Funding

Active Projects


NRI: FND: COLLAB: Optimal Design of Robust Compliant Actuators for Ubiquitous Co-Robots
National Robotics Initiative 2.0 (CMMI-1830360), R. Gregg (UTD/Lead PI), S. Rezazadeh (UTD Co-PI), E. Rouse (Michigan PI)
National Science Foundation: Division of Civil, Mechanical and Manufacturing Innovation (CMMI)
09/15/2018 - 08/31/2021, $750,000 total costs ($431,244 UTD share)
Description: The major goal of this project is to establish a robust convex optimization framework for the design of series elastic actuators that are energy-efficient and safe across a wide variety of situations.


R01: Controlling Locomotion over Continuously Varying Activities for Agile Powered Prosthetic Legs
1R01HD094772, R. Gregg (PI)
National Institutes of Health: Eunice Kennedy Shriver National Institute of Child Health & Human Development
09/01/2018 - 05/31/2023, $2,227,090 total costs
Description: The major goal of this project is to model and control human locomotion over continuously varying tasks for the design of agile, powered prostheses that require little to no tuning.


NRI: FND: COLLAB: An Open-Source Robotic Leg Platform that Lowers the Barrier for Academic Research
National Robotics Initiative 2.0 (CMMI-1734600), R. Gregg (UTD PI), E. Rouse (Michigan/Lead PI), and H. Geyer (CMU PI)
National Science Foundation: Division of Civil, Mechanical and Manufacturing Innovation (CMMI)
10/01/2017 - 09/30/2020, $749,054 total costs ($193,000 UTD share)
Description: The objective of this project is to create a scalable research platform for robotic lower-limb prostheses that will accelerate progress in the field by lowering the barrier-to-entry with ubiquitous, open-source hardware and software modules.


CAREER: Recovering and Enhancing Natural Locomotion in Changing Conditions with Powered Lower-Limb Prostheses and Orthoses
Faculty Early Career Development (CAREER) Award (CMMI-1652514), R. Gregg (PI)
National Science Foundation: Division of Civil, Mechanical and Manufacturing Innovation (CMMI)
09/01/2017 - 08/31/2022, $500,000 total costs
Description: The objective of this project is to establish 1) a transformative paradigm for energetic control of powered prostheses and orthoses that can assist lower-limb amputees and stroke survivors across changing conditions, and 2) an integrated education program at the interface of STEM and disability that spans from K-12 students to prosthetics-orthotics students.


DCSD: Time-Invariant, Multi-Objective Extremum Seeking Control for Model-Free Auto-Tuning of Powered Prosthetic Legs
Dynamics, Control and Systems Diagnostics (CMMI-1728057), N. Gans (PI) and R. Gregg (co-PI)
National Science Foundation: Division of Civil, Mechanical and Manufacturing Innovation (CMMI)
09/01/2017 - 08/31/2020, $373,483 total costs
Description: The objective of this project is to understand model-free, adaptive optimization methods with varying time-scales and competing objectives in order to enable real-time auto-tuning of powered prosthetic legs.
Project Webpage


NRI: Decentralized Feedback Control Design for Cooperative Robotic Walking with Application to Powered Prosthetic Legs
National Robotics Initiative (CMMI-1637704), K. Hamed (SDSU PI) and R. Gregg (UTD PI)
National Science Foundation: Division of Civil, Mechanical and Manufacturing Innovation (CMMI)
09/01/2016 - 08/31/2019, $612,213 total costs ($245,730 UTD share)
Description: The objective of this project is to investigate decentralized feedback control strategies for legged robots with cooperative subsystems, including powered prosthetic legs.
Project Webpage


CASI: From Machine to Biomimetic Control in Robot-Assisted Walking
Career Award at the Scientific Interface, R. Gregg (PI)
Burroughs Wellcome Fund
07/01/2012 - 06/30/2020, $500,000 direct costs
Description: This career transition award supports the PI's development of a research program for translating theoretical control principles from walking robots into clinically viable powered prosthetic legs for amputees.


Completed Projects


DP2: Phase-Based Control of Locomotion for High-Performance Prostheses and Orthoses
NIH Director's New Innovator Award (DP2HD080349-01), R. Gregg (PI)
National Institutes of Health: Office of the Director and the Eunice Kennedy Shriver National Institute of Child Health & Human Development
09/30/2013 - 06/30/2018, $2,295,000 total costs
Description: The objective of this project is to investigate the existence of phase-based control strategies in human locomotion for the purpose of designing high-performance control systems for lower-limb prostheses/orthoses.