Combined PAT algorithms for mobile multimedia satellite services

VTC '98. 48th IEEE Vehicular Technology Conference. Pathway to Global Wireless Revolution (Cat. No.98CH36151) Pub Date : 1998-05-18 DOI:10.1109/VETEC.1998.686549

M. Holzbock, A. Jahn

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引用次数: 3

Abstract

Next generation satellite services will offer high capacity links for multimedia applications. Mobile receivers for these future applications will use high gain antennas with a beamwidth of 5 degrees and smaller. These antennas require a precise pointing, acquisition and tracking (PAT) process to steer the antenna exactly towards the satellite direction. The channel characteristics at high frequencies, like fading and shadowing, seriously affect the steering algorithms. In the framework of SECOMS (Satellite EHF Communications for Mobile Multimedia Services) and ABATE (ACTS Broadband Aeronautical Terminal Experiment, both European ACTS projects) several field trials and service demonstrations have been performed for future wideband multimedia satellite services at higher frequency bands (20/30 GHz and 40/50 GHz). These experiments were performed using high gain antennas with various beamwidth in different scenarios and environments. This paper gives an overview of these experiments and describes the used antenna PAT algorithms. The measured propagation data allows the implementation of the effects of the land mobile satellite (LMS) channel in a detailed antenna pointing simulator.

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移动多媒体卫星业务的组合PAT算法

下一代卫星服务将为多媒体应用提供高容量链路。用于这些未来应用的移动接收器将使用波束宽度为5度或更小的高增益天线。这些天线需要精确的指向、获取和跟踪(PAT)过程来引导天线准确地朝向卫星方向。高频信道的衰落和阴影等特性严重影响了转向算法。在SECOMS(移动多媒体业务卫星EHF通信)和ABATE (ACTS宽带航空终端实验，这两个欧洲ACTS项目)的框架内，已经为未来更高频段(20/30 GHz和40/50 GHz)的宽带多媒体卫星业务进行了几次现场试验和业务演示。这些实验使用不同波束宽度的高增益天线在不同的场景和环境下进行。本文概述了这些实验，并介绍了常用的天线PAT算法。测量的传播数据允许在详细的天线指向模拟器中实现陆地移动卫星(LMS)信道的效果。

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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VTC '98. 48th IEEE Vehicular Technology Conference. Pathway to Global Wireless Revolution (Cat. No.98CH36151)

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