Kai Geissdoerfer scite author profile

Kai Geissdoerfer

5Publications

43Citation Statements Received

40Citation Statements Given

How they've been cited

How they cite others

139

Affiliations

TU Dresden, Technische Universität Berlin, Commonwealth Scientific and Industrial Research Organisation

Publications

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A Fast Multimodal Ectopic Beat Detection Method Applied for Blood Pressure Estimation Based on Pulse Wave Velocity Measurements in Wearable Sensors

Pflugradt

Geissdoerfer

Goernig

et al. 2017

Sensors

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Automatic detection of ectopic beats has become a thoroughly researched topic, with literature providing manifold proposals typically incorporating morphological analysis of the electrocardiogram (ECG). Although being well understood, its utilization is often neglected, especially in practical monitoring situations like online evaluation of signals acquired in wearable sensors. Continuous blood pressure estimation based on pulse wave velocity considerations is a prominent example, which depends on careful fiducial point extraction and is therefore seriously affected during periods of increased occurring extrasystoles. In the scope of this work, a novel ectopic beat discriminator with low computational complexity has been developed, which takes advantage of multimodal features derived from ECG and pulse wave relating measurements, thereby providing additional information on the underlying cardiac activity. Moreover, the blood pressure estimations’ vulnerability towards ectopic beats is closely examined on records drawn from the Physionet database as well as signals recorded in a small field study conducted in a geriatric facility for the elderly. It turns out that a reliable extrasystole identification is essential to unsupervised blood pressure estimation, having a significant impact on the overall accuracy. The proposed method further convinces by its applicability to battery driven hardware systems with limited processing power and is a favorable choice when access to multimodal signal features is given anyway.

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Towards Energy Positive Sensing using Kinetic Energy Harvesters

Sandhu

Geissdoerfer

Khalifa

et al. 2020

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Energy- and Mobility-Aware Scheduling for Perpetual Trajectory Tracking

Sommer

Geissdoerfer

Jurdak

et al. 2020

IEEE Trans. on Mobile Comput.

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Towards Optimal Kinetic Energy Harvesting for the Batteryless IoT

Sandhu

Geissdoerfer

Khalifa

et al. 2020

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SolAR: Energy Positive Human Activity Recognition using Solar Cells

Sandhu

Khalifa

Geissdoerfer

et al. 2021

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