Technical Note
Antonini, A., Melani, S., Mazza, A., Baldini, L., Adirosi, E., and Ortolani, A. (2022). "Development and calibration of a low- cost, piezoelectric rainfall sensor through machine learning." Sensors, Vol. 22 No. 17, 6638.
10.3390/s22176638Chen, P., and Yu, Q. (2018). "Proximity capacitance array sensor based on data aggregation strategy for rainfall detection." Sensors & Materials, MYU Tokyo, Vol. 30, No. 5. pp. 957- 977.
Claassen, H.C., and Halm, D.R. (1995). "Performance characteristics of an automated wet deposition collector and possible effect on computed annual deposition." Atmospheric Environment, Great Britain ,Vol. 29, No. 9, pp. 1021-1026.
10.1016/1352-2310(94)00341-HFIEDLER (2017). RG-11, accessed 29 May 2024, <https://www.fiedler.company/en/products/meteorological-stations-and-measuring-sensors/rain-gauges/rg-11-optical-rain-gauge>.
Korea Meteorological Administration (KMA) (2019). Standard specification of automatic weather observation equipment. Meteorological Blueprint, No. 2019-9, p. 24.
Lee, J.W., and Lee, E.H. (2018). "Evaluation of daily precipitation estimate from integrated multisatellite retrievals for GPM (IMERG) data over South Korea and East Asia." Atmosphere, Vol. 28, No. 3, pp. 273-289.
Lee, Y.M. (2016). "The design of the rain sensor using a coaxial cavity resonator." Microwave and Optical Technology Letters, Vol. 58, No. 1, pp. 128-133.
10.1002/mop.29509LUFFT (2015). WS100, accessed 29 May 2024, <https://www.otthydromet.com/en/p-lufft-ws100-radar-precipitation-sensor/8367.U04>.
Marendić-Miljković, J., Tasić, M., Rajšić, S., and Vukmirović, Z. (2000). "Precipitation onset detection with a rain sensor of improved sensitivity." Atmospheric Environment, Vol. 34, No. 29-30, pp. 5175-5181.
10.1016/S1352-2310(00)00323-XParanjape, B.V., and Paranjape, M.B. (1996). "The deformation of bubbles and drops in immiscible fluids." Physics and Chemistry of Liquids, Vol. 31, No. 2, pp. 83-88.
10.1080/00319109608029561SEATECH (2012). PRT0100, accessed 29 May 2024, <https://www.sea-tech.kr/seatech/prod/PRT0100View.do>.
Simone, G., Manfred, T., Karsten, S., and Eckhard, L. (2014). "Field intercomparison and laboratory tests of precipitation detectors." WMO TECO-2014(Technical Conference on Meteorological and Environmental Instruments and Methods of Observation), Saint Petersburg, Russian, p. 13.
THIES-CLIMA (2014). 5.4103.20, accessed 29 May 2024, <https://www.thiesclima.com/en/Products/Precipitation-measuring-technology-Electrical-devices/?art=791>.
VAISALA (2020). WXT530, accessed 29 May 2024, <https://www.vaisala.com/en/products/weather-environmental-sensors/weather-transmitter-wxt530-series>.
VAISALA (2021). DRD11a, accessed 29 May 2024, <https://www.vaisala.com/en/products/weather-environmental-sensors/rain-detector-drd11a>.
- Publisher :KOREA WATER RESOURECES ASSOCIATION
- Publisher(Ko) :한국수자원학회
- Journal Title :Journal of Korea Water Resources Association
- Journal Title(Ko) :한국수자원학회 논문집
- Volume : 57
- No :9
- Pages :627-631
- Received Date : 2024-07-03
- Revised Date : 2024-08-06
- Accepted Date : 2024-08-06
- DOI :https://doi.org/10.3741/JKWRA.2024.57.9.627