Chapter 16. None
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Shefali Luthra Prescription drug prices continue to climb, putting the pinch on consumers. Some older Americans appear to be seeking an alternative to mainstream medicines that has become easier to get legally in many parts of the country. Just ask Cheech and Chong. Research published Wednesday found that states that legalized medical marijuana — which is sometimes recommended for symptoms like chronic pain, anxiety or depression — saw declines in the number of Medicare prescriptions for drugs used to treat those conditions and a dip in spending by Medicare Part D, which covers the cost on prescription medications. Because the prescriptions for drugs like opioid painkillers and antidepressants — and associated Medicare spending on those drugs — fell in states where marijuana could feasibly be used as a replacement, the researchers said it appears likely legalization led to a drop in prescriptions. That point, they said, is strengthened because prescriptions didn't drop for medicines such as blood-thinners, for which marijuana isn't an alternative. The study, which appears in Health Affairs, examined data from Medicare Part D from 2010 to 2013. It is the first study to examine whether legalization of marijuana changes doctors' clinical practice and whether it could curb public health costs. The findings add context to the debate as more lawmakers express interest in medical marijuana. This year, Ohio and Pennsylvania passed laws allowing the drug for therapeutic purposes, making it legal in 25 states, plus Washington, D.C. The approach could also come to a vote in Florida and Missouri this November. A federal agency is considering reclassifying medical marijuana under national drug policy to make it more readily available. © 2016 npr
Keyword: Drug Abuse
Link ID: 22406 - Posted: 07.07.2016
By Emily Rosenzweig Life deals most of us a consistent stream of ego blows, be they failures at work, social slights, or unrequited love. Social psychology has provided decades of insight into just how adept we are at defending ourselves against these psychic threats. We discount negative feedback, compare ourselves favorably to those who are worse off than us, attribute our failures to others, place undue value on our own strengths, and devalue opportunities denied to us–all in service of protecting and restoring our sense of self-worth. As a group, this array of motivated mental processes that support mood repair and ego defense has been called the “psychological immune system.” Particularly striking to social psychologists is our ability to remain blind to our use of these motivated strategies, even when it is apparent to others just how biased we are. However there are times when we either cannot remain blind to our own psychological immune processes, or where we may find ourselves consciously wanting to use them expressly for the purpose of restoring our ego or our mood. What then? Can we believe a conclusion we reach even when we know that we arrived at it in a biased way? For example, imagine you’ve recently gone through a breakup and want to get over your ex. You decide to make a mental list of all of their character flaws in an effort to feel better about the relationship ending. A number of prominent social psychologists have suggested you’re out of luck—knowing that you’re focusing only on your ex’s worst qualities prevents you from believing the conclusion you’ve come to that you’re better off without him or her. In essence, they argue that we must remain blind to our own biased mental processes in order to reap their ego-restoring benefits. And in many ways this closely echoes the position that philosophers like Mele have taken about the possibility of agentic self-deception. © 2016 Scientific American
By Patrick Monahan Animals like cuttlefish and octopuses can rapidly change color to blend into the background and dazzle prospective mates. But there’s only one problem: As far as we know, they can’t see in color. Unlike our eyes, the eyes of cephalopods—cuttlefish, octopuses, and their relatives—contain just one kind of color-sensitive protein, apparently restricting them to a black and white view of the world. But a new study shows how they might make do. By rapidly focusing their eyes at different depths, cephalopods could be taking advantage of a lensing property called “chromatic blur.” Each color of light has a different wavelength—and because lenses bend some wavelengths more than others, one color of light shining through a lens can be in focus while another is still blurry. So with the right kind of eye, a quick sweep of focus would let the viewer figure out the actual color of an object based on when it blurs. The off-center pupils of many cephalopods—including the w-shaped pupils of cuttlefish (above)—make this blurring effect more extreme, according to a study published this week in the Proceedings of the National Academy of Sciences. In that study, scientists built a computer model of an octopus eye and showed that—for an object at least one body length away—it could determine the object’s color just by changing focus. Because this is all still theoretical, the next step is testing whether live cephalopods actually see color this way—and whether any other “colorblind” animals might, too. © 2016 American Association for the Advancement of Science.
It's no secret that passwords aren't impenetrable. Even outside of major incidents like the celebrity nude photo hack, or when millions of passwords get released online, like what happened to Twitter recently, many of us may still be at risk of having our data compromised due to password-related security flaws. According to a June 2015 survey from mobile identity company TeleSign, two in five people were notified in the preceding year that their personal information was compromised or that they had been hacked or had their password stolen. But a new technology developed by the BioSense lab at the University of California, Berkeley could make all of that a thing of the past. Over the course of three years, the lab's co-director, John Chuang, and his graduate students have been working on a technology called passthoughts, which would use a person's brainwaves to identify them, according to CNET. The team has found that a passthought — something like a song that someone could sing in their mind — isn't easily forgotten and can achieve a 99-per-cent authentication accuracy rate. The device used to capture passthoughts resembles a telephone headset. It relies on EEG technology, detecting electrical activity in your brain via electrodes strapped to your head. And although Chuang's team say the technology has improved greatly in recent years, the awkwardness of the device might hinder it from being widely adopted. ©2016 CBC/Radio-Canada.
Keyword: Brain imaging
Link ID: 22401 - Posted: 07.06.2016
By Damian Garde, A boy in Pakistan became a local legend as a street performer in recent years by traversing hot coals and lancing his arms with knives without so much as a wince. A thousand miles away, in China, lived a family wracked by excruciating bouts of inexplicable pain, passed down generation after generation. Scientists eventually determined what the boy and the family had in common: mutations in a gene that functions like an on-off switch for agony. Now, a bevy of biotech companies, including Genentech and Biogen, are staking big money on the idea that they can develop drugs that toggle that switch to relieve pain without the risk of addiction. The gene in question is SCN9A, which is responsible for producing a pain-related protein called Nav1.7. In patients who feel nothing, SCN9A is pretty much broken. In those who feel searing random pain, the gene is cranking out far too much Nav1.7. That discovery raises an obvious question: Can blocking Nav1.7 provide relief for many types of pain—and someday, perhaps, replace dangerous opioid therapies? “That’s the dream,” said David Hackos, a senior scientist at Genentech, which has two Nav1.7 treatments in the first stage of clinical development. It’s too early make any sweeping predictions—and, indeed, a Pfizer pill targeting Nav1.7 has already stumbled—but the pharma industry clearly sees the potential for a blockbuster. © 2016 Scientific American
Keyword: Pain & Touch
Link ID: 22400 - Posted: 07.06.2016
Anthony Devlin/ Antidepressant use is at an all-time in high in England, where prescriptions filled for these drugs has doubled over the last decade. Figures from the Health and Social Care Information Centre show that in 2015, 61 million prescriptions were filled for antidepressant drugs, including citalopram and fluoxetine. This is up from 57.1 million in 2014, and 29.4 million back in 2005. “The reasons for this increase in antidepressant prescriptions could include a greater awareness of mental illness and more willingness to seek help,” says Gillian Connor of the charity Rethink Mental Illness. “However, with our overstretched and underfunded mental health services, too often antidepressants are the only treatment available.” UK guidelines suggest that people should be offered antidepressants as a first treatment option for moderate depression, but some critics argue that it would be better to steer people to talking therapies. In May, Andrew Green, a GP in East Riding and chairman of the British Medical Association’s Clinical and Prescribing Subcommittee, told a meeting of the UK’s All-Party Parliamentary Group for Prescribed Drug Dependence that one of the reasons doctors resort to prescribing antidepressants is because the waiting lists for talking therapies are so long. © Copyright Reed Business Information Ltd.
Link ID: 22399 - Posted: 07.06.2016
George Johnson A paper in The British Medical Journal in December reported that cognitive behavioral therapy — a means of coaxing people into changing the way they think — is as effective as Prozac or Zoloft in treating major depression. In ways no one understands, talk therapy reaches down into the biological plumbing and affects the flow of neurotransmitters in the brain. Other studies have found similar results for “mindfulness” — Buddhist-inspired meditation in which one’s thoughts are allowed to drift gently through the head like clouds reflected in still mountain water. Findings like these have become so commonplace that it’s easy to forget their strange implications. Depression can be treated in two radically different ways: by altering the brain with chemicals, or by altering the mind by talking to a therapist. But we still can’t explain how mind arises from matter or how, in turn, mind acts on the brain. This longstanding conundrum — the mind-body problem — was succinctly described by the philosopher David Chalmers at a recent symposium at The New York Academy of Sciences. “The scientific and philosophical consensus is that there is no nonphysical soul or ego, or at least no evidence for that,” he said. Descartes’s notion of dualism — mind and body as separate things — has long receded from science. The challenge now is to explain how the inner world of consciousness arises from the flesh of the brain. © 2016 The New York Times Company
Link ID: 22397 - Posted: 07.05.2016
By Bret Stetka Beloved crank and Seinfeld co-creator Larry David once told an interviewer that he tolerates people like he tolerates lactose — which is to say, I'm assuming, not well. David's particular degree of grumpiness might be extreme, and perhaps embellished in the interest his shtick, but his social misgivings echo those of many in their dotage who’d rather spend time with old friends than deal with the sweat and small talk required to go out and make new ones. Humans may not be alone here. According to new research, our primate cousins also become more socially selective with age, preferring the companionship of their “friends” to monkeys that are less familiar (or maybe just a drag at parties). The findings also hint at a possible evolutionary explanation for why our social preferences change over the years. The work, conducted primarily by researchers from the German Primate Center in Göttingen, Germany, was recently published in the journal Current Biology and entailed observing the behaviors of over 100 Barbary macaque monkeys, an out-going, some might say "screechy," species hailing from North Africa. To get a sense of how interest in non-social vs social stimulation changes over the course of their lifetimes, monkeys of varying ages were observed in the presence of both inanimate objects and other monkeys. They were first presented with three novel objects: animal toys, a see-through cube filled with glitter in a viscous liquid, and a tube baited with food. Those that had reached early adulthood were not interested in the objects without a reward. The younger ones were intrigued by all three. © 2016 Scientific American
Mo Costandi There’s much more to visual perception than meets the eye. What we see is not merely a matter of patterns of light falling on the retina, but rather is heavily influenced by so-called ‘top-down’ brain mechanisms, which can alter the visual information, and other types of sensory information, that enters the brain before it even reaches our conscious awareness. A striking example of this is a phenomenon called inattentional blindness, whereby narrowly focusing one’s attention on one visual stimulus makes us oblivious to other stimuli, even though they otherwise may be glaringly obvious, as demonstrated by the infamous ‘Invisible Gorilla’ study. Now researchers say they have discovered another extreme form of blindness, in which people fail to notice an unexpected image, even when shown by itself and staring them in the face. Marjan Persuh and Robert Melara of the City University of New York designed two experiments to investigate whether people’s prior expectations could block their awareness of meaningful and important visual stimuli. In the first, they recruited 20 student volunteers and asked them to perform a visual discrimination task. They were shown a series of images, consisting of successive pairs of faces, each of which were presented for half a second on a computer screen, and asked to indicate whether each pair showed faces of people of the same or different sex. Towards the end of each session, the participants were presented with a simple shape, which flashed onto the screen for one tenth of a second. They were then asked if they had seen anything new and, after replying, were told that a shape had indeed appeared, and asked to select the correct one from a display of four. This shape recognition task was then repeated in one final control trial. © 2016 Guardian News and Media Limited
Link ID: 22394 - Posted: 07.04.2016
Jackie Goldstein Mental illness has been part of human society throughout recorded history, but how we care for people with mental disorders has changed radically, and not always for the better. In Colonial days, settlers lived in sparsely populated rural communities where sanctuary and community support enabled the tradition of family care brought from England. "Distracted persons" were acknowledged, but erratic behavior wasn't associated with disease. Records indicate unusual tolerance of bizarre behavior. When 18th century Pastor Joseph Moody of York, Maine, unable to face crowds, delivered sermons with a handkerchief covering his face, his behavior was tolerated for three years before he was relieved of his duties. As urban areas grew in size and number, a transient poor population with no access to family support led to almshouses, the first form of institutionalization, inspired by 18th century reforms in Europe. A Philadelphia Quaker who had visited an English retreat brought the idea to this country and in 1817 founded the Friends Asylum, a self-sufficient farm that offered a stress-free environment known as "moral treatment." Other private asylums followed, but they soon became overcrowded. By the late 19th century, this was addressed with larger state hospitals, which soon became overcrowded as well. People with mental disorders are more likely to be stigmatized owing to fear and misunderstanding when they aren't part of the community. And stigmatization can discourage those with a mental disorder from seeking or complying with treatment. © 2016 npr
Link ID: 22393 - Posted: 07.04.2016
By Anthea Rowan The neurologist does not cushion his words. He tells us how it is: “She won’t read again.” I am standing behind my mother. I feel her stiffen. We do not talk of this revelation for days — and when we do, we do it in the garden of the rehab facility where she is recovering from a stroke. The stroke has scattered her memory, but she has not forgotten she will apparently not read again. I was shocked by what the doctor said, she confides. Me, too. Do you believe him? she asks. No — I am emphatic, for her and for me — I don’t. Mum smiles: “Me neither.” The damage wreaked by Mum’s stroke leaked across her brain, set up roadblocks so that the cerebral circuit board fizzes and pops uselessly, with messages no longer neatly passing from “A” to “B.” I tell the neuro: “I thought they’d learn to go via ‘D’ or ‘W.’ Isn’t that what’s supposed to happen — messages reroute?” “Unlikely,” he responds. “In your mother’s case.” Alexia — the loss of the ability to read — is common after strokes, especially, as in my mother’s case, when damage is wrought in the brain’s occipital lobe, which processes visual information. Pure alexia, which is Mum’s diagnosis, is much more rare: She can still write and touch-type, but bizarrely, she cannot read.
By JAN HOFFMAN About 1.4 million adults in the United States identify as transgender, double a widely used previous estimate, according to an analysis based on new federal and state data. As the national debate escalates over accommodations for transgender people, the new figure, though still just 0.6 percent of the adult population, is likely to raise questions about the sufficiency of services to support a population that may be larger than many policy makers assumed. “There’s a saying: ‘You don’t count in policy circles until someone counts you,’” said Gary J. Gates, a demographer and former research director of the group that did the analysis, the Williams Institute at the U.C.L.A. School of Law, which focuses on law and policy issues related to sexual orientation and gender identity. The Williams Institute is the research group that produced a widely accepted estimate five years ago. Its new number was drawn from a much larger federal database than it used to reach the earlier projection of 0.3 percent, or 700,000 people. Noting that younger adults ages 18 to 24 were more likely than older ones to say they were transgender, researchers said that the new estimates reflected in part a growing awareness of transgender identity. The analysis may also reflect the limits of self-reporting in obtaining definitive data. In some states seen as more accepting, more adults identified themselves as transgender. In some states perceived as more resistant, fewer adults did so, even though the surveys were anonymous. The percentage of adults identifying as transgender by state ranged from lows of 0.30 percent in North Dakota, 0.31 percent in Iowa and 0.32 percent in Wyoming to highs of 0.78 percent in Hawaii, 0.76 percent in California and 0.75 percent in Georgia. In some states the results at first glance seemed surprising. In New York, for example, the percentage was 0.51; in Texas it was 0.66. © 2016 The New York Times Company
Keyword: Sexual Behavior
Link ID: 22389 - Posted: 07.02.2016
by Sarah Zielinski Among people, a man stepping aside to let a woman pass through a door first is seen as a gentlemanly — if a bit old-fashioned — act. Among banana fiddler crabs, though, this behavior is a trap — one that lets a male crab coerce a female into a mating she may not have preferred. To catch the attention of a female and lure her into his burrow, a male banana fiddler crab stands outside the entrance to his cave and waves the larger of his two claws. A female will look him over and consider his size, the color of his claw and how he’s waving it. If she likes what she sees, she’ll approach him. She might decide to enter his burrow and check it out, and once inside, she might stick around for mating if she thinks that the burrow has the right conditions for rearing her embryos. When a female approaches a male and his burrow, most males enter first, letting their potential mate follow him down. But many male crabs take another approach, stepping aside and following her into the lair — letting a male trap the female inside and mate with her, researchers report June 15 in PLOS ONE. Christina Painting of the Australian National University in Canberra and colleagues observed banana fiddler crabs in Darwin, Australia, during two mating seasons, watching what happened as males waved their claws and females made their choice. When a female was interested in a male, the guys entered the burrow first 32 percent of the time. While females were more likely to enter a burrow if a male entered first (71 percent versus only 41 percent when the guy stepped aside), the trapping strategy was more successful in getting a mating out of the meeting. When the male followed the female in, 79 percent of females stuck around the mate. But waiting for her to follow resulted in a pairing only 54 percent of the time. © Society for Science & the Public 2000 - 2016
Laurel Hamers Even Amelia Earhart couldn’t compete with the great frigate bird. She flew nonstop across the United States for 19 hours in 1932; the frigate bird can stay aloft up to two months without landing, a new study finds. The seabird saves energy on transoceanic treks by capitalizing on the large-scale movement patterns of the atmosphere, researchers report in the July 1 Science. By hitching a ride on favorable winds, the bird can spend more time soaring and less time flapping its wings. “Frigate birds are really an anomaly,” says Scott Shaffer, an ecologist at San Jose State University in California who wasn’t involved in the study. The large seabird spends much of its life over the open ocean. Both juvenile and adult birds undertake nonstop flights lasting weeks or months, the scientists found. Frigate birds can’t land in the water to catch a meal or take a break because their feathers aren’t waterproof, so scientists weren’t sure how the birds made such extreme journeys. Researchers attached tiny accelerometers, GPS trackers and heart rate monitors to great frigate birds flying from a tiny island near Madagascar. By pooling data collected over several years, the team re-created what the birds were doing minute-by-minute over long flights — everything from how often the birds flapped their wings to when they dived for food. © Society for Science & the Public 2000 - 2016.
Angus Chen At the center of Geel, a charming Belgian town less than an hour's drive from of Antwerp, is a church dedicated to Dymphna, a saint believed to have the power to cure mental disorders. It's a medieval church with stone arches, spires and a half-built bell tower, and it has inspired an unusual centuries-old practice: For over 700 years, residents of Geel have been accepting people with mental disorders, often very severe mental disorders, into their homes and caring for them. It isn't meant to be a treatment or therapy. The people are not called patients, but guests or boarders. They go to Geel and join households to share a life with people who can watch over them. Today, there are about 250 boarders in Geel. One of them is a Flemish man named Luc Ennekans. He's slim and has green eyes, and he's 51 years old. NPR's Lulu Miller went to Geel and met him and his host family there and reported this story for Invisibilia. Like all of the guests in the town today, Ennekans first went to a public psychiatric hospital in Geel that manages the boarder program. Ennekans saw medical professionals and received treatment and an evaluation. Then he was paired with a household. His hosts, Toni Smit and Arthur Shouten, say that living with Ennekans was rough at the start. Ennekans became deeply attached to Smit. "If it were up to Luc, he would be hugging and kissing me all day," Smit says. He showered her with such affection, bringing her flowers, little kisses, linking arms with her on walks, that it began to interfere with Smit and Shouten's marriage. "You couldn't even give each other a hug or Luc is standing behind us," Shouten says. Wrinkles like this are common, according to the couple. They've had six boarders over the years, each with a unique set of challenges. © 2016 npr
By Amina Zafar, CBC News The Zika virus can cause devastating brain defects in newborns with microcephaly, but also in babies with normal-sized heads and those born to women infected late in pregnancy, Brazilian doctors say. In Wednesday's issue of the journal The Lancet, researchers said that of 602 babies born in Brazil with definite or probable Zika cases one in five had head circumferences in the normal range. Dr. Cesar Victora of the Federal University of Pelotas in Rio Grande do Sul, Brazil, and his team say the current focus on screening for microcephaly or small head circumference alone is too narrow. "We should not equate Zika congenital infection with microcephaly," Victora said in an interview from Washington. "We could well have many babies with normal head size who are affected. We will need to think about other exams to screen these babies, such as improving the diagnostic test we have for Zika and also possibly in areas that are undergoing an epidemic, doing ultrasound of the brains of these babies as soon as they are born." The epidemic in the worst-hit northeastern regions of the country peaked in November 2015. While the current season is cooler and mosquitoes aren't reproducing in Brazil, public health authorities continue to advise pregnant women to avoid travel to countries with Zika outbreaks. Countries in South Asia, the Western Pacific Islands, and South and Central America also have outbreaks. ©2016 CBC/Radio-Canada.
Keyword: Development of the Brain
Link ID: 22384 - Posted: 07.01.2016
By Aviva Rutkin MONKEYS controlling a robotic arm with their thoughts. Chicks born with a bit of quail brain spliced in. Rats with their brains synced to create a mind-meld computer. For two days in June, some of neuroscience’s most extraordinary feats were debated over coffee and vegetarian food at the Institute for Research in Cognitive Science in Philadelphia. The idea wasn’t to celebrate these accomplishments but to examine them. Martha Farah, a cognitive neuroscientist at the University of Pennsylvania, assembled a group of scientists, philosophers and policy-makers to discuss the moral implications for the animals involved. “An animal would go from being a thing to a person, with all the moral and legal status that implies“ “Neuroscience is remodelling – in sometimes shocking ways – the conventional boundaries between creatures versus organs versus tissue, between machines versus animals, between one species versus blended species,” Farah told New Scientist. “We thought, let’s look at the ways in which advances in animal neuroscience might raise new ethical issues that haven’t been encountered before, or that might have changed enough that they need revisiting.” It’s a timely question. Animal welfare has been hotly debated in some corners for years, but a handful of recent cases have brought the issue to the fore. Last year, under pressure from activists and Congress, the US National Institutes of Health shut down its chimp research programme, and sent the animals to sanctuaries. © Copyright Reed Business Information Ltd.
Keyword: Animal Rights
Link ID: 22381 - Posted: 06.30.2016
By Gary Stix Bullies often like being bullies—and an entire line of research links aggressive behaviors to brain areas tied to sensations of reward—sites deep below the organ’s surface with names like the ventromedial hypothalamus and the extended amygdala. One lingering puzzle is what precedes the aggressive act. What makes a person—or, in this case, a mouse—lash out? A new study, published June 29 in Nature, shows that the thought of being the aggressor simply feels good to certain animals. I had a fascinating talk this week with Scott Russo from the Icahn School of Medicine at Mount Sinai, the paper’s senior author, who described the significance of these findings. What did your study find? We discovered a brain circuit—connecting the basal forebrain and lateral habenula—that appears to control the motivation of a male mouse to be aggressive and subordinate another male mouse. The significance of these findings is that the circuit seems to be telling an animal that subordinating, or “bullying,” another animal is a rewarding behavior. To test this, we adapted a conditioned place preference protocol—often used to measure the rewarding properties of addictive drugs, whereby mice were allowed to attack an intruder mouse within one of two environmental contexts: When asked which of the two environmental contexts they preferred, aggressive mice chose the environment in which they were allowed to attack the intruder mouse over the environment in which they had no access to the intruder mouse. Interestingly, the basal forebrain and lateral habenula have been previously shown to support conditioned place preference to drugs of abuse, such as nicotine and cocaine, suggesting that similar neural processes mediate rewarding aspects of aggression and addictive substances. © 2016 Scientific American
Link ID: 22380 - Posted: 06.30.2016
When you walk into a room, your eyes process your surroundings immediately: refrigerator, sink, table, chairs. "This is the kitchen," you realize. Your brain has taken data and come to a clear conclusion about the world around you, in an instant. But how does this actually happen? Elissa Aminoff, a research scientist in the Department of Psychology and the Center for the Neural Basis of Cognition at Carnegie Mellon University, shares her insights on what computer modeling can tell us about human vision and memory. What do you do? What interests me is how the brain and the mind understand our visual environment. The visual world is really rich with information, and it’s extremely complex. So we have to find ways to break visual data down. What specific parts of our [visual] world is the brain using to give us what we see? In order to answer that question, we’re collaborating with computer scientists and using computer vision algorithms. The goal is to compare these digital methods with the brain. Perhaps they can help us find out what types of data the brain is working with. Does that mean that our brains function like a computer? That’s something you hear a lot about these days. No, I wouldn’t say that. It’s that computers are giving us the closest thing that we have right now to an analogous mechanism. The brain is really, really complex. It deals with massive amounts of data. We need help in organizing these data and computers can do that. Right now, there are algorithms that can identify an object as a phone or as a mug, just like the brain. But are they doing the same thing? Probably not. © 2016 Scientific American,
Link ID: 22379 - Posted: 06.30.2016
By Aviva Rutkin Machine minds are often described as black boxes, their decision-making processes all but inscrutable. But in the case of machine intelligence, researchers are cracking that black box open and peering inside. What they find is that humans and machines don’t pay attention to the same things when they look at pictures – not at all. Researchers at Facebook and Virginia Tech in Blacksburg got humans and machines to look at pictures and answer simple questions – a task that neural-network-based artificial intelligence can handle. But the researchers weren’t interested in the answers. They wanted to map human and AI attention, in order to shed a little light on the differences between us and them. “These attention maps are something we can measure in both humans and machines, which is pretty rare,” says Lawrence Zitnick at Facebook AI Research. Comparing the two could provide insight “into whether computers are looking in the right place”. First, Zitnick and his colleagues asked human workers on Amazon Mechanical Turk to answer simple questions about a set of pictures, such as “What is the man doing?” or “What number of cats are lying on the bed?” Each picture was blurred, and the worker would have to click around to sharpen it. A map of those clicks served as a guide to what part of the picture they were paying attention to. © Copyright Reed Business Information Ltd.
Link ID: 22378 - Posted: 06.30.2016