This video shows a humanoid robot designed to help people with disabilities walk and talk.

It’s called RoboHive, and it is the most powerful robotic system ever designed for people with physical and mental disabilities.

This video from National Geographic was released April 2, 2018.

Read moreThe video shows the robot with a small arm attached to a small backpack.

This is a human-like arm with a hand.

The robot can walk around and grasp objects with a single hand, and can turn, balance, and pick up objects.

When it comes to walking, the robot has a “cargo” of sensors, and there are six sensors attached to its back.

It has a robotic camera to detect the movement of the human body, and an accelerometer and gyroscope to detect how it moves.

RoboHives can also pick up things by touching them and then moving them, as long as the robot is moving.

“The robotic system will also allow the robot to respond to the human’s hand movements,” the video says.

What the robots are forThe first robots designed to be used by people with mental disabilities were made for people living with autism spectrum disorder (ASD), which includes attention deficit hyperactivity disorder (ADHD), schizophrenia, and obsessive-compulsive disorder.

But since the beginning of the 20th century, there have been a number of advances in robotics, and RoboWorks robots are an example of that.

The first robotic arm, invented by the Swiss engineer Heinrich Bruegel in 1899, was designed for a young man who had autism.

It was called the “Bruegel arm,” and was meant to be operated by the wearer.

But the Bruegels made a mistake in their design, according to the BBC.

The first RoboRobo arm was meant for the elderly.

In 1956, an Italian inventor, Carlo BrĂ¼gel, developed a robotic arm that was designed to move people with severe disabilities.

The arm worked by sending signals to the user via a wire, which allowed them to feel how the arm moved and move their arm.

Today, people with autism have a range of challenges, ranging from coordination problems to the need to walk, and many are very restricted in their movement.

A number of researchers have also tried to design a robot with more dexterity, including Dr. James Tait of the University of Sydney.

In the 1990s, Tait designed a robot called Robofo.

This robot was designed with a “dynamic” system, where it could turn and react to different situations.

Tait also tried creating a robotic hand for people who had spinal cord injuries.

Other researchers have used a robotic “dumbbell” or “dummy arm” to assist people with cerebral palsy.

Another robot, the RoboWhip, was created by David Sager of the National Institutes of Health.

Although the arm was not intended for use by people living in nursing homes, Sager was able to demonstrate that it was able a “hands-on” experience to a patient with stroke.

Sager developed a robot for people in the United States with dementia who needed to use a wheelchair, which was shown to help them to move their limbs.

More recently, the arm of Dr. Paul J. Zagaris, a physician and director of the Center for Applied Cognitive Sciences at University of Pittsburgh, was able by using a “hand-to-hand” interaction to help a person with Parkinson’s disease walk.

Zagaris said that the “hand to hand” interaction allowed him to use the arm to move the person with cerebral vascular disease.

For people with spinal cord injury, the robotic arm has also been used for rehabilitation, and researchers have shown that it can help people to walk again.

However, the most advanced robotic system for people without disabilities has been the robotic “machines” that have been developed by researchers at the University College London.

The robotic arms are capable of lifting heavy objects, such as cars.

These robotic arms, called robotic wheels, were developed by the University at Albany in the UK.

Researchers said that they could lift a large refrigerator, a heavy shopping bag, and even a car off a floor, with a simple “pump and go” motion.

This is an example from the video, where the robotic wheels are lifted.

The University at Buffalo used the robotic wheel system to lift a car that was carrying a lot of groceries and groceries for the grocery store.

With a single arm, the researchers could lift this heavy, heavy car, which had been weighing about 50 tons.

After the robotic robotic wheel was lowered, the car was taken to a loading dock, where another robotic arm was used to lift the truck and bring it to the loading dock.

Once the truck was loaded onto a truck trailer, the robots arms could move the truck as it moved over the