Your search keyword '"Van de Steene, Tom"' showing total 7 results

1. 50 Hz Temporal Magnetic Field Monitoring from High-Voltage Power Lines: Sensor Design and Experimental Validation.

Author

Deprez, Kenneth, Van de Steene, Tom, Verloock, Leen, Tanghe, Emmeric, Gommé, Liesbeth, Verlaek, Mart, Goethals, Michel, van Campenhout, Karen, Plets, David, and Joseph, Wout

Subjects

*ELECTRIC lines, *ELECTROMAGNETIC fields, *MAGNETIC fields, *DETECTORS, *CALIBRATION

Abstract

A low-cost, tri-axial 50 Hz magnetic field monitoring sensor was designed, calibrated and verified. The sensor was designed using off-the-shelf components and commercially available coils. It can measure 50 Hz magnetic fields originating from high-voltage power lines from 0.08 µT to 364 µT, divided into two measurement ranges. The sensor was calibrated both on-board and in-lab. The on-board calibration takes the circuit attenuation, noise and parasitic components into account. In the in-lab calibration, the output of the developed sensor is compared to the benchmark, a narrowband EHP-50. The sensor was then verified in situ under high-voltage power lines at two independent measurement locations. The measured field values during this validation were between 0.10 µT and 13.43 µT, which is in agreement with other reported measurement values under high-voltage power lines in literature. The results were compared to the benchmark, for which average deviations of 6.2% and 1.4% were found, at the two independent measurement locations. Furthermore, fields up to 113.3 µT were measured in a power distribution sub-station to ensure that both measurement ranges were verified. Our network, four active sensors in the field, had high uptimes of 96%, 82%, 81% and, 95% during a minimum 3-month interval. In total, over 6 million samples were gathered with field values that ranged from 0.08 µT to 45.48 µT. This suggests that the proposed solution can be used for this monitoring, although more extensive long-term testing with more sensors is required to confirm the uptime under multiple circumstances. [ABSTRACT FROM AUTHOR]

Published

2024

2. Optimal Frequency and Wireless Power Budget for Miniature Receivers in Obese People

Author

Van de Steene, Tom, primary, Tanghe, Emmeric, additional, Martens, Luc, additional, Garripoli, Carmine, additional, Stanzione, Stefano, additional, and Joseph, Wout, additional

Published

2023

3. Sensitivity Study of Neuronal Excitation and Cathodal Blocking Thresholds of Myelinated Axons for Percutaneous Auricular Vagus Nerve Stimulation

Author

Van de Steene, Tom, primary, Tanghe, Emmeric, additional, Tarnaud, Thomas, additional, Kampusch, Stefan, additional, Kaniusas, Eugenijus, additional, Martens, Luc, additional, Van Holen, Roel, additional, and Joseph, Wout, additional

Published

2020

4. Setting reference level in the human safety guidelines via nerve activation intercomparison at IF

Author

Gomez-Tames, Jose, Rashed, Essam, Hirata, Akimasa, Tarnaud, Thomas, Tanghe, Emmeric, Van de Steene, Tom, Martens, Luc, and Joseph, Wout

Subjects

Brain modeling, Technology and Engineering, stimulation threshold, dosimetry, Numerical models, Finite element analysis, Electromagnetics, Computational modeling, Axons, electric field, intercomparison, Mathematical model, multiphysics, Physics and Astronomy, TMS, nerve model

Abstract

International guidelines/standards have been published for human protection from electromagnetic field exposure. The research in the intermediate frequencies (IF: 300 Hz-10 MHz) is scattered unlike for other frequencies, and thus the limit prescribed in the guidelines/standards are different by a factor of 10. The IEEE International Committee on Electromagnetic Safety has published a research agenda for exploring the electrostimulation thresholds. However, the consistency of the excitation models for specific target tissue needs to be revised. For this purpose, we present the first intercomparison study using multiphysics modelling to investigate stimulation thresholds during transcranial magnetic stimulation (TMS). To define the stimulation threshold, a noninvasive technique for brain stimulation has been used. In this study, by incorporating individual neurons into electromagnetic computation in realistic head models, stimulation thresholds can be determined. The study case of one subject showed that the allowable external magnetic field strength in the current guidelines/standard is conservative.

Published

2019

5. Brain Cortical Stimulation Thresholds to Different Magnetic Field Sources Exposures at Intermediate Frequencies

Author

Gomez-Tames, Jose, primary, Tarnaud, Thomas, additional, Miwa, Keishi, additional, Hirata, Akimasa, additional, Van de Steene, Tom, additional, Martens, Luc, additional, Tanghe, Emmeric, additional, and Joseph, Wout, additional

Published

2019

6. Setting Reference Level in Human Safety Guidelines via Cortical Nerve Activation Intercomparison at IF

Author

Gomez-Tames, Jose, primary, Rashed, Essam, additional, Hirata, Akimasa, additional, Tarnaud, Thomas, additional, Tanghe, Emmeric, additional, van de Steene, Tom, additional, Martens, Luc, additional, and Joseph, Wout, additional

Published

2019

7. Assessment of nerve cathodal block for the percutaneous auricular vagus nerve stimulation

Author

Samoudi, Amine M., primary, Van de Steene, Tom, additional, Tanghe, Emmeric, additional, Martens, Luc, additional, and Joseph, Wout, additional

Published

2018