Validation of a Biomechanical Performance Assessment Platform Applying an Inertial-Bpased Biosensor and Axis Vector Computation

Wangdo Kim, Sean S. Kohles, Emir A. Vela, Victor Huayamave

Research output: Chapter in Book/Report/Conference proceedingConference contributionpeer-review

Abstract

Inertial kinetics and kinematics have substantial influences on human biomechanical function. A new algorithm for IMU-based motion tracking is presented in this work. This study combines recent developments in improved biosensor technology with mainstream motion-tracking hardware to measure the overall performance of human movement based on joint axis-angle representations of limb rotation. This study proposes an alternative approach to representing three-dimensional rotations using a normalized vector around which an identified joint angle defines the overall rotation, rather than a traditional Euler angle approach. Contrast the procedure of Euler angles with the procedure of Axis angle, Euler angles force the body to move along a certain route which it had arbitrarily chosen but which the body had not chosen; in fact, the body would not take any of its routes separately, though it would take all of them together in the most embarrassing manner-goal-directed behavior. But axis angle had no preconceived scheme as to the nature of the movements to be expressed. Although the axis-angle representation requires vector quotient algebra (quaternions) to define rotation, this approach may be preferred for many graphics, vision, and virtual reality software applications. Elbow flexion and extension motion was used to validate the analytical methods. The results suggest that the novel approach could reasonably predict a detailed analysis of axis-angle migration. The described algorithm could play a notable role in the biomechanical analysis of human joints and offers a harbinger of IMU-based biosensors which may assess the control of skilled manipulation.

Original languageEnglish
Title of host publicationProceedings of the 11th International Conference on Sport Sciences Research and Technology Support, icSPORTS 2023
EditorsAndrea Aliverti, Carlo Capelli
PublisherScience and Technology Publications, Lda
Pages93-100
Number of pages8
ISBN (Electronic)9789897586736
DOIs
StatePublished - 2023
Event11th International Conference on Sport Sciences Research and Technology Support, icSPORTS 2023 - Hybrid, Rome, Italy
Duration: 16 Nov 202317 Nov 2023

Publication series

NameInternational Conference on Sport Sciences Research and Technology Support, icSPORTS - Proceedings
ISSN (Print)2184-3201

Conference

Conference11th International Conference on Sport Sciences Research and Technology Support, icSPORTS 2023
Country/TerritoryItaly
CityHybrid, Rome
Period16/11/2317/11/23

Keywords

  • Biosensors
  • Forward Kinematics
  • IMU Sensors
  • Inertial Measurement Units
  • Instantaneous Axis of Rotation
  • Instantaneous Axis-Angle Representations
  • Inverse Kinematics
  • Motion Tracking Sensors
  • Quaternions

Fingerprint

Dive into the research topics of 'Validation of a Biomechanical Performance Assessment Platform Applying an Inertial-Bpased Biosensor and Axis Vector Computation'. Together they form a unique fingerprint.

Cite this