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Kinematic training of convolutional neural networks for particle image velocimetry
Manickathan, L., Mucignat, C., & Lunati, I. (2022). Kinematic training of convolutional neural networks for particle image velocimetry. Measurement Science and Technology, 33(12), 124006 (16 pp.). https://doi.org/10.1088/1361-6501/ac8fae
Flame monitoring of a model swirl injector using 1D tunable diode laser absorption spectroscopy tomography
Liu, C., Cao, Z., Li, F., Lin, Y., & Xu, L. (2017). Flame monitoring of a model swirl injector using 1D tunable diode laser absorption spectroscopy tomography. Measurement Science and Technology, 28(5), 54002 (8 pp.). https://doi.org/10.1088/1361-6501/aa5aee
A reference material for establishing uncertainties in full-field displacement measurements
Hack, E., Lin, X., Patterson, E. A., & Sebastian, C. M. (2015). A reference material for establishing uncertainties in full-field displacement measurements. Measurement Science and Technology, 26(7), 075004 (13 pp.). https://doi.org/10.1088/0957-0233/26/7/075004
Characterization method of dielectric properties of free falling drops in a microwave processing cavity and its application in microwave internal gelation
Cabanes-Sempere, M., Catalá-Civera, J. M., Peñaranda-Foix, F. L., Cozzo, C., Vaucher, S., & Pouchon, M. A. (2013). Characterization method of dielectric properties of free falling drops in a microwave processing cavity and its application in microwave internal gelation. Measurement Science and Technology, 24(9), 095009 (9 pp.). https://doi.org/10.1088/0957-0233/24/9/095009
Mitigation of surface reflection in PIV measurements
Paterna, E., Moonen, P., Dorer, V., & Carmeliet, J. (2013). Mitigation of surface reflection in PIV measurements. Measurement Science and Technology, 24(5), 057003 (5 pp.). https://doi.org/10.1088/0957-0233/24/5/057003
High precision measurement of surface cracks using an optical system
Christen, R., Bergamini, A., & Motavalli, M. (2009). High precision measurement of surface cracks using an optical system. Measurement Science and Technology, 20(7), 077001 (5pp.). https://doi.org/10.1088/0957-0233/20/7/077001
Flexible and precise drop test system
Stämpfli, R., & Brühwiler, P. A. (2009). Flexible and precise drop test system. Measurement Science and Technology, 20(11), 115102 (8 pp.). https://doi.org/10.1088/0957-0233/20/11/115102
Milling micro-structures using focused ion beams and its application to photonic components
Nellen, P. M., & Brönnimann, R. (2006). Milling micro-structures using focused ion beams and its application to photonic components. Measurement Science and Technology, 17(5), 943-948. https://doi.org/10.1088/0957-0233/17/5/S01
The method of neutron imaging as a tool for the study of the dynamics of water movement in wet aramid-based ballistic body armour panels
Reifler, F. A., Lehmann, E. H., Frei, G., May, H., & Rossi, R. (2006). The method of neutron imaging as a tool for the study of the dynamics of water movement in wet aramid-based ballistic body armour panels. Measurement Science and Technology, 17(7), 1925-1934. https://doi.org/10.1088/0957-0233/17/7/034
Heated, perspiring manikin headform for the measurement of headgear ventilation characteristics
Brühwiler, P. A. (2003). Heated, perspiring manikin headform for the measurement of headgear ventilation characteristics. Measurement Science and Technology, 14(2), 217-227. https://doi.org/10.1088/0957-0233/14/2/309