Oct 20, 2013

100 Facebook friends show up to defend bullied student -- and he even gets an apology

A high-school bully decided to apologize after 100 Facebook users showed up to rally behind a boy he had accused of having no friends.
Halsey Parkerson stands in front of some of the 50 cars that showed up to his anti-bullying rally (KATU)
South Salem High School Junior Halsey Parkerson got a huge surprise on Friday, when more than 50 cars showed up at his school to help him stand up to a local bully.
KATU reports that on Thursday, Parkerson’s aunt had stopped by his school to have lunch with him. That’s when a bully began taunting Parkerson and saying it didn’t matter because he “didn’t have any friends.”
Parkerson told his aunt that it happened “all the time.” In response, she reached out to an online car club she belongs to on Facebook and asked people to show up to the school for lunch on Friday.
In response, more than 50 cars showed up, carrying at least 100 people. And KATU's 
"It's just unbelievable," Parkerson told KATU. "I now know whenever I get bullied I'll raise my head up and say, 'Sorry, I have too many friends to think I'm being bullied.'"
And the story just gets better from there. When Parkerson and his new friends approached the unnamed bully, he offered Parkerson a high-five and an apology.
“I apologize,” the student, whose identity is being withheld, told Parkerson. “I apologize and I take it back.”
When the mass of cars first showed up at South Salem High School on Friday, Principal David Phelps was immediately alerted of the unusual incident. However, once he learned why all of the visitors had showed up, he decided to let the event continue.

A study from the National Center for Education Statistics estimates that a third of all students have experienced bullying in some form. An even as awareness over school bullying has risen in recent years, the news continues to see tragic stories of children and teens who have been bullied by classmates and peers. CNN reported that a day after an Illinois high school showed students a video on bullying a student committed suicide. When his Brad Lewis found his 15-year-old son's suicide note, he said his son said bullying had pushed him over the edge.
Since Friday, Parkerson said he has received an outpouring of support. On his Facebook page, he wrote:
“Thanks to everyone who was there with me and my family thanks also to the ones who could not make it by all you making a difference,” he wrote. “I truly mean it I’m tearing up thanks guys for standing up with me and helping me make a difference!!”
Parkerson said that while he’s grateful for the incredible show up support, he realizes it was not about him specifically. Rather, it was a public display meant to encourage anyone who is being bullied to seek out support.

"If you're being bullied, stand up and express yourself," Parkerson said. "This is one glorious day."

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New iPhone App Lets You See Which Spy Satellites Are Watching You

New iPhone App Lets You See Which Spy Satellites Are Watching YouIn case you're hungry for personal space situational awareness, or are just plain paranoid, a new iPhone app can tell you when and what imaging spacecraft might have you in sight.
Orbit Logic of Greenbelt, Md., has created SpyMeSat, an app that provides notifications when spy satellites and unclassified imaging satellites are zooming above your head and may be taking your picture. A dynamic map shows orbit tracks and the location of remote sensing satellites with upcoming passes over a user's specified location.
Alex Herz, president of Orbit Logic, said that SpyMeSat is the firm's first app designed for everyday folks, and a product that extends the company's customer base beyond the aerospace, defense and government intelligence communities. [The Top 10 Space Apps]
"I actually got the idea for the app from talking to friends outside the aerospace industry who were always very interested in space and satellites and imaging from space. This app answers those questions in a fun and interactive way," Herz told SPACE.com.
Multiple sources
The SpyMeSat app makes use of multiple sources, including orbit data from the North American Aerospace Defense Command (NORAD). The NORAD spacecraft data come viaCelesTrak, a website designed to provide current orbital software, educational materials and links to software to support tracking satellites and understanding orbital mechanics.
That information is melded with available public information about commercial and international imaging satellites.
The iPhone app user can see a satellite’s trajectory around his or her location, as well as get an alert when a camera-snapping or radar-scanning satellite might be in range.
Moreover, the app user can learn more details about each imaging opportunity, and also peruse a page describing the satellite that's zooming by overhead. According to Orbit Logic, SpyMeSat users can organize the app in several ways, such as modifying the location of interest.
Making a pass
All of the imaging satellites in SpyMeSat are in low-Earth orbit at an altitude of about 500 miles (805 kilometers). Enabled SpyMeSat satellites include such zoom-lens notables as GeoEye, the French space agency’s SPOT-5, India's CartoSat-2A, DigitalGlobe's WorldView satellites and Canada's RADARSAT-2.
Of course, a SpyMeSat imaging-pass notification doesn't necessarily mean that a satellite is taking your picture. An identified satellite could have its camera in off mode or pointed elsewhere along its ground track.
SpyMeSat does not include all imaging spacecraft. No classified imaging satellites, from any nation, have their orbit information published, so these satellites do not show up in the app.
The app does include imaging satellites with resolution capabilities of some 16 feet (5 meters) or better for which orbit information is published by NORAD. For the most part, these are commercial satellites or openly acknowledged government satellites from other countries.
Compatibility needs
When pondering the potential uses of this app, might it not help hide nefarious actions from orbiting eyes — say by a terrorist group, somebody whipping up a batch of plutonium or perhaps those involved in human rights wrongdoing?
Herz said that people have already mentioned possible use of the app by terrorists.
"We were careful to only include satellites that are unclassified and whose orbits are published by NORAD. Even the sensor data — resolution, etc. — was taken only from the websites published by the satellite operators. So everything SpyMeSat is using is open and public. Even the computations are basic orbit math taught in colleges everywhere," Herz said.
"We can also track app downloads by country through the Apple App Store," he added. "So far, no terrorist countries — unless you consider Brazil, Switzerland, Canada, Germany or Australia, terrorist havens."
Responding to a SPACE.com query, John Pike, a leading expert on defense, space and intelligence policy and director of GlobalSecurity.org, said: "Anyone who was trying to hide from such satellites was already doing so."
SpyMeSat requires iOS 6.0 or later. The app is compatible with iPhone, iPad and iPod touch and is optimized for iPhone 5.
Cost of this app is $1.99 on the iTunes Preview website at: https://itunes.apple.com/us/app/spymesat/id691290387?mt=8=Download

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A New Map of How We Think: Top Brain/Bottom Brain

Who hasn't heard that people are either left-brained or right-brained—either analytical and logical or artistic and intuitive, based on the relative "strengths" of the brain's two hemispheres? How often do we hear someone remark about thinking with one side or the other?
A flourishing industry of books, videos and self-help programs has been built on this dichotomy. You can purportedly "diagnose" your brain, "motivate" one or both sides, indulge in "essence therapy" to "restore balance" and much more. Everyone from babies to elders supposedly can benefit. The left brain/right brain difference seems to be a natural law.
Except that it isn't. The popular left/right story has no solid basis in science. The brain doesn't work one part at a time, but rather as a single interactive system, with all parts contributing in concert, as neuroscientists have long known. The left brain/right brain story may be the mother of all urban legends: It sounds good and seems to make sense—but just isn't true.
Peter Oumanski

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The origins of this myth lie in experimental surgery on some very sick epileptics a half-century ago, conducted under the direction of Roger Sperry, a renowned neuroscientist at the California Institute of Technology. Seeking relief for their intractable epilepsy, and encouraged by Sperry's experimental work with animals, 16 patients allowed the Caltech team to cut the corpus callosum, the massive bundle of nerve fibers that connects the two sides of the brain. The patients' suffering was alleviated, and Sperry's postoperative studies of these volunteers confirmed that the two halves do, indeed, have distinct cognitive capabilities.
But these capabilities are not the stuff of popular narrative: They reflect very specific differences in function—such as attending to overall shape versus details during perception—not sweeping distinctions such as being "logical" versus "intuitive." This important fine print got buried in the vast mainstream publicity that Sperry's research generated.
There is a better way to understand the functioning of the brain, based on another, ordinarily overlooked anatomical division—between its top and bottom parts. We call this approach "the theory of cognitive modes." Built on decades of unimpeachable research that has largely remained inside scientific circles, it offers a new way of viewing thought and behavior that may help us understand the actions of people as diverse as Oprah Winfrey, the Dalai LamaTiger Woods and Elizabeth Taylor.
Our theory has emerged from the field of neuropsychology, the study of higher cognitive functioning—thoughts, wishes, hopes, desires and all other aspects of mental life. Higher cognitive functioning is seated in the cerebral cortex, the rind-like outer layer of the brain that consists of four lobes. Illustrations of this wrinkled outer brain regularly show a top-down view of the two hemispheres, which are connected by thick bundles of neuronal tissue, notably the corpus callosum, an impressive structure consisting of some 250 million nerve fibers.
If you move the view to the side, however, you can see the top and bottom parts of the brain, demarcated largely by the Sylvian fissure, the crease-like structure named for the 17th-century Dutch physician who first described it. The top brain comprises the entire parietal lobe and the top (and larger) portion of the frontal lobe. The bottom comprises the smaller remainder of the frontal lobe and all of the occipital and temporal lobes.
Our theory's roots lie in a landmark report published in 1982 by Mortimer Mishkin and Leslie G. Ungerleider of the National Institute of Mental Health. Their trailblazing research examined rhesus monkeys, which have brains that process visual information in much the same way as the human brain. Hundreds of subsequent studies in several fields have helped to shape our theory, by researchers such as Gregoire Borst of Paris Descartes University, Martha Farah of the University of Pennsylvania, Patricia Goldman-Rakic of Yale University, Melvin Goodale of the University of Western Ontario and Maria Kozhevnikov of the National University of Singapore.
This research reveals that the top-brain system uses information about the surrounding environment (in combination with other sorts of information, such as emotional reactions and the need for food or drink) to figure out which goals to try to achieve. It actively formulates plans, generates expectations about what should happen when a plan is executed and then, as the plan is being carried out, compares what is happening with what was expected, adjusting the plan accordingly.
The bottom-brain system organizes signals from the senses, simultaneously comparing what is being perceived with all the information previously stored in memory. It then uses the results of such comparisons to classify and interpret the object or event, allowing us to confer meaning on the world.
The top- and bottom-brain systems always work together, just as the hemispheres always do. Our brains are not engaged in some sort of constant cerebral tug of war, with one part seeking dominance over another. (What a poor evolutionary strategy that would have been!) Rather, they can be likened roughly to the parts of a bicycle: the frame, seat, wheels, handlebars, pedals, gears, brakes and chain that work together to provide transportation.
But here's the key to our theory: Although the top and bottom parts of the brain are always used during all of our waking lives, people do not rely on them to an equal degree. To extend the bicycle analogy, not everyone rides a bike the same way. Some may meander, others may race.
Beyond what is required by a particular situation (your reaction, say, to a car speeding toward you), all of us can use each system in optional ways. You can use the top-brain system to develop simple and straightforward plans, as required by a situation—or you have the option to use it to develop detailed and complex plans (which are not imposed by a situation).
For example, instead of just catching dinner in an unfamiliar city by finding the nearest restaurant, you might formulate a more detailed and complex plan that involves coordinating schedules with a friend, finding the best way to reach different parts of town, discovering which restaurants have tables at specific times and so on. And you can use the bottom-brain system to get a quick sense of what you perceive—or you can use it in optional ways to go "deeper," interpreting even the subtleties of a situation. For example, instead of just noticing the type and size of a restaurant, you might check out how many other people are dining there, the types of cars in the parking lot and so on.
Our theory predicts that people fit into one of four groups, based on their typical use of the two brain systems. Depending on the degree to which a person uses the top and bottom systems in optional ways, he or she will operate in one of four cognitive modes: Mover, Perceiver, Stimulator and Adaptor.
Mover mode results when the top- and bottom-brain systems are both highly utilized in optional ways. Oprah Winfrey, who overcame a difficult childhood to create a formidable TV and publishing empire, illustrates such behavior. According to the theory, people who habitually rely on Mover mode are most comfortable in positions that allow them to plan, act and see the consequences of their actions. They are well suited to being leaders.
Others who seem to typify the Mover mode include: the Wright Brothers, who incorporated lessons from their many failures into designing the successive models that finally led to the first airplane; Franklin Delano Roosevelt, who brought the U.S. out of the Great Depression and led the country during World War II; and the late Nascar chairman Bill France Jr., who began by parking cars and working the concession stands at his father's speedway and eventually grew the sport into a multibillion-dollar business.
Perceiver mode results when the bottom-brain system is highly utilized in optional ways but the top is not. Think of the Dalai Lama or Emily Dickinson. People who habitually rely on Perceiver mode try to make sense in depth of what they perceive; they interpret their experiences, place them in context and try to understand the implications.
But they don't make and execute grand plans. By definition, such people—including naturalists, pastors, novelists—typically lead lives away from the limelight. Those who rely on this mode often play a crucial role in a group; they can make sense of events and provide a bigger picture. In business, they are key members of teams, providing perspective and wisdom but not always getting credit.
Then there is Stimulator mode, which results when the top-brain system is highly utilized but the bottom is not. According to our theory, people who interact with the world in Stimulator mode often create and execute complex and detailed plans (using the top-brain system) but fail to register consistently and accurately the consequences of acting on those plans (using the bottom-brain system). They don't update or correct their plans when events unfold in unexpected ways.
Such people may be creative and original, able to think outside the box even when everybody around them has a fixed way of approaching an issue. At the same time, they may not always note when enough is enough. Their actions can be disruptive, and they may not adjust their behavior appropriately.
Examples of people who illustrate Stimulator mode would include Tiger Woods, who clearly makes ample use of his top-brain system but does not always respond well to the consequences of carrying out his plans, and the late social activist Abbie Hoffman, who effectively organized major protests in the 1960s but reacted poorly when some of his plans went off track.
Finally, there is Adaptor mode, which results when neither the top- nor the bottom-brain system is highly utilized in optional ways. People who think in this mode are not caught up in initiating plans, nor are they fully focused on classifying and interpreting what they experience. Instead, they become absorbed by local events and the immediate requirements of the situation. They are responsive and action-oriented and tend to "go with the flow." Others see them as free-spirited and fun to be with.
Because they can easily embrace the plans of others, those who typically operate in Adaptor mode can be valuable team members. In business, they often form the backbone of an organization, carrying out essential operations.
The New York Yankee slugger Alex Rodriguez and the late Elizabeth Taylor show evidence of often functioning in this mode. Coming to the Yankees in 2004 from the Texas Rangers, where he played Gold Glove-winning shortstop, Mr. Rodriguez agreed to switch to third base to accommodate his new teammate Derek Jeter—"the ultimate team move," as Mr. Rodriguez himself called it. But his ongoing troubles over his alleged use of steroids suggest that Mr. Rodriguez has not learned from his experiences. As for Taylor, she was a great actress—and fun to be around, by all accounts—but her eight marriages suggest that she had difficulty understanding her experiences and making detailed plans.
In applying this new way of looking at the brain at work, it is important to avoid the pitfalls of the left-brain/right-brain story. The top-brain and bottom-brain systems should not be seen in isolation. The key is how they interact—both within individuals and in groups where individuals tend to favor one mode over another.
Individuals who operate in different modes can complement each other to form a successful team. Consider, say, a mayor who has an efficient staff. Her policy experts may be people who habitually operate in Perceiver mode; the person answering phone calls from constituents perhaps habitually uses Adaptor mode; the chief of staff might be someone who often operates in Mover or Stimulator mode (but, if the latter, someone will need to exert quality control on the ideas). All the while, the mayor could be operating in Mover mode. She is at the center, drawing on help as needed.
No one mode is "better" than the others. Each is more or less useful in different circumstances, and each contributes something useful to a team. Our theory leads us to expect that you can work with others most productively when you are aware not just of the strengths and weakness of their preferred modes but also of the strengths and weakness of your own preferred mode.
The injunction to "know thyself" is not exactly news, but science is regularly advancing toward this ancient goal—and we hope that our new theory proves to be a step forward.

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Medical Mystery: Man Sheds Tears of Blood

A young man from Tennessee is living with an alarming medical condition — without warning, he begins to bleed from his eyes. And some of the best doctors in the country are completely stumped by his ailment.
What's more confounding is that the condition is very rare, but some of the only other people known to bleed from the eyes — a condition called haemolacria — are also from Tennessee.
At age 22, Michael Spann was walking down the stairs of his home in Antioch, Tenn., when he was gripped by an extremely painful headache. "I felt like I got hit in the head with a sledgehammer," he told the Tennessean. Moments later, Spann realized that blood was trickling from his eyes, nose and mouth. [The 13 Oddest Medical Case Reports]
The bleeding and headaches became a daily occurrence for Spann; now, about seven years later, they happen only once or twice a week. Though he's hampered by a lack of health insurance, doctors in Tennessee and at the Cleveland Clinic performed an exhaustive series of tests, but were unable to pinpoint a cause or recommend a treatment, according to news reports.
'Thought I was going to die'
In 2009, Calvino Inman was shocked by what he saw in his bathroom mirror: blood streaming from his eyes. "I looked up and saw myself, and I thought I was going to die," he told CNN. The teenager from Rockwood, Tenn., was rushed to the local emergency room, but doctors could offer no insights into the perplexing case. A battery of tests — including a CT scan, an MRI (magnetic resonance imaging) and an ultrasound — offered no clues.
The phenomenon of haemolacria has puzzled doctors for centuries. In the 16th century, Italian physician Antonio Brassavola described a nun who, instead of menstruating, would bleed from her eyes and ears each month. In 1581, Flemish doctor Rembert Dodoens examined a 16-year-old girl "who discharged her flow throughout the eyes, as drops of bloody tears, instead of through the uterus," according to a 2011 report in the journal The Ocular Surface.
Dr. Barrett G. Haik, director of the University of Tennessee's Hamilton Eye Institute in Memphis, co-authored a 2004 review of four known cases of haemolacria, published in the journal Ophthalmic Plastic & Reconstructive Surgery. The authors concluded that "bloody tearing is an unusual clinical entity that concerns patients and can perplex physicians." However, such "cases typically resolve without treatment."
Indeed, in each of the four cases reviewed, the patients — one boy and three girls, ages 6 to 14 — simply stopped weeping blood, and the condition never returned. Haemolacria can be caused by a head injury or other trauma, but these cases, like Inman's and Spann's, were idiopathic (of unknown cause). "When you can't find an origin, you can't eliminate any of the possibilities," Haik told CNN.
"Most of these were relatively young patients," Dr. James Fleming, an ophthalmologist at the Hamilton Eye Institute and co-author of the 2004 review, told the Tennessean. "As they matured, the bleeding decreased, subsided and then stopped."
A reclusive life
Until the bleeding stops, Spann — a talented artist who had hoped to pursue a career in fashion design — is forced to live a reclusive life. "Any job I get, I lose, because my eyes start bleeding and they can't keep me on," Spann said. "Obviously, I can't be a waiter and work in any public thing because you are bleeding."
He is also forced to live with ridicule: "I have kids that ride by on bikes in this neighborhood who point and say, 'That's the guy who bleeds,'" Spann told the Tennessean. "I really don’t want more than that." Spann has tried to contact Inman to share his ordeal with a fellow sufferer, but was unable to connect with him.

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'Bionic man' makes debut at Washington's Air and Space Museum

An engineer makes an adjustment to "The Incredible Bionic Man" at the Smithsonian National Air and Space Museum in WashingtonBy Lacey Johnson
WASHINGTON (Reuters) - A first-ever walking, talking "bionic man" built entirely out of synthetic body parts made his Washington debut on Thursday.
The robot with a human face unveiled at the Smithsonian's National Air and Space Museum was built by London's Shadow Robot Co to showcase medical breakthroughs in bionic body parts and artificial organs.
"This is not a gimmick. This is a real science development," museum director John Dailey said.
The 6-foot-tall (1.83 meter), 170-pound (77-kg) robot is the subject of a one-hour Smithsonian Channel documentary, "The Incredible Bionic Man," airing on Sunday.
A "bionic man" was the material of science fiction in the 1970s when the television show "The Six Million Dollar Man" showed the adventures of a character named Steve Austin, a former astronaut whose body was rebuilt using synthetic parts after he nearly died.
The robot on display at the museum cost $1 million and was made from 28 artificial body parts on loan from biomedical innovators. They include a pancreas, lungs, spleen and circulatory system, with most of the parts early prototypes.
"The whole idea of the project is to get together all of the spare parts that already exist for the human body today - one piece. If you did that, what would it look like?" said Bertolt Meyer, a social psychologist from the University of Zurich in Switzerland and host of the documentary.
The robot was modeled after Meyer, who was born without a hand and relies on an artificial limb. He showed off the bionic man by having it take a few clumsy steps and by running artificial blood through its see-through circulatory system.
"It, kind of, looks lifelike. Kind of creepy," said Paul Arcand, a tourist who was visiting from Boston with his wife.
The robot has a motionless face and virtually no skin. It was controlled remotely from a computer, and Bluetooth wireless connections were used to operate its limbs.
The bionic creation's artificial intelligence is limited to a chatbot computer program, similar to the Siri application on the Apple iPhone, said Robert Warburton, a design engineer for Shadow Robot.
"The people who made it decided to program it with the personality of a 13-year-old boy from the Ukraine," he said. "So, he's not really the most polite of people to have a conversation with."
Assembly began in August 2012 and took three months to finish.
The robot made its U.S. debut last week at New York's Comic Con convention. It will be on display at the museum throughout the fall.
(This story has been corrected to fix spelling of documentary host's first name to Bertolt, not Bertold, paragraph 7)
(Additional reporting by Ian Simpson; editing by Barbara Goldberg and Leslie Adler)

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