未来作战系统可扩展移动网络演示性能和验证结果

IEEE Military Communications Conference, 2003. MILCOM 2003. Pub Date : 2003-10-13 DOI:10.1109/MILCOM.2003.1290412

W. W. Brown, V. Marano, W.H. MacCorkell, T. Krout

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引用次数: 13

摘要

波音/SAIC领导的系统集成商(LSI)团队正在为美国陆军/DARPA未来作战系统(FCS)设计一种网络通信能力。本文将讨论2003年第一季度在新泽西州迪克斯堡和莱克赫斯特海军航空工程站进行的可扩展移动网络(SMN)演示的结果。可扩展移动网络演示旨在解决FCS网络通信架构中最具挑战性的三个方面;网络架构的可扩展性，可在异构网络环境中提供到完整的FCS操作单元(UA)、服务质量(QoS)的连接，以及移动自组织网络中的通信鲁棒性。该演示旨在在一个重要的操作场景中展示实现这些功能所需的技术。演示包括在城市地形(MOUT)情景下进行军事行动的pc联合兵营的一个旅片。这次行动共部署了63个节点(42辆车、18名下马士兵和3个空中平台)，共有78个无线电设备组成9个独特的无线电网络。通过在平台内整合路由器功能，将特定节点配置为网络之间的网关节点。演示使用了新的和传统的无线电，包括DARPA的fcs通信和小单元操作-态势感知系统(sso - sas)项目的无线电，VRC-99无线电以及宽带JTRS无线电(WJRs)和陆军MOSAIC项目的无线电网络接入单元(R-NA u)。波音/SAIC LSI团队将这些不同的无线电集成到一个异构网络中，以演示FCS部队在移动战术通信中使用的关键技术。无线电/路由器被配置为模拟JTRS无线电的功能，JTRS无线电将成为pc的骨干无线电。本文讨论了可扩展移动网络演示的现场结果。

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Future combat system-scalable mobile network demonstration performance and validation results

The Boeing/SAIC lead system integrator (LSI) team is designing a networked communications capability for the US Army/DARPA future combat system (FCS). This paper will discuss the results of a scalable mobile network (SMN) demonstration conducted in first quarter 2003 at Fort Dix and Lakehurst Naval Air Engineering Station in New Jersey. The scalable mobile network demonstration was designed to address three of the most challenging aspects of the FCS network communications architecture; Scalability of the network architecture to provide connectivity to the full FCS unit of action (UA), quality-of-service (QoS) in a heterogeneous network environment, and communications robustness in a mobile ad-hoc network. The demonstration was designed to show, in an operationally significant scenario, the technologies required to realize these capabilities. The demonstration consisted of a Brigade slice of an PCs combined arms battalion conducting a raid in a military operations in urban terrain (MOUT) scenario. This operation fielded a total of 63 nodes (42 vehicles, 18 dismounted soldiers and 3 air platforms) hosting 78 radios organized into 9 unique radio networks. Specific nodes were configured to be gateway nodes between networks by incorporating a router function within the platform. The demonstration utilized both new and legacy radios including radios from DARPA's FCS-communications and small unit operation-situational awareness system (SUO-SAS) programs, VRC-99 radios along with wideband JTRS radios (WJRs) and radio network access units (R-NA Us) from the Army's MOSAIC program. The Boeing/SAIC LSI team integrated these diverse radios into a heterogeneous network to demonstrate key technologies used in on-the-move tactical communications for the FCS force. The radios/routers were configured to emulate the functionality of the JTRS radio that will be the backbone radio for PCS. Field results for the scalable mobile network demonstration are discussed in the paper.

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IEEE Military Communications Conference, 2003. MILCOM 2003.

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