空中交通管制
分离(统计)
计算机科学
航空
国家空域系统
数据收集
跑道
终端(电信)
国家(计算机科学)
尾流紊流
数据建模
空中交通管理
蒙特卡罗方法
仿真建模
模拟
无人机
ASDE-X公司
建模与仿真
运输工程
航空安全
实时计算
系统工程
系统集成
交通模拟
工程类
交通生成模型
数据集成
作者
Niklas P. Schulmeyer,Nicoletta Fala
摘要
This paper presents a lightweight simulation framework for rapidly assessing the risk and traffic impact of integrating uncrewed aerial vehicles (UAVs) with various trajectories into the National Airspace System. The framework combines agent-based modeling and Monte Carlo simulation with real air traffic data to generate realistic traffic patterns and quantify integration risk through loss of separation events. We validate the methodology by applying it to three representative scenarios: a terminal area near an airport, a rural region, and a state with diverse traffic densities. These case studies demonstrate the framework’s capability to provide fast, computationally efficient risk estimates for UAV operations. While we initially designed this approach for weather data collection missions, the methodology applies broadly to any planned UAV operation requiring airspace integration assessment. The framework offers aviation planners and regulators a practical tool for evaluating the safety implications of adding new actors to the airspace system.
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