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A Real-Time Affective Computing Platform Integrated with AI System-on-Chip Design and Multimodal Signal Processing

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    Summary
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    This study introduces a real-time affective computing platform using AI on a chip for emotion recognition. The system achieves 77.41% accuracy using electroencephalogram, electrocardiogram, and photoplethysmogram signals.

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    Area of Science:

    • Affective computing and artificial intelligence.
    • Biomedical signal processing and wearable technology.

    Background:

    • Deep learning is widely used for emotion recognition but faces real-time processing challenges due to computing power and latency.
    • Existing methods struggle with real-time emotion detection, limiting practical applications.

    Purpose of the Study:

    • To propose a real-time affective computing platform integrating an AI System-on-Chip (SoC) with multimodal physiological signals.
    • To enable efficient and accurate emotion recognition for applications like real-time monitoring.

    Main Methods:

    • Utilized electroencephalogram (EEG), electrocardiogram (ECG), and photoplethysmogram (PPG) signals for multimodal emotion feature extraction.
    • Employed short-time Fourier transform (STFT) for EEG and direct signal extraction for ECG/PPG.
    • Implemented a Long-term Recurrent Convolutional Network (LRCN) classifier on an AI SoC design, classifying emotions into happy, angry, and sad.

    Main Results:

    • The LRCN classifier achieved an average cross-subject accuracy of 77.41% for emotion recognition.
    • The AI SoC demonstrated efficient processing with on-chip training at 5.5 µs and real-time classification at 1.9 µs per sample.
    • The platform provides real-time emotion monitoring via a graphical user interface (GUI) updated every second.

    Conclusions:

    • The developed platform offers a viable solution for real-time emotion recognition by overcoming computational constraints.
    • The integrated AI SoC and multimodal signal processing enable efficient and accurate affective computing.
    • This technology has significant clinical relevance for continuous, real-time emotion monitoring.