보고서 정보
주관연구기관 |
한국해양과학기술원 Korea Institute of Ocean Science & Technology |
보고서유형 | 최종보고서 |
발행국가 | 대한민국 |
언어 |
한국어
|
발행년월 | 2014-12 |
과제시작연도 |
2012 |
주관부처 |
해양수산부 Ministry of Oceans and Fisheries |
과제관리전문기관 |
한국해양과학기술원 Korea Institute of Ocean Science & Technology |
등록번호 |
TRKO201500013681 |
과제고유번호 |
1615006111 |
사업명 |
한국해양연구원연구운영비지원 |
DB 구축일자 |
2015-08-15
|
키워드 |
실시간 관측.해저음향케이블.파고/수온 케이블.선박모니터링.융합.Real-time measurement.underwater acoustic cable.wave height and temperature cable.ship monitoring.convergence.
|
DOI |
https://doi.org/10.23000/TRKO201500013681 |
초록
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∙목표 : 수상 및 수중 이동물체를 탐지 및 해양환경 실시간 모니터링 관측 시스템 구축
∙시제품 설계 및 제작
- 수중소음 관측 시범용 해저케이블 설계 및 제작 : 21채널 음향 해저관측 케이블 설계 및 제작
- 레이더와 AIS 기반 선박모니터링 설계 및 제작, 해양관측부이 설계 및 제작
- 파고/수온 센서 케이블 설계 및 제작 : 연안으로부터 1km 파고/수온 센서 설계 및 제작
∙시제품 현장운용 시험 수행
- 2012년, 2013년에 동해연구소 주변해역에서 현장운용 시험실시
- 해저
∙목표 : 수상 및 수중 이동물체를 탐지 및 해양환경 실시간 모니터링 관측 시스템 구축
∙시제품 설계 및 제작
- 수중소음 관측 시범용 해저케이블 설계 및 제작 : 21채널 음향 해저관측 케이블 설계 및 제작
- 레이더와 AIS 기반 선박모니터링 설계 및 제작, 해양관측부이 설계 및 제작
- 파고/수온 센서 케이블 설계 및 제작 : 연안으로부터 1km 파고/수온 센서 설계 및 제작
∙시제품 현장운용 시험 수행
- 2012년, 2013년에 동해연구소 주변해역에서 현장운용 시험실시
- 해저음향케이블을 통해 수상 및 수중 이동체 방향성 탐지 확인, 레이더와 AIS를 자료를 바탕으로 선박 이동 방향 검증, 파고/수온케이블 및 LiDAR를 통한 파고 관측, 해양환경관측부이 설치
- 실시간 자료 전송 시스템 수립 및 자료 전시프로그램 개발 및 9개 센서별 파고 시계열 신호를 1m 간격으로 내삽하는 알고리즘을 이용하여 실시간 파랑의 이동 재현 알고리즘 개발(센서 1m 간격 설치 효과, 실제에 가까운 파랑 이동 현상 표현)
∙국가관할해역 선정 시범 운용
- 2014년 6월 울릉도에서 울릉도-독도해양연구기지를 활용하여 관측시스템 시범 운용 성공
- 2014년 7월 해운대해수욕장에서 파고/수온센서 케이블 시범 운용 성공
Abstract
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Ⅳ. Results
1. Observation system design and producing
Submarine Cables acoustic measures the ambient noise by installing off the coast within 1km and was designed as a moving structure as needed. Accordingly, installation and recovery is possible, at the same time with a flexible structur
Ⅳ. Results
1. Observation system design and producing
Submarine Cables acoustic measures the ambient noise by installing off the coast within 1km and was designed as a moving structure as needed. Accordingly, installation and recovery is possible, at the same time with a flexible structure, to allow normal operation even when buried, and corresponding to the subsea environment has been designed and manufactured with sea water-proof, pressure-proof and water-proof. Submarine acoustic signals received from the 21 channels of the sound cable is passed to the acoustic signal reception system via an optical cable is converted to an optical signal in the connection housing. Wave / temperature sensor cable is designed as a moveable structure to measure wave height and water temperature in real time by installing the coast within 1Km. This installation and recovery is having each sensor module and the cables are detachable structure, during normal operation allowing to be laid water-based, water pressure castle was built in response to the undersea environment with my tightness.
Utilizing as the conventional RADAR and AIS, was configuring the database, and operating in conjunction with a module unit is possible, through the storage vessel and the tracked information track between the respective data in the database module is integrated operation of each module. Pulling the data from the same point in time using the database tracks the location of RADAR, the vessel utilizing the AIS, as it is possible to determine the temporal and spatial information of the ship by using a database.
For existing ocean observation buoys, internal orientation sensor, buoy position monitor(watch-dog) and the Iridium satellite communication module that location data can be transmitted was installed. Separately, an ultrasonic current meter(ADCP) to observe the marine physical environment, meteorological sensors, wave observation sensor, CTD, chlorophyll sensors were installed.
2. Observation system test on the exhibition site
In national jurisdiction waters, for the purpose of building real-time monitoring observation system for the marine environment and the detection of moving objects in the water, we decided the East Sea Research Center, Uljin Gyeongbuk as a pilot area and carried out on-site observations using subsea acoustic cable, wave height/temperature sensor cable, radar/AIS, various equipment and programs. Through the subsea acoustic cable, the direction of the moving object on the surface and the underwater was detected and confirmed the vessel route using the radar & AIS. Through the wave/temperature sensor cable and the LiDAR, we compared the movement patterns in real time and a sensor cable was tested. Using data obtained from the wave sensor cable, we developed a real-time wave reproduction algorithm. Since wave sensor is spatially apart by tens of meters, in order to extract the wave therebetween, by taking the weighted average of the two sensors, we extrapolated the time-series signal of 1m distance. We obtained the same effect as sensors are arranged in a spatially 1m interval.
3. National jurisdiction real-time marine environment Observation system operation
We were upgraded to a prototype of year 1 and 2, improved mechanical strength and tightness of the prototype and the UI of the real-time visualization program. On 16 to 23 June 2014, with the concept of the real sea installation, field trials were carried out important national jurisdiction in the coast of Ulleungdo. Utilizing Ulleungdo-Dokdo Ocean Science Station, we were installed on-site command center to take advantage of the resource base of power. Before installation acoustic undersea cable topographic survey was conducted, it was based on a subsea cable installation, were the seafloor state underwater photography for cable management, cable management techniques were studied mosaics through. Using seabed acoustic cables and radar & AIS, we detected a moving object on the surface. Through LOFAR analysis, we identified to be a moving object surface characteristic, and the noise emission of the moving object obtained through line array sensor was identify the movement direction using the beam-forming technique. Among the jurisdiction area, Haeundae beach is an area that beach erosion due to wave and rip currents are formed. For the actual application of the observed sea cables, wave observations carried out in the area, Haeundae Busan, to be significant to measure wave height September 16, 2014 to 18. At Haeundae beach, through the installation and operation of the wave/temperature cable, wave gauge and ADCP, we completed the verification of real-time observation system implementation
목차 Contents
- 표지 ... 1
- 제출문 ... 2
- 보고서 초록 ... 3
- 요약문 ... 4
- SUMMARY ... 9
- CONTENTS ... 15
- 목차 ... 16
- List of Figures ... 17
- 제1장 서론 ... 22
- 제1절 연구개발 추진 배경 및 필요성 ... 22
- 제2절 연구개발 목표 및 내용필요성 ... 26
- 제2장 국내외 기술개발현황 ... 30
- 제1절 국내 기술개발 현황 ... 30
- 제2절 국외 기술개발현황 ... 40
- 제3장 연구개발수행 내용 및 결과 ... 58
- 제1절 관측시스템 설계 및 제작 ... 58
- 제2절 관측시스템 시범해역 현장실험 ... 92
- 제3절 국가관할해역 실시간 해양환경 관측시스템 운용 ... 109
- 제4장 연구개발목표 달성도 및 대외기여도 ... 146
- 제1절 연구개발목표 달성도 ... 146
- 제2절 대외기여도 ... 147
- 제3절 연구결과 활용 계획 ... 148
- 끝페이지 ... 149
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