A Hierarchical Collision Avoidance Architecture for Multiple Fixed-Wing UAVs in an Integrated Airspace <ce:cross-ref refid='fn1'> <ce:sup loc='post'>?</ce:sup> </ce:cross-ref>

Yajing Wang; Xiangke Wang; Shulong Zhao; Lincheng Shen

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A Hierarchical Collision Avoidance Architecture for Multiple Fixed-Wing UAVs in an Integrated Airspace ?

机译：集成空域中多个固定翼UAV的分层碰撞避免架构？

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This paper studies the collision avoidance problem for autonomous multiple fixed-wing UAVs in the complex integrated airspace. By studying and combining the online path planning method, the distributed model predictive control algorithm, and the geometric reactive control approach, a three-layered collision avoidance system integrating conflict detection and resolution procedures is developed for multiple fixed-wing UAVs modeled by unicycle kinematics subject to input constraints. The effectiveness of the proposed methodology is evaluated and validated via test results of comparative simulations under both deterministic and probabilistic sensing conditions.

机译：本文研究了复杂的集成空域中自主多型固定翼无人机的碰撞避免问题。通过研究和结合在线路径规划方法，分布式模型预测控制算法和几何无反应控制方法，为整合冲突检测和分辨率的三层碰撞避免系统是为独轮车运动学主题建模的多个固定翼UAV开发的三层碰撞避免系统输入约束。通过在确定性和概率传感条件下通过比较模拟的测试结果评估和验证所提出的方法的有效性。

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《IFAC PapersOnLine》 |2020年第2期|共6页
作者
Yajing Wang; Xiangke Wang; Shulong Zhao; Lincheng Shen;
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Multiple fixed-wing UAVsconflict detectionresolutioncollision avoidancehierarchical architecture;

机译：多个固定翼UavSconFlict检测效果Colision避免了架构;

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1. UAV Collision Avoidance Considering No-Fly-Zones ? [J] . Hae-In Lee, Hyo-Sang Shin, Antonios Tsourdos IFAC PapersOnLine . 2020,第2期

机译：无人机碰撞避免考虑无蝇区？
2. The applicability of on-line contextual calibration to a neural network based monocular collision avoidance system on a UAV ? [J] . Antal Hiba, Rita Aleksziev, Koppány Pázmán, IFAC PapersOnLine . 2019,第11期

机译：在线上下文校准对无人机上基于神经网络的单眼防撞系统的适用性？ < / ce：交叉引用>
3. The applicability of on-line contextual calibration to a neural network based monocular collision avoidance system on a UAV ? [J] . Antal Hiba, Rita Aleksziev, Koppány Pázmán, IFAC PapersOnLine . 2019,第11期

机译：在线上下文校准对无人机上基于神经网络的单眼防撞系统的适用性？ < / ce：交叉引用>
4. Predictive ground collision avoidance system for UAV applications: PGCAS design for fixed-wing UAVs and processor in the loop simulation [C] . Seongheon Lee, Hyochoong Bang, Dongjin Lee International Conference on Unmanned Aircraft Systems . 2016

机译：无人机应用的预测性地面防撞系统：PGCAS设计，用于固定翼无人机和回路仿真中的处理器
5. A Contract Based Approach to Collision Avoidance for UAVs [D] . Alimbayev, Talgat. 2020

机译：基于合同避免无人机的侵犯方法
6. Decentralized 3D Collision Avoidance for Multiple UAVs in Outdoor Environments [O] . Eduardo Ferrera, Alfonso Alcántara, Jesús Capitán, 2018

机译：室外环境中多无人机的分散式3D避撞
7. A Hierarchical Collision Avoidance Architecture for Multiple Fixed-Wing UAVs in an Integrated Airspace [O] . Yajing Wang, Xiangke Wang, Shulong Zhao, 2020

机译：集成空域多个固定翼UAV的分层碰撞避免架构
8. Integrated Guidance and Control of UAVs for Reactive Collision Avoidance [R] . Chawla, C., Padhi, R. 2011

机译：无人机反应避碰综合制导与控制

A Hierarchical Collision Avoidance Architecture for Multiple Fixed-Wing UAVs in an Integrated Airspace ?

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