发表于： 19:57:29 |
分类：测试测量
我要再次废话了，Wiki平台很好，很强大。最近一直在熟悉Wiki平台，发现并没有像想象的那么难用。几个符号，就可以加个链接，上传一副图片，甚至创建几个wiki页面。我打算利用业余时间发挥下余热，把国外几个电子媒体的头条翻译过来。如果大家有兴趣可以加入进来。点击这里。
发表于： 23:53:37 |
分类：测试测量
译者按：C-V测试是一个被广泛用于半导体测试的参数，尤其是MOSCAP和MOSFET结构的半导体。其他的一些半导体器件和技术也可以用C-V测量来特征化，包括双极性晶体管，JFETs,III-V 符合器件等。本文会讲到一些C-V测试的的应用和一些定律。Capacitance-voltage (C-V) testing is widely used to determine semiconductor parameters, particularly in MOSCAP and MOSFET structures. However, other types of semiconductor devices and technologies also can be characterized with C-V measurements, including bipolar junction transistors, JFETs, III-V compound devices, photovoltaic cells, MEMS devices, organic thin film transistor (TFT) d
发表于： 00:34:25 |
分类：测试测量
编辑笔记：ECE 5760是康奈尔大学电子与计算机工程系Bruce Land讲师的一个关于SoC和嵌入式控制电路设计的课程。本文是他的一个学生基于Altera CycloneII FPGA设计的一个数字信号示波器。
AbstractWith the advent of affordable, cheaper processors, the oscilloscopes of today are almost completely dominated by digital storage oscilloscopes.
Digital scopes are desirable for their larger bandwidth, ability to trigger on any condition, for their real-time DSP operations, and the ability to output buffered digital information.
A digital oscilloscope on a FPGA is desired due to fast develop
发表于： 22:35:32 |
分类：测试测量
LabVIEW的大学计划之伤 大学计划即在于控制大脑。这一做法滥觞于谭军和他的ARM军团。当年，他凭借三寸不烂之舌，周游于高校、媒体和厂商之间，纵横捭阖间，划定了今天ARM阵营和x86阵营在便携终端的绝对界限。高校之重在于大学计划，而大学计划在于控制大脑。若干年后，很多厂商向谭军抱怨，&我们招来的学生只会ARM？&。厂商也因此不得不投向ARM阵营，这时候你才能看到谭军脸上露出的诡异笑容是对自己的大学计划打上高分的自然表现。 &&阅读更多NI也不失时机地推出了自己的大学计划。从市面上连一本合适的教材都找不到，到今天，一个出版社的LabVIEW教材就有十几本，这是对NI市场活动效果一种最客观的赞美。和NI结盟的大学，遍布全国各地，几乎重点院校都有NI的联合实验室。近几年，很多学校还专门开设了虚拟仪器的课程。市场上的暴风骤雨和老师、教授的感情忽悠，让很多学生走上学习LabVIEW的道路。容易上手，图形界面，各种工具包，插件，用它做数学分析和数字信号处理似乎也不亚于MATLAB,在测量和工控行业，它占据的市场虽然不大，但是占据的口碑却还真不在少数。多好一款软件啊，好的简直天衣无缝。然而
发表于： 11:19:57 |
分类：arduino
编辑笔记：Wired首席编辑Chris Anderson不仅仅是一个编辑，他对科技有着天生的敏感性。最近他设计了两个基于Arduino开源硬件无人飞机模型自动导航装置。此文来自连线，有译言网上名为雷镇的译者翻译。&看看这个，&Massimo Banzi说。这位身材魁梧的大胡子工程师正走来走去检查一个芯片制造机器人&&一台批萨烤箱大小的机器。它像小鸡啄米一样把微小的电子元件插到电路板上，每一个动作伴随着微弱的嗡嗡声。我们站在Arduino的仅有一个车间的工厂里。这家意大利公司生产电路板，这是一种电子DIY爱好者中很火的商品。这家电子产品工厂座落在米兰的中世纪丘陵(medieval foothills)一带，周围风景如画，鸟鸣从门口飘入，员工可以有大量的茶歇时间。但Banzi今天很忙。他正在给一群亚利桑那来的潜在客户演示操作。Banzi用铲子取出一块电路板，指出上面装饰的细小的意大利地图。&看？意大利品质！&他笑着说，&这就是人们喜欢我们的原因！&实际上，Arduino已在两年前开始量产，在全世界销出了50,000件产
发表于： 23:32:34 |
分类：测试测量
Freescale和Nivis（一家领先的无线网络技术开发和集成商）将结合双方各自的技术，连手推出针对商业和工业分布式传感器网络的有线-无线平台。 考虑到工业和商业领域不断涌现的新无线标准，该研发平台将集成传感器接口、无线模线、路由器/网关、安全管理和先进的网络管理功能以及需要的相关软件。 Nivis公司CEO Marius Chilom称，与Freescale的组合是“业内的最佳组合”。“我们提供有一系列高质量和可选方案，这样无线器件厂商可以选择最符合他们需要的器件。我们与Freescale的亲密合作关系将使得我们可以提供高度优化的解决方案。这一无线平台可支持多重标准，这对于设备开发人员而言是非常有吸引力的。 该平台将提供一种快速、成本有效的方法评估基于Freescale微控制器和嵌入处理器的ISA100.11a、WirelessHART和6LoWPAN。 Nivis负责无线连接软件，Freescale负责包括ColdFire微处理器、功率架构处理器和基于ARM内核的处理器在内的嵌入式硬件。 Nivis的总部设在Atlanta、Georgia，在布加勒斯特(罗马尼亚首都)、Cluj-Napoca和Roman
发表于： 23:23:33 |
分类：测试测量
Quantenna通信公司日前正式宣布进入能提供高端802.11n芯片的供应商行列。该初创公司采用4X4 MIMO（多输入，多输出）天线，并采用beam forming（波束成形）和mesh（网状网络）技术，提供的吞吐量达到Gbit/s的级别。该公司采用两款芯片，一款工作在2.4Ghz，一款工作在5GHz。 另外还有两家初创公司最近宣布提供.11n标准的5GHz Wi-Fi芯片。 Celano公司宣布他们的Wi-Fi芯片采用8天线的MIMO技术和beam forming技术，可以在50米的距离内提供四个通道的高清视频流，并能穿透多层墙壁。另一家公司Amimon采用了新颖的编码技术，并采用4X5 MIMO，提供1.5Gb/s的传输速率，并已经与一些消费电子厂商巨头洽谈来进行改进。 这三家公司都已经为数字家庭考虑了许多扩展的无线技术方案，包括60GHz传输或UWB技术。 Quantenna宣称，相比Atheros和博通(Broadcom)等公司能提供的300Mbits/s传输速率，他们能提供两倍的性能。创始人和CEO Behrooz Rezvani表示上述两家公司的一家明年底也许就会转为采用4X4 MIMO，但也
发表于： 09:26:52 |
分类：测试测量
在十月荷兰阿姆斯特丹举行的欧洲微波周上，罗德与施瓦茨公司将展出可测试高达325GHz的网络分析仪，可进行功率测量与分析的信号源，以及针对MIMO、WIMAX和3GPPLTE的许多创新。此外，测试与测量专家也将证明中档的预算也可获得的顶级性能和功能。罗德与施瓦茨公司位于2号厅803/805展位。R&S FSV–中档信号分析仪的新标杆罗德与施瓦茨公司的R&S FSV是新一代极快速和宽带的中档信号分析家族里的首位成员。其扫描速度可高达每秒1,000次，具备40MHz的分析带宽和极高的测试精度。这些强大的性能为中档频谱仪设定了新的标杆。R&S FSV同时还具有极好的性价比和基于触摸屏的创新操作理念。网络分析仪通过增加毫米波变频器来测量极高频段通过加装新的R&S ZV-Z325毫米波变频器，罗德与施瓦茨公司的网络分析仪又增加了220~325GHz测试频段。这个频段对于晶片成分或材料的特性测量和毫米波成相非常重要。变频器可以直接连到罗德与施瓦茨公司的高端网络分析仪上使用，两者能与极好地协调工作，从而使操作极其简便。此外，当需要在极高频段进行多端口测试时，用户首次可以将多达四个变频器连接到一
发表于： 14:36:17 |
分类：读书散记
三聚氰胺的事情还没摁下去，来到久违的eefocus，突然感觉到eefocus平静的湖面下暗流涌动。一半受到“MBA”的唆使，一半发自内心，于是献上自己的愚见。图书专栏：focus idea与非网搜索条：eeclick建议：eeclick形似Double click，ee已经很明显表明它所属的行业，click即将EEFOCUS“click for answer”的口号表达出来了。其寓意即为：点击该搜索条之后，即可得到想要的答案。focus取自eefocus的名字，意即聚焦，专注的意思。idea则表明的意思是点子、主意。其寓意为：专注于某一个领域的主意、电子。能够很好的表明专栏的寓意。对于EEFOCUS的几点建议：1 加强内容建设。不管是用户产生的内容也罢，还是从国外媒体中文化过来的内容，作为媒体内容重要意思自不必多说。2 加强与培训机构的合作。eefocus的用户群中，高校学生占据了很大一部分。这部分用户群在社区中的行为以索取为主，应该加强与行业培训机构的合作，引进一些高端用户。从而改善社区进行互动的两个条件。简言之，EEFOCUS就是一个舞台，而现在这个舞台上没有演员，需要引进演员。3 以栏目为导向，全面吸收
发表于： 09:56:14 |
分类：读书散记
日我们喜欢的Google发布了Google自己的浏览器Chrome,我们在第 一时间找到它的核心资料，并翻译发布，分享给爱Google和不爱Google的人， 希望对你有用！以下为译文，转载请注明出处如果你觉得下面的图片看着不爽，可以下载PDF版，下载地址是:/files/Chrome_Yeeyan.pdf
旗下网站：
与非门科技(北京)有限公司 All Rights Reserved.
京ICP证:070212号
北京市公安局备案编号： 京ICP备：号当前位置：>>>FF发布用于ISA100.11a的传感器模块初步规范
FF发布用于ISA100.11a的传感器模块初步规范
发布时间：
来源：中国机经网
近日，现场总线基金会(FF)宣布，已发布了访问用于ISA100.11a传感器模块的无线设备的现场总线基金会初步规范(PS)。ISA100.11a是由国际仪表学会(ISA)制定的工业无线网络技术标准。
　　近日，现场总线基金会(FieldbusFoundation，简称FF)宣布，已发布了访问用于ISA100.11a模块的无线设备的现场总线基金会初步规范(PS)。ISA100.11a是由国际仪表学会(ISA)制定的工业无线网络技术标准。
　　无线和远程I/O作为基金会远程操作管理(ROM)解决方案的一部分，新技术规范定义了用于基金会ROM设备中进行通信的ISA100.11a仪器的现场总线传感器模块。此外，还配置了组态工具和资产管理主机访问ISA100.11a的设备描述，以及构成识别和维护连接到基金会ROM网络中的ISA100.11a设备状态的方法。
　　新的传感器模块规范可以使自动化最终用户把ISA100.11a设备与基金会或设备更好地整合。技术还支持资产管理主机访问ISA100.11a设备用于组态和维护网络的方法。
　　HSE提供了大量的离散或模拟现场I/O设备通过高速总线HSE发回到控制室的有效方式。使用HSE装备犹如运作智能远程终端()一样，将所有常规模式的I/O引入到现场总线轻松的环境。此解决方案使离散I/O、模拟I/O、现场总线H1，HART 和WirelessHART 可用在常用的传输控制协议、互联网协议(TCP、IP)网络。增加新的ISA100.11a感测器模块进一步扩展了过程仪表与基金会控制系统架构设施的整合。
　　现场总线基金会成员使用基金会技术规格的主要好处是，该规范是免费提供给基金会成员进行审查，并可以访问现场总线论坛的初步规范区。
本文地址：/news/d_1nrvh4t2hukc1.html
版权声明：版权归中国自动化网所有，转载请注明出处！
阅读过该文章的人还阅读过？
新闻关键词
{#foreach $T.dataList as record}
自动化新闻 热门排行
更多精彩信息看点 请扫描以下二维码CIRWORLD: open access, scholarly, online, peer-reviewed, and fully referred journals.
@ 2002 onward CIRWORLD產業用無線感測網路(IWSN)的全球市場 - 感測器(溫度，壓力，層級，流通量，濕度及其他)，技術(藍芽，Wi-Fi，WirelessHART，ISA-100.11ａ)，用途(石油、天然氣，能源·電力，汽車，食品·飲料)，各地區趨勢及預測
IWSN Market by Sensor, Technology, Application & Geography - Global Trend & Forecast to 2013 - 2020
出版日期: 日
內容資訊: 英文 166 Pages
產業用無線感測網路(IWSN)是配置於工廠內的遠隔區域(也稱之於主力位置），利用無線技術將信號和測量值傳送至主控室的各種感測器網路，是可遠端監控及控制、解決問題的系統，廣泛活用於以礦業，食品·飲料，醫療·保健，電力及其他公共事業為首的各產業中。其全球市場規模在2013年實績相當於4億123萬美金，預測之後將以12.96％的年複合成長率成長，到2020年達到9億4492萬美元的規模。
本報告以產業用無線感測網路的全球市場為焦點，除了依系統，感測器，技術，用途，地區別預測、分析今後這段期間之轉變之外，更彙整市場現狀，發展的影響要素，價值鏈，供應鏈，競爭環境，主要企業等相關的調查·分析資訊。
第1章 簡介
調查對象市場
各年度考察
報告的推薦用戶層
第2章 調查方法
需求面分析
市場規模的估算
市場分析與資料的三角法評估
第3章 摘要整理
第4章 應該特別記載考察點
產業用無線感測網路市場上有潛力商機
產業用無線感測網路市場 - 最大級的用途市場區隔
全球各地區的產業用無線感測網路市場
支配全球市場的美國及亞太地區
全球產業用無線感測網路市場規模 - 各地區(2013年，2014年，2020年)
產業用無線感測網路市場 - 用途
第5章 市場概要
產業用無線感測網路促進的新工業革命
無線技術比有線方式具有更高可靠性
嚴重化的自動化產業安全問題
無線技術上的先進技術意識
傳感器節點故障
故障和硬體設備終止
雲端連接的智慧裝置
能源消耗而不失去精度
高品質服務
電力消耗問題
產業用無線系統的規格及安全性需求
電池的限制
成功的必需條件
產業自動化的擴大
第6章 產業趨勢
價值鏈分析
供應鏈分析
重要影響者
波特的五力分析
第7章 產業用無線感測網路市場 - 感測器別
溫度感測器
壓力感應器
液位感測器
流通量感測器
化學·氣體感測器
濕度感測器
運動·位置感測器
印象·異物偵測感測器
第8章 產業用無線感測網路市場 - 各技術
產業用無線感測網路技術市場
藍芽及藍芽 Smart
Wi-Fi及WLAN
Zigbee Rf4ce
Zigbee Pro
ISA100.11a
WirelesSHART
第9章 產業用無線感測網路市場 - 各用途
石油、天然氣
食品·飲料
電力·能源
金屬·礦業
第10章 產業用無線感測網路市場 - 各地區
第11章 競爭環境
市場佔有率分析 - 產業用無線感測網路市場
競爭情形及趨勢
新產品銷售
協定，聯盟、合作，合資企業
第12章 企業簡介(概要，產品與服務，財務，策略，企業發展)*
Atmel Corporation
Endress+Hauser AG
Emerson Electric Co.
General Electric Company
Freescale Semiconductor Inc.
Stmicroelectronics
Honeywell International Inc.
Siemens AG.
橫河電機株式會社
※括號內未網羅所有非上市公司資訊
第13章 附錄
Product Code: SE 2961The Industrial Wireless Sensor Network (IWSN) is the network of distributed autonomous sensors, which are used to monitor physical or environmental conditions. IWSNs are deployed in harsh environment areas, where wired networks cannot be deployed easily. This report classifies the IWSN market into four different segments, such as market by sensors, technologies, applications and geographies. The report entails the analyses and forecasts related to the IWSN market.
The report scope includes the IWSN market by sensor, technology, application, and geography. Based on the sensors used, the IWSN market has been classified into temperature, pressure, flow, level, chemical and gas, motion and position, humidity, and image sensors. The application segment includes chemical, mining, food and beverage, medical and healthcare, power and energy, oil and gas, and automotive, among others.
The global IWSN market size is estimated to grow from $401.23 million in 2013 to $944.92 million by 2020 at a CAGR of 12.96% from 2014 to 2020. The wireless temperature sensors are expected to grow at a CAGR of 13.42%. This growth is heralded by the oil and gas, automotive, and food and beverages industries.
The report analyzes the entire market on the basis of all the major geographic segments, such as North America, Europe, Africa, the Middle-East, and Asia. North America is currently the largest market for IWSN systems, but the Asian region is expected to exhibit a high growth in the next seven years.
The report also draws the competitive landscape of the IWSN industry by analyzing the major players and the strategies adopted by them for growth in the market. Apart from the market segmentation data, the report also includes qualitative analysis of various market dynamics such as the drivers, restraints, opportunities, burning issues, and winning imperatives. It also analyzes the overall market through various models, such as Porter's five forces model..
The report, along with the market share analysis, profiles the major companies active in this field such as ABB Ltd. (Switzerland), Emerson Electric Co. (U.S.), Honeywell International, Inc. (U.S.), Yokogawa Electric Corporation (Japan), and General Electric (U.S.), among others.Table of Contents
1. Introduction
1.1. Objectives of The Study
1.2. Market Definition
1.3. Markets Covered
1.3.1. Year Consideration
1.4. Currency
1.5. Stakeholders
2. Research Methodology
2.1. Demand Side Analysis
2.1.1. Demand Side Analysis
2.2. Market Size Estimation
2.2.1. Bottom-Up Approach
2.2.2. Top-Down Approach
2.3. Market Breakdown And Data Trangulation
2.4. Market Share Estimation
2.4.1. Key Data From Secondary Sources
2.4.2. Key Data From Primary Sources
2.5. Assumptions
3. Executive Summary
4. Premium Insights
4.1. Attractive Opportunites in The IWSN Market
4.2. IWSN Market - Top Application Segments
4.3. IWSN Market in The Geographic Regions
4.4. U.S. and APAC Dominate The IWSN Market Across The Regions
4.5. Global IWSN Market Size in Geographic Regions (, and 2020)
4.6. IWSN Market: Applications
5. Market Overview
5.1. Introduction
5.2. Market Segmentation
5.3. Market Dynamics
5.3.1. Drivers
5.3.1.1. Wireless Sensor Network Is Driving The New Industrial Revolution
5.3.1.2. High Reliability of Wireless Technology Compared to That of Wired
5.3.1.3. Growing Security Concern For Automation Industry
5.3.1.4. Technologically Advanced Trends In The Wireless Technology
5.3.2. Restraints
5.3.2.1. Sensor Node Failures
5.3.2.2. Faults and Hardware Termination
5.3.3. Opportunities
5.3.3.1. Cloud Connected Smart Object
5.3.3.2. Energy Consumption Without Losing Accuracy
5.3.4. Challenges
5.3.4.1. Quality Services
5.3.4.2. Challenges of Power Consumption
5.3.4.3. Demand For Standard And Safety Wireless System in Industries
5.3.5. Burning Issue
5.3.5.1. Battery Limitation
5.3.6. Winning Imperatives
5.3.6.1. Growth in Industrial Automation
6. Industry Trends
6.1. Introduction
6.2. Value Chain Analysis
6.3. Supply Chain Analysis
6.3.1. Key Influencers
6.4. Industry Trends
6.5. Porter's Analysis
6.5.1. Threats of New Entrants
6.5.2. Threats of Substitutes
6.5.3. Bargaining Power of Suppliers
6.5.4. Bargaining Power of Buyers
6.5.5. Degree of Competition
7. IWSN Market, By Sensor
7.1. Introduction
7.2. Temperature Sensor
7.3. Pressure Sensors
7.4. Level Sensors
7.5. Flow Sensors
7.6. Chemical & Gas Sensors
7.7. Humidity Sensors
7.8. Motion & Position Sensors
7.9. Image & Surveillance Sensors
7.1. Others
8. IWSN Market, By Technology
8.1. Introduction
8.2. IWSN Technology Market
8.2.1. Bluetooth & Bluetooth Smart
8.2.2. Wi-Fi and Wlan
8.2.3. Zigbee
8.2.4. Zigbee Rf4ce
8.2.5. Zigbee Pro
8.2.6. Zigbee IP
8.2.7. Enocean
8.2.8. ISA100.11a
8.2.9. Wirelesshart
8.2.10. Others
9. IWSN Market, By Application
9.1. Introduction:
9.2. Oil and Gas
9.3. Water and Wastewater
9.4. Food and Beverages
9.5. Power and Energy
9.6. Automotive
9.7. Metal & Mining
9.8. Pharmaceuticals
9.9. Others
10. IWSN Market By,Geography
10.1. Introduction
10.2. North America
10.3. Europe
10.4. APAC
10.5. Rest of The World (ROW)
10.5.1. Brazil
10.5.2. Argentina
10.5.3. Others
11. Competitive Landscape
11.1. Overview
11.2. Market Share Analysis, IWSN Market
11.3. Competitive Situation and Trends
11.3.1. New Product Launches
11.3.2. Agreements, Partnerships, Collaborations, & Joint Ventures
11.3.3. Mergers and Acquisitions
11.3.4. Expansions
12. Company Profile (Overview, Products and Services, Financials, Strategy & Development)*
12.1. Introduction
12.2. ABB Ltd
12.3. Atmel Corporation
12.4. Endress+Hauser AG
12.5. Emerson Electric Co.
12.6. General Electric Company
12.7. Freescale Semiconductor Inc.
12.8. Stmicroelectronics
12.9. Honeywell International Inc.
12.1. Siemens AG.
12.11. Yokogawa Electric Corporation.
*Details On Overview, Products and Services, Financials, Strategy & Development Might Not Be Captured in Case of Unlisted Companies.
13. Appendix
13.1. Insights of Industry Experts
13.2. Discussion Guide
13.3. Recent Developments: IWSN
13.3.1. New Product Launches
13.3.2. Mergers and Acquisitions
13.3.3. Expansions
13.3.4. Other Developments
13.4. Introducing Rt: Real-Time Market Intelligence
13.5. Available Customizations
13.6. Related Reports
List of Tables
Table 1: Driver Analysis
Table 2: Restraint Analysis
Table 3: Opportunity Analysis
Table 4: Challenge Analysis
Table 5: Global IWSN Market Size, By Sensor Type,
($Million)
Table 6: Industrial Wireless Temperature Sensor Market Size, By Application,
($Million)
Table 7: Industrial Wireless Temperature Sensor Market, By Region,
($Million)
Table 8: Industrial Wireless Pressure Sensor Market Size, By Application,
($Million)
Table 9: Industrial Wireless Pressure Sensor Market, By Region,
($Million)
Table 10: Industrial Wireless Level Sensor Market Size, By Application,
($Million)
Table 11: Industrial Wireless Level Sensor Market, By Region,
($Million)
Table 12: Industrial Wireless Flow Sensor Market Size, By Application,
($Million)
Table 13: Industrial Wireless Flow Sensor Market, By Region,
($Million)
Table 14: Industrial Wireless Chemical and Gas Sensor Market Size, By Application,
($Million)
Table 15: Industrial Wireless Chemical & Gas Sensor Market, By Region,
($Million)
Table 16: Industrial Wireless Humidity Sensor Market Size, By Application, , ($Million)
Table 17: Industrial Wireless Humidity Sensor Market, By Region,
($Million)
Table 18: Industrial Wireless Motion & Position Sensor Market Size, By Application,
($Million)
Table 19: Industrial Wireless Motion & Position Sensor Market, By Region, , ($Million)
Table 20: Industrial Wireless Image Sensor Market Size, By Application,
($Million)
Table 21: Industrial Wireless Image Sensor Market, By Region,
($Million)
Table 22: Other Industrial Wireless Sensors Market Size, By Application,
($Million)
Table 23: Other Industrial Wireless Other Sensors Market By Region,
($Million)
Table 24: Global IWSN Market Size, By Technology,
($Million)
Table 25: IWSN Market Size For Bluetooth, By Application,
($Million)
Table 26: IWSN Market Size For Wi-Fi & Wlan, By Application,
($Million)
Table 27: IWSN Market Size For Zigbee, By Application,
($Million)
Table 28: IWSN Market Size For Enocean, By Application,
($Million)
Table 29: IWSN Market Size For Isa 100.11a., By Application,
($Million)
Table 30: IWSN Market Size For Wirelesshart, By Application,
($Million)
Table 31: IWSN Market Size For Others, By Application,
($Million)
Table 32: Global IWSN Sensor Market Size, By Application,
($Million)
Table 33: IWSN Market Size For Oil & Gas Industry, By Sensor,
($Million)
Table 34: Oil and Gas Market, By Technology,
($Million)
Table 35: IWSN Market Size For Water & Wastewater Industry, By Sensor,
($Million)
Table 36: Water and Wastewater Market, By Technology,
($Million)
Table 37: IWSN Market Size For Food & Beverages Industry, By Sensor,
($Million)
Table 38: Food & Beverages Market, By Technology,
($Million)
Table 39: IWSN Market Size For Power & Energy Industry, By Sensor,
($Million)
Table 40: Power & Energy Market, By Technology,
($Million)
Table 41: IWSN Market Size For Automotive Industry, By Sensor,
($Million)
Table 42: Automotive Market, By Technology,
($Million)
Table 43: IWSN Market Size For Metal & Mining Industry, By Sensor,
($Million)
Table 44: Metal and Mining Market, By Technology,
($Million)
Table 45: IWSN Market Size For Pharamceuticals, By Sensor,
($Million)
Table 46: Pharmaceuticals Market, By Technology,
($Million)
Table 47: IWSN Market Size For Others, By Sensor,
($Million)
Table 48: Other Applications Market, By Technology,
($Million)
Table 49: IWSN Market Size, By Region,
($Million)
Table 50: North American IWSN Market Size, By Sensor Type,
($Million)
Table 51: North American IWSN Market Size, By Country,
($Million)
Table 52: European IWSN Market Size, By Sensor Type,
($Million)
Table 53: Europe IWSN Market Size, By Country,
($Million)
Table 54: APAC IWSN Market Size, By Sensor Type,
($Million)
Table 55: APAC IWSN Market Size, By Country,
($Million)
Table 56: ROW IWSN Market Size, By Sensor Type,
($Million)
Table 57: ROW IWSN Market Size, By Country,
($Million)
Table 58: South American IWSN Market Size, By Country,
($Million)
Table 59: Middle East & African IWSN Market Size, By Country,
($Million)
Table 60: Brazilian IWSN Market Size, By Sensor Type,
($Million)
Table 61: Argentina IWSN Market Size, By Sensor Type,
($Million)
Table 62: Other South American Countries, IWSN Market Size, By Sensor Type,
($Million)
Table 63: New Product Launches,
Table 64: Agreements, Partnerships, Collaborations, & Joint Ventures,
Table 65: Mergers and Acquisitions,
Table 66: Expansions,
Table 67: ABB Ltd: Product Portfolio
Table 68: Atmel Corporation: Product Portfolio
Table 69: Endress + Hauser AG
Table 70: Emerson Electric Co. Product Portfolio
Table 71: General Electric Company: Product Portfolio
Table 72: Freescale Semiconductor Inc.: Product Portfolio
Table 73: St Microelectronics: Product Portfolio
Table 74: Honeywell International Inc.: Product Portfolio
Table 75: Siemens AG : Product Portfolio
Table 76: Yokogawa Electric Corporation: Product Portfolio
Table 77: New Product Launches ,
Table 78: Mergers and Acquisitions,
Table 79: Other Developments,
List of Figures
Figure 1: Market Scope
Figure 2: Research Design
Figure 3: R&D Expenditure On Wireless Sensors From 2007 to 2012
Figure 4: Global Industrial Automation Market 2009 to 2012
Figure 5: Global Oil & Natural Gas Market 2009 to 2012
Figure 6: Market Size Estimation Methodology: Bottom-Up Approach
Figure 7: Market Size Estimation Methodology: Top-Down Approach
Figure 8: Breakdown of Primary Interviews: By Company Type, Designation, and Region
Figure 9: The IWSN Market Snapshot (): The Oil & Gas Sector Is Expected to Witness A High Growth
Figure 10: Global IWSN Application Canvas, 2013: Oil & Gas, Energy & Power, and Water & Wastewater Sectors Are Expected to Fuel The Market Growth
Figure 11: Attractive Market Opprtunities For The IWSN Market
Figure 12: Oil & Gas Industry Will Have A High Grwoth Rate During The Forecast Period
Figure 13: North America Held The Largest Share in The IWSN Market
Figure 14: U.S. & APAC Together Hold 58% of The Overall IWSN Market
Figure 15: North America Holds The Maximum Share in The Global IWSN Market
Figure 16: Oil & Gas Will Have The Highest Market Share
Figure 17: Industrial Wireless Sensor Network Market - Segmentation
Figure 18: Drivers, Restraints, Opportunities, and Challenges For The Industrial Wireless Sensor Network Market
Figure 19: Value Chain Analysis
Figure 20: Supply Chain Analysis
Figure 21: The Wirelesshart Technology Leads The Industrial Wireless Mesh Sensor Network Market
Figure 22: Porter's Analysis
Figure 23: Threats of New Entrants
Figure 24: Threats of Substitutes
Figure 25: Bargaining Power of Suppliers
Figure 26: Bargaining Power of Buyers
Figure 27: Degree of Competition
Figure 28: Industrial Wireless Pressure Sensors Are Expected to Grow At Highest CAGR in Coming Years)
Figure 29: IWSN Technology Market Size ($Million)
Figure 30: IWSN Market: Application Snapshot ()
Figure 31: Geographic Snapshot of The IWSN Market (2013)
Figure 32: APAC-An Attractive Destination For The IWSN Market
Figure 33: The North American IWSN Market Snapshot
Figure 34: Germany Held The Major Market Share in The European IWSN Market
Figure 35: APAC IWSN Market Snapshot - Japan Is The Most Lucrative Market
Figure 36: Global IWSN Market Share, 2013
Figure 37: Market Evolution Framework-Significant New Product Development Has Fueled Growth and Innovation in 2013 and 2014
Figure 38: Battle For Market Share: New Product Launches Was The Key Strategy
Figure 39: Geographical Revenue Mix of Top Players
Figure 40: ABB Ltd: Company Snapshot
Figure 41: ABB Ltd: SWOT Analysis
Figure 42: ATMEL Corporation: Company Snapshot
Figure 43: Endress+Hauser AG: Company Snapshot
Figure 44: Emerson Electric Co.: Company Snapshot
Figure 45: Emerson Electric Co: SWOT Analysis
Figure 46: General Electric Company: Company Snapshot
Figure 47: Freescale Semiconductor Inc.: Company Snapshot
Figure 48: Stmicroelectronics: Company Snapshot
Figure 49: Honeywell International Inc.: Company Snapshot
Figure 50: Honeywell International Inc.: SWOT Analysis
Figure 51: Siemens AG : Company Snapshot:
Figure 52: Siemens AG: SWOT Analysis
Figure 53: Yokogawa Electric Corporation : Company Snapshot:
Figure 54: Yokogawa Electric Corporation: SWOT Analysis