Michael Deisher scite author profile

The design of an activity recognition and monitoring system based on the eWatch, multi-sensor platform worn on different body positions, is presented in this paper. The system identifies the user's activity in realtime using multiple sensors and records the classification results during a day. We compare multiple time domain feature sets and sampling rates, and analyze the tradeoff between recognition accuracy and computational complexity. The classification accuracy on different body positions used for wearing electronic devices was evaluated.

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Activity Recognition and Monitoring Using Multiple Sensors on Different Body Positions

Maurer¹,

Smailagic²,

Siewiorek³

et al. 2006

279

174

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Trading off Prediction Accuracy and Power Consumption for Context-Aware Wearable Computing

et al.

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Debunking the 100X GPU vs. CPU myth

et al. 2010

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A 2.3 nJ/Frame Voice Activity Detector-Based Audio Front-End for Context-Aware System-On-Chip Applications in 32-nm CMOS

Raychowdhury

Tokunaga

Beltman

et al. 2013

IEEE J. Solid-State Circuits

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Advanced human-machine interfaces require improved embedded sensors that can seamlessly interact with the user. Voice-based communication has emerged as a promising interface for next generation mobile, automotive and hands-free devices. Presented here is such an audio front-end with Voice Activity Detection (VAD) hardware targeted for low-power embedded SoCs, featuring a 512 pt FFT, programmable filters, noise floor estimator and a decision engine which has been fabricated in 32 nm CMOS. The dual-, dual-frequency design allows the core datapath to scale to near-threshold voltage (NTV), where power consumption is less than 50 uW. At peak energy efficiency, the core can process audio data at 2.3 nJ/frame-a 9.4X improvement over nominal voltage conditions. Index Terms-Low-power sensor front-end, near operation, voice activity detection.

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Michael Deisher

Activity Recognition and Monitoring Using Multiple Sensors on Different Body Positions

Activity Recognition and Monitoring Using Multiple Sensors on Different Body Positions

Trading off Prediction Accuracy and Power Consumption for Context-Aware Wearable Computing

Debunking the 100X GPU vs. CPU myth

A 2.3 nJ/Frame Voice Activity Detector-Based Audio Front-End for Context-Aware System-On-Chip Applications in 32-nm CMOS

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