Proof-of-concept airborne sense and avoid system with ACAS-XU flight test

Tatsuya Kotegawa

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Proof-of-concept airborne sense and avoid system with ACAS-XU flight test

机译：具有ACAS-XU飞行测试的概念验证机载感知和避免系统

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Today, unmanned aircraft system (UAS) operations are typically conducted in segregated airspace and in limited combat theaters. In order to integrate UAS into the National Airspace System (NAS), UAS must operate safely, efficiently, and be compatible with existing manned aircraft traffic so that the overall safety and efficiency of the airspace is not degraded [1]. There are many challenges that lie ahead to allow UAS unrestricted access to NAS, but perhaps the greatest technical challenge involves fulfilling the "See and Avoid" requirements (14CFR 91.111 and 91.113).

机译：如今，无人机系统（UAS）的操作通常在隔离的空域和有限的战区中进行。为了将UAS集成到国家空域系统（NAS）中，UAS必须安全，高效地运行并与现有的有人驾驶飞机交通兼容，以使空域的整体安全性和效率不会降低[1]。允许UAS不受限制地访问NAS面临许多挑战，但是最大的技术挑战可能涉及满足“看见并避免”要求（14CFR 91.111和91.113）。

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来源
《IEEE Aerospace and Electronic Systems Magazine》 |2016年第9期|53-62|共10页
作者
Tatsuya Kotegawa;
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作者单位

General Atomics Aeronautical System, Inc., Poway, CA, USA;

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原文格式 PDF
正文语种 eng
中图分类
关键词
Radar tracking; Air safety; Surveillance; Sensor fusion; Transmission line measurements; Collision avoidance; Protocols;

机译：雷达跟踪;航空安全;监视;传感器融合;传输线测量;防撞;协议;

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1. Flight test and evaluation of a prototype sense and avoid system onboard a scaneagle unmanned aircraft [J] . Michael Wilson, Daniel Ryan, Dmitry Bratanov, IEEE Aerospace and Electronic Systems Magazine . 2016,第9期

机译：在斯堪格鹰无人飞机上进行原型感知和避免系统的飞行测试和评估
2. Flight Test of a Radar-Based Tracking System for UAS Sense and Avoid [J] . Accardo Domenico, Fasano Giancarmine, Forlenza Lidia, Aerospace and Electronic Systems, IEEE Transactions on . 2013,第2期

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3. Capacitive sensing of triglyceride film reactions: a proof-of-concept demonstration for sensing in simulated duodenal contents with gastrointestinal targeting capsule system [J] . Lab on a chip . 2020,第11期

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4. Flight Test of a Proof-of-Concept Sense and Avoid System using ACAS X_U - (PPT) [C] . GENERAL ATOMICS AERONAUTICAL AUVSI Unmanned Systems North America . 2013

机译：使用ACAS XU - （PPT）的概念验证感和避免系统的飞行测试
5. Airborne Collision Detection and Avoidance for Small UAS Sense and Avoid Systems. [D] . Sahawneh, Laith Rasmi. 2016

机译：适用于小型UAS感知和回避系统的机载碰撞检测和回避。
6. A Proof-of-Concept of Label-Free Biosensing System for Food Allergy Diagnostics in Biophotonic Sensing Cells: Performance Comparison with ImmunoCAP [O] . Rocio L. Espinosa, María Fe Laguna, Fátima Fernández, 2018

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7. Simulation and Flight Test Capability for Testing Prototype Sense and Avoid System Elements [O] . Stock, Todd M., Howell, Charles T., Verstynen, Harry A., 2012

机译：仿真和飞行测试能力，用于测试原型感知并避免系统元素
8. Simulation and Flight Test Capability for Testing Prototype Sense and Avoid System Elements. [R] . Howell, C. T., Stock, T. M., Verstynen, H. A., 2012

机译：用于测试原型感和避免系统元素的模拟和飞行测试能力。

Proof-of-concept airborne sense and avoid system with ACAS-XU flight test

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