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The Utah Wearable Robotics Laboratory (UWRL) in the Department of Mechanical Engineering at the University of Utah is recruiting multiple highly motivated graduate students (MS and PhD) to join an NIH R01–funded clinical biomechanics study on powered neck exoskeletons for individuals with amyotrophic lateral sclerosis (ALS).
These positions are part of the same multi‑year R01 project described in our recent postdoctoral fellow announcement (see linked post for full project background and clinical context):
https://biomch-l.isbweb.org/forum/bi...-united-states
Project Overview
The NIH‑funded project focuses on the development and clinical evaluation of a powered neck exoskeleton designed to:
Graduate Research Areas
Depending on background and interests, students may contribute to:
Applicants should have a strong interest in biomechanics, robotic rehabilitation and assistance, and human movement science, with an undergraduate degree in one of the following or related disciplines:
Training Environment
Graduate students will be mentored by Dr. Haohan Zhang, Assistant Professor of Mechanical Engineering, and will be embedded in a highly collaborative research environment that integrates:
Funding & Admission
Prospective graduate students should email Dr. Haohan Zhang with:
Contact:
Haohan Zhang, PhD
Assistant Professor, Mechanical Engineering
University of Utah
Email: haohan.zhang@utah.edu
Lab website: http://uwrl.mech.utah.edu
These positions are part of the same multi‑year R01 project described in our recent postdoctoral fellow announcement (see linked post for full project background and clinical context):
https://biomch-l.isbweb.org/forum/bi...-united-states
Project Overview
The NIH‑funded project focuses on the development and clinical evaluation of a powered neck exoskeleton designed to:
- Restore and support head–neck mobility in individuals with ALS
- Quantify neck muscle strength using robotic measurements
- Adapt assistance as neuromuscular function changes over disease progression
- Cross‑sectional laboratory experiments on activities of daily living
- Validation of robot‑based biomechanical metrics against clinical standards
- A longitudinal cohort study examining functional outcomes and device use
Graduate Research Areas
Depending on background and interests, students may contribute to:
- Human‐subject biomechanics experiments (lab and clinic)
- Wearable robot control and hardware integration
- Motion analysis using motion capture, IMUs, and force measurements
- Clinical data analysis and longitudinal modeling
- Assistive and rehabilitation robotics design
- Translation of engineering tools into clinical research settings
Applicants should have a strong interest in biomechanics, robotic rehabilitation and assistance, and human movement science, with an undergraduate degree in one of the following or related disciplines:
- Mechanical Engineering
- Biomedical Engineering
- Robotics
- Biomechanics
Training Environment
Graduate students will be mentored by Dr. Haohan Zhang, Assistant Professor of Mechanical Engineering, and will be embedded in a highly collaborative research environment that integrates:
- Engineering and clinical research
- Direct interaction with clinicians and patients
- Training in experimental design, data analysis, scientific writing, and research dissemination
Funding & Admission
- These positions are fully funded, with tuition covered at 100% and competitive stipends as research assistants
- Start date is flexible, beginning Fall 2026 or later (e.g., Spring 2027, Fall 2027) by arrangement
Prospective graduate students should email Dr. Haohan Zhang with:
- A brief statement of research interests and career goals
- A CV
- Undergraduate transcripts
- (Optional) Prior publications, theses, or project descriptions
Contact:
Haohan Zhang, PhD
Assistant Professor, Mechanical Engineering
University of Utah
Email: haohan.zhang@utah.edu
Lab website: http://uwrl.mech.utah.edu