Cellular Surgeons:  The New Era of Nanomedicine

The New Era of Nano-medicine.” Three prominent nanotechnology researchers discussed the direction of their highly complicated field, keeping the language at a level that non-scientists could understand. You can find the hour and a half long discussion here. The technologies discussed could eventually revolutionize many medical fields including neuroscience.

Pills the size of molecules to seek and destroy tumors. Miniscule robots performing surgery inside patients with a precision never before achieved.  Nanobots, a billionth of a meter across, fixing mutations in DNA, or repairing neurons in your brain.  Such are the possibilities as medicine enters the nano-era. Join leading researchers who are pushing these frontiers, to learn of new cures in the coming nano-revolution and possible risks of the molecular E.R.

This program was part of “The Big, the Small, and the Complex,” a series exploring the latest developments in Astrophysics, Nanoscience, and Neuroscience—fields recognized by The Kavli Prize. Sponsored by The Kavli Foundation, the Norwegian Academy of Science and Letters, and the Royal Norwegian Consulate General.

Watch the excerpt above, or check out the full program of Cellular Surgeons: The New Era of Nanomedicine below here

In case If you don't find the full Program at above here. You can check out at YouTube Video which I'm providing below down here

Source: World Science Festival 
Even you can checkout Full Program here on this source link at livestream in original form as YouTube Video is record one by one of candidate present their. so you may Face some distraction in between this video.

8 Examples of Mind Controlled Technology in Action

The age of the brain-computer interface is here, and technology has found a way to put brainwaves to practical use in the material world.

Electroencephalography, or EEG, measures low-voltage electrical signals from the brain using sensors attached to the scalp and face. When neurons inside the brain fire off, for one reason or another, electrical signals are emitted, captured, amplified then sent to a computer for interpretation. Once the signals are captured, scientists and engineers can convert this information into software commands to control real, 3-dimensional objects.

This technology works by first ‘training’ the computer to recognize brainwave patterns, then maps those inputs to the control designs of the engineer. As is the case with human ingenuity, the results are mind-blowing. Here are 8 videos demonstrating the potential for human-brain interface technology, outside of the defense industry.

MIND CONTROLLED ROBOTIC LIMBS

The ability to physically move things is something that most of us take for granted. Using surgically implanted electrodes, and using a mind-controlled robotic arm, this paralyzed woman is able to feed herself for the first time in a decade…

THE MIND CONTROLLED WORD PROCESSOR

Samsung’s intendiX EEG based system allows users to type out messages in a basic word processor on a computer…

SAMSUNG’S TABLET COMPUTER CONTROLLED BY BRAINWAVES

At the Samsung research & development facility in Dallas, TX they are developing a tablet computer that performs simple operations based on the intentions of the user…

MIND CONTROLLED HELICOPTERS

Researchers and students at the University of Minnesota have developed a system for controlling robots, like this helicopter, with brain patterns of the user who wears an EEG cap…

Open source, and hackable, The ‘Puzzle Box Orbit’ revealed at the show… Open source and hackable the puzzlebox is a consumer product that can be used to learn the basics of EEG control mapping…

MIND CONTROLLED PERFORMANCE ART

Artist Lisa Park has developed an performance art piece that controls synthesized sound to create beautiful water dances with her emotions…

MIND CONTROLLED SKATEBOARD

In a rather awesome example, this mind-controlled skateboard can reach a top speed of 32 miles per hour…

MIND CONTROLLED ROBOTICS

A student of robotics at Taiwan National university demonstrates mind-control of various robitics including a Lego robot…

This potential applications for this technology are enormous and this is proof that thoughts are indeed things.

Sources:

http://en.wikipedia.org/wiki/Electroencephalography

Via Mind Unleashed

DARPA Robotics Challenge

Robots are coming of age. As part of the DARPA Robotics Challenge, Lockheed Martin developing autonomous systems that work together with human operators. This collaborative approach applies across many platforms and domain. Our research will eventually allow humans to be more efficient and effective in challenging environments that are difficult or too dangerous to access today.

This is the fastest and most adorable robotic cat yet

Many of us are familiar with the Pengaton's Cheetah robot — the world's fastest mechanical mammal. But that feline brute is rather big and, well, even a bit severe. Thankfully, there's now a kinder, gentler version — the cheetah-cub robot.

Developed by EPFL's Biorobotics Laboratory, cheetah-cub's legs were designed to mimic feline morphology. It's got three leg segments on each leg, and the proportions match those of a real cat. Springs are used to replicate the function of tendons, while actuators perform the role of muscles.

SEXPAND

And like a real cat, it's small, light, stable — and fast. And in fact, it's now the fastest robot in its category, namely trotting quadruped robots that are under 66 pounds (30 kg). This little guy can run nearly seven times its body length in one second, reaching a maximum speed of 1.42 m/s (3.2 mph).

RELATED

DARPA just obliterated the landspeed record for the fastest mechanical mammal on Earth

You remember Cheetah, don't you? Back in March, DARPA released video of the robotic quadruped galloping at speeds of up to 18 miles per hour. At … Read…

For reference, DARPA's Cheetah can run 28.3 miles per hour, or 12.65 m/s.

Cheetah-cub is not as agile as a real cat, but it is equipped with sophisticated auto-stabilization features that kick in when it's running full tilt or navigating through obstacle-laden terrain.

Read more at International Journal of Robotics Research: "Towards Dynamic Trot Gait Locomotion — Design, Control and Experiments with Cheetah-cub, a Compliant Quadruped Robot."

This Robot Is Changing How We Cure Diseases

Every week at an NIH drug-testing lab, a robotics system performs millions of experiments faster and with greater precision than any human could. The goal: to find new treatments and cures. Watch out the video 

“We have an ongoing study in a form of leukemia, so we took cells directly from the hospital, drove them up here, put them on the robot, tested every drug that has ever been approved for human use, and found one that killed the cancer cells, but not the normal cells. That drug, within a year, went into people. We’ve seen this happen over and over and over again…actually, this robot has never done the same thing twice. Every time it does an experiment it is learning from every experiment it has done before. In the process, it fails 99.9% of the time. We have to have a process that is continually learning.” ~ Chris Austin, Narrator

The World's First Incredible Bionic Man.....can Talk & his Heart Beats like Human beings

The term "bionic man" was the stuff of science fiction in the 1970s, when a popular TV show called "The Six Million Dollar Man" chronicled the adventures of Steve Austin, a former astronaut whose body was rebuilt using artificial parts after he nearly died.

Now, a team of engineers have assembled a robot using artificial organs, limbs and other body parts that comes tantalizingly close to a true "bionic man." For real, this time.

Meet Frank, the Incredible Bionic Man: He's a bit awkward at walking but he mirrors what happens in the human body.

The world's first bionic man has exhibited at the Air and Space museum in Washington, complete with working heart, lung and speech functions

Complete with a functioning circulatory system, more than a million sensors and 200 processors, Frank can walk, talk and see.

 It can walk, talk, grasp, see, hear. The possibilities are endless.

Listen to his heartbeat and hear him talk. Meet Frank the world's first bionic man.

The artificial "man" is the subject of a Smithsonian Channel documentary that airs Sunday, Oct. 20 at 9 p.m. Called "The Incredible Bionic Man," it chronicles engineers' attempt to assemble a functioning body using artificial parts that range from a working kidney and circulation system to cochlear and retina implants.

"(It's) an attempt to showcase just how far medical science has gotten,"  says  Richard Walker, managing director of Shadow Robot Co. and the lead roboticist on the project.

Walker says the robot has about 60 to 70 percent of the function of a human. It stands six-and-a-half feet tall and can step, sit and stand with the help of a Rex walking machine that's used by people who've lost the ability to walk due to a spinal injury. It also has a functioning heart that, using an electronic pump, beats and circulates artificial blood, which carries oxygen just like human blood. An artificial, implantable kidney, meanwhile, replaces the function of a modern-day dialysis unit.

It seems futuristic but some of the technology is being used in humans today. 

"Artificial and implantable trachea, an early artificial and implantable lung, an artificial and implantable heart. It is not a prototype, it's been used all over the world. This technology has the potential of overcoming a lot of disabilities and disease."

Bertolt Meyer says, "He has an artificial pancreas and through his tubes flows artificial blood made up of nano parts that can bind and give off oxygen."

Although the parts used in the robot work, many of them are a long way from being used in humans. The kidney, for example, is only a prototype. And there are some key parts missing: there's no digestive system, liver, or skin. And, of course, no brain.

The bionic man was modeled after Bertolt Meyer, a 36-year-old social psychologist at the University of Zurich who was born without his lower left arm and wears a bionic prosthesis. The man's face was created based on a 3D scan of Meyer's face.

"We wanted to showcase that the technology can provide aesthetic prostheses for people who have lost parts of their faces, for example, their nose, due to an accident or due to, for example, cancer," Meyer says.

Meyer says he initially felt a sense of unease when he saw the robot for the first time.

"I thought it was rather revolting to be honest," he says. "It was quite a shock to see a face that closely resembles what I see in the mirror every morning on this kind of dystopian looking machine."

He has since warmed up to it, especially after the "man" was outfitted with some clothes from the U.K. department store Harrods.

And the cost? As it turns out, this bionic man comes cheaper than his $6-million-dollar sci-fi cousin. While the parts used in the experiment were donated, their value is about $1 million. but even bit to large

For instance a small video camera mounted on the glasses can one day help the blind. "The image that picks up is transmitted in a chip that sits in the back of the eye in someone who's blind and restores a sense of vision."

Cheryl Hunter, a Minnesota resident says, "It's more than I would have ever expected in my lifetime to see something like that."

Bringing a bionic man into the world, creates ethical questions.

Meyer says, "Would people elect to replace healthy limbs with bionic ones? These are questions we raise in the documentary."

Most of the bionic parts are prototypes and far from being implemented in every day surgeries but it could be a window into our future.   

Watch the Incredible Bionic Man documentary on the Smithsonian Channel on Sunday at 9pm. And see the Bionic Man in person at the Air and Space Museum through December 11th, 2013..

it's all seems that Age of Cyborg Has Arrised

what you think about this  Incredible Bionic Man your Reviews are Welcome

Robot uses steerable needles to treat brain clots

collaboration between Vanderbilt mechanical engineer Robert Webster and neurosurgeon Kyle Weaver has designed a special robotic system that uses tiny, steerable needles to suction out brain clots formed by intracranial hemorrhaging.




It is an image-guided surgical system. It employs steerable needles about the size of those used for biopsies to penetrate the brain with minimal damage and suction away the blood clot that has formed.

The odds of a person getting an intracerebral hemorrhage are one in 50 over his or her lifetime. When it does occur, 40 percent of the individuals die within a month. Many of the survivors have serious brain damage. So 0.8% of people will be killed by intracerebral hemorrhage and almost 1% get brain damaged by it.

Webster’s design, which he calls an active cannula, consists of a series of thin, nested tubes. Each tube has a different intrinsic curvature. By precisely rotating, extending and retracting these tubes, an operator can steer the tip in different directions, allowing it to follow a curving path through the body. The single needle system required for removing brain clots was actually much simpler than the multi-needle transnasal system.

According to the feasibility studies the researchers have performed, the robot can remove up to 92 percent of simulated blood clots. Surgeons generally agree that there is a clinical benefit from removing 25-50 percent of a clot but that benefit can be offset by the damage that is done to the surrounding tissue when the clot is removed. Therefore, when a serious clot is detected in the brain, doctors take a “watchful waiting” approach – administering drugs that decrease the swelling around the clot in hopes that this will be enough to make the patient improve without surgery.

Removing 92% or all of the clot would be a huge difference and a big clinical benefit.





The surgeon positions the robot so it can insert the straight outer tube through the trajectory stem and into the brain. He also selects the small inner tube with the curvature that best matches the size and shape of the clot, attaches a suction pump to its external end and places it in the outer tube.

Guided by the CT scan, the robot inserts the outer tube into the brain until it reaches the outer surface of the clot. Then it extends the curved, inner tube into the clot’s interior. The pump is turned on and the tube begins acting like a tiny vacuum cleaner, sucking out the material. The robot moves the tip around the interior of the clot, controlling its motion by rotating, extending and retracting the tubes.

“The trickiest part of the operation comes after you have removed a substantial amount of the clot. External pressure can cause the edges of the clot to partially collapse making it difficult to keep track of the clot’s boundaries,” said Webster.

The goal of a future project is to add ultrasound imaging combined with a computer model of how brain tissue deforms to ensure that all of the desired clot material can be removed safely and effectively.

read more by clicking on highlighted blue text above

Intelligent Machines to Space Colonies: 5 Sci-Fi Visions of the Future

WASHINGTON — Humanity has reached a bottleneck this century: Technical developments could cause catastrophic damage to the planet, or they could save humanity from its man-made quandary.

The future of civilization could be a dystopia of ruined ecosystems and malevolent machines, or a paradise of eternal life and intergalactic culture. At a symposium on the longevity of human civilization here at the Library of Congress Thursday (Sept. 12), several of the nation's leading scholars and futurists predicted what the coming centuries may bring.

"Everything I say today will probably be wrong," Scientific American journalist David Biello said at the start of the event

read more.....http://www.livescience.com/39640-science-fiction-visions-of-the-future.html

Intelligent Robots Will Overtake Humans by 2100, Experts Say

Are you prepared to meet your robot overlords?

The idea of superintelligent machines may sound like the plot of "The Terminator" or "The Matrix," but many experts say the idea isn't far-fetched. Some even think the singularity — the point at which artificial intelligence can match, and then overtake, human smarts — might happen in just 16 years.

But nearly every computer scientist will have a different prediction for when and how the singularity will happen.

some believe in a utopian future, in which humans can transcend their physical limitations with the aid of machines. But others think humans will eventually relinquish most of their abilities and gradually become absorbed into artificial intelligence (AI)-based organisms, much like the energy making machinery in our own cells. [5 Reasons to Fear Robots]

Singularity near?

In his book "The Singularity is Near: When Humans Transcend Biology" (Viking, 2005), futurist Ray Kurzweil predicted that computers will be as smart as humans by 2029, and that by 2045, "computers will be billions of times more powerful than unaided human intelligence," Kurzweil wrote in an email to LiveScience.

"My estimates have not changed, but the consensus view of AI scientists has been changing to be much closer to my view," Kurzweil wrote.

Bill Hibbard, a computer scientist at the University of Wisconsin-Madison, doesn't make quite as bold a prediction, but he's nevertheless confident AI will have human-level intelligence some time in the 21st century.

"Even if my most pessimistic guess is true, it means it's going to happen during the lifetime of people who are already born," Hibbard said.

But other AI researchers are skeptical.

"I don't see any sign that we're close to a singularity," said Ernest Davis, a computer scientist at New York University.

While AI can trounce the best chess or Jeopardy player and do other specialized tasks, it's still light-years behind the average 7-year-old in terms of common sense, vision, language and intuition about how the physical world works, Davis said.

For instance, because of that physical intuition, humans can watch a person overturn a cup of coffee and just know that the end result will be a puddle on the floor. A computer program, on the other hand, would have to do a laborious simulation and know the exact size of the cup, the height of the cup from the surface and various other parameters to understand the outcome, Davis said. [10 Cool Facts About Coffee]

Infinite abilities

Once the singularity occurs, people won't necessarily die (they can simply upgrade with cybernetic parts), and they could do just about anything they wanted to — provided it were physically possible and didn't require too much energy, Hibbard said.

The past two singularities — the Agricultural and Industrial revolutions — led to a doubling in economic productivity every 1,000 and 15 years, respectively, said Robin Hanson, an economist at George Mason University in Washington, D.C., who is writing a book about the future singularity. But once machines become as smart as men, the economy will double every week or month.

This rapid pace of productivity would be possible because the main "actors" in the economy, namely people, could simply be replicated for whatever it costs to copy an intelligent-machine software into another computer.

Earth's destruction?

That productivity spike may not be a good thing. For one, robots could probably survive apocalyptic scenarios that would wipe out humans.

"A society or economy made primarily of robots will not fear destroying nature in the same way that we should fear destroying nature," Hanson said.

And others worry that we're barreling toward a future that doesn't take people into account. For instance, self-driving cars could improve safety, but also put millions of truck drivers out of work, Hibbard said. So far, no one is planning for those possibilities.

"There are such strong financial incentives in using technology in ways that aren't necessarily in everyone's interest," Hibbard said. "That's going to be a very difficult problem, possibly an unsolvable problem."

Human devolution?

Some scientists think we are already in the midst of the singularity.

Humans have already relinquished many intelligent tasks, such as the ability to write, navigate, memorize facts or do calculations, Joan Slonczewski, a microbiologist at Kenyon college and the author of a science-fiction book called "The Highest Frontier," (Tor Books, 2011). Since Gutenberg invented the printing press, humans have continuously redefined intelligence and transferred those tasks to machines. Now, even tasks considered at the core of humanity, such as caring for the elderly or the sick, are being outsourced to empathetic robots, she said.

"The question is, could we evolve ourselves out of existence, being gradually replaced by the machines?" Slonczewski said. "I think that's an open question."

In fact, the future of humanity may be similar to that of mitochondria, the energy powerhouses of cells. Mitochondria were once independent organisms, but at some point, an ancestral cell engulfed those primitive bacteria, and over evolutionary history, mitochondria let cells gradually take over all the functions they used to perform, until they only produced energy.

"We're becoming like the mitochondria. We provide the energy — we turn on the machines," Slonczewski told Live Science. "But increasingly, they do everything else."