Social Foraging
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Dynamics of Social Interaction
Curated by Ashish Umre
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Sudden Progress on Prime Number Problem Has Mathematicians Buzzing

Sudden Progress on Prime Number Problem Has Mathematicians Buzzing | Social Foraging | Scoop.it

On May 13, an obscure mathematician — one whose talents had gone so unrecognized that he had worked at a Subway restaurant to make ends meet — garnered worldwide attention and accolades from the mathematics community for settling a long-standing open question about prime numbers, those numbers divisible by only one and themselves. Yitang Zhang, a lecturer at the University of New Hampshire, showed that even though primes get increasingly rare as you go further out along the number line, you will never stop finding pairs of primes separated by at most 70 million. His finding was the first time anyone had managed to put a finite bound on the gaps between prime numbers, representing a major leap toward proving the centuries-old twin primes conjecture, which posits that there are infinitely many pairs of primes separated by only two (such as 11 and 13).

 

In the months that followed, Zhang found himself caught up in a whirlwind of activity and excitement: He has lectured on his work at many of the nation’s preeminent universities, has received offers of jobs from top institutions in China and Taiwan and a visiting position at the Institute for Advanced Study in Princeton, N.J., and has been told that he will be promoted to full professor at the University of New Hampshire.

Meanwhile, Zhang’s work raised a question: Why 70 million? There is nothing magical about that number — it served Zhang’s purposes and simplified his proof. Other mathematicians quickly realized that it should be possible to push this separation bound quite a bit lower, although not all the way down to two.

 

By the end of May, mathematicians had uncovered simple tweaks to Zhang’s argument that brought the bound below 60 million. A May 30 blog post by Scott Morrison of the Australian National University in Canberra ignited a firestorm of activity, as mathematicians vied to improve on this number, setting one record after another. By June 4, Terence Tao of the University of California, Los Angeles, a winner of the Fields Medal, mathematics’ highest honor, had created a “Polymath project,” an open, online collaboration to improve the bound that attracted dozens of participants.

 

For weeks, the project moved forward at a breathless pace. “At times, the bound was going down every thirty minutes,” Tao recalled. By July 27, the team had succeeded in reducing the proven bound on prime gaps from 70 million to 4,680.

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Distribution of the Fittest Individuals and the Rate of Muller's Ratchet in a Model with Overlapping Generations

Distribution of the Fittest Individuals and the Rate of Muller's Ratchet in a Model with Overlapping Generations | Social Foraging | Scoop.it

Muller's ratchet is a paradigmatic model for the accumulation of deleterious mutations in a population of finite size. A click of the ratchet occurs when all individuals with the least number of deleterious mutations are lost irreversibly due to a stochastic fluctuation. In spite of the simplicity of the model, a quantitative understanding of the process remains an open challenge. In contrast to previous works, we here study a Moran model of the ratchet with overlapping generations. Employing an approximation which describes the fittest individuals as one class and the rest as a second class, we obtain closed analytical expressions of the ratchet rate in the rare clicking regime. As a click in this regime is caused by a rare, large fluctuation from a metastable state, we do not resort to a diffusion approximation but apply an approximation scheme which is especially well suited to describe extinction events from metastable states. This method also allows for a derivation of expressions for the quasi-stationary distribution of the fittest class. Additionally, we confirm numerically that the formulation with overlapping generations leads to the same results as the diffusion approximation and the corresponding Wright-Fisher model with non-overlapping generations.

 

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A Neurocomputational Model of the Mismatch Negativity

A Neurocomputational Model of the Mismatch Negativity | Social Foraging | Scoop.it

The mismatch negativity (MMN) is an event related potential evoked by violations of regularity. Here, we present a model of the underlying neuronal dynamics based upon the idea that auditory cortex continuously updates a generative model to predict its sensory inputs. The MMN is then modelled as the superposition of the electric fields evoked by neuronal activity reporting prediction errors. The process by which auditory cortex generates predictions and resolves prediction errors was simulated using generalised (Bayesian) filtering – a biologically plausible scheme for probabilistic inference on the hidden states of hierarchical dynamical models. The resulting scheme generates realistic MMN waveforms, explains the qualitative effects of deviant probability and magnitude on the MMN – in terms of latency and amplitude – and makes quantitative predictions about the interactions between deviant probability and magnitude. This work advances a formal understanding of the MMN and – more generally – illustrates the potential for developing computationally informed dynamic causal models of empirical electromagnetic responses.

 

Paper: http://www.ploscompbiol.org/article/info%3Adoi%2F10.1371%2Fjournal.pcbi.1003288

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Predictive Coding of Dynamical Variables in Balanced Spiking Networks

Predictive Coding of Dynamical Variables in Balanced Spiking Networks | Social Foraging | Scoop.it

Two observations about the cortex have puzzled neuroscientists for a long time. First, neural responses are highly variable. Second, the level of excitation and inhibition received by each neuron is tightly balanced at all times. Here, we demonstrate that both properties are necessary consequences of neural networks that represent information efficiently in their spikes. We illustrate this insight with spiking networks that represent dynamical variables. Our approach is based on two assumptions: We assume that information about dynamical variables can be read out linearly from neural spike trains, and we assume that neurons only fire a spike if that improves the representation of the dynamical variables. Based on these assumptions, we derive a network of leaky integrate-and-fire neurons that is able to implement arbitrary linear dynamical systems. We show that the membrane voltage of the neurons is equivalent to a prediction error about a common population-level signal. Among other things, our approach allows us to construct an integrator network of spiking neurons that is robust against many perturbations. Most importantly, neural variability in our networks cannot be equated to noise. Despite exhibiting the same single unit properties as widely used population code models (e.g. tuning curves, Poisson distributed spike trains), balanced networks are orders of magnitudes more reliable. Our approach suggests that spikes do matter when considering how the brain computes, and that the reliability of cortical representations could have been strongly underestimated.

 

Paper: http://www.ploscompbiol.org/article/info%3Adoi%2F10.1371%2Fjournal.pcbi.1003258

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Cheaters Use Cognitive Tricks to Rationalize Infidelity

Cheaters Use Cognitive Tricks to Rationalize Infidelity | Social Foraging | Scoop.it

Most people believe that they are moral and good. They also believe cheating on a partner is wrong. So how do cheaters live with themselves after their infidelity? Understanding how they reconcile their indiscretions with their beliefs about themselves can help us figure out why “good people” cheat.

 

Dissonance theory predicts that when individuals’ thoughts and behaviors are inconsistent, something has to give. Have you ever wondered why anyone would be a smoker these days, given what we know about the link between “cancer sticks” and cancer? A smoker knows that smoking causes cancer, but might rationalize it by saying “I don’t smoke very much” or “My grandma smoked two packs a day and lived to be 90 years old!” By coming up with these rationalizations, people are able to preserve the impression that their behaviors and attitudes are consistent.

 

Similarly, cheaters might minimize the significance of their infidelity as a way to cope with knowing they did something wrong. The authors of a new study published in the Journal of Social and Personal Relationships propose that cheaters feel bad about their indiscretions, but try to feel better by reframing their past infidelities as uncharacteristic or out-of-the-ordinary behavior.

 

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ESA Swarm satellites to chart Earth's magnetic field

ESA Swarm satellites to chart Earth's magnetic field | Social Foraging | Scoop.it

The European Space Agency will launch three satellites this week from Russia’s Plesetsk Cosmodrome to gather data about the Earth’s magnetic field over the next few years. The planet’s magnetic poles have been shifting more and more rapidly over the last couple of decades, possibly as part of their usual flip from north to south every few hundred thousand years. The so-called “Swarm” mission will tell us about that and myriad other factors affecting the magnetic field surrounding Earth.

 

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Edible sensors that fit inside pills and tell your doctor when pills are taken predicted to be released in 2014

Edible sensors that fit inside pills and tell your doctor when pills are taken predicted to be released in 2014 | Social Foraging | Scoop.it

"If you look at every healthcare system in the world, it's finished," says Don Cowling, VP at Proteus Digital Health. "Instead of spending $10 billion (£6.4billion) trying to find a new molecule, why not spend half a billion getting today's products working properly?" That's what he is doing at California and London-based Proteus Digital Health, which harvests biological data using ingestible sensors and skin patches, to improve diagnosis and treatments already available. It's making edible sensors that fit inside pills and tell your doctor when pills are taken. They're expected to come to market in late 2014.

 

When a patient takes pills erratically and their condition worsens, a doctor may simply up the dose. Proteus is building silicon, copper and magnesium chips of about 1mm squared that can be inserted into tablets -- these report via Bluetooth when a pill's been taken.

 

In May, the firm announced a $62.5 million (£38.9 million) funding round, including investment from Oracle. But smart pills are just the start, says Cowling. Proteus's patch sensor can gather dozens of other data points, including heart rate, to present a sophisticated picture of patient health -- like a medical-grade FuelBand. "We can now get a formal classification of what disability looks like -- we can measure it." 


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Elvin Joel Estrada's curator insight, November 20, 2013 1:55 PM

Modern Medicine,  is breaking your privacy?

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Cultural Evolution: Society, technology, language and religion (Book)

Cultural Evolution: Society, technology, language and religion (Book) | Social Foraging | Scoop.it

Over the past few decades, a growing body of research has emerged from a variety of disciplines to highlight the importance of cultural evolution in understanding human behavior. Wider application of these insights, however, has been hampered by traditional disciplinary boundaries. To remedy this, in this volume leading researchers from theoretical biology, developmental and cognitive psychology, linguistics, anthropology, sociology, religious studies, history, and economics come together to explore the central role of cultural evolution in different aspects of human endeavor.

 

Richerson, P.J. & Christiansen, M.H. (Eds.) (2013). Cultural evolution: Society, technology, language and religion. Cambridge, MA: MIT Press. http://mitpress.mit.edu/books/cultural-evolution


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Companion Robot Can Talk to You in 19 Languages [VIDEO]

Companion Robot Can Talk to You in 19 Languages [VIDEO] | Social Foraging | Scoop.it

Designed for companionship, a new toddler-sized robot can hold a conversation in 19 different languages.

 

Built by Paris-based robotics company Aldebaran and infused with language-learning software developed by voice-technology company Nuance, the robot has a voice that doesn't sound much older than it looks. The android can walk, brace itself if it falls and will develop its own personality as it gets better at speaking through repetition.

 

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A Neuroscientist's Radical Theory of How Networks Become Conscious

A Neuroscientist's Radical Theory of How Networks Become Conscious | Social Foraging | Scoop.it

It’s a question that’s perplexed philosophers for centuries and scientists for decades: Where does consciousness come from? We know it exists, at least in ourselves. But how it arises from chemistry and electricity in our brains is an unsolved mystery.

 

Neuroscientist Christof Koch, chief scientific officer at the Allen Institute for Brain Science, thinks he might know the answer. According to Koch, consciousness arises within any sufficiently complex, information-processing system. All animals, from humans on down to earthworms, are conscious; even the internet could be. That’s just the way the universe works.

 

“The electric charge of an electron doesn’t arise out of more elemental properties. It simply has a charge,” says Koch. “Likewise, I argue that we live in a universe of space, time, mass, energy, and consciousness arising out of complex systems.”

 

What Koch proposes is a scientifically refined version of an ancient philosophical doctrine called panpsychism — and, coming from someone else, it might sound more like spirituality than science. But Koch has devoted the last three decades to studying the neurological basis of consciousness. His work at the Allen Institute now puts him at the forefront of the BRAIN Initiative, the massive new effort to understand how brains work, which will begin next year.

Koch’s insights have been detailed in dozens of scientific articles and a series of books, including last year’s Consciousness: Confessions of a Romantic Reductionist. WIRED talked to Koch about his understanding of this age-old question.

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Exercising While Pregnant Gives Newborns a Real Head Start

Exercising While Pregnant Gives Newborns a Real Head Start | Social Foraging | Scoop.it

Many doctors suggest that women take it easy during their pregnancies. However, being active might actually be the best thing for newborn noggins. New research shows that as little as 20 minutes of exercise, three times a week, is enough to give their babies a head start in brain development.

 

Scientists at the University of Montreal wondered if the benefits of exercise for cognition might transfer from mother to baby.

 

To study this, they asked a group of pregnant women to work out for a minimum of 20 minutes, three times per week, at a moderate intensity of 55 percent of their maximal aerobic capacity. The researchers met with the subjects monthly to ensure they adapted their intensity levels to their advancing pregnancy. The participants of a control group were asked not to exercise, and were excluded if they worked out more than the minimal amount performed by the exercise group. The control group was also monitored monthly.  

 

Ten days after each infant was born, the child’s brain activity was measured using electroencephalography (EEG). Each infant’s auditory memory and ability to discriminate sounds was also measured by studying his or her brain’s electrical activity in reaction to pitches while asleep in the mother’s lap. Different brain reactions to new sounds confirmed a child’s ability to discriminate among the sounds. “We then measured auditory memory by means of the brains unconscious response to repeated and novel sounds,” Élise Labonté-LeMoyne, an exercise science graduate student, said in a prepared statement.

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How to launch a startup without knowing a line of code

How to launch a startup without knowing a line of code | Social Foraging | Scoop.it

Tal Raviv is the co-founder of Ecquire. This post was originally published on OnStartups.


There is an unspoken rule: to launch a startup, you need to build a product, and to do that you need someone that can write code.

 

Whether that means chasing down a technical co-founder, learning to code, or even building that “Lean MVP” – the conventional wisdom is that without tech abilities you’re nothing more than a dude (or dudette) with a Powerpoint.

 

A growing number of startups, however, are quietly disproving this assumption.

 

They’re getting their first customers with minimal technology, and often no code at all. Instead of building fancy technology from the outset, they’re hacking together inexpensive online tools such as online forms, drag-and-drop site builders, advanced WordPress plugins, and eCommerce providers.

 

They’re jumping right in to serve customers in any way possible – heading right for their first paying customers.

 

Most importantly, unlike the majority of their peers, by the time they start building a product, they already have a humming business.

 

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Interdependent Networks: Structure, Dynamics and Evolution, CASM special issue

Not only are our interactions limited and thus best described not by well-mixed models but rather by models entailing networks, it is also a fact that these networks are often interconnected and indeed very much interdependent. From the World economy to Google Circles, it is clear that processes taking place in one network might affect what is happening in many other networks. Within an interdependent system, each type of interaction has certain relevance or meaning, so that treating all the links identically inevitably leads to information loss. Interdependent or multiplex networks are therefore a much better description of such systems, and this Special Issue is devoted to their structure, dynamics and evolution, as well as to the study of emergent properties in multi-layered systems in general. Topics of interest include but are not limited to the spread of epidemics and information, synchronization, diffusion, random walks, collective behavior and evolutionary games on interdependent networks.

Deadline for submissions: June 30, 2014

 

http://www.casmodeling.com

Click here to edit the content


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Average Is Optimal: An Inverted-U Relationship between Trial-to-Trial Brain Activity and Behavioral Performance

Average Is Optimal: An Inverted-U Relationship between Trial-to-Trial Brain Activity and Behavioral Performance | Social Foraging | Scoop.it

It is well known that even under identical task conditions, there is a tremendous amount of trial-to-trial variability in both brain activity and behavioral output. Thus far the vast majority of event-related potential (ERP) studies investigating the relationship between trial-to-trial fluctuations in brain activity and behavioral performance have only tested a monotonic relationship between them. However, it was recently found that across-trial variability can correlate with behavioral performance independent of trial-averaged activity. This finding predicts a U- or inverted-U- shaped relationship between trial-to-trial brain activity and behavioral output, depending on whether larger brain variability is associated with better or worse behavior, respectively. Using a visual stimulus detection task, we provide evidence from human electrocorticography (ECoG) for an inverted-U brain-behavior relationship: When the raw fluctuation in broadband ECoG activity is closer to the across-trial mean, hit rate is higher and reaction times faster. Importantly, we show that this relationship is present not only in the post-stimulus task-evoked brain activity, but also in the pre-stimulus spontaneous brain activity, suggesting anticipatory brain dynamics. Our findings are consistent with the presence of stochastic noise in the brain. They further support attractor network theories, which postulate that the brain settles into a more confined state space under task performance, and proximity to the targeted trajectory is associated with better performance.

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Communication and Common Interest

Communication and Common Interest | Social Foraging | Scoop.it

Explaining the maintenance of communicative behavior in the face of incentives to deceive, conceal information, or exaggerate is an important problem in behavioral biology. When the interests of agents diverge, some form of signal cost is often seen as essential to maintaining honesty. Here, novel computational methods are used to investigate the role of common interest between the sender and receiver of messages in maintaining cost-free informative signaling in a signaling game. Two measures of common interest are defined. These quantify the divergence between sender and receiver in their preference orderings over acts the receiver might perform in each state of the world. Sampling from a large space of signaling games finds that informative signaling is possible at equilibrium with zero common interest in both senses. Games of this kind are rare, however, and the proportion of games that include at least one equilibrium in which informative signals are used increases monotonically with common interest. Common interest as a predictor of informative signaling also interacts with the extent to which agents' preferences vary with the state of the world. Our findings provide a quantitative description of the relation between common interest and informative signaling, employing exact measures of common interest, information use, and contingency of payoff under environmental variation that may be applied to a wide range of models and empirical systems.

 

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Dynamical Adaptation in Photoreceptors

Dynamical Adaptation in Photoreceptors | Social Foraging | Scoop.it

Adaptation is at the heart of sensation and nowhere is it more salient than in early visual processing. Light adaptation in photoreceptors is doubly dynamical: it depends upon the temporal structure of the input and it affects the temporal structure of the response. We introduce a non-linear dynamical adaptation model of photoreceptors. It is simple enough that it can be solved exactly and simulated with ease; analytical and numerical approaches combined provide both intuition on the behavior of dynamical adaptation and quantitative results to be compared with data. Yet the model is rich enough to capture intricate phenomenology. First, we show that it reproduces the known phenomenology of light response and short-term adaptation. Second, we present new recordings and demonstrate that the model reproduces cone response with great precision. Third, we derive a number of predictions on the response of photoreceptors to sophisticated stimuli such as periodic inputs, various forms of flickering inputs, and natural inputs. In particular, we demonstrate that photoreceptors undergo rapid adaptation of response gain and time scale, over ~ 300 ms—i. e., over the time scale of the response itself—and we confirm this prediction with data. For natural inputs, this fast adaptation can modulate the response gain more than tenfold and is hence physiologically relevant.

 

Paper: http://www.ploscompbiol.org/article/info%3Adoi%2F10.1371%2Fjournal.pcbi.1003289

 

 

 

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Genetic Architecture Promotes the Evolution and Maintenance of Cooperation

Genetic Architecture Promotes the Evolution and Maintenance of Cooperation | Social Foraging | Scoop.it

When cooperation has a direct cost and an indirect benefit, a selfish behavior is more likely to be selected for than an altruistic one. Kin and group selection do provide evolutionary explanations for the stability of cooperation in nature, but we still lack the full understanding of the genomic mechanisms that can prevent cheater invasion. In our study we used Aevol, an agent-based, in silico genomic platform to evolve populations of digital organisms that compete, reproduce, and cooperate by secreting a public good for tens of thousands of generations. We found that cooperating individuals may share a phenotype, defined as the amount of public good produced, but have very different abilities to resist cheater invasion. To understand the underlying genetic differences between cooperator types, we performed bio-inspired genomics analyses of our digital organisms by recording and comparing the locations of metabolic and secretion genes, as well as the relevant promoters and terminators. Association between metabolic and secretion genes (promoter sharing, overlap via frame shift or sense-antisense encoding) was characteristic for populations with robust cooperation and was more likely to evolve when secretion was costly. In mutational analysis experiments, we demonstrated the potential evolutionary consequences of the genetic association by performing a large number of mutations and measuring their phenotypic and fitness effects. The non-cooperating mutants arising from the individuals with genetic association were more likely to have metabolic deleterious mutations that eventually lead to selection eliminating such mutants from the population due to the accompanying fitness decrease. Effectively, cooperation evolved to be protected and robust to mutations through entangled genetic architecture. Our results confirm the importance of second-order selection on evolutionary outcomes, uncover an important genetic mechanism for the evolution and maintenance of cooperation, and suggest promising methods for preventing gene loss in synthetically engineered organisms.

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Writing Can Help Injuries Heal Faster: Expressive writing may lead to faster recovery from injury

Writing Can Help Injuries Heal Faster:     Expressive writing may lead to faster recovery from injury | Social Foraging | Scoop.it

Expressive writing is known to help assuage psychological trauma and improve mood. Now studies suggest that such writing, characterized by descriptions of one's deepest thoughts and feelings, also benefits physical health.

 

Researchers in New Zealand investigated whether expressive writing could help older adults heal faster after a medically necessary biopsy. In the study, 49 healthy adults aged 64 to 97 years wrote about either upsetting events or daily activities for 20 minutes, three days in a row. After a time lag of two weeks, to make sure any initial negative feelings stirred up by recalling upsetting events had passed, all the subjects had a biopsy on the arm, and photographs over the next 21 days tracked its healing. On the 11th day, 76 percent of the group that did expressive writing had fully healed as compared with 42 percent of the control group.

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Priscila Borba's curator insight, November 23, 2013 12:09 PM

Interesting concept in light of how emotionally distressing biopsies can be for patients who undergo them. The psychological components of healing and the creative power of the mind should not be overlooked! 

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Glowing Worms Illuminate Roots of Behavior in Animals

Glowing Worms Illuminate Roots of Behavior in Animals | Social Foraging | Scoop.it

Researchers develop novel method to image worm brain activity and screen early stage compounds aimed at treating autism and anxiety.

 

A research team at Worcester Polytechnic Institute (WPI) and The Rockefeller University in New York has developed a novel system to image brain activity in multiple awake and unconstrained worms. The technology, which makes it possible to study the genetics and neural circuitry associated with animal behavior, can also be used as a high-throughput screening tool for drug development targeting autism, anxiety, depression, schizophrenia, and other brain disorders.

 

The team details their technology and early results in the paper "High-throughput imaging of neuronal activity in Caenorhabditis elegans," published on-line in advance of print by the journal Proceedings of the National Academy of Sciences .

 

"One of our major objectives is to understand the neural signals that direct behavior—how sensory information is processed through a network of neurons leading to specific decisions and responses," said Dirk Albrecht, PhD, assistant professor of biomedical engineering at WPI and senior author of the paper. Albrecht led the research team both at WPI and at Rockefeller, where he served previously as a postdoctoral researcher in the lab of Cori Bargmann, PhD, a Howard Hughes Medical Institute Investigator and a co-author of the new paper.

 

To study neuronal activity, Albrecht’s lab uses the tiny worm Caenorhabditis elegans (C. elegans), a nematode found in many environments around the world. A typical adult C. elegans is just 1 millimeter long and has 969 cells, of which 302 are neurons. Despite its small size, the worm is a complex organism able to do all of the things animals must do to survive. It can move, eat, mate, and process environmental cues that help it forage for food or react to threats. As a bonus for researchers, C.elegans is transparent. By using various imaging technologies, including optical microscopes, one can literally see into the worm and watch physiological processes in real time.

 

In addition to watching the head neurons light up as they picked up odor cues, the new system can trace signaling through "interneurons." These are pathways that connect external sensors to the rest of the network (the "worm brain") and send signals to muscle cells that adjust the worm's movement based on the cues. Numerous brain disorders in people are believed to arise when neural networks malfunction. In some cases the malfunction is dramatic overreaction to a routine stimulus, while in others it is a lack of appropriate reactions to important cues. Since C. elegans and humans share many of the same genes, discovering genetic causes for differing neuronal responses in worms could be applicable to human physiology. Experimental compounds designed to modulate the action of nerve cells and neuronal networks could be tested first on worms using Albrecht’s new system. The compounds would be infused in the worm arena, along with other stimuli, and the reaction of the worms’ nervous systems could be imaged and analyzed.


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People with highly superior memory powers of recall are also vulnerable to false memories

People with highly superior memory powers of recall are also vulnerable to false memories | Social Foraging | Scoop.it
People who can accurately remember details of their daily lives going back decades are as susceptible as everyone else to forming fake memories, psychologists and neurobiologists have found.

 

Persons with highly superior autobiographical memory (HSAM, also known as hyperthymesia) -- which was first identified in 2006 by scientists at UC Irvine's Center for the Neurobiology of Learning & Memory -- have the astounding ability to remember even trivial details from their distant past. This includes recalling daily activities of their life since mid-childhood with almost 100 percent accuracy.

 

The lead researcher on the study, Patihis believes it's the first effort to test malleable reconstructive memory in HSAM individuals. Working with neurobiology and behavior graduate student Aurora LePort, Patihis asked 20 people with superior memory and 38 people with average memory to do word association exercises, recall details of photographs depicting a crime, and discuss their recollections of video footage of the United Flight 93 crash on 9/11. (Such footage does not exist.) These tasks incorporated misinformation in an attempt to manipulate what the subjects thought they had remembered.

 

"While they really do have super-autobiographical memory, it can be as malleable as anybody else's, depending on whether misinformation was introduced and how it was processed," Patihis said. "It's a fascinating paradox. In the absence of misinformation, they have what appears to be almost perfect, detailed autobiographical memory, but they are vulnerable to distortions, as anyone else is."

 

He noted that there are still many mysteries about people with highly superior autobiographical memory that need further investigation. LePort, for instance, is studying forgetting curves (which involve how many autobiographical details people can remember from one day ago, one week ago, one month ago, etc., and how the number of details decreases over time) in both HSAM and control participants and will employ functional MRI to better understand the phenomenon.

 

"What I love about the study is how it communicates something that memory distortion researchers have suspected for some time: that perhaps no one is immune to memory distortion," Patihis said. "It will probably make some nonexperts realize, finally, that if even memory prodigies are susceptible, then they probably are too. This teachable moment is almost as important as the scientific merit of the study. It could help educate people -- including those who deal with memory evidence, such as clinical psychologists and legal professionals -- about false memories."


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4 Bio-Inspired Tips to Create Better Teams

4 Bio-Inspired Tips to Create Better Teams | Social Foraging | Scoop.it

"There’s an entire industry built around how to be a better leader and build strong, dynamic teams. But for the last few years, my colleague and dear friend Jane Fulton Suri and I have been looking to the earth and seas and sky for inspiration. A Partner, Chief Creative Officer, and a founding member of IDEO’s human-centered design practice, Jane believes that the natural world has much to teach us about cultivating the optimal conditions for creative teams. Together, with help from design biologist Tim McGee, we’ve come up with a few bio-inspired tips."


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SFI MOOC: Introduction to Dynamical Systems and Chaos

SFI MOOC: Introduction to Dynamical Systems and Chaos | Social Foraging | Scoop.it

This course will begin on January 6, 2014.  If you are enrolled, you will receive email notification that the course has started. 
In this course you'll gain an introduction to the modern study of dynamical systems, the interdisciplinary field of applied mathematics that studies systems that change over time. 
Topics to be covered include: phase space, bifurcations, chaos, the butterfly effect, strange attractors, and pattern formation.

 

Introduction to Dynamical Systems and Chaos (Winter, 2014)
Instructor: David Feldman

http://www.complexityexplorer.org/online-courses/4


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Evolutionary perspectives on collective decision making: Studying the implications of diversity and social network structure with agent-based simulations

Collective, especially group-based, managerial decision making is crucial in organizations. Using an evolutionary theory approach to collective decision making, agent-based simulations were conducted to investigate how collective decision making would be affected by the agents' diversity in problem understanding and/or behavior in discussion, as well as by their social network structure. Simulation results indicated that groups with consistent problem understanding tended to produce higher utility values of ideas and displayed better decision convergence, but only if there was no group-level bias in collective problem understanding. Simulation results also indicated the importance of balance between selection-oriented (i.e., exploitative) and variation-oriented (i.e., explorative) behaviors in discussion to achieve quality final decisions. Expanding the group size and introducing non-trivial social network structure generally improved the quality of ideas at the cost of decision convergence. Simulations with different social network topologies revealed that collective decision making on small-world networks with high local clustering tended to achieve highest decision quality more often than on random or scale-free networks. Implications of this evolutionary theory and simulation approach for future managerial research on collective, group, and multi-level decision making are discussed.

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Worm-like movements propel octopus ballet: Although apparently lacking in central coordination, tentacles can execute complex movements.

Worm-like movements propel octopus ballet: Although apparently lacking in central coordination, tentacles can execute complex movements. | Social Foraging | Scoop.it

To researchers who study how living things move, the octopus is an eight-legged marvel, managing its array of undulating appendages by means of a relatively simple nervous system. Some studies have suggested that each of the octopus’s tentacles has a 'mind' of its own, without rigid central coordination by the animal’s brain

 

Now neuroscientist Guy Levy and his colleagues at the Hebrew University in Jerusalem report that the animals can rotate their bodies independently of their direction of movement, reorienting them while continuing to crawl in a straight line. And, unlike species that use their limbs to move forward or sideways relative to their body's orientation, octopuses tend to slither around in all directions.

 

The team presented its findings on 10 November at the annual meeting of the Society for Neuroscience in San Diego, California.

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Multidisciplinary applications of complex networks modeling, simulation, visualization, and analysis

(...) complex systems are characterized by the interactions between their numerous elements. The word ‘complex’ comes from the Latin plexus which means entwined. In other words, it is difficult to correlate global properties of complex systems with the properties of the individual constituent components. This is primarily because the interactions between these individual elements partly determine the future states of the system (Gershenson 2013). If these interactions are not included in the developed models, the models would not be an accurate reflection of the modelled phenomenon.

 

Gershenson, C. & M. A. Niazi (2013). Multidisciplinary applications of complex networks modeling, simulation, visualization, and analysis. Complex Adaptive Systems Modeling 1:17  http://dx.doi.org/10.1186/2194-3206-1-17


Via Complexity Digest
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