한국해양대학교

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무인수상선(USV) 수중 추진기의 고장진단 시스템 연구

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dc.contributor.advisor 최형식 -
dc.contributor.author 주기범 -
dc.date.accessioned 2024-01-03T16:09:46Z -
dc.date.available 2024-01-03T16:09:46Z -
dc.date.created 2022-09-06 -
dc.date.issued 2022 -
dc.identifier.uri http://repository.kmou.ac.kr/handle/2014.oak/13044 -
dc.identifier.uri http://kmou.dcollection.net/common/orgView/200000642510 -
dc.description.abstract Unmanned surface vehicle (USV) is one of the marine platforms that conduct missions on the surface of water, and recently, zero-emission research such as the utilization of renewable energy is being promoted because of tight environmental regulations. Simultaneously, the scope of fault diagnosis of the USV is expanding, and the fault of the underwater thruster may cause a fatal danger to the mission performance of the platform. Therefore, an unmanned surface vehicle condition monitoring system and fault diagnosis system are essential. In this study, a condition monitoring software GUI was designed for real-time monitoring of USV. Through the GUI, the status of each element of the electric power system and the electric thruster system was checked, and the user was notified when a fault occurred. For power system operating within the rated operating range, fault diagnostic methods with appropriate threshold settings can be used. However, because the operation range of the electric propulsion system is dynamic, it is difficult to diagnose the fault only based on the threshold. Therefore, in this study, a novel algorithm that applied a data-driven method to diagnose the fault of underwater thruster was developed. The small USV was used to verify the underwater thruster fault diagnosis algorithm, and the fault of the thruster blade and the fault of entanglement such as rope and net were selected as the fault situation. In order to diagnose these faults, the fault diagnosis system based on sensors and a data acquisition system was designed on a small USV. In the data-driven method, it is important to select the fault feature. Therefore, in this study, vibration, current consumption, RPM, and input voltage were selected as the fault features based on the vibration generation owing to the imbalance of the rotating body, the torque of the thruster, and the current formula of the DC motor. In addition, the changes in the fault feature data were predicted in the fault situation, the changes in data were verified through analysis of fault feature data acquired through experiments, and the changes in these data were used as symptoms of fault. The algorithm proposed in this paper measures the data, extracts the data of the fault features, performs the preprocessing process, applies the Principal Component Analysis technique and the entropy technique to detect the fault. Subsequently, this is analyzed through visualization in the three-dimensional principal component space to diagnose the fault. Each verification experiment of fault situations was conducted in an engineering basin, and the fault was classified and diagnosed based on the acquired data to verify the performance of the algorithm. -
dc.description.tableofcontents 1. 서 론 1 1.1 연구배경 1 1.2 연구목적 4 1.3 논문구성 6 2. 무인수상선(USV) 고장진단 시스템 구성 7 2.1 무인수상선의 전력 및 전기추진 시스템 구조 8 2.2 무인수상선의 고장진단 시스템 구조 11 2.2.1 고장진단 시스템 구조 11 2.2.2 고장 상태 모니터링 GUI 16 2.3 소형 무인수상선의 고장진단 시스템 18 2.3.1 소형 무인수상선의 구성 18 2.3.2 소형 무인수상선의 고장진단 센서부 20 2.3.3 소형 무인수상선의 고장진단 시스템 구성 23 2.3.4 소형 무인수상선의 고장 상태 모니터링 GUI 25 3. 소형 무인수상선 수중 추진기 고장 인자 선정 26 3.1 고장 상황 선정 27 3.2 추진기 진동 29 3.3 추진기 소모 전류, RPM 30 3.4 추진기 입력 전압 31 4. 데이터 기반 무인수상선 추진기 고장진단 알고리즘 32 4.1 데이터 기반 무인수상선 추진기 고장진단 알고리즘 33 4.2 주성분 분석(Principal Component Analysis) 기법 35 4.3 엔트로피(Entropy) 기법 36 4.4 데이터 전처리 과정 37 5. 수중 추진기 고장진단 알고리즘 검증 실험 39 5.1 공학수조 실험 40 5.2 고장 실험 분석 41 5.3 소형 무인수상선 추진기 고장진단 알고리즘 검증 44 5.3.1 PCA 결과 분석 44 5.3.2 엔트로피 결과 분석 48 5.3.3 PCA-Entropy 기반 추진기 고장진단 알고리즘 검증 49 5.3.4 단순 PCA와 PCA–Entropy 기반 알고리즘 비교 51 6. 결론 53 -
dc.format.extent 68 -
dc.language kor -
dc.publisher 한국해양대학교 대학원 -
dc.rights 한국해양대학교 논문은 저작권에 의해 보호받습니다. -
dc.title 무인수상선(USV) 수중 추진기의 고장진단 시스템 연구 -
dc.type Dissertation -
dc.date.awarded 2022-08 -
dc.embargo.terms 2022-09-06 -
dc.contributor.department 대학원 기계공학과 -
dc.contributor.affiliation 한국해양대학교 대학원 기계공학과 -
dc.description.degree Master -
dc.identifier.bibliographicCitation 주기범. (2022). 무인수상선(USV) 수중 추진기의 고장진단 시스템 연구. -
dc.identifier.holdings 000000001979▲200000002983▲200000642510▲ -
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