References
- Aya, S., Fujita, I. and Yagyu, M. (1995). "Field-observation of flood in a river by video image analysis", Proc. of Hydraulic Engineering, JSCE, Vol.39, pp.447-452. (in Japanese) https://doi.org/10.2208/prohe.39.447
- Bigun, J. (2006). Vision with Direction, a Systematic Introduction to Image Processing and Computer Vision, Springer.
- Dramais, G., Coz, J.L., Camenen, B., and Hauet, A. (2011). "Advantages of a mobile LSPIV method for measuring flood discharges and improving stage discharge curves", J. of Hydro-environmental Research, Vol.5, No.4, pp.301-312. https://doi.org/10.1016/j.jher.2010.12.005
- Duda, R. O. and Hart, P. E. (1973). Pattern Classification and Scene Analysis, A Wiley Interscience Publication.
- Etoh, G., Takehara, K., Takano, Y., Fujita, I., Sakai, N., Aya, S., Tamai, M., Miyamoto, H., and Muto, Y. (2002). "Infrared particle tracking velocimetry for applications to measurements of surface velocity fields of rivers." J. of River Technology, Vol. 8, pp. 465-470. (in Japanese)
- Ettema, R., Fujita, I., Muste, M., and Kruger, A. (1997). "Particle-image velocimetry for whole-field measurement of ice velocities." Cold Regions Science and Technology, Vol. 26, pp. 97-112. https://doi.org/10.1016/S0165-232X(97)00011-6
- Fujita, I. (2013). "Utilization of far-infrared-ray camera for image-based measurement of river flow and discharge", Nagare, Vol.32, pp.347-352. (in Japanese)
- Fujita, I., Ando, T., Tsutsumi. S., and Okabe, T. (2009). "Flood flow measurements using STIV in worse imaging conditions", Annual Journal of Hydraulic Engineering, JSCE, Vol.53, pp.1003-1008.(in Japanese)
- Fujita, I. and Komura, S. (1994). "Application of video image analysis for measurements of river-surface flows", Annual Journal of Hydraulic Engineering, JSCE, Vol.38, pp.733-738. (in Japanese) https://doi.org/10.2208/prohe.38.733
- Fujita, I., Kosaka, Y., Yorozuya, A. and Motonaga, Y. (2013). "Surface flow measurement of snow melt flood by using a far infrared camera", J. of JSCE, B1 (Water Resources Engineering), Vol.69, No.4, pp.I_703-I_708. (in Japanese)
- Fujita, I., Takehara, K., Aya, S., Sakai, N., Tamai, M., Takano, Y. and Miyamoto, H. (2002). "Measurement of river flow by ITV video camera", Annual Journal of Hydraulic Engineering, JSCE, Vol.8, pp.459-464. (in Japanese)
- Fujita, I., and Tsubaki, R. (2002). "A novel free-surface velocity measurement method using spatio-temporal images." Proc. of Hydraulic Measurements and Experimental Methods, ASCE, on CDROM.
- Fujita, I., Watanabe, H., and Tsubaki, R. (2005). "Efficient image analysis method for river flow measurement using space-time images." Proc. of XXXI IAHR Congress, pp. 422-428.
- Ishikawa, T., Osumi, K. and Mitome, H. (2001). "Water flow discharge measurement using optical flow technique", Proc. of the Techniques and Research, Hokuriku Regional Development Bureau, pp.249-252. (in Japanese)
- Jahne, B. (1993). Spatio-Temporal Image Processing, Springer, pp. 150-152.
- Kim, Y., Yang, S., Yu, K., and Kim, D.S. (2014) "Flood Runoff Calculation using Disaster Monitoring CCTV System", J. of Environmental Science International, Vol.23, No.4, pp.571-584. (in Korean) https://doi.org/10.5322/JESI.2014.4.571
- Kim, S., Yu, K. and Yoon, B. (2010) "Development of a Velocity Measurement Method at Night Time using an Infrared Camera", Proc. of KWRA Annual Conference, pp.478-482. (in Korean)
- Kim, S., Yu, K. and Yoon, B., (2011). "Real-time discharge measurement of the river using fixed-type surface image velocimetry." J. of Korea Water Resources Association, Vol. 44, pp. 377-388. (in Korean) https://doi.org/10.3741/JKWRA.2011.44.5.377
- Kinoshita, R. (1967). "An analysis of the movement of flood waters by aerial photography concerning characteristics of turbulence and surface flow," J. of the Japan Society of Photogrammetry, Vol.6, No.1, pp.1-17. (in Japanese) https://doi.org/10.4287/jsprs1962.6.1
- Korean Water Resources Association (2009) Design Standard of River Works. (in Korean)
- K-Water (1994). Development of Measurement Facilities for Stream Discharge (Development of a Microwave Surface Velocity Meter and Supersonic Correlation Current Meter), WRRI-WR-94-1. (in Korean)
- K-Water (2010). Improvement of Accuracy on Discharge Measurement Using Surface Velocity, KWI-WR-10-01. (in Korean)
- Negishi, D., Nihei, Y., Katayama, N. and Kashiwada, J. (2014) "Accuracy of velocity and discharge measurement by using radio current meter", J. of Japan Society of Civil Engineers, B1(Water Resource Engineering), Vol.70, No.4, pp.I_625-I_630. (in Japanese) https://doi.org/10.2208/jscejhe.70.I_625
- Pratt, W. K. (2007) Digital Image Processing, 4th ed., Wiley-Interscience.
- Raffel, M., Willert, C.E., Wereley, S.T., and Kompenhans, J. (2007). Particle Image Velocimetry, a Practical Guide, 2nd ed., Springer.
- Roh, Y.S. (2005). Development of River Discharge Measurement Technique using Image Analysis, Ph.D. thesis, Myongji University. (in Korean)
- Tsubaki, R., Fujita, I., Yu, K. and Muste, M. (2015) "Large-scale particle image velocimetry (LSPIV) implementation on smartphone", Proc. of 36th IAHR Congress, Delft, The Hague, the Netherlands.
- Yamaguchi, T., and Niizato, K. (1994). "Flood discharge observation using radio current meter." J. of Japan Society of Civil Engineers, No. 497/II-28, pp. 41-50. (in Japanese)
- Yu, K. and Cho, W.S. (2014). Real-time surface image velocimeter using a smartphone, Proc. of 19th IAHR-APD Congress, pp.210-211.
- Yu, K., Kim, S., and Yoon, B. (2014). "Measurement of two-dimensional velocity distribution of spatio- temporal image velocimeter using cross-correlation analysis." J. of Korea Water Resources Association, Vol. 47, No. 6, pp. 537-546. (in Korean) https://doi.org/10.3741/JKWRA.2014.47.6.537
- Yu, K., Kim, S., and Kim, D. (2015a) "Correlation analysis of spatio-temporal images for estimating two-dimensional flow velocity field in a rotating flow condition", J. of Hydrology, Vol. 529, pp.1810-1822. https://doi.org/10.1016/j.jhydrol.2015.08.005
- Yu, K., Kim, S., Yoo, B., and Bae, I. (2015b) "A test of a far infrared camera for development of new surface image velocimeter for day and night measurement", J. of Korea Water Resources Association, Vol. 48, No. 8, pp. 659-672. (in Korean) https://doi.org/10.3741/JKWRA.2015.48.8.659