OxeFit

OxeFit The smarter way to a stronger life featuring strength, cardio, and force plate technology.

OxeFit in sunny Florida!! ☀️🌴
08/11/2025

OxeFit in sunny Florida!! ☀️🌴

08/11/2025

Get metrics that matter

08/11/2025

Trainers need to be assessed too! 🦾📊

08/09/2025

Customized workout routines driven by your real-time movement data 📊

08/08/2025

Meet Coach O – Motivation. Mindset. Movement. Muscle.🦾 Now live on XS1 and in the OxeFit App📲

08/04/2025

Progress isn’t guesswork anymore. Get purely objective data, get results, rinse and repeat. 🔁

08/03/2025

Seize your power. XP1🦁

08/02/2025

AI personal training for Pilates, Cardio, and Strength in one foldable footprint 📐

08/01/2025

Redefining personal health one movement at a time!

07/31/2025
07/31/2025

Force plate tech for real-time force production and balance feedback⚡️

07/30/2025

Your AI personal trainer

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Plano, TX

Opening Hours

Monday 8am - 5pm
Tuesday 8am - 5pm
Wednesday 8am - 5pm
Thursday 8am - 5pm
Friday 8am - 5pm

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Peter Neuhaus, Co-Founder and Chief Technology Officer of OxeFit

Dr. Peter Neuhaus formerly served as Senior Research Scientist at Florida Institute for Human and Machine Cognition (IHMC) focusing on wearable robotics, powered exoskeletons, and legged locomotion. His work on exoskeletons is focused on lower extremity devices with application for mobility assistance for people with paralysis and paresis and strength and endurance enhancement.

Peter received his B.S. from MIT and his M.S. and Ph.D. from U.C. Berkeley in mechanical engineering. After graduating, he spent five years working in industry. He co-founded a start-up company for distributed power generation and then managed robotic factory-automation projects. In 2003, he joined IHMC.

Peter was one of the lead researchers for the DARPA Learning Locomotion project, developing quadrupedal locomotion algorithms for the Little Dog robot. Some of the algorithms include dynamic maneuvers, reactive control, and the Xgait. His work on wearable robotic devices centers on lower extremity exoskeletons with application for mobility assistance for people with lower limb paralysis and paresis, gait rehabilitation, strength and endurance enhancement, and smart exercise devices.

He has developed a series of mobility assistance exoskeletons. Starting with the IHMC Mina, that has assisted two people with lower limb paralysis in upright walking. After that, he collaborated with NASA Johnson Space Center to develop the X1 exoskeleton, which offers strength enhancement for able-bodied people in addition to mobility assistance. The third device in the series, Mina v2, features the addition of powered ankles for improved mobility and balance control. In 2016, he led a team to compete in the Cybathlon Powered Exoskeleton Race, a competition for paralyzed athletes assisted by technology. Using IHMC’s Mina v2, their pilot placed second in the race, taking home a silver medal. His current goals for this project include enhancing speed, locomotion, and stability through hardware improvements and software algorithm development.