The Dynamic characterisation of ESR prosthetic running feet: an investigation of the key parameters affecting their performance.

Prosthetic running feet (referred to as Energy Storing & Returning (ESR) or Running Specific Prostheses (RSP) but better known as ‘blades’) take the form of a carbon fibre leaf spring with a deflecting keel component. Available literature on the subject of their dynamic response is limited but s...

Full description

Bibliographic Details
Main Author: Hawkins, James
Format: Thesis
Language:English
Published: 2015
Subjects:
Contact Point
Iceland
Online Access:http://eprints.bournemouth.ac.uk/22507/
https://eprints.bournemouth.ac.uk/22507/1/HAWKINS,%20James%20Richard_Ph.D._2015.pdf
id ftunivbournem:oai:eprints.bournemouth.ac.uk:22507
record_format openpolar
spelling ftunivbournem:oai:eprints.bournemouth.ac.uk:22507 2023-06-11T04:13:15+02:00 The Dynamic characterisation of ESR prosthetic running feet: an investigation of the key parameters affecting their performance. Hawkins, James 2015-01 application/pdf http://eprints.bournemouth.ac.uk/22507/ https://eprints.bournemouth.ac.uk/22507/1/HAWKINS,%20James%20Richard_Ph.D._2015.pdf en eng https://eprints.bournemouth.ac.uk/22507/1/HAWKINS,%20James%20Richard_Ph.D._2015.pdf Hawkins, J., 2015. The Dynamic characterisation of ESR prosthetic running feet: an investigation of the key parameters affecting their performance. Doctoral Thesis (Doctoral). Bournemouth University. Thesis NonPeerReviewed 2015 ftunivbournem 2023-05-28T05:41:03Z Prosthetic running feet (referred to as Energy Storing & Returning (ESR) or Running Specific Prostheses (RSP) but better known as ‘blades’) take the form of a carbon fibre leaf spring with a deflecting keel component. Available literature on the subject of their dynamic response is limited but suggests that the amputee with running foot can be considered to act in accordance with Simple Harmonic Motion, but this does not appear to be reflected by the prescription processes currently employed by manufacturers. The research question is asked: ‘Is the current method of prescribing prosthetic ESR running feet appropriate and are there additional factors that should be taken into consideration?’ This thesis aims to first understand the static mechanical characteristics of a single model of prosthetic foot; the Flex Run from Ossur (Reykjavik, Iceland). Previous works carried out (that aim to define the energy return efficiency of the devices but results vary from 63% - 100%) are examined and replicated using a series of fabricated jig fixtures, and the disparity in efficiency results is explained. The running action of an amputee is measured using a wearable measurement system that is developed as well as high-speed video capture. The measured action is then replicated in the laboratory using a rig capable of reproducing the dynamic response of the foot. This rig is subsequently used to manipulate the variables of Simple Harmonic Motion and evaluate the suitability of this assumption to model the running action of an amputee. The research concludes by using the gathered learning to create a tool capable of mathematically replicating the response of a prosthetic foot, and the application of such a tool is discussed. It is found during the course of the research that the available Flex Run feet possess an energy return efficiency of >99% and a variable stiffness along the length of the deflecting keel. As a contribution to knowledge, it was also found that during amputee running the ground contact point (and ... Thesis Iceland Bournemouth University Research Online (BURO) Contact Point ENVELOPE(-56.997,-56.997,-63.374,-63.374)
institution Open Polar
collection Bournemouth University Research Online (BURO)
op_collection_id ftunivbournem
language English
description Prosthetic running feet (referred to as Energy Storing & Returning (ESR) or Running Specific Prostheses (RSP) but better known as ‘blades’) take the form of a carbon fibre leaf spring with a deflecting keel component. Available literature on the subject of their dynamic response is limited but suggests that the amputee with running foot can be considered to act in accordance with Simple Harmonic Motion, but this does not appear to be reflected by the prescription processes currently employed by manufacturers. The research question is asked: ‘Is the current method of prescribing prosthetic ESR running feet appropriate and are there additional factors that should be taken into consideration?’ This thesis aims to first understand the static mechanical characteristics of a single model of prosthetic foot; the Flex Run from Ossur (Reykjavik, Iceland). Previous works carried out (that aim to define the energy return efficiency of the devices but results vary from 63% - 100%) are examined and replicated using a series of fabricated jig fixtures, and the disparity in efficiency results is explained. The running action of an amputee is measured using a wearable measurement system that is developed as well as high-speed video capture. The measured action is then replicated in the laboratory using a rig capable of reproducing the dynamic response of the foot. This rig is subsequently used to manipulate the variables of Simple Harmonic Motion and evaluate the suitability of this assumption to model the running action of an amputee. The research concludes by using the gathered learning to create a tool capable of mathematically replicating the response of a prosthetic foot, and the application of such a tool is discussed. It is found during the course of the research that the available Flex Run feet possess an energy return efficiency of >99% and a variable stiffness along the length of the deflecting keel. As a contribution to knowledge, it was also found that during amputee running the ground contact point (and ...
format Thesis
author Hawkins, James
spellingShingle Hawkins, James
The Dynamic characterisation of ESR prosthetic running feet: an investigation of the key parameters affecting their performance.
author_facet Hawkins, James
author_sort Hawkins, James
title The Dynamic characterisation of ESR prosthetic running feet: an investigation of the key parameters affecting their performance.
title_short The Dynamic characterisation of ESR prosthetic running feet: an investigation of the key parameters affecting their performance.
title_full The Dynamic characterisation of ESR prosthetic running feet: an investigation of the key parameters affecting their performance.
title_fullStr The Dynamic characterisation of ESR prosthetic running feet: an investigation of the key parameters affecting their performance.
title_full_unstemmed The Dynamic characterisation of ESR prosthetic running feet: an investigation of the key parameters affecting their performance.
title_sort dynamic characterisation of esr prosthetic running feet: an investigation of the key parameters affecting their performance.
publishDate 2015
url http://eprints.bournemouth.ac.uk/22507/
https://eprints.bournemouth.ac.uk/22507/1/HAWKINS,%20James%20Richard_Ph.D._2015.pdf
long_lat ENVELOPE(-56.997,-56.997,-63.374,-63.374)
geographic Contact Point
geographic_facet Contact Point
genre Iceland
genre_facet Iceland
op_relation https://eprints.bournemouth.ac.uk/22507/1/HAWKINS,%20James%20Richard_Ph.D._2015.pdf
Hawkins, J., 2015. The Dynamic characterisation of ESR prosthetic running feet: an investigation of the key parameters affecting their performance. Doctoral Thesis (Doctoral). Bournemouth University.
_version_ 1768390044323676160

Similar Items