Robotics in sentence

228 examples of Robotics in a sentence

You know, this, I think, is really important when you're thinking about robotics.

So as a robotics company, we added some obstacle avoidance to the system.

There's a whole programming language and robotics tool, so if you want to teach someone how to program, kid, adult, whatever it is.

Whether it's something simple like turning on the lights with a switch, or even as complex as programming robotics, we have always had to give a command to a machine, or even a series of commands, in order for it to do something for us.

And we will be bringing robotics of all sorts into the ocean.

Automation anxiety has been spreading lately, a fear that in the future, many jobs will be performed by machines rather than human beings, given the remarkable advances that are unfolding in artificial intelligence and robotics.

This show manages to teach us about life, robotics, Alien and human encounters, and an insight into more of the paranormal, and how it affects the people.

the circus theme throughout the whole movie was kinda cool but i didn't get it, and robotics and lion taming is definitely not my thing.

Softer than A.I. Artificial Intelligence in terms of robot gore and it even manages to poke fun at I, Robot with its small trio of RRF: Robot Revolution Force in that they can't breaks the laws of robotics and plans on tickling to death one of the other bad guys with a feather.

I might love this movie for the emotional impact but I was fascinated by several other aspects including the robotics and the passage of time.

Given the fundamental challenges to society posed by the free flow of goods, services, and capital – and compounded by rapid technological progress, most immediately in robotics – structural reforms must also be undertaken.

Probing the Productivity ParadoxWASHINGTON, DC – Over the last decade or so, productivity growth has slowed considerably in most major developed economies, even as impressive advances have been made in areas like computing, mobile telephony, and robotics.

This so-called Fourth Industrial Revolution is centered on advances in digital technology, including “labor-linking technologies” (which enable workers across continents to work together in real time) and, more recently, artificial intelligence and robotics.

Magnetic-resonance-compatible robotics allow for real-time imaging, providing information about anatomical structures and changes in the brain relative to surgical pathology while operating, thereby minimizing risk.

Even as the likes of Uber and Amazon, and, more fundamentally, robotics, add convenience, they do so by displacing working-class jobs and/or driving down wages.

The problem is that it may take a decade or longer before robotics and the like feed a broader rising tide that lifts all boats.

Programs offering skilled workers a chance to earn certifications based on their work experience would allow for, say, uncertified electricians to find formal employment in robotics.

Thiel, for his part, refutes the argument – often made by robot doomsayers – that the impact of artificial intelligence and advanced robotics on the labor force will mirror globalization’s impact on advanced-country workers.

The science of robotics is revolutionizing manufacturing; every year, an additional 200,000 industrial robots come into use.

Together, the two plans aim to integrate artificial intelligence (AI), robotics, and social media into manufacturing processes, and to digitize China’s economy and society.

We see radical technological advances in robotics, artificial intelligence, biotechnology, and materials design going on all around us.

Here, rapid advances in robotics are particularly relevant, as increasingly sophisticated machines threaten to supplant low-cost labor in a variety of sectors.

Around the globe, entire industries are being redefined and created from scratch, owing to groundbreaking developments in artificial intelligence, robotics, the Internet of Things, autonomous vehicles, 3D printing, nanotechnology, biotechnology, materials science, energy storage, and quantum computing.

But China has identified automation as a strategic priority, and is now developing its own robotics industry in order to stay ahead of its rising labor costs and aging population.

Indeed, machines are becoming smarter, with innovations like advanced robotics, 3D printing, and big data analytics enabling companies to save money by eliminating even highly skilled workers.

They have the capital to invest in efficiency-enhancing approaches and new production systems, and they are making use of increasingly accessible technologies – such as digital tools, advanced robotics, or new materials – to turbo-charge efficiency.

To that end, eight leading institutions in the North of England – including the Universities of Manchester, Leeds, and Sheffield – have created the N8 Research Partnership to collaborate on research in key areas such as life sciences and robotics.

For example, in the first wave of robotics, countries such as Germany and Sweden displaced auto-sector jobs by adopting CAD (computer-aided design) robots; but they simultaneously brought other jobs back from Asia, and even created new downstream jobs in electronics.

Automation and robotics led to the decline in manufacturing jobs in developed economies long before any major trade agreements were concluded.

In what is now called the Fourth Industrial Revolution, technologies that are coming of age – including robotics, nanotechnology, virtual reality, 3D printing, the Internet of Things, artificial intelligence, and advanced biology – will converge.

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