Thursday, May 13, 2021

Friday Thinking 14 May, 2021

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





Intuition can only be leveraged through practice. To be really good at something requires 10,000 hours of participatory experience. Humans do not master a skill by reading an instruction manual. To leverage the massive processing in the brain, the performance of skill must become unconscious. In other words, skills must become ‘second nature’ and thus run ‘in the background’.

Consciousness and the Illusion of Continuity




the threat to democratic, “open” societies is not misinformation or ignorance but rather fanatical certainty.

Popper’s political ideas were informed by his philosophy of science. He emphasized the tentativeness of scientific knowledge, contending that we never know whether theories are true in an ultimate sense, but only whether they have survived previous attempts to disprove them. Scientific “objectivity” emerges not from the unique cognitive qualities or neutrality of researchers but from their critical engagement with each other’s work. Progress in knowledge relies on an environment that fosters lively criticism, a system that encourages productive dissent. The enemies of this system are those who insist on perfect certainty.

The belief that misinformation is today’s main threat to democracy blinds us to the pernicious effects of a broader preoccupation with certitude. This obsession has been tearing at American politics throughout the Covid pandemic, and continues to imperil debates over vaccination, masking, and lockdowns. But the problem will remain with us long after the virus has been beaten.

The Danger of Fact-ist Politics





In an insightful 2013 essay, M. Anthony Mills drew on G.K. Chesterton’s claim that it is not quite right to view a conspiracy theorist as someone with a flaw in his reasoning. Talk to a committed anti-vaxxer or just-the-flu-er, and you may well be flummoxed at the discovery that he has a better command of the research than you do, that he can answer and dodge and weave until you quit in exhaustion. He may even be capable of “saving the appearances”—of offering an explanation for all the observable facts. “The problem,” Mills writes, “is not so much a flaw in his reasoning but that his whole reasoning process has become unmoored. ‘The madman is not the man who has lost his reason. The madman is the man who has lost everything except his reason.’”

The trouble with the Galilean right is not that its partisans have lost their reason—really they have it in perverse excess—but rather that in their war against the establishment they have lost their sense. Judgment has given way to technique, coherence to deconstruction, the picture of the whole has broken apart into skillful scribbles. Cast out of the hall of scientific power, intoxicated and giddy, they discover that science has given them the tools to blow it up.

The Coronavirus and the Right’s Scientific Counterrevolution





Even before Hardin’s ‘The Tragedy of the Commons’ was published, however, the young political scientist Elinor Ostrom had proven him wrong. While Hardin speculated that the tragedy of the commons could be avoided only through total privatisation or total government control, Ostrom had witnessed groundwater users near her native Los Angeles hammer out a system for sharing their coveted resource. Over the next several decades, as a professor at Indiana University Bloomington, she studied collaborative management systems developed by cattle herders in Switzerland, forest dwellers in Japan, and irrigators in the Philippines. These communities had found ways of both preserving a shared resource – pasture, trees, water – and providing their members with a living. Some had been deftly avoiding the tragedy of the commons for centuries; Ostrom was simply one of the first scientists to pay close attention to their traditions, and analyse how and why they worked.

The features of successful systems, Ostrom and her colleagues found, include clear boundaries (the ‘community’ doing the managing must be well-defined); reliable monitoring of the shared resource; a reasonable balance of costs and benefits for participants; a predictable process for the fast and fair resolution of conflicts; an escalating series of punishments for cheaters; and good relationships between the community and other layers of authority, from household heads to international institutions.

The miracle of the commons





This is an important idea from the European equivalent of the Electronic Freedom Foundation (EFF). 

Four measures to limit the dominance of platforms like YouTube and Facebook

For our public debate, we are far too dependent on the whims of dominant companies such as Google and Facebook. The time is nigh for politicians to step in, and here are four measures they should take.
It is crucial that we can speak freely, which allows us to sharpen our thinking and ideas. A healthy public debate is essential for a functioning democracy. Yet, this is only possible if the platforms we use for that debate are a reflection of our society. Unfortunately, this is not the case right now on the internet. Our public debate takes place on a limited number of very dominant platforms. And they have their toxic business model and dominance to thank for this role. With this role, those platforms have a major influence on the form and content of our conversations. Technology companies such as Google and Facebook are thus the gatekeepers of our public debate online.
Dominant platforms must be interoperable. 
Dominant platforms must allow third parties to access certain parts of their services.
Basing advertisements on user behaviour should be prohibited. 
The use of so-called dark patterns should be prohibited.


From the founding creator of Ethereum who's initial vision was 'trustless' systems. This is an interesting 'state of the blockchain' piece - is it just me or does legitimacy seem like a metaphor for trust? 

I will give this powerful social force a name: legitimacy.

What's going on here is a pattern of a similar type to what we saw with the not-yet-issued Bitcoin and Ethereum coin rewards: the coins were ultimately owned not by a cryptographic key, but by some kind of social contract.

The Most Important Scarce Resource is Legitimacy

The Bitcoin and Ethereum blockchain ecosystems both spend far more on network security - the goal of proof of work mining - than they do on everything else combined. The Bitcoin blockchain has paid an average of about $38 million per day in block rewards to miners since the start of the year, plus about $5m/day in transaction fees. The Ethereum blockchain comes in second, at $19.5m/day in block rewards plus $18m/day in tx fees. Meanwhile, the Ethereum Foundation's annual budget, paying for research, protocol development, grants and all sorts of other expenses, is a mere $30 million per year. Non-EF-sourced funding exists too, but it is at most only a few times larger. Bitcoin ecosystem expenditures on R&D are likely even lower. Bitcoin ecosystem R&D is largely funded by companies (with $250m total raised so far according to this page), and this report suggests about 57 employees; assuming fairly high salaries and many paid developers not being counted, that works out to about $20m per year.


I think we have to understand that it's our institutions that provide robust strength and the chemistry of trust in a society - yes personal behavior and good faith acting are vital - but it's our institutions that compensate for the whimsy of leadership and individual influence. 

Science Doesn't Work That Way

Its authority derives not from unbiased scientists but from the institutions and norms that structure their work. Fighting mistrust requires more public engagement with policy, not unqualified deference to experts.
The COVID-19 pandemic seems to take every public problem—vast social inequality, political polarization, the spread of conspiracy theories—and magnify it. Among these problems is the public’s growing distrust of scientists and other experts. As Archon Fung, a scholar of democratic governance at Harvard’s Kennedy School, has put it, the U.S. public is in a “wide-aperture, low-deference” mood: deeply disinclined to recognize the authority of traditional leaders, scientists among them, on a wide range of topics—including masks and social distancing.


This is an excellent signal of our times - the nature of The Truth - versus honest accounts - multiple lines of evidence - multiple ways of reasoning and wayfinding paradoxes and contradictions through institutions of conversation. 
“A new scientific truth does not triumph by convincing its opponents and making them see the light, but rather because its opponents eventually die.” Since this inherited framework works well enough to get new researchers started, the question of what it all means is usually left alone.

Inventing the Universe

Are quantum physicists making things up as they go along?
with Carroll claiming quantum mechanics as literally true and Smolin claiming it as literally false, there must be some underlying disagreement. And of course there is. Traditional quantum theory describes things like electrons as smeary waves whose measurable properties only become definite in the act of measurement. Sean Carroll is a supporter of the “Many Worlds” interpretation of this theory, which claims that the multiple measurement possibilities all simultaneously exist. Some proponents of Many Worlds describe the existence of a “multiverse” that contains many parallel universes, but Carroll prefers to describe a single, radically enlarged universe that contains all the possible outcomes running alongside each other as separate “worlds.” But the trouble, says Lee Smolin, is that in the real world as we observe it, these multiple possibilities never appear — each measurement has a single outcome. Smolin takes this fact as evidence that quantum theory must be wrong, and argues that any theory that supersedes quantum mechanics must do away with these multiple possibilities.

So how can such similar books, informed by the same evidence and drawing upon the same history, reach such divergent conclusions? Well, anyone who cares about politics knows that this type of informed disagreement happens all the time, especially, as with Carroll and Smolin, when the disagreements go well beyond questions that experiments could possibly resolve.

But there is another problem here. The question that both physicists gloss over is that of just how much we should expect to get out of our best physical theories. This question pokes through the foundation of quantum mechanics like rusted rebar, often luring scientists into arguments over parables meant to illuminate the obscure.


Another signal of a looming paradigm change in fundamental science - a phase transition in ‘magic’. 
The quantum-drum techniques could lead to the development of instrumentation that beats the limitations that quantum mechanics imposes on measurement.

Minuscule drums push the limits of quantum weirdness

Vibrating aluminium membranes provide the first direct evidence of quantum entanglement in macroscopic objects.
By playing two tiny drums, physicists have provided the most direct demonstration yet that quantum entanglement — a bizarre effect normally associated with subatomic particles — works for larger objects.

The findings, described in two Science papers on 6 May, could help researchers to build measuring devices of unprecedented sensitivity, as well as quantum computers that can perform certain calculations beyond the reach of any ordinary computer.

The counter-intuitive rules of quantum mechanics predict that two objects can share a common, ‘entangled’ state. Measurable properties of one object, such as its position or velocity, are then correlated to those of the other, with a degree of correlation that is stronger than what can be achieved in classical, or non-quantum, physics.


This is an important signal of an emerging business model in the digital environment that will enslave us to particular devices - unless we create legislative protections for users - rather than corporations.

Tesla remotely disables Autopilot on used Model S after it was sold

Tesla says the owner can’t use features it says ‘they did not pay for’
Tesla has remotely disabled driver assistance features on a used Model S after it was sold to a customer, Jalopnik reports. The company now claims that the owner of the car, who purchased it from a third-party dealer — a dealer who bought it at an auction held by Tesla itself — “did not pay” for the features and therefore is not eligible to use them.

The features were enabled when the dealer bought the car, and they were advertised as part of the package when the car was sold to its owner. It’s a peculiar situation that raises hard questions about the nature of over-the-air software updates as they relate to vehicles.

Cars sold with hardware-based upgrades, such as four-wheel drive versus all-wheel drive, or advanced adaptive cruise control, do not lose those features when they are resold on the used car market. But because Tesla can update its vehicles remotely, the Model S and other Tesla vehicles can apparently lose key features. Tesla did not immediately respond to a request for comment.


This is a fascinating signal of progress in domesticating DNA, understanding biological time - and perhaps toward increasing longevity.
Speed matters when it comes to building species. Evolution didn’t give giraffes long necks by adding extra bones; they have the same number of vertebrae as their stubby-necked okapi relatives. Rather, neck vertebrae in giraffes grow over longer periods of time, which allows them to reach bigger sizes.

These cellular clocks help explain why elephants are bigger than mice

Biologists are uncovering how tiny timekeepers in our cells might govern body size, lifespan and ageing.
In her laboratory in Barcelona, Spain, Miki Ebisuya has built a clock without cogs, springs or numbers. This clock doesn’t tick. It is made of genes and proteins, and it keeps time in a layer of cells that Ebisuya’s team has grown in its lab. This biological clock is tiny, but it could help to explain some of the most conspicuous differences between animal species.

Animal cells bustle with activity, and the pace varies between species. In all observed instances, mouse cells run faster than human cells, which tick faster than whale cells. These differences affect how big an animal gets, how its parts are arranged and perhaps even how long it will live. But biologists have long wondered what cellular timekeepers control these speeds, and why they vary.

A wave of research is starting to yield answers for one of the many clocks that control the workings of cells. There is a clock in early embryos that beats out a regular rhythm by activating and deactivating genes. This ‘segmentation clock’ creates repeating body segments such as the vertebrae in our spines. This is the timepiece that Ebisuya has made in her lab.


The domestication of DNA continues to expand the domains of knowledge.
“It turns out in almost any of these cases, it is through interactions of glycomolecules that microorganisms and parasites cause human disease,”

Researchers Read the Sugary ‘Language’ on Cell Surfaces

Now scientists may be verging on a breakthrough in the understanding of glycans and glycobiology. After analyzing a comprehensive data set of glycan structures and their known interactions, researchers at Harvard University and the Massachusetts Institute of Technology found a shared structural “language” that all organisms use when making glycans, like a municipal building code that ensures consistent, compatible architecture. The researchers have released a set of online tools that anyone can use to analyze glycan structures and functions.

Varki and his team had found that, more than 2 million years ago, a mutation in humans’ ancestors inactivated a gene that modifies sialic acids in all other primates and most other mammals. As a result, hundreds of millions of sialic acid glycans that are present in other primate cells are missing from human ones.

To Varki, glycans are still one of the greatest enigmas of the biological universe. They’re “actually so prominent, they’re a major component of biomass on the planet.” In fact, glycans make up most of the organic matter by mass: Cellulose and chitin, the major building material of arthropod exoskeletons and fungal cell walls, are nature’s two most abundant organic polymers. And yet in contrast with the overabundance of glycans, “this whole field has been left behind,” Varki said.


A small signal of some progress in 3D printing.

3D printing company Desktop Metal will now use wood to print

The 3D printing company Desktop Metal has just announced the release of Forust, a new tool using wood to 3D print objects. The company, founded in 2019, focuses on 3D printing for interior design. With printing methods deemed "non-destructive", they haven't come under much scrutiny for safety or environmental concerns, making them an attractive prospect for acquisition.

Now, Desktop Metal has introduced Forust as its new portfolio manufacturing process. The technology uses cellulose dust and lignin, byproducts from both the paper and wood industries.

Lauding Desktop Metal, Forust CEO Andrew Jeffery states that the interior design company enables architects, designers and manufacturers to utilize design-forward technology in order to re-consider the use of wood waste streams, from just one piece to over a million pieces. In turn, Jeffery reports that Forust does its part by offering sustainable, 3D-printed wood designs for both businesses and consumers to develop beautiful, strong wood products suited for a variety of industries, including consumer home goods, furniture and interior design.


This is an important signal of the increasing complexity of how we navigate our lives with our devices and soon with our households and vehicles (I’m sure some people are already there).

There’s a better way to protect yourself from hackers and identity thieves

If you’re using texts for two-factor authentication, it’s time to change to an app. Here’s what you need to know.
When people ask me for security tips, I give them the basics. One is a strong and long password with upper and lower case letters, numbers, and special characters. (No, “Passw0rd!” is not good enough.) Each password should also be unique to each account (We love a good password manager!). And you always use two-factor authentication, or 2FA. (Don’t be like me, who didn’t have 2FA on her bank account until a hacker wired $13,000 out of it.) But the type of 2FA you use is also increasingly important.

Text-based 2FA, where a text with a six-digit code is sent to your phone to verify your identity, is better known and better understood because it uses technology most of us use all the time anyway. But it’s a technology that wasn’t meant to serve as an identify verifier, and it’s an increasingly insecure option as hackers continue to find ways to exploit it.

That’s why I recommend using an authenticator app, like Google Authenticator, instead. Don’t let the name intimidate you: There are a few extra steps involved, but the effort is worth it.



#micopoem



what difference -
does it matter - 
what lane - 
a pedestrian is walking in - 
? - 
When ambling for the joy -
or watching river life - 
it matters for pedestrians -


mhm - 
writing is not only re-writing - 
it’s writing the same thing -
over and over - 


maintenance -
renovations -
yard work - 
garden-shaping -
aspiration shaping- 
then what? - 
process of living -
 creating - 
home-making -  
 and
relationship - 
why is that so last priority - 
but like a ground for -
my shadow in all i enact - 


Emotions -
are experiences - 
of - 
enacting complex-relational-chemistry - 
to manage emotions - 
needs - 
reframing apophenia -

 

mhm - 
writing is not only re-writing - 
it’s writing the same thing -
over and over - 
 
it’s all me i felt - 
then realized -
how much them -
becomes me -
 the-mees-that-is-them -



the chemistry of chemistry - 
homeostatial -
complex evolving adaptive attractors - 
 
attractors -
are patterned fields -
of flowing intensive boundaries - 
not blurry - 
but gradients with phase-change thresholds - 
needing to transform -
media enactments of patterned content - 
emotions are -
the enactment of meaning - 
basic or archetypal - 
accountings for-or-by - 
contingencies-of-relationship - 
virtual-or-actual - 
#micropoem

Thursday, May 6, 2021

Friday Thinking 7 May, 2021

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





interventions to promote mathematical literacy among gamblers generally push the message that gamblers should unconditionally trust mathematics. But recall in the opening story that the philosopher didn’t actually trust what the mathematician said; she trusted mathematics, sure, but she didn’t trust it as applied in the context of the die roll. The problem for gamblers isn’t so much a lack of trust in mathematics as much as an incorrect application and interpretation. After all, the gambler did trust mathematics, she just misinterpreted it.

The limitations of mathematical counselling make sense when we recall that the mathematics of ‘real world’ events are far from pure numbers; rather, they take the form of descriptions, strategies, predictions and expectations, all mediated by language and meaning. By making a distinction between pure and applied mathematics, between truths that are necessary and those that are contingent, and noticing how often we mix mathematical and non-mathematical terms ourselves, we might steer ourselves on the right track to correct our cognitive distortions.

No single expert or guide can help us here. We need the combined wisdom of the mathematician, the philosopher and the psychological counsellor to help combat the forces that sustain problem gambling. Indeed, some of the associated cognitive distortions tap into genuine philosophical debates, such as over the meaning of randomness, something that’s uncontrolled and proceeds without any rules. Mathematicians and philosophers struggle to agree on a rigorous and universally accepted definition, despite the centrality of the concept to probability theory.

When we put abstract, formal mathematics in empirical situations such as games of chance, we ultimately rely on language to express newly inferred relations as truths. However, these ‘truths’ are no longer necessary truths; they depend on meanings, interpretations and context. As such, they’re contingent truths. If we’re too zealous in abstracting or idealising our empirical context, or if we poorly interpret the mathematical truths in the target domain, such modelling can lead to erroneous results. When this happens, it’s not pure mathematics that’s to blame, but the whole setup.

All of this shows that any application of mathematics is a balance between relevance and convenience – a choice, a refinement, and finally a cross-checking against the real world. All this relies as much on a mathematician’s or scientist’s intuition as it does on scientific or mathematical rigour.

All probability theory is grounded in the concept of infinity, yet all our gaming experiences are finite

Mathematics for gamblers





Take a soccer simulation where an AI figured out that if it kicked the ball out of bounds, the goalie would have to throw the ball in and leave the goal undefended. Or another simulation, where an AI figured out that instead of running, it could make itself tall enough to cross a distant finish line by falling over it. Or the robot vacuum cleaner that instead of learning to not bump into things, it learned to drive backwards, where there were no sensors telling it it was bumping into things. If there are problems, inconsistencies, or loopholes in the rules, and if those properties lead to an acceptable solution as defined by the rules, then AIs will find these hacks.

We can imagine equipping an AI with all of the world’s laws and regulations, plus all the world’s financial information in real time, plus anything else we think might be relevant; and then giving it the goal of “maximum profit.” My guess is that this isn’t very far off, and that the result will be all sorts of novel hacks.

When AIs Start Hacking




Anyone who studies public health knows the importance of qualitative factors. Even seemingly precise, quantitative figures, like the infamous R0 – describing the rate of spread of a pathogen – is heavily dependent on qualitative factors that you just can’t do math on. R0 doesn’t just depend on things like, “How many virus particles must you inhale before you are likely to become infected,” it depends every bit as much on things like “do people trust public health authorities enough to report their contacts after they are diagnosed with an infection?”

But mathematical models operate on quantitative elements. To do math on a qualitative measurement, you must first quantize it, assigning a nu­meric value to it. This is also a qualitative exercise, because “how much does this hurt?” or “how intense does this shade of blue appear to you?” or “how much do you trust the CDC?” are not questions with precise, deterministic answers.

Quantitative disciplines – physics, math, and (especially) computer sci­ence – make a pretense of objectivity. They make very precise measure­ments of everything that can be measured precisely, assign deceptively precise measurements to things that can’t be measured precisely, and jet­tison the rest on the grounds that you can’t do mathematical operations on it.

This is the quant’s version of the drunkard’s search for car-keys under the lamp-post: we can’t add, subtract, multiply or divide qualitative elements, so we just incinerate them, sweep up the dubious quantitative residue that remains, do math on that, and simply assert that nothing important was lost in the process.

Cory Doctorow: Qualia





The word ‘authenticity’ comes from the Greek authentes for ‘master’ or ‘one acting on his own authority’ (aut = self and hentes = making or working on/crafting). Importantly, it doesn’t mean ‘self-maker’ in the reflexive sense of one who makes himself, but one who makes or acts according to his own will – making from out of the self. And in crafting of our accord, we do actually actualise ourselves. We transform inner feelings into something real.

If we’re to be authentic, we should ironically and humbly acknowledge the limitations of our individual perspective and effort, without despairing at our limitations. We should embrace the necessarily fragmentary nature of our endeavours, and we should enrich our efforts by trying to inhabit those of others, including those who came before us. In this way, we do take some steps toward the absolute.

This ironic attitude allows us, like Socrates, to truly know that we don’t know, to be comfortable with our ignorance while pushing against its boundaries, and to temper our desire for wholeness with an authentic understanding of our limitations. From this perspective, the silence of the world doesn’t sound unreasonable at all.

Authenticity is a sham





This is vital information if we are going to create conditions not only for the current pandemic - but for the inevitable next ones. A strong signal of progress - if we also develop the right business - public infrastructure models for the whole world - the local is now global - making it local everywhere.

Manufacturing mRNA vaccines is surprisingly straightforward

The Gates Foundation convinced the Oxford team to do an exclusive deal with Astrazeneca. In support of this proposition, Gates argued that without a profit motive, the pharma giants would abandon human society and risk civilizational collapse.

Despite his cuddly reputation as a philanthropist, Gates has always pursued the ideology that the world should be guarded over by monopolist-kings, dependent on their largesse (guided by their superhuman judgment) for progress.

Some of the poorest, most populous countries on Earth have petitioned the WTO for a patent waiver to allow them to manufacture generic versions of vaccines. There’s enormous, global support for this, both from people who care about humanitarian causes and from people who just don’t want to die of a mutant strain incubated half a world away. 

[Gates] and his foundation are peddling the lie that patents aren’t the reason that poor countries aren’t making their own vaccines — instead, they are simply not “developed” enough to do science (again, the world’s largest existing vaccine factories are in the Global South).

“Rapid development and deployment of high‐volume vaccines for pandemic response” (DOI: 10.1002.amp2.10060) is an open access, peer-reviewed paper in the American Institute of Chemical Engineers’ Journal of Advanced Manufacturing and Processing: https://aiche.onlinelibrary.wiley.com/doi/full/10.1002/amp2.10060

- New facilities will be 99–99.9% smaller than conventional vaccine facilities
- They will be 95–99.7% cheaper than conventional vaccine facilities
- You could use a single room in a conventional vaccine factory to make more vaccine doses of mRNA vaccines than the entire output of the rest of the factory
- New vaccines can be made 1,000% faster than previous vaccines


We have to remember that it will be impossible to have a single all-powerful AI - the digital environment is enabling a complex ecology of all manner of AI - with all the diversity that any other viable ecology produces.

When AIs Start Hacking

If you don’t have enough to worry about already, consider a world where AIs are hackers.
Hacking is as old as humanity. We are creative problem solvers. We exploit loopholes, manipulate systems, and strive for more influence, power, and wealth. To date, hacking has exclusively been a human activity. Not for long.

As I lay out in a report I just published, artificial intelligence will eventually find vulnerabilities in all sorts of social, economic, and political systems, and then exploit them at unprecedented speed, scale, and scope. After hacking humanity, AI systems will then hack other AI systems, and humans will be little more than collateral damage.

Okay, maybe this is a bit of hyperbole, but it requires no far-future science fiction technology. I’m not postulating an AI “singularity,” where the AI-learning feedback loop becomes so fast that it outstrips human understanding. I’m not assuming intelligent androids. I’m not assuming evil intent. Most of these hacks don’t even require major research breakthroughs in AI. They’re already happening. As AI gets more sophisticated, though, we often won’t even know it’s happening.

AIs don’t solve problems like humans do. They look at more types of solutions than us. They’ll go down complex paths that we haven’t considered. This can be an issue because of something called the explainability problem. Modern AI systems are essentially black boxes. Data goes in one end, and an answer comes out the other. It can be impossible to understand how the system reached its conclusion, even if you’re a programmer looking at the code.


This is a very good signal of the future of scientific publishing.

Reactive, reproducible, collaborative: computational notebooks evolve

A new breed of notebooks is taking data visualization and collaborative functionality to the next level, with spreadsheet simplicity.
This year marks ten years since the launch of the IPython Notebook. The open-source tool, now known as the Jupyter Notebook, has become an exceedingly popular piece of data-science kit, with millions of notebooks deposited to the GitHub code-sharing site.

Computational notebooks combine code, results, text and images in a single document, yielding what Stephen Wolfram, creator of the Mathematica software package, has called a “computational essay”. And whether written using Jupyter, Mathematica, RStudio or any other platform, researchers can use them for iterative data exploration, communication, teaching and more.

But computational notebooks can also be confusing and foster poor coding practices. And they are difficult to share, collaborate on and reproduce. A 2019 study found that just 24% of 863,878 publicly available Jupyter notebooks on GitHub could be successfully re-executed, and only 4% produced the same results 


How long will it be before we see this as a standard feature in our vehicles? Will it be before self-driving vehicles?

3D holographic head-up display could improve road safety

Researchers have developed the first LiDAR-based augmented reality head-up display for use in vehicles. Tests on a prototype version of the technology suggest that it could improve road safety by 'seeing through' objects to alert of potential hazards without distracting the driver.

The technology, developed by researchers from the University of Cambridge, the University of Oxford and University College London (UCL), is based on LiDAR (light detection and ranging), and uses LiDAR data to create ultra high-definition holographic representations of road objects which are beamed directly to the driver's eyes, instead of 2D windscreen projections used in most head-up displays.

While the technology has not yet been tested in a car, early tests, based on data collected from a busy street in central London, showed that the holographic images appear in the driver's field of view according to their actual position, creating an augmented reality. This could be particularly useful where objects such as road signs are hidden by large trees or trucks, for example, allowing the driver to 'see through' visual obstructions. The results are reported in the journal Optics Express.


Another signal in the emerging toolbox of domesticated DNA.
"RLR enabled us to do something that's impossible to do with CRISPR: we randomly chopped up a bacterial genome, turned those genetic fragments into single-stranded DNA in situ, and used them to screen millions of sequences simultaneously, … RLR is a simpler, more flexible gene editing tool that can be used for highly multiplexed experiments, which eliminates the toxicity often observed with CRISPR and improves researchers' ability to explore mutations at the genome level."
"Being able to analyze pooled, barcoded mutant libraries with RLR enables millions of experiments to be performed simultaneously, allowing us to observe the effects of mutations across the genome, as well as how those mutations might interact with each other,"

Move over CRISPR, the retrons are coming

While the CRISPR-Cas9 gene editing system has become the poster child for innovation in synthetic biology, it has some major limitations. CRISPR-Cas9 can be programmed to find and cut specific pieces of DNA, but editing the DNA to create desired mutations requires tricking the cell into using a new piece of DNA to repair the break. This bait-and-switch can be complicated to orchestrate, and can even be toxic to cells because Cas9 often cuts unintended, off-target sites as well.

Alternative gene editing techniques called recombineering instead perform this bait-and-switch by introducing an alternate piece of DNA while a cell is replicating its genome, efficiently creating genetic mutations without breaking DNA. These methods are simple enough that they can be used in many cells at once to create complex pools of mutations for researchers to study. Figuring out what the effects of those mutations are, however, requires that each mutant be isolated, sequenced, and characterized: a time-consuming and impractical task.

Researchers at the Wyss Institute for Biologically Inspired Engineering at Harvard University and Harvard Medical School (HMS) have created a new gene editing tool called Retron Library Recombineering (RLR) that makes this task easier. RLR generates up to millions of mutations simultaneously, and "barcodes" mutant cells so that the entire pool can be screened at once, enabling massive amounts of data to be easily generated and analyzed. The achievement, which has been accomplished in bacterial cells, is described in a recent paper in PNAS.


There was some fear mongering a while back about an attempt to add two more letters to the basic genetic code - to create a synthetic DNA - as is often the case reality is stranger than our imagination.
The work is seminal, says Steven Benner, a synthetic biologist and founder of the Foundation for Applied Molecular Evolution in Alachua, Florida, who compares it to US microbiologist Carl Woese’s discovery of a new branch of single-celled life. “It represents the first discovery of a ‘shadow biosphere’ since Woese identified the Archaea a half century ago.”

Weird viral DNA spills secrets to biologists

Bacteria-infecting viruses have specialized enzymes to make genes with alternative nucleobase.
‘Alien’ genomes can be found on Earth. Some viruses that infect bacteria use an alternative genetic alphabet that’s distinct from the code used by nearly all other organisms — and, now, two teams have spelt out how the system works.

More than four decades in the making, the studies show how dozens of these bacteriophages (or just ‘phages’), as they are known, write their genomes using a chemical base called 2-aminoadenine, Z for short, instead of adenine — the A in the As, Ts, Cs and Gs of genetics textbooks.
“Scientists have long dreamed of increasing the diversity of bases. Our work shows that nature has already come up with a way to do that,” write Suwen Zhao, a computational biologist at ShanghaiTech University in China, and her team in a 29 April Science paper, showing how ‘Z-DNA’ is made. Researchers in France described similar insights in a pair of papers in the same journal.


It seems like the hydrogen economy is about to take off - again. But this time there’s a bigger tide of change to surf.

Burnaby's Ballard bets the day has finally come for technology Elon Musk called 'mind-bogglingly stupid'

After 40 years on the brink, Ballard Power, backed by heavyweights like Ford, Daimler and China's Weichai, may actually get its breakthrough
As chief executive of Burnaby-based Ballard Power Systems Inc., the company that hopes to disrupt trucking, municipal transit buses, railways and shipping with its proprietary hydrogen fuel cell technology, Randy MacEwen has made countless sacrifices.


A weak signal of something farther off - but conceptually fascinating.

A two-qubit engine powered by entanglement and local measurements

Researchers at Institut Néel-CNRS, University of Saint Louis and University of Rochester recently realized a two-qubit engine fueled by entanglement and local measurements. This engine's unique design, outlined in a paper published in Physical Review Letters, could open up exciting possibilities for thermodynamics research and inform the development of new quantum technologies.

"Our paper is based on a very simple and deep effect of quantum mechanics: Measuring a quantum system disturbs the system, i.e., changes its state in a random way," Alexia Auffèves, one of the researchers who carried out the study, told Phys.org. "As an immediate consequence, the measuring device provides both energy and entropy to the quantum system, playing a role similar to a hot source fueling a thermal engine. The noticeable difference is that here, the fuel is not thermal, but quantum."

A few years ago, Auffèves and some of her colleagues at Institut Néel-CNRS introduced the proof of concept for a measurement-fueled engine based on a single qubit. This was the first of a series of proposals that revealed the energetic counterpart of measurement devices.


Flagrant - Self-Promotion 
I have two pieces to share - the first is a sprouting endeavor that will very soon enter into the access from the digital environment - Re-Imagining the Local 

Re-imagining the Local

Response-Able action to the challenges of the 21st Century
Three paradigms enabling response-able action to the challenges of the 21st Century — where everything that can be automated will be.
And
There will never be a shortage of Work and Activity to Do and to Value — When we are Engaged in the enterprise of a Flourishing Life, Community and Ecology.

Paradigm One — Power of a nation with its own currency — Modern Monetary Theory.

Paradigm Two — Enabling a person to flourish as a citizen — Universal Basic Assets (UBA) and Guaranteed Job rather than unemployment insurance.

Paradigm Three — Enabling community to be response-able in a changing world — Asset-Based Community Development (ABCD).


And two - A cartoon of serious thinking - but here is my 10 page version of my epistemon-tology musings. It’s a 10 page narrative account of the opening ‘Motif’.

A Eulogy to Truth – Long Live Honesty 

Motif
The truth is dead - long live honesty
Entailing honest accounts and holding accounts honest

Science teaches us skepticism - 
Entailing multiple lines of evidence
For reliable knowledge

Complexity teaches us relative perspectives - 
Entailing multiple ways of reasoning
For relevant wisdom

Collective wisdom emerges in our institutions of conversation
Entailing good faith speaker-hearers - 
with honest accounting - 
Entangling complex reasonings - 
For adaptive evolving 
We know what we know – but we don’t even know what we don’t know


#micopoem


watching bingetv -
partial attention syndrome -
meant I had to watch episodes -
many times -
something very compelling -
kept me on repeat to understand -
now on last episode -
major archetype becomes clear -
very brilliant -
unless it’s my own apophenia -


financism -
Failing to distinguish -
risk from uncertainty -
less a failing - 
more a willing blindness - 
denial enable by -
magical thinking alchemy -
of probability-incantations - 


All probability theory is -
grounded in concept of infinity -
yet all our gaming experiences -
are finite -
George Ellis noted -
mathematics progresses -
to degree infinity is eliminated -
So probability -
a misdirection -
obfuscating infinity?