What’s the latest in high-tech research and development?

In a few years, there will be a lot more robots and humans working in the health care field.

The next frontier is robotics, and that means new ways of thinking about care.

The world has been thinking about the future for so long that we’ve forgotten how we got here, said Richard Haines, who was chairman of the medical research committee at the National Academy of Sciences in 2017.

That’s a problem for researchers because, unlike most of us, they’re not just working on the future.

They’re thinking about how to solve the problems we face right now.

Here’s what they’re up to: A robot can walk through a patient’s chest.

A computer can do an MRI.

A robot is learning to read people’s lips.

The field of robotics and automation has been growing in recent years.

Some companies are already making robots that do some of these things.

The robots are so advanced that they can learn to do new tasks like recognize a face and tell a story.

The human eye can be used to read the skin, read blood pressure, or do other tasks.

These are all the ways in which machines and robots can help humans.

And as they become more and more useful, they will have a better chance of providing better care.

But how do we make the most of the robots?

It’s a question that’s important for many health care providers.

Some doctors and nurses use a mix of robots and human care workers.

Others use machines, such as robots that work as doctors.

They can do some tasks that humans can’t do.

But some of the work is very manual and tedious.

In some cases, robots are used to assist in the diagnosis of a patient, even though doctors cannot physically see the patient.

In other cases, it’s used to perform some tasks with humans, such an MRI, but there’s no way to actually see the doctor.

That creates some interesting dilemmas for the health industry.

One major hurdle is that robots can’t perform surgery.

So many health professionals want to get surgery done, but the machines are not powerful enough to do it.

And the technology needed to make the machines powerful is very costly.

So it’s very challenging to develop new types of robots that can perform some of those tasks, said Chris Himmelsbach, vice president of research at The University of Pittsburgh School of Medicine.

And robots have been around for decades, so they’ve developed skills that can be useful.

But they’re still not powerful machines that can do tasks that we can do.

Robots are very, very different from humans.

Humans are social animals.

Robots, in contrast, can do only one thing at a time.

They don’t have emotions.

And they’re often too complex for humans to understand.

In the next decade, there are a lot of possibilities for how to make robots more useful.

One way to make them more useful is to create a better human-robot interface.

But that could take a long time.

HainES says that a new generation of robots will be able to help with everything from diagnosing medical conditions to training people for jobs in the field.

“We’ve always had a problem with robots in medicine,” he said.

“They’re very good at doing a lot but not good at all the tasks that they’re supposed to be good at.”

This could be a problem in the future, because robots can learn from humans, and they can help people.

In fact, robots might learn to perform more difficult tasks that require the cooperation of humans.

They could help a patient to walk or talk or talk to a therapist, or help a person with their depression or anxiety, for example.

That kind of interaction could be an advantage for health care workers, Hainses said.

HimmELSBACH: The future is robot-controlled.

He is co-author of “A Machine for Everyone: An Inside View of the Future of Care,” published by Oxford University Press.