A 48.6-to-105.2 µW Machine Learning Assisted Cardiac Sensor SoC for Mobile Healthcare Applications | IEEE Journals & Magazine | IEEE Xplore

A 48.6-to-105.2 µW Machine Learning Assisted Cardiac Sensor SoC for Mobile Healthcare Applications


Abstract:

A machine-learning (ML) assisted cardiac sensor SoC (CS-SoC) is designed for mobile healthcare applications. The heterogeneous architecture realizes the cardiac signal ac...Show More

Abstract:

A machine-learning (ML) assisted cardiac sensor SoC (CS-SoC) is designed for mobile healthcare applications. The heterogeneous architecture realizes the cardiac signal acquisition, filtering with versatile feature extractions and classifications, and enables the higher order analysis over traditional DSPs. Besides, the asynchronous architecture with dynamic standby controller further suppresses the system active duty and the leakage power dissipation. The proposed chip is fabricated in a 90-nm standard CMOS technology and operates at 0.5 V-1.0 V (0.7 V-1.0 V for SRAM and I/O interface). Examined with healthcare monitoring applications, the CS-SoC dissipates 48.6/105.2 μW for real-time syndrome detections of ECG-based arrhythmia/VCG-based myocardial infarction with 95.8/99% detection accuracy, respectively.
Published in: IEEE Journal of Solid-State Circuits ( Volume: 49, Issue: 4, April 2014)
Page(s): 801 - 811
Date of Publication: 14 January 2014

ISSN Information:


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