Technique to estimate human reaction time based on visual perception

Technique to estimate human reaction time based on visual perception

The design and implementation of a wearable system to estimate the human reaction time (HRT) to visual stimulus based on two identical wireless motion sensors are described. Each sensor incorporates a motion sensor (gyroscope), a processor and a transceiver operating at the industrial, scientific an...

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Bibliographic Details
Main Authors: Reza Abbasi-Kesbi, Hamidreza Memarzadeh-Tehran, M. Jamal Deen
Format: Article
Language:English
Published: Wiley 2017-01-01
Series:Healthcare Technology Letters
Subjects:
visual perception
gyroscopes
transceivers
mean square error methods
fatigue
biomechanics
wireless sensor networks
telemedicine
HRT
human reaction time
wearable system
visual stimulus
wireless motion sensors
gyroscope
transceiver
root mean square error
standard deviation error
mean error
fatigue levels
simple test
recognition test
frequency 2.45 GHz
time 3.34 ms
time 7.83 ms
time 0.35 ms
Online Access:https://digital-library.theiet.org/content/journals/10.1049/htl.2016.0106
Description
Summary:The design and implementation of a wearable system to estimate the human reaction time (HRT) to visual stimulus based on two identical wireless motion sensors are described. Each sensor incorporates a motion sensor (gyroscope), a processor and a transceiver operating at the industrial, scientific and medical frequency of 2.45 GHz. Relevant tests to estimate the HRT are performed in two different scenarios including simple and recognition tests for 90 pairs of measurements. The obtained results are compared with a computer-based system to determine the accuracy of the proposed system. The root mean square error, standard deviation error and mean error of the results are 2.88, 6.17 and 0.3 ms for simple test while for recognition test as low as 3.34, 7.83 and 0.35 ms, respectively. The outcomes of the HRT estimation tests confirm HRT can increase by 40–87% due to increased fatigue levels.
ISSN:2053-3713

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