The Simplified Ocean Wave Height Observation System Based on Location (위치기반의 간이형 해양파고 관측 시스템 연구)

박상현; 박용팔; Dong Jin Bae (배동진); Kim Jinsul (김진술); 박종수

doi:10.34163/jkits.2018.13.6.015

The Simplified Ocean Wave Height Observation System Based on Location

Journal of Knowledge Information Technology and Systems
Abbr : JKITS
2018, 13(6), pp.789-803
DOI : 10.34163/jkits.2018.13.6.015
Publisher : Korea Knowledge Information Technology Society
Research Area : Interdisciplinary Studies > Interdisciplinary Research
Published : December 31, 2018

박상현 ¹, 박용팔 ¹, Dong Jin Bae ¹, Kim Jinsul ², 박종수 ¹

¹오션이엔지
²전남대학교

Accredited

ABSTRACT

In this paper, we propose a location-based simplified oceanographic surveying system. The simplified oceanographic observation system consists of a device for observing the ocean wave and a monitoring server for storing information based location. The simplified type of ocean wave surveying equipment is a small type, and it can be easily installed and deployed on ships and light buoys. Ocean wave observation equipment consists of a data logger, acceleration sensor, GPS and WCDMA module. The oceanic wave observation equipment operates at low power and physically cuts off power by using RTC when not observing. The power supply uses an external power source and can be used by attaching it to a ship or light buoy which is capable of using power at sea. The simple marine digger uses GPS to provide the ability to notify the date, time, and location to registered contact when a ship or light buoy is missing. We can also use a smartphone-based application to map the location of simplified marine peat observation devices. Therefore, it is possible to visit the equipment more quickly when leaving. Generally, large equipment, such as coastal wave buoy and weather buoy is mainly used to measure the crest, but the simple type ocean wave height observation equipment developed by us is small and can be easily installed in desired places. It is the most important factor in oceanographic observation and is proved through experiments that it is possible to measure the accurate wave height with the small type observation equipment developed in this paper. In addition, we can collect location information, wave-height and weather information, and corresponding dates through location based monitoring server.

KEYWORDS

Ocean wave height, Simplified ocean buoy, Observation system, Location tracking, Data logger

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* References for papers published after 2023 are currently being built.

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Journal of Knowledge Information Technology and Systems 2023 KCI Impact Factor : 0.89

The Simplified Ocean Wave Height Observation System Based on Location

ABSTRACT

KEYWORDS

Citation status

* References for papers published after 2023 are currently being built.

Journal of Knowledge Information Technology and Systems 2023 KCI Impact Factor : 0.89

The Simplified Ocean Wave Height Observation System Based on Location

ABSTRACT

KEYWORDS

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* References for papers published after 2023 are currently being built.