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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
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
Alpine grassland phenology as seen in AVHRR, VEGETATION, and MODIS NDVI time series - a comparison with in situ measurements
Fontana, F., Rixen, C., Jonas, T., Aberegg, G., & Wunderle, S. (2008). Alpine grassland phenology as seen in AVHRR, VEGETATION, and MODIS NDVI time series - a comparison with in situ measurements. Sensors, 8(4), 2833-2853. https://doi.org/10.3390/s8042833