Exoskeletons Step Into Daily Life

Exoskeletons Step Into Daily Life
by Clarence Oxford
Los Angeles CA (SPX) Mar 25, 2024

In a recent advancement, Georgia Tech engineers have developed a universal controller for robotic exoskeletons, marking a significant leap towards integrating these futuristic aids into daily life. Unlike the sci-fi inspired contraptions of the past, this new technology promises to transition exoskeletons from laboratory experiments to practical tools for enhancing human mobility in real-world settings.

The novel approach, emerging from Aaron Young's lab, eliminates the need for the cumbersome calibration and specific tuning that have previously confined exoskeleton use to research environments. The team's innovation enables users to simply "don and go," employing deep learning algorithms for seamless adaptation across various activities such as walking, standing, and navigating stairs or ramps.

"This unified control framework represents a paradigm shift in robotic assistance," explains Young, an associate professor at the George W. Woodruff School of Mechanical Engineering. "We've moved beyond activity-specific algorithms to focus on the user's physiological signals, making the system intuitive and versatile."

Dean Molinaro, the study's lead author and a recent Ph.D. graduate from Young's lab, emphasizes the shift from analyzing environmental cues to concentrating on the user's muscle and joint activity. This user-centric design allows the exoskeleton to provide tailored support by translating physiological data into actionable assistance, thus reducing both the metabolic cost and biomechanical strain on the wearer.

The research, detailed in a recent Science Robotics article, demonstrates the controller's efficiency with a hip exoskeleton prototype. The device proved to significantly alleviate the wearer's effort, even counterbalancing its own weight.

"Our control system adapts to individual dynamics without requiring manual adjustments, setting it apart from existing technologies," Young adds, highlighting the elimination of personalized tuning.

Focused on partial-assist devices, the team's work lays the foundation for broader adoption of exoskeletons across various sectors, potentially benefiting workers in physically demanding roles and enhancing mobility for individuals with disabilities.

The implications of Georgia Tech's universal controller extend beyond laboratory settings, offering a glimpse into a future where robotic exoskeletons are an integral part of enhancing human capabilities in everyday life.

Research Report:Estimating human joint moments unifies exoskeleton control and reduces user effort