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新たなテストソリューションのニーズを刺激するLTE-Aの導入

LTE-A Deployments Spur Need for New Test Solutions

発行 Heavy Reading 商品コード 323357
出版日 ページ情報 英文 13 Pages
納期: 即日から翌営業日
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新たなテストソリューションのニーズを刺激するLTE-Aの導入 LTE-A Deployments Spur Need for New Test Solutions
出版日: 2015年01月26日 ページ情報: 英文 13 Pages
概要

当レポートでは、LTE-Aテスト市場について調査し、LTE-Aテストの使用方法、ならびに今後2年間の市場において成長が予測される分野について分析しており、産業の促進因子と課題、利用可能なソリューションの比較分析、市場の地域別情勢、および今後18-24ヶ月間で起こり得る動向の分析などをまとめ、お届け致します。

第1章 イントロダクション

第2章 LTE-Aテスト市場

  • LTE-Aテストの使用方法
  • 市場における強力な促進因子
  • 市場が直面する課題

第3章 LTE-Aテスト市場の分析

  • ベンダーによるアプリケーション&サービス
  • 地域分析

第4章 市場の主要ベンダー

  • Anritsu
  • Aricent
  • EXFO
  • GL Communications
  • Ixia
  • JDSU
  • Keysight Technologies
  • Tektronix

第5章 結論

目次
Product Code: Vol. 6, No. 1

As mobile carriers address seemingly insurmountable demands for data on their networks, those networks become increasingly heterogeneous - whereby they're no longer macro sites, but now also integrating Wi-Fi for offload and small cell coverage for pinpointed capacity. The way vendors and operators ensure the networks function in order to meet customer expectations for speed and quality is by testing of pre-launch and post-deployment in ways that address the particularities of both Long Term Evolution-Advanced (LTE-A) and the legacy networks with it coexists.

According to recent research, at the end of 2014, the number of LTE subscribers exceeded 400 million and LTE-A subscribers exceeded more than 22 million. It was widely expected that more than 43 LTE-A networks would be commercially deployed by the end of 2014. Of the 60 LTE-A trials that were in operation during the second quarter of 2014, the strongest participation came from Western Europe, followed by Asia/Pacific and North America.

For network operations, it is not enough to make sure that the network is acceptable by experiencing things like call drops, handovers, capacity or throughput. They must pay much more attention to quality of experience (QoE) that is delivered to key customers like roamers and heavy users. The prioritization of troubleshooting and optimization actions should be based on the classification of these problems by importance of the subscribers.

LTE-A emphasizes features like carrier aggregation and multiple-input, multiple-output (MIMO) techniques to provide higher bit rates while maintaining compatibility with earlier cellular implementations. As a key LTE-A technology, carrier aggregation allows for full utilization of operators' spectrum resources, empowering them to provide faster mobile broadband experiences, including video conferencing, high-definition content transmission, high-speed video downloads, social networking and more.

There's no question that LTE-A offers significant promise, especially as mobile demand continues to skyrocket. And the benefits of LTE-A are impressive. While LTE's peak downlink speed is about 300 Mbit/s, LTE-A's peak downlink speed is theoretically capable of reaching 1 Gbit/s. Meanwhile, LTE's strongest uplink rate is around 75 Mbit/s, while LTE-A's sits around 500 Mbit/s.

Everyone wants data across these devices to speed along as quickly as possible, and, of course, they want it for as cheaply as possible. Somewhere in that equation, mobile operators need a way to make money off of their wireless investments. The key for that to happen is for operators to test their LTE-A networks to ensure that optimization of network resources is occurring. It also will hint at areas of the network that need to be scaled to handle all of the devices and servicing that LTE-A demands. Finally, it will enable them to create business cases that leverage LTE-A profitably.

LTE-A Deployments Spur Need for New Test Solutions examines the LTE-A testing market, analyzing how LTE-A is being used, as well as areas of growth expected in the market over the next two years. It discusses drivers and challenges in the industry and includes a comparative analysis of solutions available. Finally, it examines the geographic landscape of the market and details trends that are likely to occur in the industry over the next 18-24 months.

Sample research data from the report is shown in the excerpts below:

As shown in the following excerpt, the binding together of separate frequency bands will be a significant driver for LTE-A testing, mostly because of the disparate bands that each operator has acquired. The possibility to bind together frequency bands and, thus, combine legacy 2G and 3G spectrum with 2.5GHz LTE specific bands will facilitate the transition from 2G/3G to LTE. This will allow them to more efficiently use those little bits of spectrum in one uniform coverage map. That, in turn, results in better coverage and capacity, including increased data rates that operators ultimately market to their subscribers.

Excerpt: Drivers for LTE-A Testing, 2015-2017

                        Percentages indicate estimated size of total LTE-A testing spending
                        Source: Heavy Reading Mobile Networks Insider, based on supplier estimates

Companies analyzed in this report include: Anritsu Corp. (TYO: 6754); Aricent Inc.; EXFO Inc. (Nasdaq: EXFO; TSX: EXF); GL Communications Inc.; Ixia (Nasdaq: XXIA); JDS Uniphase Corp. (Nasdaq: JDSU); Keysight Technologies (NYSE: KEYS); and Tektronix Inc.

Table of Contents

I. Introduction

II. The Market for LTE-A Testing

  • How LTE-A Testing Is Used
  • Strongest Drivers in the Market
  • Challenges the Market Faces

III. Analysis of the LTE-A Testing Marketplace

  • Applications & Services From Vendors
  • Geographic Breakdown

IV. Vendors Leading the Market

  • Anritsu
  • Aricent
  • EXFO
  • GL Communications
  • Ixia
  • JDSU
  • Keysight Technologies
  • Tektronix

V. Conclusion

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