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Impulse response functions for nonlinear, nonstationary, and heterogeneous systems, estimated by deconvolution and demixing of noisy time series
Kirchner, J. W. (2022). Impulse response functions for nonlinear, nonstationary, and heterogeneous systems, estimated by deconvolution and demixing of noisy time series. Sensors, 22(9), 3291 (44 pp.). https://doi.org/10.3390/s22093291
(Near) real-time snow water equivalent observation using GNSS refractometry and RTKLIB
Steiner, L., Studemann, G., Grimm, D. E., Marty, C., & Leinss, S. (2022). (Near) real-time snow water equivalent observation using GNSS refractometry and RTKLIB. Sensors, 22(18), 6918 (15 pp.). https://doi.org/10.3390/s22186918
Bedload transport monitoring in Alpine rivers: variability in Swiss plate geophone response
Antoniazza, G., Nicollier, T., Wyss, C. R., Boss, S., & Rickenmann, D. (2020). Bedload transport monitoring in Alpine rivers: variability in Swiss plate geophone response. Sensors, 20(15), 4089 (25 pp.). https://doi.org/10.3390/s20154089
mGEODAR - a mobile radar system for detection and monitoring of gravitational mass-movements
Köhler, A., Lok, L. B., Felbermayr, S., Peters, N., Brennan, P. V., & Fischer, J. T. (2020). mGEODAR - a mobile radar system for detection and monitoring of gravitational mass-movements. Sensors, 20(21), 6373 (15 pp.). https://doi.org/10.3390/s20216373
Assessing understory complexity in beech-dominated forests (<i>Fagus sylvatica</i> L.) in Central Europe — from managed to primary forests
Willim, K., Stiers, M., Annighöfer, P., Ammer, C., Ehbrecht, M., Kabal, M., … Seidel, D. (2019). Assessing understory complexity in beech-dominated forests (Fagus sylvatica L.) in Central Europe — from managed to primary forests. Sensors, 19(7), 1684 (13 pp.). https://doi.org/10.3390/s19071684
European in-situ snow measurements: practices and purposes
Pirazzini, R., Leppänen, L., Picard, G., Lopez-Moreno, J. I., Marty, C., Macelloni, G., … Arslan, A. N. (2018). European in-situ snow measurements: practices and purposes. Sensors, 18(7), 2016 (51 pp.). https://doi.org/10.3390/s18072016
Automatic identification of alpine mass movements by a combination of seismic and infrasound sensors
Schimmel, A., Hübl, J., McArdell, B., & Walter, F. (2018). Automatic identification of alpine mass movements by a combination of seismic and infrasound sensors. Sensors, 18(5), 1658 (19 pp.). https://doi.org/10.3390/s18051658
Load measurement on foundations of rockfall protection systems
Volkwein, A., Kummer, P., Bitnel, H., & Campana, L. (2016). Load measurement on foundations of rockfall protection systems. Sensors, 16(2), 174 (19 pp.). https://doi.org/10.3390/s16020174
Measuring snow liquid water content with low-cost gps receivers
Koch, F., Prasch, M., Schmid, L., Schweizer, J., & Mauser, W. (2014). Measuring snow liquid water content with low-cost gps receivers. Sensors, 14(11), 20975-20999. https://doi.org/10.3390/s141120975
Semi-automatic determination of rockfall trajectories
Volkwein, A., & Klette, J. (2014). Semi-automatic determination of rockfall trajectories. Sensors, 14(10), 18187-18210. https://doi.org/10.3390/s141018187
Transformation of ground vibration signal for debris-flow monitoring and detection in alarm systems
Abancó, C., Hürlimann, M., Fritschi, B., Graf, C., & Moya, J. (2012). Transformation of ground vibration signal for debris-flow monitoring and detection in alarm systems. Sensors, 12(4), 4870-4891. https://doi.org/10.3390/s120404870
Accuracy assessment of digital surface models based on worldview-2 and ADS80 stereo remote sensing data
Hobi, M. L., & Ginzler, C. (2012). Accuracy assessment of digital surface models based on worldview-2 and ADS80 stereo remote sensing data. Sensors, 12(5), 6347-6368. https://doi.org/10.3390/s120506347
ELBARA II, an L-band radiometer system for soil moisture research
Schwank, M., Wiesmann, A., Werner, C., Mätzler, C., Weber, D., Murk, A., … Wegmüller, U. (2010). ELBARA II, an L-band radiometer system for soil moisture research. Sensors, 10(1), 584-612. https://doi.org/10.3390/s100100584
Reflectance modeling for real snow structures using a beam tracing model
Bänninger, D., Bourgeois, C. S., Matzl, M., & Schneebeli, M. (2008). Reflectance modeling for real snow structures using a beam tracing model. Sensors, 8(5), 3482-3496. https://doi.org/10.3390/s8053482