Deepu John scite author profile

This paper presents a novel electrocardiogram (ECG) processing technique for joint data compression and QRS detection in a wireless wearable sensor. The proposed algorithm is aimed at lowering the average complexity per task by sharing the computational load among multiple essential signal-processing tasks needed for wearable devices. The compression algorithm, which is based on an adaptive linear data prediction scheme, achieves a lossless bit compression ratio of 2.286x. The QRS detection algorithm achieves a sensitivity (Se) of 99.64% and positive prediction (+P) of 99.81% when tested with the MIT/BIH Arrhythmia database. Lower overall complexity and good performance renders the proposed technique suitable for wearable/ambulatory ECG devices.

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A Hybrid Data Compression Scheme for Power Reduction in Wireless Sensors for IoT

John

Heng

Lian

2017

IEEE Trans. Biomed. Circuits Syst.

152

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This paper presents a novel data compression and transmission scheme for power reduction in Internet-of-Things (IoT) enabled wireless sensors. In the proposed scheme, data is compressed with both lossy and lossless techniques, so as to enable hybrid transmission mode, support adaptive data rate selection and save power in wireless transmission. Applying the method to electrocardiogram (ECG), the data is first compressed using a lossy compression technique with a high compression ratio (CR). The residual error between the original data and the decompressed lossy data is preserved using entropy coding, enabling a lossless restoration of the original data when required. Average CR of 2.1 × and 7.8 × were achieved for lossless and lossy compression respectively with MIT/BIH database. The power reduction is demonstrated using a Bluetooth transceiver and is found to be reduced to 18% for lossy and 53% for lossless transmission respectively. Options for hybrid transmission mode, adaptive rate selection and system level power reduction make the proposed scheme attractive for IoT wireless sensors in healthcare applications.

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A 3-Lead ECG-on-Chip with QRS Detection and Lossless Compression for Wireless Sensors

John

Zhang

Heng

et al. 2016

IEEE Trans. Circuits Syst. II

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An ECG-on-Chip With 535 nW/Channel Integrated Lossless Data Compressor for Wireless Sensors

John

Zhang

Liew

et al. 2014

IEEE J. Solid-State Circuits

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This paper presents a low-power ECG recording system-on-chip (SoC) with on-chip low-complexity lossless ECG compression for data reduction in wireless/ambulatory ECG sensor devices. The chip uses a linear slope predictor for data compression, and incorporates a novel low-complexity dynamic coding-packaging scheme to frame the prediction error into fixed-length 16 bit format. The proposed technique achieves an average compression ratio of 2.25× on MIT/BIH ECG database. Implemented in a standard 0.35 µm process, the compressor uses 0.565 K gates/channel occupying 0.4 mm for four channels, and consumes 535 nW/channel at 2.4 V for ECG sampled at 512 Hz. Small size and ultra-low-power consumption makes the proposed technique suitable for wearable ECG sensor applications.

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Deepu John

A Joint QRS Detection and Data Compression Scheme for Wearable Sensors

A Hybrid Data Compression Scheme for Power Reduction in Wireless Sensors for IoT

A 3-Lead ECG-on-Chip with QRS Detection and Lossless Compression for Wireless Sensors

An ECG-on-Chip With 535 nW/Channel Integrated Lossless Data Compressor for Wireless Sensors

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