Knopp, TobiasTobiasKnoppMohn, FabianFabianMohnFörger, FynnFynnFörgerThieben, FlorianFlorianThiebenHackelberg, NiklasNiklasHackelbergFaltinath, JonasJonasFaltinathTsanda, ArtyomArtyomTsandaBoberg, MarijaMarijaBobergMöddel, MartinMartinMöddel2025-01-142025-01-142024-12-19Current Directions in Biomedical Engineering 10 (4): 377-380 (2024)https://tore.tuhh.de/handle/11420/53212Determining the position and orientation of a medical instrument is essential for accurate procedures in endoscopy, surgery, and vascular interventions. Recently, a novel sensor based on torsional pendulum-like magneto-mechanical motion has been proposed. This sensor is passive, wireless and inductively coupled to a transmit-receive coil array. This setup allows the determination of all 6 degrees of freedom using the characteristic resonance of the sensor. Additional physical quantities such as temperature and pressure can be measured based on the frequency of the sensor, which mainly depends on the distance between the two involved permanent magnets. In this study, we analyze a sensor composed of two magnetic cylinders with variable magnet-to-magnet distance and a basic physical model based on a dipole assumption. Experimental analysis of the resonance frequency and comparison with the model values show both qualitative and quantitative agreement with an average relative error of only 0.8 %. This validates the implemented model and shows the suitability of our magneticmechanical resonator made from cylindrical permanent magnets for sensing applications.en2364-550420244377380De Gruyterhttps://creativecommons.org/licenses/by/4.0/Magneto-Mechanical Resonator | Sensing | Resonance Frequency | Magnet-to-Magnet DistanceTechnology::610: Medicine, HealthTechnology::621: Applied Physics::621.8: Machine EngineeringNatural Sciences and Mathematics::530: Physics::530.4: States of Matter::530.42: Fluid PhysicsTechnology::620: Engineering::620.3: VibrationsJournal Articlehttps://doi.org/10.15480/882.1432010.1515/cdbme-2024-209210.15480/882.14320Journal Article