A UAV-RTK-LIDAR SYSTEM MEASUREMENTS OF WAVE ENERGY DISSIPATION OVER A SANDY BEACH AND AN ALGAL-REEF AREA
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How to Cite

Yeh, C.- yang, & Huang, Z.-C. (2020). A UAV-RTK-LIDAR SYSTEM MEASUREMENTS OF WAVE ENERGY DISSIPATION OVER A SANDY BEACH AND AN ALGAL-REEF AREA. Coastal Engineering Proceedings, (36v), waves.34. https://doi.org/10.9753/icce.v36v.waves.34

Abstract

Wave energy dissipation is a significant factor affecting coastal hydrodynamics, coastline morphology, wave height transformation, and the nutrient uptake in the coral reef (Huang, Lenain et al. 2012). However, it is difficult to be measured since accurate and spatial-distributed measurements of sea surface elevations are required to compute this quantity. We used a UAV-RTK-Lidar system to test the possibility for the measurements of wave energy dissipation. The UAV system was validated to able to measure the ocean wave properties (Huang, Yeh et al. 2018). Two field experiments of measuring energy dissipation were conducted over an algal-reef and a sandy beach site, respectively. Nine and eight flights of UAV measurements on the algal reef and sandy beach were conducted for one tidal cycle. The measurements of wave properties by UAV were compared with those of in-situ instruments using pressure sensors.

Recorded Presentation from the vICCE (YouTube Link): https://youtu.be/fBLbsBuK4AA
https://doi.org/10.9753/icce.v36v.waves.34
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References

Huang, Z.-C., L. Lenain, W. K. Melville, J. H. Middleton, B. Reineman, N. Statom and R. M. McCabe (2012). "Dissipation of wave energy and turbulence in a shallow coral reef lagoon." Journal of Geophysical Research: Oceans 117(C3).

Huang, Z. C., C. Y. Yeh, K. H. Tseng and W. Y. Hsu (2018). "A UAV-RTK Lidar System for Wave and Tide Measurements in Coastal Zones." Journal of Atmospheric and Oceanic Technology 35(8): 1557-1570.

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