An FFT-Based Method for Wave Decomposition from Wave and Tide Monitoring Using A01NYUB Sensor-Reference-Cited by-同舟云学术

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An FFT-Based Method for Wave Decomposition from Wave and Tide Monitoring Using A01NYUB Sensor

Published:2022-12-19 Issue: Volume: Page:
ISSN:
Container-title:2022 IEEE Ocean Engineering Technology and Innovation Conference: Management and Conservation for Sustainable and Resilient Marine and Coastal Resources (OETIC)
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Author:

Adiningsih Sekar¹,Fadlilah Yuliah Nur¹,Putranto Rizki Taqwa¹,Agfanita Syifa¹,Bayrus Salmaa¹,Iriani Rossi Nur¹,Wicaksono Moses¹,Ikhtiarino Satrio²,Wulandari Siti¹,Adyaksa Yustinus¹,Petrova Cendra Boskanita¹,Ginanjar Satria¹,Wirasatriya Anindya¹,Widiaratih Rikha¹,Sugianto Denny Nugroho¹,Kunarso Kunarso¹,Susanto Raden Dwi³

Affiliation:

1. Diponegoro University,Department of Oceanography,Semarang,Indonesia

2. Diponegoro University,Department of Marine Science,Semarang,Indonesia

3. University of Maryland,Department of Atmospheric and Oceanic Science,Maryland,USA

Publisher

IEEE

Link

http://xplorestaging.ieee.org/ielx7/10176202/10176210/10176211.pdf?arnumber=10176211

Reference16 articles.

1. Tides Measurement and Tidal Analysis at Jakarta Bay

2. Tide Harmonic Analysis Using the Admiralty Method at Stations Less Than 50 Km Harmonic Analysis With Admiralty Methode on Sea Tides Station Less Than 50 Km;fitriana;Journal of Meteorology Climatology and Geophysics,2019

3. Gabion as a coastal protection structure: a case study in Panjang Island Indonesia;science;IOP Conference Series Earth and Environmental Science,0

4. River flow controls on tides and tide-mean water level profiles in a tidal freshwater river

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