Sammy Doleschel scite author profile

Sammy Doleschel

3Publications

11Citation Statements Received

45Citation Statements Given

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RWTH Aachen University

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A Wearable Wireless ECG Monitoring System With Dynamic Transmission Power Control for Long-Term Homecare

et al. 2015

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This paper presents a wearable wireless ECG monitoring system based on novel 3-Lead electrode placements for long-term homecare. The experiment for novel 3-Lead electrode placements is carried out, and the results show that the distance between limb electrodes can be significantly reduced. Based on the new electrode position, a small size sensor node, which is powered by a rechargeable battery, is designed to detect, amplify, filter and transmit the ECG signals. The coordinator receives the data and sends it to PC. Finally the signals are displayed on the GUI. In order to control the power consumption of sensor node, a dynamic power adjustment method is applied to automatically adjust the transmission power of the sensor node according to the received signal strength indicator (RSSI), which is related to the distance and obstacle between sensor node and coordinator. The system is evaluated when the user, who wears the sensor, is walking and running. A promising performance is achieved even under body motion. The power consumption can be significantly reduced with this dynamic power adjustment method.

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Evaluation of Digital Compressed Sensing for Real-Time Wireless ECG System with Bluetooth low Energy

et al. 2016

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In this paper, a wearable and wireless ECG system is firstly designed with Bluetooth Low Energy (BLE). It can detect 3-lead ECG signals and is completely wireless. Secondly the digital Compressed Sensing (CS) is implemented to increase the energy efficiency of wireless ECG sensor. Different sparsifying basis, various compression ratio (CR) and several reconstruction algorithms are simulated and discussed. Finally the reconstruction is done by the android application (App) on smartphone to display the signal in real time. The power efficiency is measured and compared with the system without CS. The optimum satisfying basis built by 3-level decomposed db4 wavelet coefficients, 1-bit Bernoulli random matrix and the most suitable reconstruction algorithm are selected by the simulations and applied on the sensor node and App. The signal is successfully reconstructed and displayed on the App of smartphone. Battery life of sensor node is extended from 55 h to 67 h. The presented wireless ECG system with CS can significantly extend the battery life by 22 %. With the compact characteristic and long term working time, the system provides a feasible solution for the long term homecare utilization.

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High energy efficient analog compressed sensing encoder for wireless ECG system

Wang

Doleschel

Wunderlich

et al. 2016

Microelectronics Journal

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Sammy Doleschel

A Wearable Wireless ECG Monitoring System With Dynamic Transmission Power Control for Long-Term Homecare

Evaluation of Digital Compressed Sensing for Real-Time Wireless ECG System with Bluetooth low Energy

High energy efficient analog compressed sensing encoder for wireless ECG system

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