1. Non-contact method for analysis of cavitating flowsIgnacijo Biluš, Benjamin Bizjan, Luka Lešnik, Brane Širok, Boštjan Pečnik, Matevž Dular, 2017, original scientific article Keywords: acoustic cavitation, sonotrode, pressure measurement, hydrophone, computer-aided visualization, image velocimetry
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2. Non-invasive and continuous intra-abdominal pressure assessment using MC sensorsBoštjan Plešnik, Mihajlo Djokić, Srdjan Djordjević, Simon Krašna, Jan Žumer, Blaž Trotovšek, 2025, original scientific article Keywords: intra-abdominal pressure, transcutaneous sensor, non-invasive measurement, abdominal compartment syndrome
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3. Centre of pressure estimation during walking using only inertial-measurement units and end-to-end statistical modellingJanez Podobnik, David Kraljić, Matjaž Zadravec, Marko Munih, 2020, original scientific article Keywords: gait analysis, inertial measurement units, gait model, estimation of centre of pressure, artificial neural networks, wearable sensors, balance, rehabilitation
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4. Effect of the dynamic response of a side-wall pressure measurement system on determining the pressure step signal in a shock tube using a time-of-flight methodAndrej Svete, Francisco Javier Hernández Castro, Jože Kutin, 2022, original scientific article Keywords: time-varying pressure, primary calibration method, diaphragmless shock tubes, time-of-flight method, shock wave velocity, piezoelectric pressure measurement systems, uncertainty analysis
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5. Localized measurement of a sub-nanosecond shockwave pressure rise timeJaka Petelin, Žiga Lokar, Darja Horvat, Rok Petkovšek, 2022, original scientific article Keywords: optical fiber sensors, pressure measurement, measurement by laser beam, electric breakdown, sonar equipment, fiber lasers, optical fibers, fiber optic probe hydrophone, pressure, shockwave
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6. A method for correcting the high-frequency mechanical vibration effects in the dynamic calibration of pressure measurement systems using a shock tubeAndrej Svete, Eynas Amer, Gustav Jönsson, Jože Kutin, Fredrik Arrhén, 2023, original scientific article Keywords: shock tubes, piezoelectric pressure measurement systems, vibrations, acceleration-induced error, frequency response, uncertainty analysis
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