Assessing Capabilities of Commercial WiMAX Networks for Deliverling Real-Time Surveillance Video Traffic in Uplink

Image Processing & Communications Pub Date : 2015-03-01 DOI:10.1515/ipc-2015-0028

A. Flizikowski, Mateusz Półcienniczak, Maciej Rybicki, W. Holubowicz, Maciej Podyma

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引用次数: 2

Abstract

Abstract Streaming video in uplink is an interesting opportunity for network operators for capitalizing unused part of bandwidth (due to Internet asymmetry). The uplink seems not optimized nowadays due to lack of business cases. The main challenge however is bursty and unpredictable nature of wireless channel observed especially as mobility comes into play in current broadband networks. That is why in this paper, we have approached the diagnosis of commercial mobile WiMAX network towards the capabilities of assuring real-time video in uplink direction. We present results of drive tests showing that delay in WiMAX networks for LOS-NLOS (Line of sight - No n line of sight) mobile conditions is largely contributed by uplink direction (60-90% of RTT (Round trip time)) whereas downlink directions hardly ever exceeds 40ms. We show that enabling MIMO-A(Multiple Input Multiple Output) can decrease delays by 100ms in NLOS conditions and decrease delay variation by up to 90%. For each of tests we have presented exact probabilities of particular modulations involved based on channel realizations.

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商用WiMAX网络上行实时监控视频业务传输能力评估

对于网络运营商来说，上行流视频是利用未使用的部分带宽(由于互联网不对称)的一个有趣的机会。由于缺乏商业案例，上行链路似乎没有得到优化。然而，主要的挑战是无线信道的突发性和不可预测性，特别是在当前宽带网络中移动性发挥作用的情况下。这就是为什么在本文中，我们将商用移动WiMAX网络的诊断向保证上行方向实时视频的能力进行了探讨。我们提供的驱动测试结果表明，在LOS-NLOS(视线-无视线)移动条件下，WiMAX网络的延迟主要由上行方向(RTT(往返时间)的60-90%)造成，而下行方向几乎从未超过40ms。我们表明，启用MIMO-A(多输入多输出)可以在NLOS条件下减少100ms的延迟，并将延迟变化减少高达90%。对于每个测试，我们都给出了基于信道实现所涉及的特定调制的确切概率。

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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Image Processing & Communications

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