David Kohanbash
About David Kohanbash
David Kohanbash is a Robotics Lead with extensive experience in developing robotic systems for various challenging environments. He has worked at Carnegie Mellon University and X-energy, and he manages a blog focused on robotics insights.
Current Role at X-energy
David Kohanbash serves as the Robotics Lead at X-energy, a position he has held since 2022. In this role, he focuses on advancing robotic technologies within the energy sector. His responsibilities include overseeing the development and implementation of robotic systems that enhance operational efficiency and safety.
Previous Experience at Carnegie Mellon University
Before joining X-energy, David Kohanbash worked at Carnegie Mellon University as a Principal Systems Engineer from 2006 to 2022. He contributed to the Field Robotics Center and Biorobotics Lab, specializing in the development of system requirements and architectures for various robotic applications. His work involved testing robots in challenging environments, including the Atacama Desert and Hawaiian volcanoes.
Education and Academic Background
David Kohanbash has a strong educational background in robotics and engineering. He earned a Master of Science in Robotics from Carnegie Mellon University in 2011. Prior to that, he completed a Bachelor of Science in Electrical Engineering at Point Park University from 2005 to 2007. He also holds an Associate of Science in Electronic Engineering and Computer Networking from ITT Tech, where he studied from 2003 to 2005.
Founding Role at Mayim
David Kohanbash was the Founder and Chief Technology Officer at Mayim from 2014 to 2020. During his tenure, he led initiatives that integrated robotics into various applications, focusing on innovative solutions in the field. His leadership involved managing multidisciplinary teams and driving the company's technological advancements.
Blog and Advocacy in Robotics
David Kohanbash manages a blog called robotsforroboticists.com, where he shares insights and knowledge related to robotics. He advocates for realistic testing of robots in accurate settings, emphasizing the importance of practical applications over simulations. His contributions to the field extend beyond engineering to education and community engagement.