Jake Abbott (PI) Tommaso Lenzi (co-PI), and Shad Roundy (co-PI) were awarded a National Science Foundation grant “Magnetic Cogging Parallel-elastic Actuators for Energy-efficient Robotic Legs”. $732,643, 1/1/2023-12/31/2025....
Read MoreAbbott and Rogue Space Systems receive Space Force Grant for Detumbling Space Debris
Jake Abbott and Rogue Space Systems were awarded a Space Force STTR grant “Detumbling of Space Debris Using Magnetic-Field Sources as Robot End-Effectors”. $249,582. 7/5/2022-12/4/2022....
Read MoreAbbott and Rogue Space Systems Receive Space Force Grant
Jake Abbott and Rogue Space Systems were awarded a Space Force STTR grant “Use of Rotating Magnetic Fields to Detumble Irregular Asymmetric Space Debris-Like Objects”. $249,552. 6/27/2022-10/26/2022....
Read MoreAbbott and Hermans Receive NSF Grant
Jake Abbott (PI) and Tucker Hermans (co-PI) were awarded a National Science Foundation grant “Dexterous Magnetic Manipulation of Non-Magnetic Objects with Stationary Electromagnetic Dipole-Field Sources”. $554,285. 5/15/2022-4/30/2025....
Read MoreProf. Lenzi Receives 2020 NSF CAREER Award
Department of Mechanical Engineering Assistant Professor Tommaso Lenzi has been awarded a National Science Foundation Faculty Early Career Development Program (CAREER) award. The CAREER program is one of the NSF’s most prestigious award programs, offering 5 years of support to early-career faculty with the potential to serve as academic role models in research and education. The research grant, entitled “Bio-inspired Multi-joint Design and Control for Efficient and Lightweight Wearable Robots” will provide new knowledge related to wearable robotics by using bio-inspired actuation systems that concurrently assist multiple joints, much like human muscles. Existing exoskeletons are heavy and inefficient, which...
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Prof. Leang receives new U.S. Airforce Phase I STTR project for autonomous aerial-robot chemical sensing
Kam Leang and industry partner Nevada NanoTech System recently received a U.S. Airforce Phase I STTR project for autonomous aerial-robot chemical sensing. The project will leverage the expertise of both teams to create intelligent agents for applications that include emergency response....
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Prof. Mascaro receives $348K NIH grant to simulate tendon reconstructive surgeries
“Simulating Tendon Reconstructive Surgeries using a Virtual Hand Model and Robotic Testbed,” National Institute of Arthritis and Musculoskeletal and Skin Diseases (NIH R21). PI: Stephen Mascaro, Co-PI: Kenneth Foreman, 07/02/2019-05/31/2021, $347,798. The goal of this project is to advance tendon reconstructive surgery by providing a new way to predict the surgical outcomes using a virtual model for surgeons to examine the outcomes of surgery like range of motion and strength of grip. We currently have a unique virtual model of the tendon system of the human finger that can simulate the kinematics of the tendons and predict the pose...
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Prof. Lenzi receives new $600K NSF NRI grant for control of robotic leg prostheses
For amputees, walking down the sidewalk verses taking the stairs can be considerable obstacles. Mechanical engineering assistant professor Tommaso Lenzi just received collaborative funding with Drs. Nicholas Fey and Kenneth Hoyt (University of Texas at Dallas), from the National Science Foundation Civil, Mechanical and Manufacturing Innovation (NSF CMMI), National Robotics Initiative (NRI), for their research entitled, “Muscle Ultrasound Sensing for Intuitive Control of Robotic Leg Prostheses,” $600,987 (U), and $578,233 (UT). The goal of this project is to fill the knowledge gap regarding the integration of the user’s volition or intuitive will, in the control of lightweight robotic ankle...
Read MoreAbbott, Kong, Leang and Monson receive $2M NSF EFRI Award
Congratulations to Profs. Abbott, Kong, Leang and Monson on their new $2M NSF EFRI Award, project in collaboration with R. Rajamani of Univ. of Minnesota and O. Pak of Santa Clara Univ. Project tile: “EFRI C3 SoRo: Magneto-electroactive Soft, Continuum, Compliant, Configurable (MESo-C3) Robots for Medical Applications Across Scales” The vision of this collaborative project between the University of Utah, the University of Minnesota, and Santa Clara University is to extend the capabilities of clinicians by enabling minimally invasive access to locations in the human body that are currently difficult or impossible to reach, using a new class of...
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Prof. Lenzi receives $972K DoD CDMRP grant for motorized hip orthoses
Congratulations to Prof. Tommaso Lenzi for receiving new $972K DoD CDMRP grant entitled, “Motorized Hip Orthoses to Improve the Gait Ability of Transfemoral Amputees”. The goal of the project is to validate a new approach to improving amputees’ mobility—providing bilateral hip assistance with a motorized orthosis. Hip orthoses are very lightweight, and their mass is located close to the body center of mass, thus minimizing the metabolic energy cost of carrying this additional weight. In addition, as the orthosis is not suspended through the socket interface, it does not affect balance or socket stability. Because motorized hip orthoses can be...
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