Combat UAV Real-Time SEAD Mission Simulation

机译：打击无人机实时SEAD任务模拟

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The technology is now in prospect where semi-autonomous Unmanned Air Vehicles (UAVs) can be contemplated for combat use. Such aircraft could be made smaller and cheaper than their manned counterparts, and need not observe the constraints of the human body in terms of ride quality and endurance, and g loading in either the positive or negative senses. These vehicles could be considered expendable to a degree, so that they could be placed in hostile environments unacceptable to manned aircraft. The study from which this work is drawn, aims to look at the systems requirements of this class of aircraft for air to ground and air to air missions. As a specific focus for the work, the Suppression of Enemy Air Defences (SEAD) has been selected as being particularly suitable for application of UAV technologies.

机译：现在，该技术有望用于战斗用途的半自动无人机（UAV）。这样的飞机可以制造得比有人驾驶的飞机更小，更便宜，并且不需要在乘坐质量和耐力以及正负两个方面都遵守人体的约束条件。这些车辆在某种程度上可以认为是可消耗的，因此可以将它们放置在有人驾驶飞机无法接受的敌对环境中。进行这项工作的研究旨在研究此类飞机对空对空和空对空任务的系统要求。作为这项工作的重点，已选择“制止敌人防空系统”（SEAD），因为它特别适合于无人机技术的应用。

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来源
《UAVs Fifteenth international conference》|2000年|p.1-6|共6页
会议地点 Bristol(GB)
作者
Ed Mayo; Dr Phill Smith; John OHara; Dan Griffith;
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作者单位

Flight Management and Control Department Defence Evaluation and Research Agency Bedford UK, MK41 6AE;

Blue Bear Systems Research Ltd Bedfordshire, SG18, 9BU;

Electronic Combat Department Defence Evaluation and Research Agency Farnborough UK, GU14 0LX;

Challenges Aviation Ltd West Sussex, RH110LR;

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原文格式 PDF
正文语种 eng
中图分类无人驾驶飞机;
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专利

1. Real-time Implementation and Validation of a New Hierarchical Path Planning Scheme of UAVs via Hardware-in-the-Loop Simulation [J] . Dongwon Jung, Jayant Ratti, Panagiotis Tsiotras Journal of Intelligent & Robotic Systems . 2009,第1a3期

机译：通过硬件在环仿真实时实现和验证新型无人机分级路径规划方案
2. Real-time Implementation and Validation of a New Hierarchical Path Planning Scheme of UAVs via Hardware-in-the-Loop Simulation [J] . Dongwon Jung, Jayant Ratti, Panagiotis Tsiotras Journal of Intelligent & Robotic Systems: Theory & Application . 2009,第1a3期

机译：无人机在环仿真技术实时实现和验证新型分层路径规划方案
3. Spectrum-Sharing UAV-Assisted Mission-Critical Communication: Learning-Aided Real-Time Optimisation [J] . Minh-Hien T. Nguyen, Emiliano Garcia-Palacios, Tan Do-Duy, Quality Control, Transactions . 2021,第1期

机译：Spectrum-Sharing UAV辅助任务 - 关键通信：学习辅助实时优化
4. UAV Cooperative Task Assignments for a SEAD Mission Using Genetic Algorithms [C] . M. Darrah, W. Niland, B. Stolarik, AIAA Guidance, Navigation, and Control Conference . 2006

机译：使用遗传算法的SEAD任务的无人机协作任务分配
5. Development approaches coupled with verification and validation methodologies for agent-based mission-level analytical combat simulations [D] . Champagne, Lance E. 2004

机译：基于代理的任务级分析作战模拟的开发方法以及验证和确认方法
6. A Distributed Approach for Collision Avoidance between Multirotor UAVs Following Planned Missions [O] . Francisco Fabra, Willian Zamora, Julio Sangüesa, 2019

机译：计划任务后多旋翼无人机之间防撞的分布式方法
7. DEVELOPMENT OF UAV SOS FLIGHT COMBAT RECONNAISSANCE MISSION PROGRAM [O] . Azad Agalar ogli Bayramov, Elshan Giyas oğlu Hashimov 2019

机译：UAV SOS航班战斗侦察侦察计划的发展
8. Discrete Event Simulation of a Suppression of Enemy Air Defenses (SEAD) Mission [R] . Candir, A. A. 2008

机译：抑制敌方防空（sEaD）任务的离散事件模拟

Combat UAV Real-Time SEAD Mission Simulation

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