Yu-Chuan Chuang scite author profile

As the result of the growing importance of the Human Computer Interface system, understanding human's emotion states has become a consequential ability for the computer. This paper aims to improve the performance of emotion recognition by conducting the complexity analysis of physiological signals. Based on AMIGOS dataset, we extracted several entropydomain features such as Refined Composite Multi-Scale Entropy (RCMSE), Refined Composite Multi-Scale Permutation Entropy (RCMPE) from ECG and GSR signals, and Multivariate Multi-Scale Entropy (MMSE), Multivariate Multi-Scale Permutation Entropy (MMPE) from EEG, respectively. The statistical results show that RCMSE in GSR has a dominating performance in arousal, while RCMPE in GSR would be the excellent feature in valence. Furthermore, we selected XGBoost model to predict emotion and get 68% accuracy in arousal and 84% in valence.

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An Arbitrarily Reconfigurable Extreme Learning Machine Inference Engine for Robust ECG Anomaly Detection

Chuang

Chen

et al. 2021

IEEE Open J. Circuits Syst.

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Extreme learning machine (ELM) has shown to be an effective and low-power approach for real-time electrocardiography (ECG) anomaly detection. However, prior ELM inference chips are noise-prone and lacking in reconfigurability. In this article, we present an arbitrarily reconfigurable ELM inference engine fabricated in 40-nm CMOS technology for robust ECG anomaly detection. By combining Adaptive boosting (Adaboost) and Eigenspace denoising with ELM (AE-ELM), robust classification under noisy conditions is achieved and saves the number of required multiplications by 95.9%. For chip implementation, a reconfigurable VLSI architecture is designed to support arbitrary complexity of AE-ELM, accounting for dynamic change in application requirements. On the other hand, we propose to construct the input weight matrix of ELM as a Bernoulli random matrix, which further reduces the number of multiplications by 55.2%. For real-time detection, parallel computing is exploited to reduce the latency by up to 86.8%. Overall, the 0.21-mm 2 AE-ELM inference engine shows its robustness against noisy signals and achieves 1.83x AEE compared with the state-of-the-art ELM design. INDEX TERMS Adaptive boosting (Adaboost), eigenspace denoising, electrocardiography (ECG) anomaly detection, extreme learning machine (ELM), reconfigurable chip design.

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Dynamic Hyperdimensional Computing for Improving Accuracy-Energy Efficiency Trade-Offs

Chuang

Chang

2020

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Yu-Chuan Chuang

Task-Projected Hyperdimensional Computing for Multi-task Learning

Online Extreme Learning Machine Design for the Application of Federated Learning

Entropy-Assisted Multi-Modal Emotion Recognition Framework Based on Physiological Signals

An Arbitrarily Reconfigurable Extreme Learning Machine Inference Engine for Robust ECG Anomaly Detection

Dynamic Hyperdimensional Computing for Improving Accuracy-Energy Efficiency Trade-Offs

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