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市场调查报告书
军用及航太用光纤市场报告(第3卷):航空电子系统光纤用检验及测量设备市场
Military & Aerospace Fiber Optics Market Report Series Vol. 3 - Market for Fiber Optic Test & Measurement Equipment for Avionic Systems
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军用及航太用光纤市场报告(第3卷):航空电子系统光纤用检验及测量设备市场 是由出版商IGI Consulting, Inc.在2011年12月所出版的。
这份英文市场调查报告书价格从美金1995起跳。
包含战斗机,军用运输机,UAV(无人机),和民航机,军用及航空用航空电子系统光纤市场,IGIC预测2009年为3亿600万美元的市场规模,预计2013年将达到7亿300万美元。另一方面,军用及航太用测试及测量机器及服务市场,还处于发展阶段。通讯领域用所开发的测试及测量机器,也支持军用及航太领域,但成果不一。通讯领域的机器主要是单一模式,军用及航太系统大部分采用多模式。
本报告提供军用及航太用光纤市场现况与展望的相关调查分析内容全3卷汇整,第3卷航空电子系统光纤用检验及测量设备市场相关调查分析,为您概述为以下内容。
全3卷的组成
- 第1卷:军用及航太用航空电子系统光纤市场
- 第2卷:军用及航太用光纤的联络处
- 第3卷:航空电子系统光纤用检验及测量设备市场
第3卷目录
第1章 简介
第2章 方法
第3章 军用及民间航空机航空电子学用光纤的历史
第4章 现有的铜介质的光纤优势
第5章 目前飞机的光纤
第6章 飞机的光纤的使用的重量削减的可能性
第7章 飞机的线路的特性
第8章 引进光纤数据链接的军事及商用系统
第9章 民航机的光纤
- 正在使用的光纤
- 通信协议
- JEDEC(联合电子设备工程委员会)
第10章 军用及民航机以及光纤市场预测
- 简介
- 战斗机
- 战斗机用光纤市场
- 战斗机用光纤的主要购买议案
- 战斗机用主要光纤零件
- 军用运输机
- 民航机
- 无人机(UAV)
- 航空电子学的光纤市场摘要
第11章 航空电子学光纤的技术趋势
第12章 航空电子学光纤标准
图表
Abstract
Overview
IGIC has produced the only available market research study devoted to Military
and Aerospace Fiber Optics in Avionic Systems. The report includes both
military and commercial aircraft including fighter aircraft, transport
aircraft, UAVs and commercial aircraft. IGIC estimates the total fiber optic
market for these two markets at $306 million in 2009, growing to $703 million
in 2013. This increase in total market is due to a number of factors including
greater acceptance of this new technology driven by the rapid acceptance and
developments in the telecommunications field. Other factors include the need
to reduce size and weight, the need for higher bandwidth, and the opening of
the UAV market. Despite the desire to use more fiber in aircraft, specific
military and aerospace requirements present major barriers. These include the
unavailability of COTS, lack of hardened components for the military and
aerospace environment, available test and maintenance procedures and the
availability of low cost, easy to use test and measurement equipment.
Table of Contents
1. Introduction
2. Approach
3. History of Fiber Optics in Avionics for Military and Commercial Aircraft
4. Advantages of Fiber Optics over Existing Copper Media
5. Present Fiber Optics in Aircraft
6. Potential weight savings using fiber optics in aircraft
7. Special Characteristics of Aircraft Wiring
8. Military and Commercial Systems that Have Fiber Optic Data Links Installed
9. Fiber Optics in Commercial Aircraft
- Fibers used
- Protocols
- JEDEC
10. Forecasts of Military and Commercial Aircraft and Fiber Optics Markets
- 10.1 Introduction
- 10.2 Fighter aircraft
- 10.2.1 Fiber optics market in fighter aircraft
- 10.2.2 Major purchases of fiber optics for fighter aircraft
- 10.2.3 Fiber-optic components for fighter aircraft
- 10.3 Military transports
- 10.3.1 Fiber optics in military transports
- 10.4 Commercial aircraft
- 10.4.1 Fiber optics in commercial aircraft
- 10.5 Unmanned aerial vehicles (UAVs)
- 10.5.1 Fiber optics UAV market
- 10.6 Summary of the market for fiber optics in avionics
11. Technology trends for fiber optics in avionics WDM-LAN
- WDM-LAN
- Plastic Optical Fibers
12. Avionics fiber optics standards
- Military /space
- Commercial
- ARINC
- SAE
- JEDEC
List of Figures
- 1. Introduction
- 2. Approach
- 3. History of Fiber Optics in Avionics for Military and Commercial Aircraft
- 4. Advantages of Fiber Optics on Existing Copper Media and Trends in
Aircraft Construction
- 5. Present Fiber Optics in Aircraft
- 6. Potential weight savings using fiber optics in aircraft
- 7. Special Characteristics of Aircraft Wiring
- 8. Military and Commercial Systems that Have Fiber Optic Data Links
Installed
- 9. Fiber Optics in Commercial Aircraft
- 10. Market for Fiber Optics in Aircraft (Military and Commercial)
- 11. Market for Test and Measurement Fiber Optics
- 12. Technology trends for fiber optics in avionics
- 13. Avionics fiber optics standards
- Military /space
- Commercial
- ARINC
- SAE
- JEDEC
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