This paper describes significant wave height downscaling model in south sea around Banyuwangi and Bali. It utilizes 3rd Generation Simulating Wave Nearshore (SWAN) spectral model forced by ERA-5 Reanalysis data of wind and wave. The downscale is done using refined grid in Kuta Beach and Nusa Dua Beach. Model calibration conducted in the offshore and nearshore areas. The offshore wave results are validated using altimeter data, while the nearshore wave results are compared with site measurement in Kuta Beach and Nusa Dua Beach. A parametric study is performed to obtain model sensitivity and compared with observation, such as: wind multiplier factor, bottom friction coefficient, whitecapping, and wave breaking parameter. The model result gives good agreement with altimeter data. Indeed, the wind multiplier factor can be used as one calibration parameter in the wave model. The comparison with measured data shows good agreement in Kuta Beach, where the model can predict the nearshore wave transformation from offshore. Although, in Nusa Dua Beach the model nearshore wave transformation shows more dissipation if compared with wave measurement. Indeed, the downscaling process shows it can be used further in wave climate prediction after calibrated with measurement.

Intergovernmental Panel on Climate Change (IPCC), Climate Change 2022-Mitigation of Climate ChangeClimate Change-Working Group III Contribution to the Sixth Assessment Report of the Intergovernmental Panel on Climate Change. 2022. [Online]. Available: www.ipcc.ch

F. De Leo, A. De Leo, G. Besio, and R. Briganti, “Detection and quantification of trends in time series of significant wave heights: An application in the Mediterranean Sea,” Ocean Engineering,

vol. 202, Apr. 2020, doi: 10.1016/j.oceaneng.2020.107155.

F. De Leo, G. Besio, R. Briganti, and E. Vanem, “Non-stationary extreme value analysis of sea states based on linear trends. Analysis of annual maxima series of significant wave height and peak period in the Mediterannean Sea,” Coastal Engineering, vol. 167, Aug. 2021, doi: 10.1016/j.coastaleng.2021.103896.

J. M. De and L. H. Navarro, “EFFECTS OF CLIMATE CHANGE ON EXTREME WAVE HEIGHTS IN THE ATLANTIC OCEAN USING A CMIP5 MULTIMODEL ENSEMBLE Under the High-Emission Scenario RCP8.5.”

M. Bernardino, M. Goncalves, R. M. Campos, and C. G. Soares, “Extremes and variability of wind and waves across the oceans until the end of 21st century,” Ocean Engineering, vol. 275, 2023.

Surya Eka Aditama, “Adanya Cuaca Buruk, Nelayan di Muncar Banyuwangi Tak Melaut Sepekan Terakhir,” KabarRakyat.ID.

Hermawan Arifianto, “Ombak Tinggi hingga 4 Meter, Ratusan Nelayan Muncar Banyuwangi Tidak Berani Melaut,” Liputan 6.

Eka Rima, “Waspada Gelombang Tinggi hingga 4 Meter Landa Perairan Ketapang-Gilimanuk,” DetikJatim.

Triwidiyanti, “Dihantam Gelombang dan Arus, Abrasi di Pantai Kuta Makin Parah,” DetikBali.

detikNEWS, “Belasan Rumah Nelayan Muncar Rusak Diterjang Ombak Ganas,” detikNEWS.

Ali Sodiqin, “Abrasi Ancam Dermaga di Pelabuhan Pancer,” RadarGenteng.

Japan International Cooperation Agency (JICA), The Feasibility Study on The Urgent Bali Beach Conservation Project, vol. 1. 1989.

AVISO LAS, “Near Real Time Global Significant Wave Height,” https://las.aviso.altimetry.fr/.

Badan Informasi Geospasial, “Pasut Prediction,” https://srgi.big.go.id/map/pasut-prediction.

Badan Informasi Geospasial, “Batimetri

Nasional,” https://tanahair.indonesia.go.id/demnas/#/batnas .

“Delft3D 3D/2D modelling suite for integral water solutions User Manual WAVE.”

A. J. Van Der Westhuysen, “Modeling of depthinduced wave breaking under finite depth wave growth conditions,” J Geophys Res Oceans, vol. 115, no. 1, 2010, doi: 10.1029/2009JC005433.

B. Putro, M. Tanzil Furqon, and S. H. Wijoyo, “Prediksi Jumlah Kebutuhan Pemakaian Air Menggunakan Metode Exponential Smoothing

(Studi Kasus : PDAM Kota Malang),” 2018. [Online]. Available: http://j-ptiik.ub.ac.id

Y. Kusnadi and Mutoharoh, “Pengaruh Keterimaan Aplikasi Pendaftaran Online terhadap Jumlah Pendaftar di Sekolah Dasar Negeri

Jakarta,” Paradigma, vol. XVIII, pp. 89–101, 2016.

Bambang Triadmodjo, Teknik Pantai. Yogyakarta: BETA, 2016.