Reliability, Robustness, and Resilience Modeling for Surveillance System in Advanced Air Mobility Operations
Esrat Farhana Dulia Caleb Adams Syed Arbab Mohd Shihab Ruben Del Rosario
作者信息
Abstract
Ensuring the safe and efficient operation of Advanced Air Mobility (AAM) in low-altitude airspace requires a reliable, robust, and resilient surveillance system capable of continuously detecting, identifying, and tracking aircraft under both normal and off-nominal conditions. To address this need, this study develops a comprehensive 3R modeling framework, reliability, robustness, and resilience, for the Surveillance for Advanced Air Mobility (SAM) system, with a focus on the optimal design and operation of a multi-type sensor network. Under normal operating conditions, the reliability model determines the baseline sensor types, quantities, and locations required to satisfy surveillance coverage and detection requirements. To address external perturbations, such as adverse weather conditions or sudden increases in AAM traffic demand, the robustness model identifies additional sensor requirements needed to maintain system performance. Furthermore, for surveillance outages caused by primary sensor failures, the resiliency model develops backup sensor deployment and dispatch strategies to provide temporary surveillance coverage, minimize operational disruptions, and support the safe continuation of AAM operations.引用本文复制引用
Esrat Farhana Dulia,Caleb Adams,Syed Arbab Mohd Shihab,Ruben Del Rosario.Reliability, Robustness, and Resilience Modeling for Surveillance System in Advanced Air Mobility Operations[EB/OL].(2026-05-01)[2026-05-05].https://arxiv.org/abs/2605.00823.学科分类
航空航天技术/航空
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