We're building a robotic manipulation platform that is designed from the ground up for AI based controls. Our novel, low cost artificial muscle fiber actuators mimic the functionality of human muscle and allow for fluid and dexterous movement that is not feasible with conventional actuation systems.
We see a huge gap in the capability of current robotics hardware to support the rising diversity of use cases enabled by AI. Current systems are not designed for AI and so we believe a paradigm shift is necessary.
We're building a breakthrough biomimetic based robotics platform designed for ML based controls. It is intended for doing complex tasks in unstructured environments with minimal setup and learns by demonstration.
Our novel artificial muscle fibers were inspired by biology in the same way that human brains inspired neural networks. Pairing the two biomimetic approaches allow robots to interact with the world more naturally.
SpaceX veteran who designed novel flight reusability systems and mechanisms for F9, FH, and Starship as well as new manufacturing methods at Machina Labs as a Machine Learning Engineer.
Industrial designer with 13 years of product design experience in diverse industries from micro surgical devices to movies. Lead the mechanical team at Tarform to build a novel electric motorcyle and prove out the design.
Head of Prototyping
Former Director of Prototyping at Newlab, the epicenter of hardware development in NYC, where he built out their fabrication capabilities and worked with hundreds of startups to bring their products to life.
Worked at Amazon as a Machine Learning engineer after getting his PhD from NYU where he developed novel control software for robotic locomotion and dexterity. Also worked on projects at Google X and CERN.