核心概念
The author discusses the importance of detecting affective states using physiology data and presents a study on affective state classification using fNIRs and machine learning.
要約
Affective states play a crucial role in mental health, productivity, and overall well-being. This study explores the use of functional near-infrared spectroscopy (fNIRs) combined with machine learning to classify affective states like meditation, amusement, and cognitive load. The results show promising accuracy rates in different models for individual, group, and subject-independent classifications. The research aims to provide real-time feedback for controlling stimuli based on detected affective states.
統計
Mean accuracy of 83.04% achieved in three-class classification with an individual model.
84.39% accuracy achieved for a group model.
60.57% accuracy achieved for subject independent model using leave one out cross-validation.
引用
"An accurate and automated real-time measurement of affective states can be used as feedback to control stimulus intensity."
"Physiology-based detection provides reliable measurements compared to facial expressions or body movements."
"The fNIRs sensor offers consistent measurement of oxygenated and deoxygenated hemoglobin changes in the brain."