Back to Search Start Over

A head impact detection system using SVM classification and proximity sensing in an instrumented mouthguard

Authors :
David B. Camarillo
Bruce Cam
Livia Zarnescu
Lyndia C. Wu
Vaibhav Nangia
Source :
IEEE transactions on bio-medical engineering. 61(11)
Publication Year :
2014

Abstract

Injury from blunt head impacts causes acute neurological deficits and may lead to chronic neurodegeneration. A head impact detection device can serve both as a research tool for studying head injury mechanisms and a clinical tool for real-time trauma screening. The simplest approach is an acceleration thresholding algorithm, which may falsely detect high-acceleration spurious events such as manual manipulation of the device. We designed a head impact detection system that distinguishes head impacts from nonimpacts through two subsystems. First, we use infrared proximity sensing to determine if the mouthguard is worn on the teeth to filter out all off-teeth events. Second, on-teeth, nonimpact events are rejected using a support vector machine classifier trained on frequency domain features of linear acceleration and rotational velocity. The remaining events are classified as head impacts. In a controlled laboratory evaluation, the present system performed substantially better than a 10-g acceleration threshold in head impact detection (98% sensitivity, 99.99% specificity, 99% accuracy, and 99.98% precision, compared to 92% sensitivity, 58% specificity, 65% accuracy, and 37% precision). Once adapted for field deployment by training and validation with field data, this system has the potential to effectively detect head trauma in sports, military service, and other high-risk activities.

Details

ISSN :
15582531
Volume :
61
Issue :
11
Database :
OpenAIRE
Journal :
IEEE transactions on bio-medical engineering
Accession number :
edsair.doi.dedup.....4605413f683320f1addd7828370cc8b6