity with its own agency. The “Technium” as he refers to it, is “the sphere of visible technology and intangible organizations that form what we think of as modern culture.” While some would interpret technology to be a driverless, chaotic system made all the more destructive by its attachment to a market economy, Kelly argues that it’s part of a system acting on its own vague accord, interacting with humans as a way to further itself.


A weakish signal, but perhaps potentially important of a positive impact of transparency?

What Explains the Decline of Serial Killers?

Since a dramatic peak in the 1980s, serial killers in the U.S. have been in decline for three decades. Experts have a few theories that can help explain why.  
From the 1970s through the ’90s, stories of serial killers like Ted Bundy and the Green River Killer — both of whom pleaded guilty to killing dozens of women — dominated headlines. Today, however, we see far fewer twisted tales in the vein of the Zodiac Killer or John Wayne Gacy.

After that three-decade surge, a rapid decline followed. Nearly 770 serial killers operated in the U.S. throughout the 1980s, and just under 670 in the ’90s, based on data compiled by Mike Aamodt of Radford University. The sudden plummet came with the new century, when the rate fell below 400 in the aughts and, as of late 2016, just over 100 during the past decade. The rough estimate on the global rate appeared to show a similar drop over the same period. In a stunning collapse, these criminals that terrorized and captivated a generation quickly dwindled. Put another way, 189 people in the U.S. died by the hands of a serial killer in 1987, compared to 30 in 2015. Various theories attempt to explain this change.

In reality it’s not clear whether there truly was a surge of serial killing, or at least not one as pronounced as the data suggest. Advances in police investigation (for example, the ability to link murders more effectively) and improved data collection could help explain the uptick. That said, no one doubts that serial killing rose for several decades, and that rise fits with a general increase in crime. Similarly, everyone agrees on a subsequent fall in serial killing, and that, too, fits with a general decrease in crime. But where did they go?


This is just one signal of fundamental re-imagination-ing that is progressing our understanding of - life the universe and everything. Particle-wave-energy - differences-that-make-a-difference? 

Fragments of energy – not waves or particles – may be the fundamental building blocks of the universe

Matter is what makes up the universe, but what makes up matter? This question has long been tricky for those who think about it – especially for the physicists. Reflecting recent trends in physics, my colleague Jeffrey Eischen and I have described an updated way to think about matter. We propose that matter is not made of particles or waves, as was long thought, but – more fundamentally – that matter is made of fragments of energy.


This is a good signal of the future of agricultural technologies - AI, robotics, domesticated DNA and microbial helpers.

Drones and AI detect soybean maturity with high accuracy

Walking rows of soybeans in the mid-summer heat is an exhausting but essential chore in breeding new cultivars. Researchers brave the heat daily during crucial parts of the growing season to look for plants showing desirable traits, such as early pod maturity. But without a way to automate detection of these traits, breeders can't test as many plots as they'd like in a given year, elongating the time it takes to bring new cultivars to market.

In a new study from the University of Illinois, researchers predict soybean maturity date within two days using drone images and artificial intelligence, greatly reducing the need for boots on the ground.

"Assessing pod maturity is very time consuming and prone to errors. It's a scoring system based on the color of the pod, so it is also subject to human bias," says Nicolas Martin, assistant professor in the Department of Crop Sciences at Illinois and co-author on the study. "Many research groups are trying to use drone pictures to assess maturity, but can't do it at scale. So we came up with a more precise way to do that. It was really cool, actually."


A small signal - toward transforming human entanglement with microbial environments.

Innovative universal flu vaccine shows promise in first clinical test

For epidemiologists, the COVID-19 pandemic has greatly intensified their long-standing nightmare about another virus: the emergence of a new and deadly strain of flu. A universal flu vaccine, effective against any strain of the influenza virus that can infect humans, could protect us from this peril, but progress has been slow. A novel concept for one universal vaccine candidate has now passed its first test in a small clinical trial, its developers report today in Nature Medicine.


And another signal - of the progress toward urban and vertical farming. This approach may not only be more ‘green’ contributing to meeting the challenges of climate change - but also provide better food security.
When the first harvest is made in early 2021 the vertical farm will have a capacity of about 200-tonnes of produce a year; that’ll soon quadruple as the system beds in. 

Vertical Farm in Copenhagen reimagines sustainable food

We’re looking up to tech specialist YesHealth Group and Nordic Harvest for their clever take on the future of food production
The vertical farm has been the holy grail for optimistic urbanists for decades, a way of cramming food-growing capacity into a compact space that’s perfect for serving up supplies to local residents. Self-contained and highly sustainable, promising practically zero food miles and no obvious downsides, why haven’t more high-rise homesteads haven’t been sowed within city limits around the world? The answer is complexity; an array of racks and lights needs to be constantly monitored and fettled to maximise efficiency and economy.

This new Vertical Farm project in Copenhagen is a collaboration between Taiwanese tech specialist YesHealth Group and Nordic Harvest, a Danish start-up dedicated to Vertical Agriculture in all its forms. While it’s unsurprising that this kind of thinking has taken root in space-pressed communities like Taiwan, the Danish company’s approach is rooted in a desire to return over-farmed land to a more natural state. The company points out that in the centuries following the Industrial Revolution Denmark’s forest cover was reduced to just 2 per cent of its land area – prior to this the entire country was densely forested. Even today, with its ultra-efficient forest management, the figure is still just 14 per cent.


An amazing weak signal of the future of created matter - a sort of domestication of light and matter.

Researchers develop unique process for producing light-matter mixture

In groundbreaking new research, an international team of researchers led by the University of Minnesota Twin Cities has developed a unique process for producing a quantum state that is part light and part matter.

The discovery provides fundamental new insights for more efficiently developing the next generation of quantum-based optical and electronic devices. The research could also have an impact on increasing efficiency of nanoscale chemical reactions.

The research is published in Nature Photonics.

the interactions can be strong enough that the quantum-mechanical nature of the light and the vibrations comes into play. Under such conditions, the absorbed energy is transferred back and forth between the light (photons) in the nanocavities and the atomic vibrations (phonons) in the material at a rate fast enough such that the light photon and matter phonon can no longer be distinguished. Under such conditions, these strongly coupled modes result in new quantum-mechanical objects that are part light and part vibration at the same time, known as polaritons.


Speaking of light - this may come to our screens in the next decade.

The lightest light – the future of digital displays and brain science

A team of scientists from the University of St Andrews has developed a new way of making the most durable, lightweight and thinnest light source available so far, which could revolutionize the future of mobile technologies and pave the way for new advances in brain science.

Writing in two separate papers and published in Nature Communications today (Monday 7 December), the new research into the development of organic LEDs, led by the School of Physics and Astronomy at the University of St Andrews, has implications not only for the future designs of mobile phones and tablets but could also play a key role in neuroscience research and clinical technologies used to help patients who suffer from neurological diseases.

Using a combination of organic electroluminescent molecules, metal oxide and biocompatible polymer protection layers, the scientists created organic LEDs that are as thin and flexible as the everyday cling film we use at home. The new light sources developed will have future implications for digital displays and can be used to make lighter and thinner displays for phones and tablets; displays that are big when we look at them, but that can be folded or rolled up when not in use.


Renewable energy and energy storage are key challenges for today and tomorrow’s devices and the evolving digital environment. This is a good signal of increased performance from our mobile devices and screens.
The areal capacity for this innovative battery is 50 milliamps per square centimeter at room temperature—this is 10-20 times greater than the areal capacity of a typical Lithium ion battery. So for the same surface area, the battery described in Joule can provide 5 to 10 times more power.

This flexible and rechargeable battery is 10 times more powerful than state of the art

A team of researchers has developed a flexible, rechargeable silver oxide-zinc battery with a five to 10 times greater areal energy density than state of the art. The battery also is easier to manufacture; while most flexible batteries need to be manufactured in sterile conditions, under vacuum, this one can be screen printed in normal lab conditions. The device can be used in flexible, stretchable electronics for wearables as well as soft robotics.

The team, made up of researchers at the University of California San Diego and California-based company ZPower, details their findings in the Dec. 7 issue of the journal Joule.

"Our batteries can be designed around electronics, instead of electronics needed to be designed around batteries," said Lu Yin, one of the paper's co-first authors and a Ph.D. student in the research group of UC San Diego's nanoengineering Professor Joseph Wang.


A good signal of the metabolic economy - rather than ban plastic - make plastic that can be reused and/or composted.

Plant-based and recyclable plastic bottles using citrus peel as raw material

The shift from fossil-based to renewable bio-plastics requires new efficient methods. New technology developed at VTT enables the use of pectin-containing agricultural waste, such as citrus peel and sugar beet pulp, as raw material for bio-based PEF-plastics for replacing fossil-based PET. The carbon footprint of plastic bottles can be lowered by 50% when replacing their raw material of PET with PEF polymers, which also provides a better shelf life for food.

"In the near future, you may buy orange juice in bottles that are made out of orange peel. VTT's novel technology provides a circular approach to using food waste streams for high-performance food packaging material, and at the same time reducing greenhouse gas emissions," says Professor of Practice Holger Pöhler from VTT.

the barrier properties of PEF plastics are better than PETs, meaning that the food products have a longer shelf life. PEF is a fully recyclable and renewable high-performance plastic. Therefore, it opens up possibilities for the industries to reduce waste and to have positive impact on the environment.



#micropoem


mhm - 
cause and effect - 
has no memory - 
doesn’t need it or enable it - 

but we know memory exists - 
how does it arise? - -
i re-member -
my-self - 

ow! -
 that changes causality - 
be-cause - 
effect would change - 
cause -


Memory is -
literally a time machine - 
we need it to survive in -
the mo-meant -
 because - 
anticipation - 
enables - 
enaction-with--- 


mhm -
having a hard time -
keeping up - 
 
hubris - 
of dunning-kruger - 
self-ass-es-meants - 
of how soon -
i’ll get my tabs down to 10 

Thursday, December 10, 2020

Friday Thinking 11 Dec 2020

Friday Thinking is a humble curation of my foraging in the digital environment. Choices are based on my own curiosity and 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 is what skills the cat -
for life of skillful means .
Jobs are dying - Work is just beginning.
Work that engages our whole self becomes play that works.

The emerging world-of-connected-everything - digital environment - 
computational ecology - 
may still require humans as the consciousness of its own existence. 

To see red - is to know other colors - without the ground of others - there is no figure - differences that make a defference.  

‘There are times, ‘when I catch myself believing there is something which is separate from something else.’

“I'm not failing - I'm Learning"
Quellcrist Falconer - Altered Carbon



 the top with the assistance of others. In fact, the smallest male may become alpha if he has the right supporters. Most alpha males protect the underdog, keep the peace, and reassure those who are distressed. Analyzing all instances in which one individual hugs another who has lost a fight, we found that although females generally console others more often than do males, there is one striking exception: the alpha male. This male acts as the healer-in-chief, comforting others in agony more than anyone else in the community. As soon as a fight erupts among its members, everyone turns to him to see how he is going to handle it. He is the final arbiter, intent on restor­ing harmony. He will impressively stand between screaming parties, with his arms raised, until things calm down."

A TRUE ALPHA MALE




Merit arrived, so to speak, as a progressive ideal, as a way of enabling each person to go as far as talents and efforts would take them. It seemed like a welcome alternative to aristocratic societies, caste societies, societies ridden with racial prejudice and discrimination. And, of course, it represents an advance over those ways of life.

But we became so intoxicated with the ideal of a meritocracy that we came to think that if only we could remove barriers to success, then the winners would deserve their winnings. They would have a right, a claim of moral desert, to the rewards that society heaps on those who land on top. And that's where we've gone wrong.

We've seen deepening inequalities during the last four decades of globalization. And we've assumed, in the grip of the meritocratic ideal, that the only real response to that inequality is to offer individual upward mobility, the chance to rise, typically by going and getting a university degree. And this, I think, has been a woefully inadequate response to inequality. 

Meritocracy is not an alternative to inequality. If you think about it, it's a justification for inequality. That's what it's become, and the effect of this has been to generate hubris among the winners and anger, resentment, even humiliation among those left behind. Because it is not only a way of allocating income, wealth, power, prestige, and recognition; it's also a way of justifying it. And justifying it in a way that almost invites those on top to look down on those who struggle, who haven't prevailed, because they must not have the effort, the drive, the talent to succeed.

How meritocracy entrenches inequality




On April 24, 2013, the Robert F. Kennedy Center for Justice and Human Rights announced it was having an auction to raise money to “carry forward Robert Kennedy’s dream of a more just and peaceful world”. Through the auction website CharityBuzz, bidders could compete for a variety of prizes: a visit to the set of Teenage Mutant Ninja Turtles, a personal meeting with Ryan Seacrest, a tour of Jay Leno’s car collection.  Or a six-week unpaid internship at the United Nations, where the recipient will “gain inside knowledge of just how the UN really operates.” Current bid? $22,000. 

“This truly is the ultimate internship opportunity for any college or graduate student looking to get their foot in the door,” the ad proclaimed. For more than what many colleges cost in annual tuition, the highest bidder receives “tremendous opportunities to make invaluable connections.” 

One would suspect that a college student who can pay $22,000 to work 25 hours a week for free in one of the most expensive cities in the world needs little help making connections. But that misconstrues the goal of unpaid internships: transforming personal wealth into professional credentials. For students seeking jobs at certain policy organisations, the way to get one’s foot in the door is to walk the streets paved in gold. In the post-employment economy, jobs are privileges, and the privileged have jobs.

Meritocracy for sale




This chapter takes a different approach. Rather than attempting to minimize the disruptive impact of DFC technology, it embraces the possibility of widespread consumer flight out of bank deposits and into the DFC payments network, on the basis that such a shift would improve the safety and functioning of the financial system.

From this view, the critical question is not how to preserve the banking system as it currently exists, but rather how to preserve the socially valuable functions of banking, while jettisoning those aspects that have been rendered obsolete or inferior compared to modern alternatives, such as a dedicated public payments network. 

In particular, I argue that the core social responsibility of the banking system is not to maintain a monopoly over payments processing but to conduct credit analysis and collateral evaluation in ways that promote the capital development of the economy

 Banking in a Digital Fiat Currency Regime




The signaling of Surveillance Capitalism - may not be quite as sinister in results as the intentions coded in our AI and systems would indicate. After all we have all grown up with ubiquitous advertising and have learned how to navigate the world.

Ad Tech Could Be the Next Internet Bubble

The scariest thing about microtargeted ads is that they just don’t work.
WE LIVE IN an age of manipulation. An extensive network of commercial surveillance tracks our every move and a fair number of our thoughts. That data is fed into sophisticated artificial intelligence and used by advertisers to hit us with just the right sales pitch, at just the right time, to get us to buy a toothbrush or sign up for a meal kit or donate to a campaign. The technique is called behavioral advertising, and it raises the frightening prospect that we’ve been made the subjects of a highly personalized form of mind control.

Or maybe that fear is precisely backwards. The real trouble with digital advertising, argues former Google employee Tim Hwang—and the more immediate danger to our way of life—is that it doesn’t work.

Hwang’s new book, Subprime Attention Crisis, lays out the case that the new ad business is built on a fiction. Microtargeting is far less accurate, and far less persuasive, than it’s made out to be, he says, and yet it remains the foundation of the modern internet: the source of wealth for some of the world’s biggest, most important companies, and the mechanism by which almost every “free” website or app makes money. If that shaky foundation ever were to crumble, there’s no telling how much of the wider economy would go down with it.


This is a signal as old as humanity - as McLuhan noted - technology is the most human part of us. Design is a master discipline and practice - incorporating all that we do and know.
The impact of bad design is massive – multiplied across the billions of people striving to flourish online, not only when we need the technology as a stop-gap measure to alleviate disruptions to everyday life, but also when we want to use it for more socially progressive purposes.
videoconferencing could also expand the development of ‘senses, imagination and thought’, ‘practical reason’ and ‘play’ through widening access to cultural and educational opportunities. 
being human as being ‘entangled’ with many diverse things, each of which has a life of its own. ...we can understand humans only through the complexity of their entanglements. Being human is a mass of entanglements. Thinking, … doesn’t take place in a perfect computer-like black-box processor within the brain, but rather happens through objects in the world. Cognition, especially creativity, is extended across and dependent upon a web of material things. This world of things doesn’t so much fit together into a totality. It temporarily aligns on journeys through time and space, snagging and slipping here and there. It’s not a perfect vehicle, but it works for us. And we can enjoy it.

Zoom and gloom

Sitting in a videoconference is a uniformly crap experience. Instead of corroding our humanity, let’s design tools to enhance it
Technology exists to expand and sustain our capabilities. Therefore, doing technology well contributes to our hopes for leading an ethically good life: developing the right capabilities in the right ways – and using them for good ends. Videoconferencing could make a significant contribution to this. However, the essential capability I’m concerned about is not videoconferencing in itself, but rather the humanisation of technologies for everyone’s benefit. This is, I argue, one of the most pressing issues we have to deal with, as technology becomes ever more entangled into our lives. But to do so successfully, we need to think more deeply and creatively, using techniques from the interdisciplinary field we call design research – applying a blend of psychology, philosophy, anthropology, engineering and aesthetics.

In this essay, I will explore how the experience of videoconferencing points, in one way, towards the limits of human adaptability and, in the other, to a liberating human capability that we must collectively cultivate and sustain – as an innovative extension to the ethical framework described by the philosopher Martha Nussbaum in Creating Capabilities (2011). As the designer Jon Kolko says in Well-Designed (2014), we should adopt an ‘optimistic stance’ and ‘seek to explore the situation space, to see multiple potentials for improvement, and to always consider what might be’ through systematic empathy and ‘integrative thinking’.


This is a very good signal of the future of our AI-ssistants - a swarm of them that will become the tools of thinking and making. This is a longish article.

Meet GPT-3. It Has Learned to Code (and Blog and Argue).

Jordan Singer is a product designer at Square, the Silicon Valley mobile-payments company. He helps design the company’s smartphone apps, building the graphics, menus, buttons and other widgets that define an app’s look and feel. When he heard about GPT-3, he wondered if this automated system could do his job.

He fed the system a simple description of a smartphone app, and the computer code needed to create the app. The description was in plain English. The code was built inside Figma, a specialized design tool used by professionals like Mr. Singer.

He did this a few more times, feeding the system several more English-language descriptions alongside the matching Figma code. And when he was done, GPT-3 could write such code on its own.

If he described a simple app for posting and viewing photos as a user would on Instagram, the system generated the code needed to build it. This code was sometimes flawed. But typically, if Mr. Singer made just a tweak or two, it worked as he wanted. “It’s not absolutely perfect,” he said. “But it is very, very close.”

This behavior was entirely new, and it surprised even the designers of GPT-3. They had not built GPT-3 to generate computer code, just as they had not built it to write like Mr. Kaufman or generate tweets or translate languages. They had built it to do just one thing: predict the next word in a sequence of words.


While we wait in vaccine purgatory - this may be good news.

Oral drug blocks SARS-CoV-2 transmission

Treatment of SARS-CoV-2 infection with a new antiviral drug, MK-4482/EIDD-2801 or Molnupiravir, completely suppresses virus transmission within 24 hours, researchers in the Institute for Biomedical Sciences at Georgia State University have discovered.

The group led by Dr. Richard Plemper, Distinguished University Professor at Georgia State, originally discovered that the drug is potent against influenza viruses.

"This is the first demonstration of an orally available drug to rapidly block SARS-CoV-2 transmission," said Plemper. "MK-4482/EIDD-2801 could be game-changing."

Interrupting widespread community transmission of SARS-CoV-2 until mass vaccination is available is paramount to managing COVID-19 and mitigating the catastrophic consequences of the pandemic.

Because the drug can be taken by mouth, treatment can be started early for a potentially three-fold benefit: inhibit patients' progress to severe disease, shorten the infectious phase to ease the emotional and socioeconomic toll of prolonged patient isolation and rapidly silence local outbreaks.


This may become widely available too late to help with the control of covid-19’s spread - but for the next pandemic - this will prove to be invaluable.
"One reason we're excited about CRISPR-based diagnostics is the potential for quick, accurate results at the point of need," says Doudna. "This is especially helpful in places with limited access to testing, or when frequent, rapid testing is needed. It could eliminate a lot of the bottlenecks we've seen with COVID-19."

New CRISPR-based test for COVID-19 uses a smartphone camera

In a new study published in the scientific journal Cell, the team from Gladstone, UC Berkeley, and UCSF has outlined the technology for a CRISPR-based test for COVID-19 that uses a smartphone camera to provide accurate results in under 30 minutes.

"It has been an urgent task for the scientific community to not only increase testing, but also to provide new testing options," says Melanie Ott, MD, Ph.D., director of the Gladstone Institute of Virology and one of the leaders of the study. "The assay we developed could provide rapid, low-cost testing to help control the spread of COVID-19."

The technique was designed in collaboration with UC Berkeley bioengineer Daniel Fletcher, Ph.D., as well as Jennifer Doudna, Ph.D., who is a senior investigator at Gladstone, a professor at UC Berkeley, president of the Innovative Genomics Institute, and an investigator of the Howard Hughes Medical Institute. Doudna recently won the 2020 Nobel Prize in Chemistry for co-discovering CRISPR-Cas genome editing, the technology that underlies this work.

Not only can their new diagnostic test generate a positive or negative result, it also measures the viral load (or the concentration of SARS-CoV-2, the virus that causes COVID-19) in a given sample.


This is a small signal of progress in restoring sight and also a good signal of the progress in domesticating DNA for addressing treatment for disease and eventually enhancement of biological capabilities.

Reversal of biological clock restores vision in old mice

‘Reprogramming’ approach seems to make old cells young again.
Researchers have restored vision in old mice and in mice with damaged retinal nerves by resetting some of the thousands of chemical marks that accumulate on DNA as cells age. The work, published on 2 December in Nature, suggests a new approach to reversing age-related decline, by reprogramming some cells to a ‘younger’ state in which they are better able to repair or replace damaged tissue.

“It is a major landmark,” says Juan Carlos Izpisua Belmonte, a developmental biologist at the Salk Institute for Biological Studies in La Jolla, California, who was not involved in the study. “These results clearly show that tissue regeneration in mammals can be enhanced.”

But researchers also caution that the work has so far has been carried out only in mice, and it remains to be seen whether the approach will translate to people, or to other tissues and organs that are ravaged by time.


This may be a even bigger signal of our progress in ‘treating’ aging - all the more important to have universal health care in place.
The data suggest that the aged brain has not permanently lost essential cognitive capacities, as was commonly assumed, but rather that these cognitive resources are still there but have been somehow blocked, trapped by a vicious cycle of cellular stress

Drug reverses age-related cognitive decline within days

Just a few doses of an experimental drug can reverse age-related declines in memory and mental flexibility in mice, according to a new study by UC San Francisco scientists. The drug, called ISRIB, has already been shown in laboratory studies to restore memory function months after traumatic brain injury (TBI), reverse cognitive impairments in Down Syndrome , prevent noise-related hearing loss, fight certain types of prostate cancer , and even enhance cognition in healthy animals.

In the new study, published December 1, 2020 in the open-access journal eLife , researchers showed rapid restoration of youthful cognitive abilities in aged mice, accompanied by a rejuvenation of brain and immune cells that could help explain improvements in brain function.

"ISRIB's extremely rapid effects show for the first time that a significant component of age-related cognitive losses may be caused by a kind of reversible physiological "blockage" rather than more permanent degradation," said Susanna Rosi , Ph.D., Lewis and Ruth Cozen Chair II and professor in the departments of Neurological Surgery and of Physical Therapy and Rehabilitation Science.


Not only is AI progress in exponential ways - but quantum computing looms - this is another good signal of the emergence of a new computational paradigm.

The researchers found that it took Jiuzhang approximately 200 seconds to provide an answer. They noted that it would have taken the world's fastest supercomputer approximately 2.5 billion years to carry out the same calculations—a clear example of quantum supremacy.

Chinese photonic quantum computer demonstrates quantum supremacy

A team of researchers affiliated with several institutions in China has built and tested a photonic quantum computer that demonstrates quantum supremacy. In their paper published in the journal Science, the group describes their computer, which they call Jiuzhang, and how well it performed while conducting Gaussian boson sampling.

Quantum computers have been in the news lately as scientists try to determine if they can meet expectations. Quantum computers could vastly outperform conventional machines on certain tasks. The goal is to achieve what has come to be known as" quantum supremacy"—where a quantum computer can outperform conventional computers on at least one type of task. Until now, only one computer has ever achieved this feat—Google's Sycamore device. And because the field is still so new, researchers around the world are working on vastly different designs. Sycamore was based on qubits represented by superconducting materials. In this new effort, the team in China has developed a photon-based quantum computer capable of carrying out a single specific type of calculation—boson sampling.


A small signal of the emerging capabilities of AI, robotics and other applications - one has to imagine the next decade of advances - before science-fictions is simply science.
Using physically realistic simulations of Shadow's robotic hand, the researchers have been able to make two hands pass and throw objects to each other, as well as spin a pen between its fingers. The algorithms however are not limited to these tasks but can learn any task as long as it can be simulated. The 3-D simulations were developed using MuJoCo (Multi-Joint Dynamics withContact), a physics engine from the University of Washington.

Robot hands one step closer to human thanks to AI algorithms

The Shadow Robot Dexterous Hand is a robot hand, with size, shape and movement capabilities similar to those of a human hand. To give the robotic hand the ability to learn how to manipulate objects researchers from WMG, University of Warwick, have developed new AI algorithms.

Robot hands can be used in many applications, such as manufacturing, surgery and dangerous activities like nuclear decommissioning. For instance, robotic hands can be very useful in computer assembly where assembling microchips requires a level of precision that only human hands can currently achieve. Thanks to the utilization of robot hands in assembly lines, higher productivity may be achieved whilst securing reduced exposure from work risk situations to human workers.

In the paper, "Solving Challenging Dexterous Manipulation Tasks With Trajectory Optimisation and Reinforcement Learning," researchers Professor Giovanni Montana and Dr. Henry Charlesworth from WMG, University of Warwick have developed new AI algorithms—or the "brain"—required to learn how to coordinate the fingers' movements and enable manipulation.


This is a strong signal of the future of all manner of robots and sensors to ‘live’ in and with our environments - providing data and a digital sensorium for Gaia.

Robot fleet dives for climate answers in 'marine snow'

A fleet of next-generation, deep-diving ocean robots will be deployed in the Southern Ocean in a major study of how marine life acts as a handbrake on global warming.

The automated probes will be looking for "marine snow," which is the name given to the shower of dead algae and carbon-rich organic particles that sinks from upper waters to the deep ocean.

Sailing from Hobart on Friday, twenty researchers aboard CSIRO's RV Investigator hope to capture the most detailed picture yet of how marine life in the Southern Ocean captures and stores carbon from the atmosphere.

Voyage Chief Scientist, Professor Philip Boyd, from AAPP and IMAS, said it would be the first voyage of its kind to combine ship-board observations, deep-diving robots, automated ocean gliders and satellite measurements.


Alphabet (Google) has dedicated many years to perfect a means of delivering Internet services everywhere in the world - only instead of geostationary satellites - it is betting on smart balloons - this is a good signal of the next digital infrastructure that self-manages (including other forms of self-driving vehicles).
Loon says its system qualifies as the world’s first deployment of this variety of AI in a commercial aerospace system. And not only that, but it actually outperforms the system designed by humans. 

Alphabet’s Loon hands the reins of its internet air balloons to self-learning AI

The company’s new AI flight control system outperforms its human-made one
Alphabet’s Loon, the team responsible for beaming internet down to Earth from stratospheric helium balloons, has achieved a new milestone: its navigation system is no longer run by human-designed software.

Instead, the company’s internet balloons are steered around the globe by an artificial intelligence — in particular, a set of algorithms both written and executed by a deep reinforcement learning-based flight control system that is more efficient and adept than the older, human-made one. The system is now managing Loon’s fleet of balloons over Kenya, where Loon launched its first commercial internet service in July after testing its fleet in a series of disaster relief initiatives and other test environments for much of the last decade.

Loon, like many other AI labs that have turned to reinforcement learning to develop sophisticated AI programs, taught its flight control system how to pilot the balloons using computer simulation, with help from Google’s AI team out of Montreal. That way, the system could improve over time before being deployed on a real-world balloon fleet.


For the curious inventors or just the curious - this is an interesting site that may provide insight into emerging technology concepts. Each week, the illustrations accompanying the patents filed the previous week at the US Patent office are featured. 

Impeccable IP

Exploring the Best of Intellectual Property Law
Shown below are the 750 designs that were granted patents this 48th week of 2020, bringing the total design patents issued this year to 32,260.



#micropoem 


Which half -
is suffering -
 denning-kruger - 
apocalypse - 

mhm - 
is science-sing - 
an epistemological antidote to - 
dunning-kruger apoca-ellipsis

it’s the thought that counts - 
but the present is the medium -
of a-counting -
 
won’t share this -
with those who count - 
so they won’t think -
i’m a-counting -