Dynamic researcher with a strong work ethic, experienced at Vanderbilt Impact Program in developing innovative exoskeleton systems. Proven ability in project coordination and problem-solving, utilizing AutoCAD and MATLAB to drive design solutions. Adept at collaborating within multidisciplinary teams to achieve impactful results in physical therapy technology.
Overview
1
1
year of professional experience
Work History
Researcher
Vanderbilt Impact Program
Nashville, TN
02.2026 - Current
Collaborated on multidisciplinary team to research and develop early-stage exoskeleton system for physical therapy, addressing problem definition, user needs, and technical feasibility.
Contributed to concept development and evaluation of mechanical design solutions, enhancing actuation methods and system functionality.
Vanderbilt Impact Program engages in multidisciplinary research and development activities, driving innovation in various fields.
Intern
Memphis Shelby County Government
Memphis, TN
06.2025 - 07.2025
Helped Manage multiple infrastructure and building renovation projects for Memphis Shelby County Government, ensuring compliance with local regulations and project timelines.
Supported infrastructure and building renovation projects by reviewing floor plans, assisting with site inspections, and documenting field conditions to ensure project alignment with design specifications.
Participated in conversations with contractors and engineers and joined Owner-Architect-Contractor (OAC) meetings to track project progress and communicate critical updates.
Maintained and organized detailed project documentation, including site reports, field observations, and construction updates to support accurate communication and project coordination across teams.
Education
Bachelor of Engineering - Mechanical Engineering, Minor in Digital Fabrication
Vanderbilt University
Nashville, TN
01-2029
Skills
Research methods
Data interpretation
AutoCAD
MATLAB
Data graphics
3D printing
Microsoft Excel
Product development
Project Coordination
Problem Solving
Team Collaboration
Visual Communication
Strong work ethic
Projects
Digital Fabrication Project - Automated Syringe, 12/01/25, Designed and built a motor-driven syringe system using Arduino., Integrated mechanical components, electronics, and programming., Prototyped using 3D printing.