• 한국지반공학회:학술대회논문집
• /
• 한국지반공학회 1988년도 학술세미나 강연집
• /
• pp.3-67
• /
• 1988

Model studies on the response of homgeneous earth embankment dams subjected to strike-slip fault movement have been penomed via centrifuge and finite element analysis. The centrifuge model tests have shown that crack development in earth embankment experiences two major patters: shear failure deep inside the embankment and tension failure near the surface. The shear rupture zone develops from the base level and propagates upward continuously in the transverse direction but allows no open leakage chnnel. The open tensile cracks develop near the surface of the embankment, but they disappear deep in the embankment. The functional relationship has been developed based on the results of the centrifuge model tests incorporating tile variables of amount of fault movement, embankment geometry, and crack propagation extent in earth des. This set of information can be used as a guide line to evaluate a "transient" safety of the duaged embankment subjected to strike-slip fault movement. The finite element analysis has supplemented the additional expluations on crack development behavior identified from the results of the centrifuge model tests. The bounding surface time-independent plasticity soil model was employed in the numerical analysis. Due to the assumption of continuum in the current version of the 3-D FEM code, the prediction of the soil structure response beyond the failure condition was not quantitatively accurate. However, the fundamental mechanism of crack development was qualitatively evaluated based on the stress analysis for the deformed soil elements of the damaged earth embankment. The tensile failure zone is identified when the minor principal stress of the deformed soil elements less than zero. The shear failure zone is identified when the stress state of the deformed soil elements is at the point where the critical state line intersects the bounding surface.g surface.

• 대한전기학회논문지:시스템및제어부문D
• /
• 제51권9호
• /
• pp.413-422
• /
• 2002

In a power plant, disturbance detection and diagnosis are massive and complex problems. Once a disturbance occurs, it can be either persistent, self cleared, cleared by the automatic controllers or propagated into another disturbance until it subsides in a new equilibrium or a stable state. In addition to the Physical complexity of the power plant structure itself, these dynamic behaviors of the disturbances further complicate the fault monitoring and diagnosis tasks. A data structure called a disturbance interrelation analysis graph(DIAG) is proposed in this paper, trying to capture, organize and better utilize the vast and interrelated knowledge required for power plant disturbance detection and diagnosis. The DIAG is a multi-layer directed AND/OR graph composed of 4 layers. Each layer includes vertices that represent components, disturbances, conditions and sensors respectively With the implementation of the DIAG, disturbances and their relationships can be conveniently represented and traced with modularized operations. All the cascaded disturbances following an initial triggering disturbance can be diagnosed in the context of that initial disturbance instead of diagnosing each of them as an individual disturbance. DIAG is applied to a typical cooling water system of a thermal power plant and its effectiveness is also demonstrated.

• 한국통신학회논문지
• /
• 제31권9A호
• /
• pp.868-877
• /
• 2006

센서 네트워크에서 시각 동기 기술은 위치 추적, 암호화 기술에서의 타임 스탬프, 타 노드들로부터의 같은 이벤트 중복 감지 인식, 기록된 이벤트들의 발생 순서 구분 등 다양한 응용을 위해 필수적이다. 그리고 최근 센서 네트워크에서 신뢰성 및 고장 허용성에 대한 문제가 최근 연구의 주요한 영역으로 대두되고 있다. 본 논문에서는 네트워크 고장과 클럭 고장이라는 두가지 고장 모델을 가정하여 센서 네트워크에서 고장 허용 시각 관리 기법에 대해 제시한다. 제안한 기법은 노드 클럭의 불안정한 동요나 표류율에 심각한 변화가 발생하는 등의 고장이 발생했을 때 이러한 클럭 오류의 네트워크 전파를 제한하며 토폴로지 변화에 대응한다. 시뮬레이션 결과는 제안한 동기 기법이 기존의 TPSN과 비교하여 클럭 고장이 있을 때 동기화 비율이 $1.5{\sim}2.0$배 나은 성능을 보인다.

• International Journal of Aeronautical and Space Sciences
• /
• 제9권1호
• /
• pp.100-110
• /
• 2008

It is not easy to monitor and identify all engine faults and conditions using conventional fault detection approaches like the GPA (Gas Path Analysis) method due to the nature and complexity of the faults. This study therefore focuses on a model based diagnostic method using Neural Network algorithms proposed for fault detection on a turbo shaft engine (PW 206C) selected as the power plant for a tilt rotor type unmanned aerial vehicle (Smart UAV). The model based diagnosis should be performed by a precise performance model. However component maps for the performance model were not provided by the engine manufacturer. Therefore they were generated by a new component map generation method, namely hybrid method using system identification and genetic algorithms that identifies inversely component characteristics from limited performance deck data provided by the engine manufacturer. Performance simulations at different operating conditions were performed on the PW206C turbo shaft engine using SIMULINK. In order to train the proposed BPNN (Back Propagation Neural Network), performance data sets obtained from performance analysis results using various implanted component degradations were used. The trained NN system could reasonably detect the faulted components including the fault pattern and quantity of the study engine at various operating conditions.

• 한국추진공학회:학술대회논문집
• /
• 한국추진공학회 2007년도 제28회 춘계학술대회논문집
• /
• pp.245-249
• /
• 2007

본 연구에서는 모델 기반(Model-Based) 성능진단에 신경회로망을 적용하였고, SIMULINK를 이용하여 PW206C 터보축 엔진의 모델링을 수행하였다. 비행 고도, 비행 마하수, 가스발생기 회전수에 따른 다양한 운용영역의 성능데이터를 base로 하여 압축기, 압축기터빈, 동력터빈의 성능 저하에 대한 학습 데이터를 획득하고 역전파(Back Propagation Network)를 이용하여 훈련 하였다. 설계점 및 탈설계 영역에서 압축기, 압축기터빈, 동력터빈의 단일 손상 탐지를 수행한 결과 손상된 구성품을 잘 탐지함을 확인할 수 있었다.

• 한국추진공학회지
• /
• 제11권3호
• /
• pp.29-34
• /
• 2007

본 연구에서는 모델 기반(Model-Based) 성능진단에 신경회로망을 적용하였고, SIMULINK를 이용하여 PW206C 터보축 엔진의 모델링을 수행하였다. 비행 고도, 비행 마하수, 가스발생기 회전수에 따른 다양한 운용영역의 성능데이터를 base로 하여 압축기, 압축기터빈, 동력터빈의 성능 저하에 대한 학습데이터를 획득하고 역전파(Back Propagation Network)를 이용하여 훈련하였다. 설계점 및 탈설계 영역에서 압축기, 압축기터빈, 동력터빈의 단일 손상 탐지를 수행한 결과 손상된 구성품을 비교적 잘 탐지함을 확인할 수 있었다.

• Nuclear Engineering and Technology
• /
• 제54권12호
• /
• pp.4560-4570
• /
• 2022

Dynamic fault tree (DFT) and its related research methods have received extensive attention in safety analysis and reliability engineering. DFT can perform reliability modelling for systems with sequential correlation, resource sharing, and cold and hot spare parts. A technical modelling method of DFT is proposed for modelling ship collision accidents and loss-of-coolant accidents (LOCAs). Qualitative and quantitative analyses of DFT were carried out using the cutting sequence (CS)/extended cutting sequence (ECS) method. The results show nine types of dynamic fault failure modes in ship collision accidents, describing the fault propagation process of a dynamic system and reflect the dynamic changes of the entire accident system. The probability of a ship collision accident is 2.378 × 10^-9 by using CS. This failure mode cannot be expressed by a combination of basic events within the same event frame after an LOCA occurs in a marine nuclear reactor because the system contains warm spare parts. Therefore, the probability of losing reactor control was calculated as 8.125 × 10^-6 using the ECS. Compared with CS, ECS is more efficient considering expression and processing capabilities, and has a significant advantage considering cost.

• Nuclear Engineering and Technology
• /
• 제55권1호
• /
• pp.119-130
• /
• 2023

Among the various elements of probabilistic safety assessment (PSA), human failure events (HFEs) and their dependencies are major contributors to the quantification of risk of a nuclear power plant. Currently, the dependency among HFEs is reflected using a post-processing method in PSA, wherein several drawbacks, such as limited propagation of minimal cutsets through the fault tree and improper truncation of minimal cutsets exist. In this paper, we propose a method to model the HFE dependency directly in a fault tree using the if-then-else logic. The proposed method proved to be equivalent to the conventional post-processing method while addressing the drawbacks of the latter. We also developed a software tool to facilitate the implementation of the proposed method considering the need for modeling the dependency between multiple HFEs. We applied the proposed method to a specific case to demonstrate the drawbacks of the conventional post-processing method and the advantages of the proposed method. When applied appropriately under specific conditions, the direct fault-tree modeling of HFE dependency enhances the accuracy of the risk quantification and facilitates the analysis of minimal cutsets.

• 소음진동
• /
• 제8권5호
• /
• pp.929-935
• /
• 1998

Safety diagnosis of electric train driving system is performed using vibration signals of running electric train. Safety diagnosis is tried on the viewpoints of the appreciation of superannuation and the fault diagnosis of motor, reduction gear and bogie. The appreciation of superannuation is checked by the vibration levels of driving parts and the fault diagnosis is done by analyzing the frequencies of the vibration signals which are measured directly from a running electric train. The results shows that the vibration levels of each parts increase as the train gets older and each parts have their own frequency patterns of the vibration. Vibration propagation path is also investigated using calculated the coherence value between bogie and driving system. As the results, it is known that vibration signal can be utilized successfully for the safety diagnosis of the driving part of electric train.

• 전자공학회논문지B
• /
• 제31B권9호
• /
• pp.1-9
• /
• 1994

This paper analyzes the faults and their mechanism of CMOS ICs using IDDQ testing technique and evalutes the reliability of the chips that fail this test. It is implemented by the three testing phases, initial test, burn-in and life test. Each testing phase includes the parametric test, functional test, IDDQ test and propagation delay test. It is shown that the short faults such as gate-oxide short, bridging can be only detected by IDDQ testing technique and the number of test patterns for this test technique is very few. After first burn-in, the IDDQ of some test chips is decreased, which is increased in conventional studies and in subsequent burn-in, the IDDQ of all test chips is stabilized. It is verified that the resistive short faults exist in the test chips and it is deteriorated with time and causes the logic fault. Also, the new testing technique which can easily detect the rsistive short fault is proposed.