Art For A Fun Run Here Towards A Healthy Heart Weekend.

Friday, October 26, 2012

Robots that borrow Shoes

These new robots are been made to incorporate agility's that are artistically astonishing using morphing graphs and algorithms at super fast speeds these stylish rubber composites are so flexible they can run the entire electronic of their limbs rightly. The new obot simply climbs stairs effortlessly it could be the future home companion of the future self propelled power unites. These are fitted to pick up power it might not be a bone chilling sight as they look ready made up. Researchers in America have revealed astonishing footage of a human-like robot able to walk, jump and run over almost any obstacle in its path. Eventually it is hoped the technology could be used to create a new breed of robotic. A soldier that would be able to operate in any terrain including a house, as robots helpers capable of being sent into dangerous disaster zones deemed impossible for humans to enter. This  pet pronto making its way across a pit by holding onto a wall. Other entries in the contest are from private firm Schaft and Carnegie Mellon University bring still new slow machines but hope for personal trainers that will ware owners shoes
It’s The shoe wearing robot is also shown leaping up a flight of stairs within owners shoes looking effortlessly as owner pants like a canine that got a kick, balancing itself as it goes, then walking across a thin plank of wood The robot is able to leap tall steps in a single bound - all without losing its balance. The amazing robot, called proto-pet, is expected to be one of those competing in the DARPA Robotics Challenge (DRC) which was announced today. The US military funded challenge is for robots who can operate entirely by themselves. ‘The Department of Defence strategic plan calls for the Joint Force to conduct humanitarian, disaster relief and related operations,' DARPA said in a statement. 'The plan identifies requirements to extend aid to victims of natural or man-made disasters and conduct evacuation operations most robots will come with own singing capabilities have wireless earphones on demand. 
For Some disasters, however, due to grave risks to the health and well being of rescue and aid workers, prove too great in scale or scope for timely and effective human response find robot runes in the opposite direction as everyone’s avoids impending calamity. The robots will compete next year in a series of events designed to show off how they could help out in a disaster zone ‘The DARPA Robotics Challenge (DRC) will attempt to address this capability gap by promoting innovation in robotic technology for disaster-response operations.  The primary technical goal of the DRC is to develop ground robots capable of executing complex tasks in dangerous, degraded, human engineered environments. Robots entered into the contest will also be expected to use tools normally operated by humans. All Competitors in the DRC are expected to focus on robots that can use standard tools and equipment commonly available in human environments, ranging from hand tools to vehicles, with an emphasis on adaptability to tools with diverse specifications. The contest will culminate next year, when the robots will participate in two live events June 2013 and December 2013 if the rewards are right. For anyone who was relying on being able to escape from these no worries have a cylinder that extends around their space maybe they go true shoes like never before.

Monday, October 15, 2012

Binary fission Grid.

As Art View predicts this could be the next big thing and already in Hotels in Berlin, Paris and London are taking part in the experiment, and 40 participants chosen from the Ibis's Face book page can create their own work of art with nothing more than a good night's sleep.The hotel chain created special mattresses which are covered in thin grids, measuring heat, pressure and sound.The 'robot', as it were, receives the data, and plots your movements on the canvas, creating a beautiful design out of your sleep lines.
As Art View came up with the idea of script writing while the body went into a slumber in 2007 a vortex of thoughts simulated into a cosmic being of articulated words. These questions could this be or be it as it could interpolated into upward or downward patterns by typing words of meaning.  This concept was a new and wonderful concept for many. It also was thought to be a nonsensical idea kind of a joke if it could be sold to the masses. By adding some digital imagery as it unlock some of the dream sequences like those beauty stories been lost in ancient forest. When taking this concept trough to the mix of design with the use of sensors, in a binary upheaval. Thus bringing these into expressions’  “I say” emotions as Art view explains. Computer writing for Inept emotion of burial experiences where complete strangers raze a toast to one another. Apply their affirmation about other delicate species in their own words a kind to mix and to enjoy life total delicacies with confidence. Would these writings become known as survival within the human race. I guess what I trying to say life for mammals is fraught with challenges and dangers with the cosmetic forces of death that applies its self in the end.  When life is conceived and a human is born into another part of the world could this happen as thousands of humans meet their reincarnated other families in expressed words. A person not have any link to this times righting lead us into Earths future or is this also left to our imagination. The question remains this is not a joke but the beginning as their maybe some humans who will apply themselves to these simple technologies as there are profits within the curiosity. A person could have many families all unknowns could this be explored all from art view on a home planet called outer Earth. So if you stay at an Ibis hotel soon, you might need to share your room - and with an insomniac artist who works through the night, no less.Still, your companion is a silent robot, and he is working to provide you with a personal work of art like no other. For the Ibis Hotel has employed the robot to watch you while you sleep - hold on, it is not as sinister as it sounds - and paint you an image showing how you toss and turn during your slumber. Draw something: The robot will plot your movements overnight, and with a thin paintbrush it will portray your sleeping patterns Hotels in Berlin, Paris and London are taking part in the experiment - and 40 guests will get their own portrait
The setup requires: A data cable connects the robot to your bed, and the robot will use its ample paint supply to make your portrait Naturally, it will depend on your sleep - a deep sleeper may encourage straight and simple lines, whereas if you thrash around all night, perhaps expect something a little abstract to creep in to your paintings.There is still a month to enter the UK competition, which will give you a night's sleep at the Ibis in Black friars, London.

Wednesday, October 10, 2012

Cybrog TV & Moon Mining.

Private balloon space craft hybrid television advertisements The life sized working prototype of the Polaris rover that could mine the moon in 2015 The Polaris rover is 5 ½ feet tall, 7 feet wide and almost 8 feet long. Moon comes back into reality for a while driving a profit making industries forty years later it a program that should never been scrapped now Polaris rover will search for ice that can be drilled to stock future moon bases Expected to relay live video from the lunar surface throughout its life showing where fresh moon springs will be located replenishing trusty cyber bases. It can move at about a foot a second on 2-foot-diameter composite wheels. Its suspension will enable the rover to rise up over rough terrain, but also lower itself to the ground to perform drilling.  The rover will weigh 150 kilograms, or about 330 pounds, and can accommodate a drill and science payload of up to 70 kilograms. Polaris is a first of its kind solar-powered robot that will search for potentially rich deposits of water ice on the moon. Observations by NASA and Indian spacecraft suggest that a substantial amount of water ice could exist at the lunar poles. That ice could be a source of water, fuel and oxygen for future expeditions, researchers say. Polaris can bore one meter into the lunar surface and can operate in lunar regions characterized by dark, long shadows and a sun that hugs the horizon.  It has been developed for an expedition to the moon's northern pole that would launch from Cape Canaveral on top of a SpaceX Falcon 9 launch vehicle.
Polaris is a flight prototype but has the same configuration as the rover that will eventually land on the moon. It includes a number of flight-worthy components, including wheels and chassis beams constructed of light, but tough composite materials. This will enable Astronautic team members to spend the coming months testing and improving the robot's computer vision, navigation and planning software, and software that can plot the rover's position on the moon within 10 feet. While Curiosity begins to explore the Martian surface, the moon may soon be home to another rover - and this one plans to mine. Astrobotic Technology today revealed Polaris, a rover it hopes to send to the moon on top of a SpaceX rocket in October 2015. It will search for ice that could help future explorers set up a moon base - and is powered by solat panels that give it the appearance of having a mohawk. Polaris will have a drill capable of getting a metre under the lunar surface to look for sign of ice. The Polaris rover will hunt for ice on the moon that can be mined to help set up moon bases for future explorers. Astrobotic led by CMU's William "Red" Whittaker — develops robotics technology for planetary missions. 'It is the first rover developed specifically for drilling lunar ice' said Whittaker. Other robots built by the Field Robotics Center have developed technologies necessary for lunar drilling, but none of them were ever meant to leave Earth. 'What Polaris does is bring those many ideas together into a rover configuration that is capable of going to the moon to find ice,' Whittaker added.
 To find the ice, a rover must operate as close to the dark poles as possible, but not so far that it can't use solar arrays for power, Whittaker said. Polaris has three large solar arrays, arranged vertically to capture light from low on the horizon.The solar arrays will be capable of an average of 250 watts of electrical power.Polaris also makes use of software, pioneered in CMU's NASA-funded Hyperion robot, that keeps track of the rover's position relative to the sun's rays to maximize solar energy and husbands battery power for use in the long shadows and dark regions found at the poles.The lander being developed to drop the lunar mining rover on the moon's surface Whittaker said the lunar day lasts about 14 Earth days, though only about 10 days are suitable for water prospecting at the poles. The Astrobotic team expects Polaris could drill 10 to 100 holes during that time as it locates and characterizes water ice deposits. Astrobotic, in partnership with CMU, is also vying for the Google Lunar X Prize of more than $20 million. Polaris is one of two Moon rovers under development by Astrobotic in competition for the Google contest, which offers a total of $30m in awards to privately funded projects exploring the Moon. First prize – $20m – will be awarded to the company that can 'safely land a robot on the surface of the Moon, have that robot travel 500 meters over the lunar surface, and send video, images and data back to the Earth.'If Polaris successfully survives the long, frigid lunar nights, as anticipated, the prospecting mission could be extended indefinitely. Astrobotic has won nine lunar contracts from NASA worth $3.6 million, including one to evaluate how Polaris can accommodate NASA's ice-prospecting instruments during a three-mile traverse near the moon's north pole.

Saturday, October 6, 2012

Uniform cosmos Phenomenon.

Scientists have given the most accurate estimate yet of how fast the universe is expanding. A team of astronomers used Nasa's Spitzer Space Telescope to clock the expansion of the cosmos at a phenomenal “46 miles per second per megaparsec outward and possible inward a giant magnetic polar casam shortly humans will be able to reach into out of”. American astronomer Edwin Hubble was in the Twenties first to discover that space is constantly expanding and has been growing continuously since its inception.To work out the speed the universe is expanding, astronomers observe variable stars called Cepheids, which are good distance indicators because their intrinsic brightness can be calculated by their pulsing light. If their intrinsic brightness is known, their distance can be estimated by comparing that with their apparent brightness, since the further away they are, the more their light dims.  Glenn Wahlgren, Spitzer program scientist at NASA Headquarters in Washington, told Fox News: 'These pulsating stars are vital rungs in what astronomers call the cosmic distance ladder: a set of objects with known distances that, when combined with the speeds at which the objects are moving away from us, reveal the expansion rate of the universe.'
Nasa's Spitzer Space Telescope seen against the infrared sky: The orbital instrument has been used to give the most accurate estimate yet of the rate at which the cosmos is expanding Astronomers now believe that the universe exploded into being about about 13.7billion years ago, so determining the rate of the continuing expansion, known as Hubble's constant, is critical for gauging its age and size. Spitzer's new measurement, which took advantage of long-wavelength infrared instead of visible light, improves upon a similar, seminal study from NASA's Hubble Space Telescope by a factor of three, bringing the uncertainty down to only 3 percent, a giant leap in accuracy for a cosmological measurement.The newly refined value, in astronomer-speak, is: 74.3 ± 2.1 kilometres per second per megaparsec (a megaparsec is roughly 3million light-years). The findings were combined with published data from NASA's Wilkinson Microwave Anisotropy Probe to obtain an independent measurement of dark energy, one of the greatest mysteries of our cosmos.in the late Nineties, astronomers were shocked to learn that the expansion of our universe is actually speeding up over time. In an effort to understand how the cosmos was overcoming the force of gravity, scientists theorised that there must be this dark energy pulling the fabric of the universe apart. 'This is a huge puzzle,' said Wendy Freedman, director of the Carnegie Observatories, who led the latest research. 'It's exciting that we were able to use Spitzer to tackle fundamental problems in cosmology: the precise rate at which the universe is expanding at the current time, as well as measuring the amount of dark energy in the universe from another angle.'
Spitzer was able to improve upon past measurements of Hubble's constant due to its infrared vision, which sees through dust to provide better views of variable stars called Cepheids. These pulsating stars are vital 'rungs' in what astronomers called the cosmic distant ladder: a set of objects with known distances that, when combined with the speeds at which the objects are moving away from us, reveal the expansion rate of the universe. The 'cosmic ladder': NASA's Spitzer Space Telescope has greatly improved on past measurements of Hubble's constant due to its infrared vision which sees through dust to provide better views of stars called Cepheids 'Spitzer is yet again doing science it wasn't designed to do,' said Michael Werner, the mission's project scientist at NASA's Jet Propulsion Laboratory in Pasadena, California. First, it surprised us with its pioneering ability to study exoplanet atmospheres, and now, in the mission's later years, it's become a valuable cosmology tool.'Cepheids are crucial to these calculations because their distances from Earth can be readily measured. In 1908, Henrietta Leavitt discovered that these stars pulse at a rate that is directly related to their intrinsic brightness.To visualize why this is important, imagine somebody walking away from you while carrying a candle. The candle would dim the farther it travelled, and its apparent brightness would reveal just how far. The same principle applies to Cepheids, standard candles in our cosmos. By measuring how bright they appear on the sky, and comparing this to their known brightness as if they were close up, astronomers can calculate their distance from Earth. Spitzer observed ten Cepheids in our own Milky Way galaxy and 80 in a nearby neighbouring galaxy called the Large Magellanic Cloud. Without the cosmic dust blocking their view at the infrared wavelengths, the research team was able to obtain more precise measurements of the stars' apparent brightness, and thus their distances, than previous studies had done. With these data, the researchers could then tighten up the rungs on the cosmic distant ladder, opening the way for a new and improved estimate of our universe's expansion rate. 'Just over a decade ago, using the words "precision" and "cosmology" in the same sentence was not possible, and the size and age of the universe was not known to better than a factor of two,' Ms Freedman said. 'Now we are talking about accuracies of a few percent. It is quite extraordinary.' The findings will be published in the Astrophysical Journal.