Taehwan Roh scite author profile

A wearable neuro-feedback system is proposed with a low-power neuro-feedback SoC (NFS), which supports mental status monitoring with encephalography (EEG) and transcranial electrical stimulation (tES) for neuro-modulation. Self-configured independent component analysis (ICA) is implemented to accelerate source separation at low power. Moreover, an embedded support vector machine (SVM) enables online source classification, configuring the ICA accelerator adaptively depending on the types of the decomposed components. Owing to the hardwired accelerating functions, the NFS dissipates only 4.45 mW to yield 16 independent components. For non-invasive neuro-modulation, tES stimulation up to 2 mA is implemented on the SoC. The NFS is fabricated in 130-nm CMOS technology.

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An EEG-NIRS Multimodal SoC for Accurate Anesthesia Depth Monitoring

Lee

Kim

et al. 2018

IEEE J. Solid-State Circuits

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A Wearable EEG-HEG-HRV Multimodal System With Simultaneous Monitoring of tES for Mental Health Management

Lee

Kim

et al. 2016

IEEE Trans. Biomed. Circuits Syst.

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A multimodal mental management system in the shape of the wearable headband and earplugs is proposed to monitor electroencephalography (EEG), hemoencephalography (HEG) and heart rate variability (HRV) for accurate mental health monitoring. It enables simultaneous transcranial electrical stimulation (tES) together with real-time monitoring. The total weight of the proposed system is less than 200 g. The multi-loop low-noise amplifier (MLLNA) achieves over 130 dB CMRR for EEG sensing and the capacitive correlated-double sampling transimpedance amplifier (CCTIA) has low-noise characteristics for HEG and HRV sensing. Measured three-physiology domains such as neural, vascular and autonomic domain signals are combined with canonical correlation analysis (CCA) and temporal kernel canonical correlation analysis (tkCCA) algorithm to find the neural-vascular-autonomic coupling. It supports highly accurate classification with the 19% maximum improvement with multimodal monitoring. For the multi-channel stimulation functionality, after-effects maximization monitoring and sympathetic nerve disorder monitoring, the stimulator is designed as reconfigurable. The 3.37 × 2.25 mm(2) chip has 2-channel EEG sensor front-end, 2-channel NIRS sensor front-end, NIRS current driver to drive dual-wavelength VCSEL and 6-b DAC current source for tES mode. It dissipates 24 mW with 2 mA stimulation current and 5 mA NIRS driver current.

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A 259.6μW nonlinear HRV-EEG chaos processor with body channel communication interface for mental health monitoring

Roh

Hong

Cho

et al. 2012

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Taehwan Roh

A 3.9 mW 25-Electrode Reconfigured Sensor for Wearable Cardiac Monitoring System

A Wearable Neuro-Feedback System With EEG-Based Mental Status Monitoring and Transcranial Electrical Stimulation

An EEG-NIRS Multimodal SoC for Accurate Anesthesia Depth Monitoring

A Wearable EEG-HEG-HRV Multimodal System With Simultaneous Monitoring of tES for Mental Health Management

A 259.6μW nonlinear HRV-EEG chaos processor with body channel communication interface for mental health monitoring

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Taehwan Roh

A 3.9 mW 25-Electrode Reconfigured Sensor for Wearable Cardiac Monitoring System

A Wearable Neuro-Feedback System With EEG-Based Mental Status Monitoring and Transcranial Electrical Stimulation

An EEG-NIRS Multimodal SoC for Accurate Anesthesia Depth Monitoring

A Wearable EEG-HEG-HRV Multimodal System With Simultaneous Monitoring of tES for Mental Health Management

A 259.6&#x03BC;W nonlinear HRV-EEG chaos processor with body channel communication interface for mental health monitoring

Contact Info

Product

Resources

About

A 259.6μW nonlinear HRV-EEG chaos processor with body channel communication interface for mental health monitoring