Hyper-Spectral Communications and Networking for ATM: Results and Prospective Future

D. Matolak, I. Guvenc, H. Mehrpouyan, Greg Carr
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Abstract

Over the past two years we have worked on a project for NASA’s Aeronautics Research Mission Directorate (ARMD) University Leadership Initiative (ULI) program. Our project is entitled Hyper-Spectral Communications, Networking and ATM as Foundation for Safe and Efficient Future Flight: Transcending Aviation Operational Limitations with Diverse and Secure Multi-Band, Multi-Mode, and mmWave Wireless links. For brevity we abbreviate this title HSCNA. The four-institution HSCNA project is the only ULI program to address communications and networking, and thus far has been extremely productive: we have published 10 journal papers, 54 conference papers, 2 book chapters, and multiple technical reports, with another 10-20 papers in review, and 2 patent applications. In addition to publications we are developing a dual-band radio system for flight testing in the 2020 Boeing Eco-Demonstrator program, have developed systems for assessing wideband short-range millimeter wave (mmWave) airport radio links, and systems for detection of unauthorized unmanned aircraft systems (UAS). We have also developed a future Concept of Operations (ConOps) document and are developing a simulation tool to assess gains of our HSCNA technologies when used in the National Airspace System (NAS). In this paper we summarize our project and provide example results and findings. We first provide a short overview of the ULI program and its goals within the ARMD Strategic Implementation Plan. We then describe our project’s six primary tasks, which are specifically, (i) the ConOps development; (ii) a comprehensive categorization and evaluation of current and planned communications technologies that can be used for aviation, across frequency spectrum spanning five orders of magnitude (e.g., 3 MHz HF through 100 GHz), including evaluation of performance gaps; (iii) design, development, and proof-of-concept testing of a multi-band aviation communication system; (iv) evaluation of mmWave frequency bands and technologies for use in advanced airport communication applications; (v) evaluation of RF detection of unauthorized UAS via several techniques; and, (vi) development of a simulation system to enable exploration of potential gains of these HSCNA technologies in ATM. The example results we provide include analyses, computer simulations, laboratory experiments, and field testing. We also describe plans for the final phase of our project, and discuss impacts and future work.
ATM的超频谱通信和网络:结果和展望未来
在过去的两年里,我们一直在为NASA的航空研究任务理事会(ARMD)大学领导倡议(ULI)项目工作。我们的项目名为“作为安全高效未来飞行基础的超频谱通信、网络和ATM:以多样化和安全的多频段、多模式和毫米波无线链路超越航空运营限制”。为简洁起见,我们将这个标题缩写为HSCNA。由四家机构组成的HSCNA项目是唯一一个解决通信和网络问题的ULI项目,迄今为止成效显著:我们已经发表了10篇期刊论文、54篇会议论文、2本书章节和多份技术报告,另有10-20篇论文正在审查中,并申请了2项专利。除了出版物外,我们正在开发用于2020年波音生态验证计划飞行测试的双频无线电系统,开发用于评估宽带短距离毫米波(mmWave)机场无线电链路的系统,以及用于检测未经授权的无人机系统(UAS)的系统。我们还开发了未来的作战概念(ConOps)文件,并正在开发一个模拟工具,以评估我们的HSCNA技术在国家空域系统(NAS)中使用时的收益。在本文中,我们总结了我们的项目,并提供了实例结果和发现。我们首先简要概述了ULI项目及其在ARMD战略实施计划中的目标。然后,我们描述了我们项目的六个主要任务,具体来说是:(i) ConOps开发;(ii)对可用于航空的现有和计划中的通信技术进行全面分类和评估,涵盖5个数量级的频谱(例如,3mhz HF至100ghz),包括对性能差距的评估;(iii)设计、发展多波段航空通信系统,并进行概念验证测试;(iv)评估用于先进机场通讯应用的毫米波频带和技术;(v)评估通过几种技术对未经授权的无人机进行射频检测;(vi)开发模拟系统,以探索这些HSCNA技术在ATM中的潜在收益。我们提供的示例结果包括分析、计算机模拟、实验室实验和现场测试。我们还描述了项目最后阶段的计划,并讨论了影响和未来的工作。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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