Abstract
Unmanned Aerial Vehicles (UAV) are increasingly being popular in many applications. Their operation requires a high level of safety and reliability to accomplish successful missions. In this study, their reliability is comparatively analyzed by different available approaches to select the efficient method. Firstly, the failure model of the system is developed. Then, three different scenarios are considered to study the effect of redundancies on the reliability of the system. In the first scenario, there is no redundancy, whereas in the second scenario there is one redundant component and in the third scenario, there are three redundant components. Static reliability analysis implemented on the proposed scenarios using methods of Fault Tree Analysis (FTA), Reliability Block Diagram (RBD), Markov Chain (MC), and Bayesian Networks (BN) and the results are obtained. Also, regarding the time dependencies between redundant components, a dynamic-based methodology is developed by applying Dynamic Fault Tree (DFT) analysis. Then, the proposed static and dynamic approaches are applied to a UAV as a case study and the results are discussed. Finally, the characteristics of each methodology and the related conditions are clarified for selecting the efficient reliability analysis approach.
Highlights
IntroductionReliability analysis has become an integral part of system design
Nowadays, reliability analysis has become an integral part of system design
This paper aims to evaluate the efficiency of reliability analysis approaches for Unmanned Aerial Vehicles (UAV) and other emerging technologies with a critical mission
Summary
Reliability analysis has become an integral part of system design. System designers rely on commercially available dependability tools in order to assess the reliability of their systems. UAV system environments are socio-economic, regulatory, physical in operations, and maintenance. Challenges in hardware, software, and human factors in the environments have interactions that lead to big differences in precise SRS assessment. It is extremely difficult to accurately assess the reliability of a UAV due to some reasons such as the confidentiality and limitation of the data which caused to suppose hypothetical samples to provide comparative analysis. UAV is typically a complex system that adopts redundancy techniques to ensure higher reliability.
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