science: monkey thoughts, robot walks

amazed

Science: Monkey thoughts, robot walks

Gordon Cheng in Kyoto, Japan, with the robot.

If Idoya could talk, she would have plenty to boast about. Last week, the 5.4kg, 81cm monkey made a 90.7kg, 142cm humanoid robot walk on a treadmill using only her brain activity.

Dr Miguel A.L. Nicolelis at Duke University.

Idoya was in North Carolina, and the robot in Japan.

It was the first time that brain signals had been used to make a robot walk, said Dr Miguel A. L. Nicolelis, a neuroscientist at Duke University, whose laboratory designed and carried out the experiment.

In 2003, his team proved that monkeys could use their thoughts alone to control a robotic arm for reaching and grasping.

These experiments, Dr Nicolelis said, are the first steps toward a brain machine interface that might permit paralysed people to walk by directing devices with their thoughts.

Electrodes in the person's brain would send signals to a device worn on the hip, like a cell phone or pager, that would relay those signals to a pair of braces, a kind of external skeleton, worn on the legs.


"When that person thinks about walking," he said, "walking happens."

A brain machine interface is any system that allows people or animals to use their brain activity to control an external device. But until ways are found to safely implant electrodes into human brains, most research will remain focused on animals.

In preparing for the experiment, Idoya was trained to walk upright on a treadmill. She held onto a bar with her hands and got treats - raisins and Cheerios - as she walked at different speeds, forward and backward, for 15 minutes a day, three days a week, for two months.

Meanwhile, electrodes implanted in the so-called leg area of Idoya's brain recorded the activity of 250 to 300 neurons that fired while she walked.

Some neurons became active when her ankle, knee and hip joints moved. Others responded when her feet touched the ground. And some fired in anticipation of her movements.

To obtain a detailed model of Idoya's leg movements, the researchers also painted her ankle, knee and hip joints with fluorescent stage makeup and, using a special high speed camera, captured her movements on video.

The video and brain cell activity were then combined and translated into a format that a computer could read. This format is able to predict with 90 per cent accuracy all permutations of Idoya's leg movements three to four seconds before the movement takes place.

Last week, an alert and ready-to-work Idoya stepped onto her treadmill and began walking at a steady pace with electrodes implanted in her brain. Her walking pattern and brain signals were collected, fed into the computer and transmitted over a high-speed internet link to a robot in Kyoto, Japan.

The robot, called CB for Computational Brain, has the same range of motion as a human. It can dance, squat, point and "feel" the ground with sensors embedded in its feet, and it will not fall over when shoved.

Designed by Gordon Cheng and colleagues at the ATR Computational Neuroscience Laboratories in Kyoto, the robot was chosen for the experiment because of its extraordinary ability to mimic human locomotion.

As Idoya's brain signals streamed into CB's actuators, her job was to make the robot walk steadily via her own brain activity. She could see the back of CB's legs on an enormous movie screen in front of her treadmill and received treats if she could make the robot's joints move in synchrony with her own leg movements.

As Idoya walked, CB walked at exactly the same pace. Recordings from Idoya's brain revealed that her neurons fired each time she took a step and each time the robot took a step.

"It's walking!" Dr Nicolelis said. "That's one small step for a robot; one giant leap for a primate."

The signals from Idoya's brain sent to the robot, and the video of the robot sent back to Idoya, were relayed in less than a quarter of a second. That was so fast that the robot's movements meshed with the monkey's experience.

An hour into the experiment, the researchers stopped Idoya's treadmill. Everyone held their breath. What would Idoya do?

"Her eyes remained focused on CB's legs," Dr Nicolelis said.

She got treats galore. The robot kept walking. And the researchers were jubilant.

When Idoya's brain signals made the robot walk, some neurons in her brain controlled her own legs, whereas others controlled the robot's legs. The latter set of neurons had basically become attuned to the robot's legs after about an hour of practice and visual feedback.

Idoya cannot talk but her brain signals revealed that after the treadmill stopped, she was able to make CB walk for three full minutes by attending to its legs and not her own.

Vision is a powerful, dominant signal in the brain, Dr Nicolelis said. Idoya's motor cortex, where the electrodes were implanted, had started to absorb the representation of the robot's legs - as if they belonged to Idoya herself.

In earlier experiments, Dr Nicolelis found that 20 per cent of cells in a monkey's motor cortex were active only when a robotic arm moved. He said it meant that tools like robotic arms and legs could be assimilated via learning into an animal's body representation.

In the near future, Idoya and other bipedal monkeys will be getting more feedback from CB in the form of microstimulation to neurons that specialise in the sense of touch related to the legs and feet. When CB's feet touch the ground, sensors will detect pressure and calculate balance. When that information goes directly into the monkeys' brains, Dr Nicolelis said, they will have the strong impression that they can feel CB's feet hitting the ground.

At that point, the monkeys will be asked to make CB walk across a room by using just their thoughts.

"We have shown that you can take signals across the planet in the same time scale that a biological system works," Dr Nicolelis said. "Here the target happens to be a robot. It could be a crane. Or any tool of any size or magnitude. The body does not have a monopoly for enacting the desires of the brain."

To prove this point, Dr Nicolelis and his colleague, Dr Manoel Jacobsen Teixeira, a neurosurgeon at the Sirio-Lebanese Hospital in Sao Paulo, Brazil, plan to demonstrate by the end of the year that humans can operate an exoskeleton with their thoughts.

By pushing the same electrodes slightly deeper in the brain, Dr Nicolelis said, it should be possible to record brain activity involved in moving the arm and intending to move the arm.

"They should be able to move the arm with their thoughts," he said. "This is science fiction coming to life." - NYT



monkey pun boleh buat macam tu   macam ada telepathy pulak...  teringat aku masa ambil english lit kat college dulu - the chryssalids..... pasal  esp !!

LanoG

Dalam jet pejuang terbaru US pun diorang dah pakai brain untuk control pesawat diorang. Kira macam guna fikiranlah.. gelombang fikiran nie akan bagi signal dan diterjemahkan oleh komputer untuk melakukan pergerakan tertentu.