Abstract
BackgroundIdentifying the emotional state is helpful in applications involving patients with autism and other intellectual disabilities; computer-based training, human computer interaction etc. Electrocardiogram (ECG) signals, being an activity of the autonomous nervous system (ANS), reflect the underlying true emotional state of a person. However, the performance of various methods developed so far lacks accuracy, and more robust methods need to be developed to identify the emotional pattern associated with ECG signals.MethodsEmotional ECG data was obtained from sixty participants by inducing the six basic emotional states (happiness, sadness, fear, disgust, surprise and neutral) using audio-visual stimuli. The non-linear feature ‘Hurst’ was computed using Rescaled Range Statistics (RRS) and Finite Variance Scaling (FVS) methods. New Hurst features were proposed by combining the existing RRS and FVS methods with Higher Order Statistics (HOS). The features were then classified using four classifiers – Bayesian Classifier, Regression Tree, K- nearest neighbor and Fuzzy K-nearest neighbor. Seventy percent of the features were used for training and thirty percent for testing the algorithm.ResultsAnalysis of Variance (ANOVA) conveyed that Hurst and the proposed features were statistically significant (p < 0.001). Hurst computed using RRS and FVS methods showed similar classification accuracy. The features obtained by combining FVS and HOS performed better with a maximum accuracy of 92.87% and 76.45% for classifying the six emotional states using random and subject independent validation respectively.ConclusionsThe results indicate that the combination of non-linear analysis and HOS tend to capture the finer emotional changes that can be seen in healthy ECG data. This work can be further fine tuned to develop a real time system.
Highlights
Identifying the emotional state is helpful in applications involving patients with autism and other intellectual disabilities; computer-based training, human computer interaction etc
Statistical data analysis Hurst was computed using Rescaled Range Statistics (RRS) and Finite Variance Scaling (FVS) methods for high (0.15 to 0.4 Hz), low (0.040.15 Hz) and very low frequency ranges (
Analysis of Variance (ANOVA) indicated statistically significant (p < 0.001) changes among the six emotional states for Hurst computed in very low frequency range
Summary
Identifying the emotional state is helpful in applications involving patients with autism and other intellectual disabilities; computer-based training, human computer interaction etc. The expression and understanding of emotions play a major role in human communication facilitating mutual sympathy [1,2] Extending this to machines and computers is one of the important issues that researchers in human-computer interaction (HCI) are trying to address [2]. Though machines may never need all the emotional skills of people, equipping them with some of the skills will make them appear intelligent when interacting with people [4] Such a system which can understand human emotions is helpful in medical applications for treating patients with intellectual disabilities and autism [5,6]. Emotions can be defined as a mental state that occurs spontaneously without any conscious effort and is accompanied by physiological changes It is systematically produced by cognitive process, subjective feelings, physiological arousal, motivational tendencies, and behavioral reactions [2]. Researchers have proposed a three dimensional model of emotions which takes into account the attention-rejection property in addition to the two-dimensional model [2]
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