Asymmetrical Force Sensor for Rowing Biomechanics
Design a device which can quantify the degree to which rowers exert force asymmetrically during rowing, for the purpose of preventing lower back injuries.
Project Overview
Elite rowers that engage in a high volume of training can suffer from a variety of injuries, the most common occurring in the lumbar spine. As rowing is a full-body movement, perfecting technique and maintaining proper form is essential to preventing such injuries and improving performance overall. The team’s goal is to create a wireless sensor system in the rowboat for the UW-Madison Women’s Rowing Team to measure real-time biokinetic data. The device will capture load distribution during time of use and will assess lower extremity asymmetry to establish risk stratification. Additionally, the team aims to translate the force plate system into a user-friendly interface that will enable coaches and athletes to understand essential biofeedback information, thereby improving both athletes' performance and safeguarding against injuries.
Team Picture
Files
- Final Notebook (December 13, 2024)
- Final Report (December 13, 2024)
- Final Poster Presentation (December 6, 2024)
- Preliminary Report (October 9, 2024)
- Preliminary Presentation (October 4, 2024)
- PDS (September 19, 2024)
Progress Reports
Contact Information
Team Members
- Allicia Moeller - Team Leader
- Simerjot Kaur - Communicator
- Emily Wadzinski - BSAC
- Neha Kulkarni - BWIG
- Colin Fessenden - BPAG
- Angela Zhou
- Devin Wolf
Advisor and Client
- Dr. David Appleyard - Advisor
- Dr. Jill Thein-Nissenbaum - Client
- Ms. Tricia De Souza - Alternate Contact
Related Projects
- Fall 2024: Asymmetrical Force Sensor for Rowing Biomechanics
- Spring 2024: Asymmetrical Force Sensor for Rowing Biomechanics
- Fall 2023: Lower extremity force plates to determine accuracy of biomechanical movement of crew athletes during erging and sweep rowing