Neuroscience

Cognitive Assessment & Training Market Growth Prospect: is the tide Turning – Chronicles 99

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Set of qualitative information that includes PESTEL Analysis, PORTER Five Forces Model, Value Chain Analysis and Macro Economic factors, Regulatory Framework along with Industry Background and Overview

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Cognitive Assessment & Training Market Growth Prospect: is the tide Turning - Chronicles 99

Human Behavior

10 Common Human Behaviors Explained With Science – Listverse

We do a lot of stuff every day that most of us never even think about. Its too bad, because the explanations behind some of our most ordinary functions are quite fascinating.

Though its mostly thought of as an old wives tale, the idea that gentlemen prefer blondes has biological grounding. The average woman with blonde hair is likely to have light skin, and skin with a paler pigment will more noticeably show physical defects. So a male prefers female mate with blonde hair because he can more easily see how healthy their offspring will be.

Of course, females seek out and avoid the same qualities in males, so perhaps the adage should be that everyone prefers blondes.

There are many reasons for someone to be unfaithful, but aside from the psychological, its possible some people literally have cheating in their DNA. Scientists have discovered a gene they call RS3 334, which is colloquially becoming known as the divorce gene. In tests where men and women were asked to fill out detailed (and anonymous) questionnaires about their marriage, couples where the male of the relationship had one or more of the RS3 334 genes scored low, both describing unhappiness and frequent domestic troubles. It is thought the gene affects the bodys vasopressin release, a chemical responsible for human bonding and monogamy.

A lot of actions have become so ingrained in our culture that we dont stop to think about why we are doing them. Hugging is essentially grabbing someone for no reason and with no outcomes or time limit planned. It seems strange when analyzed like that, but the reasons can be explained: close contact with another human, such as that experienced through hugging, is linked to the release of oxytocin, a hormone responsible for attachment and trust. Its particularly useful in a relationship because the body contact occurring during sex releases oxcytocin with the aim of pairing the two together for raising offspring.

Dont have anyone to cuddle? Dont worry: your brain also releases oxytocin for things like meaningful eye contact, generous acts, and even patting a dog.

The fear of strangers most children feel can be explained chemically. Oxytocin, the very same hormone that helps us bond with people we are close with, will also compel us to distrust people we dont know.

There have been studies where participants inhale either oxytocin or a placebo and engage in group games with incentives to cooperate. When the groups featured people the participants already knew in some manner, the oxytocin caused their cooperation to risebut when the groups consisted of strangers, it caused cooperation to fall. This is possibly left over from our ancestors, who needed to trust their own tribe while maintaining a healthy, defensive fear of other tribes they came across.

We scratch all the time, but do we benefit from it at all? Scratching, or more accurately having an itch, is your bodys way of eliminating potentially harmful irritants or external objects. For example: an ant crawls onto your foot, so that area of your foot itches; you scratch that area and brush the ant away.

So it does help us, but why do we scratch so often? Its not like we are covered in bugs all the time. Well, from an evolutionary standpoint it makes sense to scratch at anything that might be dangerous. While scratching something that wasnt a threat is fine, not scratching something that is dangerous can lead to problems.

Someone offers you some chocolate. On one hand, you want to eat it, but on the other hand you are worried about weight gain. You make a deal: I can have the chocolate now, as long as I promise to go the gym tomorrow. Who exactly are you making that deal with? Technically, another personat least according to your brain.

Its severity differs for everyone, but in many cases the same part of the brain that lights up when you think about others is also used to think about your future self. Subconsciously, you literally consider your future self a different person.

Laughing is another activity that, when analyzed, seems absurd: a series of strange whooping noises following any number of things a human might find amusing. The areas of the brain that regulate laughing also regulate breathing and speech, so laughter is a very primal part of our functioning, so it surely has a purposebut what?

Scientists think that when we laugh, we communicate a playful intent, indicating to others we trust them as a group member. This explains why laughing is contagious, and tests have shown that humans are far less likely to laugh when alone.

Everyone knows we sleep at night and wake in the daybut what exactly controls that? Most of us cant make ourselves fall asleep or wake up at will, so what does?

The answer is melatonin. In the morning, exposure to light triggers a variety of chemical and hormone releases that get us going and assist us in our daily activities, and the same thing occurs for the opposite reason at night. Melatonin is a natural hormone that helps us sleep. Its made by your pineal gland which only turns on when darkness occurs. Melatonin levels will stay fairly high for roughly 12 hours before exposure to light the next morning causes them to decrease.

The problem is that our pineal gland doesnt understand artificial light, so being in dark rooms during the day or bright rooms at night drastically affects our body clock.

Have you ever wondered why people lose their temper? Anger and aggression are perhaps the feelings we feel like we can least control, and sometimes we really do have no control at all. The amygdala is one area of the brain that has been shown to cause aggression, and damage to this area results in amplified aggressive behavior. The prefrontal cortex receives impulses from the amygdala and processes other information to decide if it should take action. Damage to the amygdala through physical trauma, tumor, or birth defect can result in those impulses becoming overwhelming, causing a urges and impulses towards aggressive acts the person might not morally agree with.

Pedophilia is of course not a common or acceptable trait for humans, but in some cases it can be explained physically. In 2000, a married man suddenly developed a severe pornography addiction and pedophilic thoughts accompanied by excruciating headaches. He sought help and it was soon discovered that the man had a tumor the size of an egg growing in his brain, pressing on his prefrontal cortex, which (as previously discussed) regulates urges. When the tumor was removed, the mans behavior returned to normal and his unsavory sexual desires evaporated.

This kind of case is rare, but nevertheless possible. While we dont normally experience such severe swings, it raises the question: do you control your actions or is it just all those chemicals?

Scott Friggin tweets.

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10 Common Human Behaviors Explained With Science - Listverse

Human Behavior

Human behavior at the intersection of many sciences – Dailyuw

People frequently ask themselves, Why did I do that? Attempting to understand how we react to and interact with changing environments has resulted in years of research on human behavior.

Neurobiologists and psychologists study the biological basis of how the brain responds under certain situations. Social scientists like anthropologists explain what factors guide our behavior and engineers are taking all these studies to design tools that enforce human interaction, intelligence, and growth.

Human nature is complex, and interdisciplinary considerations may help us answer some interesting questions about how people think, remember, and behave.

Things that are good for one's health and longevity such as finding mates, food, and children; the dopamine reward or evaluation system is important to recall that success, Sheri Mizumori, a professor in the department of psychology who studies behavioral neuroscience, said.

Dopamine is known as the feel-good neurotransmitter, a chemical messenger that relays information between neurons. It is released by the brain when we eat food, exercise, and crave sex, helping reinforce desirable behaviors by encoding values of rewards. Psychologists and neurologists have studied this through animal models that help explain how humans access their own memory to guide their actions.

From a young age, babies learn that if an outcome is not what they want, they will change, Mizumori said. Much of the brain has evolved to be a predictor of outcomes.

Memory can be thought of as a repository of past experiences that did and did not work. When we are placed in a new situation, we use strategies we learned from previous experiences to guide our actions.

You are driving behavior based on memory and [guiding] behavior correctly the next time, Mizumori said.

The brain uses decision circuits that integrate information about past values from memory and evaluates it against our motivational, or internal, state. Understanding how the brain can switch behaviors or learn new ones is known as flexible decision making.

Theoretical psychologists study human behavior from a philosophical and social standpoint. A commonly known study argues if nature or nurture genetic or acquired influences behavior.

Maslows hierarchy of needs outlines a five-tier pyramid of deficiency and being needs. Once deficiency needs the first tier are met, people strive for self-fulfillment and personal growth, behaviors that encompass the fifth tier of the pyramid.

Depression is an interesting example of behavior at the intersection of social sciences and biology. Behavioral theory argues depression results from peoples interactions with the environment and psychodynamic theory states it stems from inwardly-directed anger or loss of self-esteem.

Conversely, Mizumori explained depression from a behavioral switch, or flexible decision-making standpoint.

Researchers in human centered design and engineering (HCDE) are attempting to design technologies that can support or prompt changes in peoples behaviors.

A lot of the research projects we explore are real-world-problem driven, Gary Hsieh, an associate professor in HCDE, said. How do we encourage users to eat healthier or exercise more? These are health-related problems aligned to behavior-related problems.

By studying the needs and values of certain groups, researchers like Hsieh are able to design technologies that encourage people to communicate and interact in welfare-improving ways. In a growing age of data, engineers and scientists are able to learn about people from social networks.

Data allows us to study people in ways that we could not before, Hsieh said. It ties in with the types of interventions and applications that we can build.

Human behavior presents unknown complexities that arise from cultural, social, internal, environmental, and biological factors. Being able to integrate all those is a challenge that many will be addressing for generations to follow.

Reach reporter Vidhi Singh at science@dailyuw.com. Twitter: @vidhisvida

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Human behavior at the intersection of many sciences - Dailyuw

Human Behavior

The Art of Animal Adaptation – Scientific American

Given the changes in our climate and the growth of the human population, animals are increasingly being forced to adapt to human behavior in unexpected ways. Whether its crocodiles using pool noodles as flotation devices, coyotes becoming more nocturnal to avoid people or a huddle of walruses sinking a research vessel that invaded their territory, animals are figuring out how to navigate the world we have created. Ive created an artists book, the Field Guide to Animal Adaptation, which identifies and illustrates 16 examples of this phenomenon, providing both hope and despair for the coexistence of people and animals in the future. Ive launched a Kickstarter campaign to fund the printing of a limited edition.

The idea for this book started when I stumbled across an article about mountain goats in Olympic National Park being airlifted to a less populated area because they had become addicted to hikers urine. The goats threatened park visitors in their quest for that precious salty liquid. It seemed both ridiculous and tragic to me that the National Park Service thought that spending several millions of dollars to relocate these animals would be more successful than expecting people not to pee in the woods. I found more absurd and sad examples of these human-animal interactions, and so the idea for this field guide was born.

As an artist, Im interested in how images canor cantcommunicate scientific ideas to the general public. Today climate scientists are recognizing the ability of art to communicate complex scientific information and possibly influence behavior to mitigate the effects of climate change. As one recent study put it, art can elicit visceral, emotional responses and engage the imagination in ways that prompt action or behavior change that purely scientific, fact-based or cognitive approaches dont seem to evoke. Can stories and images of individual animals prompt reactions and, hopefully, action around animal conservation?

As a layperson, I struggle with understanding the patterns and impact of climate change on a large scale and the implications of being in the midst of mass extinction. Like too many, I get some of my information from clickbait interpretations of scientific reports. The urgency comes when I think about the these global changes impact on my child or see images of my favorite animals starving or deadin other words, when the global is made personal and emotional.

Art is a vehicle to develop empathy. Art encourages understanding because the process of comprehending art is an emotional reasoning that, in the words of visual artist and a cultural anthropologist Lydia Nakashima Degarrod, is neither purely cognitive and imaginative nor purely emotional, but is a combination of both. As an artist, I aim to translate complex concepts into images that people respond to viscerally and emotionally but also consider intellectually.

My goal is that my images of absurdity, such as a coconut octopus using a plastic cup as a shelter, get people to think about their own consumption habits. The image creates an uncanny disconnect between our static or ahistorical expectations of the natural world (coconut octopuses sheltering in materials from their natural surroundings) and the reality of animals adapting to an ecosystem polluted by humans (the abundance of single-use plastics in the ocean), which jolts us into considering these stories in a new light.

In 2016 and 2018 I participated in exhibition projects created by Creature Conserve, an organization that brings artists and scientists together to foster informed and sustained support for animal conservation. I talked with a shark veterinarian and made a short animation about the effects of the trade of shark fins on whale sharks. I corresponded with a bat researcher and created images about the resilience of the animals bone structure. These pieces and the works of many other artists were exhibited at Rhode Island School of Design and the National Museum of Wildlife Art. After these experiences, I wanted to create another project that moved these animal stories out of gallery spaces and brought them to people in a more intimate way: a book.

Physical books create a connection. Books are held less than a few feet away from our eyes, we have to touch them to turn the page, and we can look at each individual page and image for as long as we want. The Field Guide to Animal Adaptation is modeled after popular field guides in size and structure. The animal adaptation stories and illustrations are organized by theme, with range maps and species information. There is a section on how to create ones own field notes and resources for ways people can get involved in animal conservation. W. John Koolage, a professor of philosophy at Eastern Michigan University, is writing an introduction that explores the positioning of humans and animals in scientific classification systems.

My selection of animal adaptation stories is also intended to give some historical context to todays extinction crisis. The introduction of invasive species, whether deliberate or accidental, has been a part of the human story since the beginning. Rats, for example, have successfully adapted to almost every part of the planet and have frequently hitched a ride to new territories on human vessels. Some species will react favorably, in the short term, to changes in their ecosystem. Australian gray nurse sharks, for example, may be able to connect two of their populations with the warming ocean, but that accomplishment doesnt mean the species as a whole will survive massive temperature changes. My image depicts two sharks almost touching but superimposed over a stylized and artificial wave background.

While mostly about individual animals or small groups, the selected animal adaptation stories in my book have taken place all over the world. A vast majority of species have to adapt to the effects of human behavior and encroachment to some degree. These individual stories serve as a microcosm of global trends. While I have no measurable way to know if this book will have a direct effect on its audience, my hope is that it will be one of the many voices that inspire people to take action on animal conservation.

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The Art of Animal Adaptation - Scientific American

Human Behavior

How to Train Your AI Soldier Robots (and the Humans Who Command Them) – War on the Rocks

Editors Note: This article was submitted in response to thecall for ideas issued by the co-chairs of the National Security Commission on Artificial Intelligence, Eric Schmidt and Robert Work. It addresses the third question (part a.), which asks how institutions, organizational structures, and infrastructure will affect AI development, and will artificial intelligence require the development of new institutions or changes to existing institutions.

Artificial intelligence (AI) is often portrayed as a single omnipotent force the computer as God. Often the AI is evil, or at least misguided. According to Hollywood, humans can outwit the computer (2001: A Space Odyssey), reason with it (Wargames), blow it up (Star Wars: The Phantom Menace), or be defeated by it (Dr. Strangelove). Sometimes the AI is an automated version of a human, perhaps a human fighters faithful companion (the robot R2-D2 in Star Wars).

These science fiction tropes are legitimate models for military discussion and many are being discussed. But there are other possibilities. In particular, machine learning may give rise to new forms of intelligence; not natural, but not really artificial if the term implies having been designed in detail by a person. Such new forms of intelligence may resemble that of humans or other animals, and we will discuss them using language associated with humans, but we are not discussing robots that have been deliberately programmed to emulate human intelligence. Through machine learning they have been programmed by their own experiences. We speculate that some of the characteristics that humans have evolved over millennia will also evolve in future AI, characteristics that have evolved purely for their success in a wide range of situations that are real, for humans, or simulated, for robots.

As the capabilities of AI-enabled robots increase, and in particular as behaviors emerge that are both complex and outside past human experience, how will we organize, train, and command them and the humans who will supervise and maintain them? Existing methods and structures, such as military ranks and doctrine, that have evolved over millennia to manage the complexity of human behavior will likely be necessary. But because robots will evolve new behaviors we cannot yet imagine, they are unlikely to be sufficient. Instead, the military and its partners will need to learn new types of organization and new approaches to training. It is impossible to predict what these will be but very possible they will differ greatly from approaches that have worked in the past. Ongoing experimentation will be essential.

How to Respond to AI Advances

The development of AI, especially machine learning, will lead to unpredictable new types of robots. Advances in AI suggest that humans will have the ability to create many types of robots, of different shapes, sizes, or degrees of independence or autonomy. It is conceivable that humans may one day be able to design tiny AI bullets to pierce only designated targets, automated aircraft to fly as loyal wingmen alongside human pilots, or thousands of AI fish to swim up an enemys river. Or we could design AI not as a device but as a global grid that analyzes vast amounts of diverse data. Multiple programs funded by the Department of Defense are on their way to developing robots with varying degrees of autonomy.

In science fiction, robots are often depicted as behaving in groups (like the robot dogs in Metalhead). Researchers inspired by animal behaviors have developed AI concepts such as swarms, in which relatively simple rules for each robot can result in complex emergent phenomena on a larger scale. This is a legitimate and important area of investigation. Nevertheless, simply imitating the known behaviors of animals has its limits. After observing the genocidal nature of military operations among ants, biologists Bert Holldobler and E. O. Wilson wrote, If ants had nuclear weapons, they would probably end the world in a week. Nor would we want to limit AI to imitating human behavior. In any case, a major point of machine learning is the possibility of uncovering new behaviors or strategies. Some of these will be very different from all past experience; human, animal, and automated. We will likely encounter behaviors that, although not human, are so complex that some human language, such as personality, may seem appropriately descriptive. Robots with new, sophisticated patterns of behavior may require new forms of organization.

Military structure and scheme of maneuver is key to victory. Groups often fight best when they dont simply swarm but execute sophisticated maneuvers in hierarchical structures. Modern military tactics were honed over centuries of experimentation and testing. This was a lengthy, expensive, and bloody process.

The development of appropriate organizations and tactics for AI systems will also likely be expensive, although one can hope that through the use of simulation it will not be bloody. But it may happen quickly. The competitive international environment creates pressure to use machine learning to develop AI organizational structure and tactics, techniques, and procedures as fast as possible.

Despite our considerable experience organizing humans, when dealing with robots with new, unfamiliar, and likely rapidly-evolving personalities we confront something of a blank slate. But we must think beyond established paradigms, beyond the computer as all-powerful or the computer as loyal sidekick.

Humans fight in a hierarchy of groups, each soldier in a squad or each battalion in a brigade exercising a combination of obedience and autonomy. Decisions are constantly made at all levels of the organization. Deciding what decisions can be made at what levels is itself an important decision. In an effective organization, decision-makers at all levels have a good idea of how others will act, even when direct communication is not possible.

Imagine an operation in which several hundred underwater robots are swimming up a river to accomplish a mission. They are spotted and attacked. A decision must be made: Should they retreat? Who decides? Communications will likely be imperfect. Some mid-level commander, likely one of the robot swimmers, will decide based on limited information. The decision will likely be difficult and depend on the intelligence, experience, and judgment of the robot commander. It is essential that the swimmers know who or what is issuing legitimate orders. That is, there will have to be some structure, some hierarchy.

The optimal unit structure will be worked out through experience. Achieving as much experience as possible in peacetime is essential. That means training.

Training Robot Warriors

Robots with AI-enabled technologies will have to be exercised regularly, partly to test them and understand their capabilities and partly to provide them with the opportunity to learn from recreating combat. This doesnt mean that each individual hardware item has to be trained, but that the software has to develop by learning from its mistakes in virtual testbeds and, to the extent that they are feasible, realistic field tests. People learn best from the most realistic training possible. There is no reason to expect machines to be any different in that regard. Furthermore, as capabilities, threats, and missions evolve, robots will need to be continuously trained and tested to maintain effectiveness.

Training may seem a strange word for machine learning in a simulated operational environment. But then, conventional training is human learning in a controlled environment. Robots, like humans, will need to learn what to expect from their comrades. And as they train and learn highly complex patterns, it may make sense to think of such patterns as personalities and memories. At least, the patterns may appear that way to the humans interacting with them. The point of such anthropomorphic language is not that the machines have become human, but that their complexity is such that it is helpful to think in these terms.

One big difference between people and machines is that, in theory at least, the products of machine learning, the code for these memories or personalities, can be uploaded directly from one very experienced robot to any number of others. If all robots are given identical training and the same coded memories, we might end up with a uniformity among a units members that, in the aggregate, is less than optimal for the unit as a whole.

Diversity of perspective is accepted as a valuable aid to human teamwork. Groupthink is widely understood to be a threat. Its reasonable to assume that diversity will also be beneficial to teams of robots. It may be desirable to create a library of many different personalities or memories that could be assigned to different robots for particular missions. Different personalities could be deliberately created by using somewhat different sets of training testbeds to develop software for the same mission.

If AI can create autonomous robots with human-like characteristics, what is the ideal personality mix for each mission? Again, we are using the anthropomorphic term personality for the details of the robots behavior patterns. One could call it a robots programming if that did not suggest the existence of an intentional programmer. The robots personalities have evolved from the robots participation in a very large number of simulations. It is unlikely that any human will fully understand a given personality or be able to fully predict all aspects of a robots behavior.

In a simple case, there may be one optimum personality for all the robots of one type. In more complicated situations, where robots will interact with each other, having robots that respond differently to the same stimuli could make a unit more robust. These are things that military planners can hope to learn through testing and training. Of course, attributes of personality that may have evolved for one set of situations may be less than optimal, or positively dangerous, in another. We talk a lot about artificial intelligence. We dont discuss artificial mental illness. But there is no reason to rule it out.

Of course, humans will need to be trained to interact with the machines. Machine learning systems already often exhibit sophisticated behaviors that are difficult to describe. Its unclear how future AI-enabled robots will behave in combat. Humans, and other robots, will need experience to know what to expect and to deal with any unexpected behaviors that may emerge. Planners need experience to know which plans might work.

But the human-robot relationship might turn out to be something completely different. For all of human history, generals have had to learn their soldiers capabilities. They knew best exactly what their troops could do. They could judge the psychological state of their subordinates. They might even know when they were being lied to. But todays commanders do not know, yet, what their AI might prove capable of. In a sense, it is the AI troops that will have to train their commanders.

In traditional military services, the primary peacetime occupation of the combat unit is training. Every single servicemember has to be trained up to the standard necessary for wartime proficiency. This is a huge task. In a robot unit, planners, maintainers, and logisticians will have to be trained to train and maintain the machines but may spend little time working on their hardware except during deployment.

What would the units look like? What is the optimal unit rank structure? How does the human rank structure relate to the robot rank structure? There are a million questions as we enter uncharted territory. The way to find out is to put robot units out onto test ranges where they can operate continuously, test software, and improve machine learning. AI units working together can learn and teach each other and humans.

Conclusion

AI-enabled robots will need to be organized, trained, and maintained. While these systems will have human-like characteristics, they will likely develop distinct personalities. The military will need an extensive training program to inform new doctrines and concepts to manage this powerful, but unprecedented, capability.

Its unclear what structures will prove effective to manage AI robots. Only by continuous experimentation can people, including computer scientists and military operators, understand the developing world of multi-unit human and robot forces. We must hope that experiments lead to correct solutions. There is no guarantee that we will get it right. But there is every reason to believe that as technology enables the development of new and more complex patterns of robot behavior, new types of military organizations will emerge.

Thomas Hamilton is a Senior Physical Scientist at the nonprofit, nonpartisan RAND Corporation. He has a Ph.D. in physics from Columbia University and was a research astrophysicist at Harvard, Columbia, and Caltech before joining RAND. At RAND he has worked extensively on the employment of unmanned air vehicles and other technology issues for the Defense Department.

Image: Wikicommons (U.S. Air Force photo by Kevin L. Moses Sr.)

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How to Train Your AI Soldier Robots (and the Humans Who Command Them) - War on the Rocks

Human Behavior

Humans serve as an individual function of a greater whole – The Ithacan

The fires in Australia this year have undeniably renewed our sense of urgency in our address of climate change. Our own world is closing in on us, forcing an existential reckoning with how we treat and understand the planet. And while people in positions of greater power obviously hold more responsibility in the matter, I want to suggest that the climate crisis is an opportunity to reunderstand our own relationship to our planet and, by extension, each other. Our societies are like ecosystems. We are not really independent agents. Instead, we are a function of a greater whole, and we only exist in the context of our communities.

It was human behavior that produced the climate crisis in the first place. Inefficient means of energy production, oversized carbon footprints and the capitalistic incentive to value luxury over sustainability have landed us here. This behavior relies on the hidden assumption that our human societies are somehow separate from the planet, as if we can just exchange this one for another once we have ruined it.

This assumption of separation is at work within our societies as well. We tend to think that our lives, including our careers and behaviors, are up to us. This is especially true in our own country. In the global imagination, America is predicated on this very assumption of freedom. The implication is, if you work hard enough, you can be successful no matter where or how you grew up.

Yet, over and over again, statistics about class mobility have shown this implication just isnt true. In fact, something as simple as your zip code can predict your future success.

In reality, our decisions are often the result of external pressures that are outside our control, like responsibility to family, health concerns, social expectations or structural inequalities. In other words, we do not independently determine our own fates. Instead, they are bound up in the giant societal ecosystem within systems that support and rely on one another.

Thinking more honestly about our place as a society in the world and about your place as a person in this society will produce more productive strategies for addressing the societal and global problems were facing today. Essentially, misunderstanding a problem will yield faulty solutions, so reunderstanding the problem will lead to better solutions.

Just as we have operated under a myth of independence within society, we have extended a similar myth to our planet. But as water levels rise and begin to submerge cities and as fires rage and destroy biomes, the truth of our interdependent relationship with nature has become unavoidable. To ensure our own continued existence at the basic existential level, we need to admit that dependence and rebuild cities that coexist with rather than destroy the natural world.

As we change the way we relate to our planet to be more honest, I think it is worth making the same change in the way we relate to the people in our immediate communities and in the global community. If we recognize the ways social inequalities limit our freedom and acknowledge all of our fates are interrelated, we will feel encouraged to work together to pursue common interests rather than working for independent gain.

In an ecosystem, every living and nonliving organism plays its part and depends on the rest of the system. On our planet, nature and society affect and rely on each other. And in societies, we act far more often on outside pressures than on independent will. The sooner we can come to terms with our dependence on others, as well as our planet, the sooner we can progress toward a more sustainable and equitable future.

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Humans serve as an individual function of a greater whole - The Ithacan

Human Behavior

FTSE 100 And Fortune 500 Businesses Join Forces To Tackle The Human-Centered Security Problem – Forbes

An industry-wide consultation process to find a solution to the human-centered cybersecurity puzzle ... [+] has started

Can the OutThink human-risk framework project solve the cybersecurity people puzzle?

Angela Sasse is the professor of human-centered security both at Ruhr University Bochum in Germany and London's UCL. She's also the chief scientific adviser to predictive human risk intelligence platform startup, OutThink, which recently completed a 1.2 million ($1.5 million) seed-funding round. Professor Sasse is to write the world's first comprehensive framework for the management of human risk in cybersecurity. The project, led by OutThink, will run for six months and is already starting to attract buy-in from some Fortune 500, FTSE 100 and Euronext 100 names. To succeed, however, it needs more collaboration from CISOs and security practitioners, which is why Professor Sasse is launching an industry-wide consultation process.

There's certainly little doubting that there is a human side to cybersecurity risk. You only have to read the technology news headlines whenever a major news event, such as coronavirus, strikes. The cyber-criminals looking to exploit human nature are never far behind. With phishing kits for sale that target Amazon, Apple and PayPal users, for example, the social engineering threat is now an off-the-shelf one. And that's before you start looking at other aspects of human risk.

A recent review published by the European Union Agency for Network and Information Security (ENISA) found that there were only a small number of models when it came to the behavioral aspects of cybersecurity. None of these, it concluded, were a "particularly good fit for understanding, predicting, or changing cybersecurity behavior." Indeed, the ENISA report found many ignored the context of cybersecurity behaviors and that there was evidence to support models that enabled "appropriate cybersecurity behavior" had more effect than those relying upon threat awareness training, or punishment, as drivers for more secure conduct. This was what spurred Professor Sasse to start the new initiative. "Investment in technical security measures continues to dominate the way in which CISOs attempt to manage cyber risks," Professor Sasse said, "whilst employees suffer as their productivity is hindered by limiting solutions, meaning they often circumvent security so that they can do their jobs. This framework is the perfect opportunity to right these wrongs."

OutThink human risk framework project buy-in from Vodafone Group and Centrica

Amongst those to already have expressed an interest in the OutThink project are Imogen Verret, head of security awareness at Vodafone Group. "For me, security awareness training is only the starting point," she said, adding, "Im keen to work on the project with OutThink and other security practitioners to design a solution that works for both the business and the employee."

Dexter Casey, group chief security officer at Centrica, has said that the job of a modern CISO is far from easy, which is something of an understatement. "We all know about 'people, process, tech being the three pillars of effective security," Casey said, "and make significant investment to address processes and technology, but there's a serious gap when it comes to sensible guidance on the people side of security." Casey is hopeful that the framework being discussed can provide "realistic, actionable, practical advice for CISOs so that they can solve one of their biggest problems."

I contacted another academic, Daniel Dresner, who is an acquaintance of mine and professor of cybersecurity at the University of Manchester. Professor Dresner says that when he hears that title, a comprehensive framework for the management of human risk, it sounds like another worthy attempt to deal with the challenge of cybersecurity. That it is a separate framework concerns him though, and Professor Dresner says we will continue to fail to properly address security risk because "we should adopt the attitude that there is no such thing as human error, it is just people being human," adding that "mantras of 'weakest link' and then 'strongest asset' have held us back from considering technology and people at the same time." In an email conversation with Professor Dresner, he said that as soon mention of the people side of security is made then "the tired and restrictive practice of denying technology as a solution is rolled out to protect the polarization like the courtiers' fear in 'The Emperor's New Clothes." Therefore, Professor Dresner says, the important basics of the UK National Cyber Security Centre (NCSC) Cyber Essentials, designed to help protect organizations from cyber-attack, are "sacrificed on the altar of too-simple." If considered properly, he says, "you realize that the protection they afford is proportionate, and they are not that simple when scaled up. They are," Professor Dresner concludes, "as simple as possible, but no simpler."

Ian Thornton-Trump, CISO at Cyjax, is also somewhat "pessimistic about frameworks to begin with," he says, "as anyone with a background in the National Institute of Standards and Technology (NIST) cybersecurity framework can understand it's a gargantuan task to audit, let alone implement, without substantial effort and investment across the organization." Apart, that is, for a framework which Thornton-Trump calls out as existing already: "employee morale and organizational stress." It's low morale and stress that causes mistakes or security issues related to insider behavior, Thornton-Trump says, "I wonder how many S3 buckets were made public due to mistakes by IT resources that were under stress and of low morale?" Perhaps folk just need to be better managers and champions of change, he concludes.

One experienced CISO, founder of NSC42 and chair of the Cloud Security Alliance UK chapter, Francesco Cipollone, is more enthusiastic about the opportunity the OutThink project could provide. "The NIST cybersecurity framework is being widely adopted in enterprises and SMBs," Cipollone says. While organizations have initially been focusing on NISTs pillars of identify and protect, "now there is increasing attention on the other two pillars of detect and respond," he says. So, the NIST framework provides guidance on how to detect and respond to a generic attack while the framework proposed by OutThink can focus on human risk. "A holistic view and framework focused on the risks from humans, like the insider threat or misconfiguration issues, is very much needed," Cipollone says. "The recent focus of malicious actors on social engineering in conjunction with open-source intelligence (OSINT) techniques to target the human aspect of an organization, traditionally the weakest link," he concludes, "makes this framework even more valuable."

Professor Sasse is being joined by Dr. Shorful Islam, OutThinks chief product and data officer, who has a Ph.D. in psychology and deep expertise in modeling human behavior but knows for the project to be successful more collaborators are needed. "I am glad to have the buy-in of so many esteemed security professionals," Professor Sasse said, "it validates what we are trying to do and will ensure that the framework suits the needs of the CISO. I would invite anyone else that wants to get involved to get in touch."

If you are a CISO, security practitioner or researcher, and would like to join the project, then you can visit OutThink at booth 1647F at the RSA conference in San Francisco between February 24 and 28, or by email to hello@outthinkthreats.com

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FTSE 100 And Fortune 500 Businesses Join Forces To Tackle The Human-Centered Security Problem - Forbes

Human Behavior

Can Democracy and Free Markets Survive in the Coming Age of AI? – Wall Street Journal

Given all the data that can be gathered by smartphones and sensors, with more to come, the Economist asks in a recent issue whether artificial-intelligence systems could one day replace the autonomous choices on which the market is based?...And if technology can outperform the invisible hand in the economy, might it be able to do the same at the ballot box when it comes to politics?

These questions were raised and tested throughout the 20th century as various governments attempted to redesign their economies and societies in accord with what were believed to be scientific laws. Most such schemes, especially those carried out by authoritarian states, ended up as complete failures. Some went tragically awry, including Stalins collectivization of agriculture in the Soviet Union and Maos Great Leap Forward in China.

Could things be different in the age of AI? Given the proliferation of mobile and internet of Things devices, the next few decades promise to make information as ubiquitous as electricity. The amount and variety of data gathered around the world will continue to grow by leaps and bounds, as will the power and sophistication of the computers and algorithms used to analyze it all.

Last centurys rivalry with the Soviet Union and its communist ideology has been replaced by a rivalry with China and its AI-based central planning. How will such AI-based planning likely work out? The Economist essay references the work of George Washington University professor Henry Farrell, who explored this question in a recent article on the Crooked Timber blog.

The collective wisdom emerging in Washington and other capitals is that China is becoming a kind of all-efficient Technocratic Leviathan thanks to the combination of machine learning and authoritarianism, writes Mr. Farrell.

Central planning based on machine learning must overcome two serious challenges, he says.

First, while machine learning can be applied to just about any domain of knowledge, its methods are most applicable to significantly narrower and more specialized problems than those that humans are capable of handling, and there are many tasks for which machine learning is not effective. In particular, as were frequently reminded, correlation does not imply causation.

Machine learning is a statistical modeling technique, like data mining and business analytics. It finds and correlates patterns between inputs and outputs without necessarily capturing their cause-and-effect relationships. It excels at solving problems in which a wide range of potential inputs must be mapped onto a limited number of outputs; large data sets are available for training the algorithms; and the problems to be solved closely resemble those represented in the training data, e.g., image and speech recognition, language translation. But deviations from these assumptions can lead to poor results. This is clearly the case when attempting to apply machine learning to highly complex and open-ended problems like markets and human behavior.

The second major challenge is that machine learning can serve as a magnifier for existing errors and biases in the data. Garbage in, garbage out applies as much to AI today as it has to computing since its early years. Given that AI algorithms are trained using the vast amounts of data collected over the years, if the data include past racial, gender or other biases, the predictions of these AI algorithms will reflect these biases.

When this data is then used to make decisions that may plausibly reinforce those processes (by singling e.g. particular groups that are regarded as problematic out for particular police attention, leading them to be more liable to be arrested and so on), the bias may feed upon itself, Mr. Farrell writes.

In more open, free-market democratic societies there will always be ways for people to point out and counteract these biases, he says, but in more centrally managed, autocratic societies the correction tendencies will be weaker.

In short, there is a very plausible set of mechanisms under which machine learning and related techniques may turn out to be a disaster for authoritarianism, reinforcing its weaknesses rather than its strengths, by increasing its tendency to bad decision making, and reducing further the possibility of negative feedback that could help correct against errors, Mr. Farrell concludes.

Irving Wladawsky-Berger worked at IBM from 1970 to 2007, and has been a strategic adviser to Citigroup, HBO and Mastercard and a visiting professor at Imperial College. He's been affiliated with MIT since 2005, and is a regular contributor to CIO Journal.

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Can Democracy and Free Markets Survive in the Coming Age of AI? - Wall Street Journal

Human Behavior

A Single-Payer System Like ‘Medicare For All’ Would Save Billions In Billing And Administrative Costs, Study Finds – Kaiser Health News

It would also save about 68,000 American lives a year. The research gives some weight to Sen. Bernie Sanders' (I-Vt.) talking points on the 2020 campaign trail, but the study is also built on assumptions about human behavior and how the system would work in practice that others find fault with. Meanwhile, some say that the Democrats' push for "Medicare for All" could hurt them in Minnesota, a traditionally blue state that has a number of medical-related jobs at stake.

The Washington Post:Here's The Medicare-For-All Study Bernie Sanders Keeps Bringing UpA new analysis published in the journal Lancet adds some empirical heft to an argument many progressives have been making for years: A national single-payer health-care system would save tens of thousands of lives each year and hundreds of billions of dollars. If you watched last nights Democratic debate in Nevada you might have heard Sen. Bernie Sanders (I-Vt.) cite a major study [that] came out from Yale epidemiologist[s] in Lancet, one of the leading medical publications in the world in support of his Medicare-for-all plan. He was talking about this study, which was just published last week. (Ingraham, 2/20)

Bloomberg:Medicare-For-All Could Give Trump An Edge In MinnesotaThe government-run health plan endorsed by Sanders would so radically transform the health care system that its unlikely to be enacted swiftly should he became president, even if Democrats also controlled Congress. That may not matter in Minnesota, a traditionally Democratic state awash in health system work, including the highest percentage of insurance-related and medical device jobs in the country. (Newkirk, 2/21)

In other news from the campaign trail

Kaiser Health News:KHNs What The Health?: The Labor Pains Of Medicare For AllLabor unions are divided over whether to endorse a Democratic candidate for president in 2020 and, if so, whom to choose. Some unions are firmly behind the Medicare for All plans being pushed by Sens. Bernie Sanders and Elizabeth Warren. But the influential Culinary Workers Union in Nevada declined to endorse any candidate, with members worried about what might replace the generous benefits they won by bargaining away wage increases. (2/20)

Concord (N.H.) Monitor:Shaheen Warns Of Potential Obamacare Repeal; Says Backup PlanNeededThe U.S. Supreme Court has a greater than 50% likelihood of overturning the Affordable Care Act in the next two years, Sen. Jeanne Shaheen warned recently, a reality she says should force candidates to focus on health care this election year. At a meeting of New Hampshire health care stakeholders at the New Hampshire Medical Society in Concord last week, Shaheen said that a lawsuit against the law, often referred to as Obamacare, should land at the Supreme Court by 2021. (DeWitt, 2/20)

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A Single-Payer System Like 'Medicare For All' Would Save Billions In Billing And Administrative Costs, Study Finds - Kaiser Health News

Human Behavior

Devastation hits close to home in ‘Dust Bowl,’ a warning from Dallas’ Verdigris Ensemble that it could happen again – The Dallas Morning News

The Dust Bowl isnt some ancient, remote event. The environmental disaster destroyed farmland and displaced populations across the southern U.S. plains less than 100 years ago, including in the Texas Panhandle 500 miles from Dallas.

Searching for subject matter for his choral groups next project, Verdigris Ensemble artistic director Sam Brukhman became interested in the story of dust storms that could turn day into night, in part because the devastation hit so close to home and shows signs of returning amid climate change and the human penchant for folly.

A major climatic event happened in our back yard, and were not talking about it at all, says Brukhman, who conceived the new work Dust Bowl on the suggestion of a friend.

He collaborated with filmmakers, a composer and librettist, bluegrass musicians and his singers to create a multimedia performance premiering Feb. 27-29 in the Arts District with an additional date March 1 in Fort Worth.

This is probably one of the most relevant things weve ever done because its happening as we speak all over the world, not with the frequency that it did in the 30s, but still happening, he says in an interview. Even in the Panhandle, dust storms still occur. Its part of Texas history. Its also a great dialogue to start having about how man-made and environmental catastrophe can happen with a combination of human error and natural events.

For instance, todays Australian bush fires have produced dangerous dust clouds. During the Great Depression, a combination of droughts and the introduction of modern farming techniques led to unprecedented erosion. The natural grasslands that were good at trapping moisture during the dry season had been replaced with cultivated cropland that exposed the topsoil.

Brukhman is interested in locating these larger questions in Dallas history and present-day culture. Last season, Verdigris Faces of Dallas told the stories of residents in ways that connected them to the citys often difficult past. The group also has performed avant-garde composer Julia Wolfes Anthracite Fields, which deals with the lives of Pennsylvania coal miners.

The son of Soviet immigrants and a transplant from central New Jersey, he formed Verdigris in 2017 with the goal of commissioning and performing relevant, contemporary choral music. This year, he quit his middle-school teaching job to focus on the ensemble.

For Dust Bowl, Brukhman immersed himself in the literature and other media that documented the era. John Steinbecks novel The Grapes of Wrath is probably the most famous, along with Dorothea Langes black-and-white photographs of displaced families and Pare Lorentzs 1936 documentary The Plow That Broke the Plains.

He watched Ken Burns 2012 series and read Timothy Egans book The Worst Hard Time. Last summer, Ron Witzke, director of vocal studies and opera at William Jewell College in Liberty, Mo., outside Kansas City, another area hit by the Dust Bowl, traveled the Texas Panhandle and surroundings to gather telling anecdotes for the libretto.

Brukhman met Witzke through another William Jewell professor, director of choral studies Anthony J. Maglione, who composed the score for Dust Bowl. It includes bluegrass music performed live by a band. The piece also features projected documentary footage compiled by filmmakers Camron and Courtney Ware and piles of sand that Brukhman obtained from a touring production of Once on This Island, the Broadway show that recently played the Winspear Opera House. Dust Bowl will be performed in Winspears Hamon Hall.

In newspaper articles and other historical documents containing eyewitness accounts, Witzke discovered scenarios that spoke to the extreme situations that people found themselves in. In Dalhart, Texas, for example, oilfield firefighter and charlatan Tex Thornton convinced locals to pay him the equivalent of $1 million today to launch dynamite into the air on the claim that it would produce rain.

There are moments in this libretto that really give you a sense of the type of characters that were around in the Dust Bowl, Brukhman explains. When people first saw the dust storms, they thought it was the end of the world. We deal with what that felt like.

After the minimalist first movement, The Promise, sets up the environmental dilemma, the Verdigris singers become the residents of Dalhart in the second section, The Peril. That includes protagonists like Thornton and events like the clubbing of jackrabbits that arrived en masse. The choir imitates the eras warning sirens and coughs to convey the effects of the dust.

The towns mayor is quoted about the peril as if its worthy of a tout: Let us all in stentorian tones boast of our terrific and mighty sandstorms and mighty end of a people, a city and a country that can meet the test of courage and still smile, even though we might be choking and our throats and nostrils so laden with dust that we cannot give voice to our feelings.

The third section, The Prophecy, asks whether weve learned from our mistakes without coming to its own conclusion, Brukhman says. At the time, some clergyman blamed sinful human behavior for the disaster.

We start and end at the same place, and we let the audience decide. The three movements, based on Handels Messiah, represent the cycle of human error and the nature cycle. And like the never-ending cycle of our disasters, we could just keep going, doing it forever.

Manuel Mendoza is a Dallas freelance writer and former staff critic at The Dallas Morning News.

Feb. 27-29 at 7:30 p.m. at Hamon Hall, 2403 Flora St., Dallas. $29. March 1 at 7:30 p.m. at St. Stephen Presbyterian Church, 2700 McPherson Ave., Fort Worth. Free. 214-880-0202. verdigrismusic.org. attpac.org.

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Devastation hits close to home in 'Dust Bowl,' a warning from Dallas' Verdigris Ensemble that it could happen again - The Dallas Morning News