D
Dominique Schreurs
Researcher at Katholieke Universiteit Leuven
Publications - 617
Citations - 7475
Dominique Schreurs is an academic researcher from Katholieke Universiteit Leuven. The author has contributed to research in topics: Signal & Amplifier. The author has an hindex of 37, co-authored 615 publications receiving 6281 citations. Previous affiliations of Dominique Schreurs include Catholic University of Leuven & National Institute of Standards and Technology.
Papers
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Journal ArticleDOI
Improved three-step de-embedding method to accurately account for the influence of pad parasitics in silicon on-wafer RF test-structures
TL;DR: In this paper, an improved three-step de-embedding method is proposed to subtract the influence of parasitics in the test-structure stemming from the contact pads, the metal interconnections and the silicon substrate.
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Wearable Wireless Health Monitoring: Current Developments, Challenges, and Future Trends
TL;DR: The latest developments in body-worn wireless health-monitoring systems and their current challenges and limitations are reviewed and future trends for such worn devices for these applications are discussed.
EVM Calculation for Broadband Modulated Signals
Michael D. McKinley,Kate A. Remley,Maciej Tomasz Myslinski,J.S. Kenney,Dominique Schreurs,Bart Nauwelaers +5 more
TL;DR: A normalization that facilitates calculation of error vector magnitude (EVM) from measurements is presented and the definition of EVM for a common industry standard is derived from a more basic equation.
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Analysis of an Indoor Biomedical Radar-Based System for Health Monitoring
Marco Mercuri,Ping Jack Soh,Gokarna Pandey,Peter Karsmakers,Guy A. E. Vandenbosch,Paul Leroux,Dominique Schreurs +6 more
TL;DR: For the first time, radar, wireless communications, and data processing techniques are combined, enabling contactless fall detection and tagless localization and demonstrates an adequate detection of the target's absolute distance.
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Mutual Coupling Reduction Between Planar Antennas by Using a Simple Microstrip U-Section
TL;DR: A novel structure suppressing the mutual coupling between nearby patches is presented, composed of only a simple U-shaped microstrip, which reduces the Mutual coupling considerably.