EMOTION RECOGNITION FROM HEART RATE VARIABILITY WITH A HYBRID SYSTEM COMBINED HIDDEN MARKOV MODEL AND POINCARE PLOT

Q3 Economics, Econometrics and Finance Applied Computer Science Pub Date : 2024-03-30 DOI:10.35784/acs-2024-07

Sahar ZAMANI KHANGHAH, K. Maghooli

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Abstract

The best emotion recognition system based on physiological signals with a simple operatory should have higher accuracy and fast response speed. This paper aims to develop an emotion recognition system using a novel hybrid system based on Hidden Markov Model and Poincare plot. For this purpose, an electrocardiogram from the MAHNOB-HCI database was used. A novel feature extraction from a hybrid system combining Hidden Markov Model and Poincare plot was presented. The authors extracted time and frequency domain features from heart rate variability, and used two central hybrid systems, the Support Vector Machine/ Hidden Markov Model and the Hidden Markov Model/ Poincare Plot. Finally, the support vector machine was used as a classifier to classify emotions into positive and negative. The proposed method showed a classification accuracy of 95.02 ± 1.97 % overall. Also, the computing time of the method is around 163 milliseconds. The key of this paper is in the use of hybrid machines to improve accuracy without high computation time. This method can be used as a real-time system due to the low computation time and can be developed in many fields, such as medical examination and security systems.

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利用混合系统结合隐马尔可夫模型和波因卡雷图，从心率变异性识别情绪

基于生理信号、操作简单的最佳情绪识别系统应具有更高的准确性和更快的响应速度。本文旨在利用基于隐马尔可夫模型和庞加莱图的新型混合系统开发一种情绪识别系统。为此，本文使用了 MAHNOB-HCI 数据库中的心电图。作者介绍了一种结合隐马尔可夫模型和泊恩卡雷图的新型混合系统特征提取方法。作者从心率变异性中提取了时域和频域特征，并使用了两个中央混合系统，即支持向量机/隐马尔可夫模型和隐马尔可夫模型/波因卡雷图。最后，使用支持向量机作为分类器，将情绪分为积极和消极两种。所提出的方法的总体分类准确率为 95.02 ± 1.97 %。此外，该方法的计算时间约为 163 毫秒。本文的关键在于使用混合机器来提高准确率，而无需花费大量计算时间。由于计算时间短，该方法可用作实时系统，并可在医疗检查和安全系统等许多领域得到开发。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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