This webinar will define AI and demonstrate how AI-powered cobots can increase production, decrease cost, and shorten cycle times in today's high-tech manufacturing environments. Video case study examples will show how AI leverages billions of hours of iterative machine-learned practices to intelligently direct cobots in manufacturing, production and engineering.
Recent advancements in Artificial Intelligence (AI) have enabled collaborative robots to precisely execute tasks in dynamically changing workspaces, enabling operations to run more smoothly, efficiently and productively.
This webinar will define AI and demonstrate how AI-powered cobots can increase production, decrease cost, and shorten cycle times in today’s high-tech manufacturing environments. Video case study examples will show how AI leverages billions of hours of iterative machine-learned practices to intelligently direct cobots in manufacturing, production and engineering.
During this expert-led webinar, you will learn:
- To understand Artificial Intelligence and its capabilities
- The benefits of open interfaces
- To see how real-life AI/cobot applications can increase production, decrease cost and shorten cycle times
About the Speaker:
Tim DeGrasse – Business Development Manager, Universal Robots. Tim is a Business Development Manager for Universal Robots, covering Northern California. He spent the first part of his career working on the manufacturing floor with L3 Technologies before transitioning to high tech sales. He moved into the automation market in Silicon Valley with Keyence Corporation and then Universal Robots where he has worked the past four years. Tim holds a bachelor’s degree in Hardware Engineering from University of California – Santa Cruz. With a passion for helping companies adopt innovative technology, Tim has helped deploy dozens of collaborative robots utilizing AI, helping customers stay ahead of the curve in the global manufacturing marketplace.
To watch, please complete the form on this page. This webinar is sponsored by Universal Robots.
