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Smart Glass Market by Technology (Electrochromics, Liquid Crystal, Microblinds, Thermographic and Photochromics), Application (Architectural, Transportation, Solar power generation, Electronics & others), & by Geography - Global Forecast to 2014 - 2020

NEW YORK, Aug. 4, 2014 /PRNewswire/ -- Reportlinker.com announces that a new market research report is available in its catalogue:

Smart Glass Market by Technology (Electrochromics, Liquid Crystal, Microblinds, Thermographic and Photochromics), Application (Architectural, Transportation, Solar power generation, Electronics & others), & by Geography - Global Forecast to 2014 – 2020

http://www.reportlinker.com/p02268625/Smart-Glass-Market-by-Technology-Electrochromics-Liquid-Crystal-Microblinds-Thermographic-and-Photochromics-Application-Architectural-Transportation-Solar-power-generation-Electronics--others--by-Geography---Global-Forecast-to-2014-–-2020.html

Smart glass is also known by switchable glass, dimmable glass or dynamic glass. It is a kind of glass which changes its light transmission properties according to the provided stimulus. Based on whether, they require an electrical stimulus to respond or the level of control it offers to users; it can be categorized into Active or Passive. Electrochromic, SPD, and Liquid crystal are some of the active smart glass technologies which respond to voltage as a stimulus and adjust the light transmission property dynamically. On the other hand, Passive smart glass technologies such as Thermochromic and Photochromic react naturally to heat or light.

Smart glass technologies covered in this report are: Thermochromic, Suspended particle device (SPD), Electrochromic (EC), Liquid crystal (LC)/ Polymer dispersed liquid crystal (PDLC), Photochromic and so on. Also technical assessment of the latest, emerging smart glass technologies- micro blinds and nanocrystals are also provided. Out of all the traditional smart glass technologies, Electrochromic is being recognized as one of the promising ones, owing to the highest dynamic control, as it allows light and heat through the glass. With its unique properties such as durability and fastest switching times, Electrochromic smart glass is expected to revolutionize the architectural application segment occupying the major chunk of market revenue by 2020.

Transportation sector is another growth market for this product. In automotive segment, smart glass is becoming a popular choice for rear view mirrors and sunroofs because of the value it brings in the form of controlling the glare, tinting and so on. Reputed automobile players such as Daimler AG (Germany) and BMW AG (Germany) have used smart glass for windows and sun-roofs, in their premium cars such as Mercedes-Benz SLK and BMW Active Tourer respectively. Also aviation players such as Boeing Company (U.S.) used smart windows in its 787 Dreamliner aircraft. This report consists of a case study on this application.

The report covers smart glass market by its applications, technology, size and geography. The detailed segmentation by commercial architectural applications included in the report covers educational buildings, corporate buildings, hospitals & lab facilities and retail applications of smart glass. While automotive segment takes into account smart glass products such as windows, doors, windshields and rear view mirrors.

It provides thorough analysis of the present market scenario and its projection till 2020. The report also captures the market roadmap with market size estimates, revenue forecasts, value chain, competitive landscape, leading players, and their key developments, strategies, and profile. Whereas, the geographical segmentation section gives the smart glass market for various geographical regions namely: North America, Europe, APAC, RoW and Latin America. Besides segmentation, this report encapsulates the major driving factors for smart glass market such as encouraging government legislations and policies, green building initiatives and so on.

This report also profiles key industry player of smart glass market. The detailed analysis about their strategies and developments is included in the report. These key industry players are - Asahi Glass Company (Japan), Citala Pvt. Ltd (Israel), Corning Inc (U.S.), DuPont (U.S.), Gentex Corporation (U.S.), Hitachi Chemicals (Japan), PPG Industries (U.S.), Pleotint (U.S.), Ravenbrick LLC (U.S.), Research Frontier (U.S.), Smartglass international (Ireland), Sage Electrochromics (U.S.), Saint Gobain (France), Scienstry (U.S.), SPD smartglass (U.S.) and View Inc (U.S.).
Table of Contents

1 Introduction (Page No. - 23)
1.1 Objective
1.2 Report Description
1.3 Markets Covered
1.4 Stakeholders
1.5 Research Methodology
1.5.1 Market Size Estimation
1.5.2 Market Crackdown and Data Trangulation
1.5.3 Key Data From Secondary Sources
1.5.4 Key Data From Secondary Sources
1.5.5 General Assumptions, Terminologies and Key Notes for Smart Glass Market
1.5.6 Market Definition and Scope of the Report
1.5.7 Key Companies Covered During the Study

2 Executive Summary (Page No. - 38)

3 Cover Story:Industry Expert (Page No. - 45)
3.1 Sage Electrochromics
3.1.1 Interview: Vice President of Marketing and Vice President of Technical Business Development, Sage Electrochromics
3.2 View Inc.
3.2.1 Interview: Vice President of Product Management, View Inc.

4 Market Overview (Page No. - 51)
4.1 Market Definition
4.1.1 Smart Glass
4.1.2 Smart Windows
4.2 Evolution of Smart Glass Systems
4.3 Segmentation of Smart Glass
4.4 Application Lifecycle of Smart Glass
4.5 Value Chain Analysis
4.6 Vendor Landscape
4.6.1 Technology Developers/ Film Suppliers
4.6.2 Smart Glass Fabricators / Distributors
4.6.3 Smart Glass Customers
4.7 Market Investment Analysis
4.8 Pricing Analysis
4.9 Patent Analysis

5 Market Dynamics (Page No. - 68)
5.1 Introduction
5.1.1 Drivers
5.1.1.1 Adds to the Energy Savings
5.1.1.2 Low Maintenance Cost
5.1.1.3 Eco Friendly / Green Building
5.1.1.4 Mandates and Legislations
5.1.1.5 Increased Applications in Automobiles
5.1.2 Restraints
5.1.2.1 Inability to Maintain Exact Color Balance
5.1.2.2 Less Speedy Response of Larger Sized Smart Glass
5.1.2.3 High Cost Premiums
5.1.2.4 Lack of Awareness
5.1.3 Opportunities
5.1.3.1 Emerging Applications –Power Generation Plant (Solar)
5.1.3.2 Increasing Need of Energy Efficient Products
5.1.3.3 Tapping the Potential Avenues
5.1.4 Burning Issues
5.1.4.1 Limited Track Record
5.1.4.2 Uncertain Investment Environment
5.1.4.3 High Cost
5.1.5 Winning Imperatives
5.1.5.1 Partnerships and Strategic Collaborations
5.1.5.2 Integration With Hvac System
5.1.6 Porter's Five forces Analysis
5.1.6.1 Degree of Competition
5.1.6.2 Bargaining Power of Buyers
5.1.6.3 Bargaining Power of Suppliers
5.1.6.4 Threat From Substitutes
5.1.6.5 Threat From New Entrants

6 Smart Glass Market, By Application (Page No. - 93)
6.1 Introduction
6.2 Architectural
6.2.1 Commercial
6.2.1.1 Educational Buildings
6.2.1.2 Corporate
6.2.1.3 Healthcare & Lab Facilities
6.2.1.3.1 External Windows
6.2.1.3.2 Isolation Screens
6.2.1.4 Retail
6.2.1.4.1 Projection Screens
6.2.1.4.2 Advertising Display
6.2.2 Residential
6.3 Transportation
6.3.1 Automotive
6.3.1.1 Sunroofs
6.3.1.2 Rear-View Mirrors
6.3.1.3 Windows
6.3.1.4 Windshields
6.3.2 Bus/Rail
6.3.3 Aerospace
6.3.3.1 Dimmable Windows
6.3.3.2 Exit Doors
6.3.4 Marine
6.3.4.1 Windows
6.3.4.2 Skylight
6.4 Power Generation Plant (Solar)
6.5 Electronics
6.6 Others
6.6.1 Museum Artwork Exposition
6.6.2 Sunglasses

7 Smart Windows (Page No. - 128)
7.1 Introduction
7.2 Market Dynamics of Smart Windows
7.2.1 Drivers
7.2.1.1 Value Augmentation
7.2.1.2 Green Building Initiatives
7.2.1.3 Convenience Delivery
7.2.2 Restraints
7.2.2.1 High Cost
7.2.3 Opportunities
7.2.3.1 Cost and Energy Efficient Products
7.3 Types of Smart Windows
7.3.1 thermochromic Windows
7.3.2 Electrochromic Windows
7.3.3 Self Cleaning Windows
7.4 Smart Window Block Diagram
7.5 Applications
7.5.1 Residential
7.5.2 Commercial
7.6 Case Study – Smart Windows: Boeing 787 Dreamliner
7.6.1 Introduction to "Smart Glass" Technology
7.6.1.1 Overview
7.6.1.2 Smart Glass Technology
7.6.2 Comparison of "Active Smart Glass" and "Passive Smart Glass Technology"
7.6.3 Smart Windows : Boeing's Commercial Aviation Application
7.6.3.1 Overview
7.6.3.2 Boeing Commercial Aircraft Products & Services
7.6.4 Integration of Dimmable Windows in Boeing 787 Dreamliner
7.6.5 Key Players' Contribution- Dreamliner Smart Window Project
7.6.6 Analysis

8. art Glass Market, By Technology (Page No. - 145)
8.1 Introduction
8.2 Future Trends – Technological & Application Trends
8.2.1 Technological Trends
8.2.1.1 Photovoltaic & Oled Lighting
8.2.1.2 3 D Gorilla Glass
8.2.1.3 Smart Controls for Smart Glass
8.2.2 Application Trends
8.2.2.1 the Hospitals of the Future
8.2.2.2 Internet of Things
8.3 Comparison of Technologies
8.4 Electrical Installation of Smart Glass
8.5 Low-E Glass
8.6 Active Glass
8.6.1 Suspended Particle Device Glass
8.6.2 Electrochromic Glass
8.6.3 Liquid Crystals (LC) / Polymer Disperses Liquid Crystals (PDLC) Glass
8.6.4 Micro-Blinds
8.6.5 Nanocrystals
8.7 Passive Glass
8.7.1 Photochromic Glass
8.7.2 thermochromic Glass

9 Smart Glass Market, By Geography (Page No. - 264)
9.1 Introduction
9.2 Americas
9.2.1 North America
9.2.2 Latin America
9.3 Europe
9.4 APAC
9.5 ROW

10 Competitive Landscape (Page No. - 285)
10.1 Introduction
10.2 Market Share Analysis
10.3 Key Growth Strategies
10.3.1 New Product Development/Launch
10.3.2 Mergers& Acquisitions and Business Expansion
10.3.3 Strategic Alliance, and Agreements and Contracts
10.3.4 Investments

11 Company Profiles (Page No. - 301)
(Overview, Products and Services, Financials, Strategy & Development)*
11.1 Asahi Glass Corporation
11.2 Citala Ltd.
11.3 Corning Incorporated
11.4 Dupont
11.5 Gentex Corporation
11.6 Hitachi Chemical Co. Ltd.
11.7 Pleotint Llc
11.8 PPG Industries Inc
11.9 Ravenbrick Llc
11.10 Research Frontiers Incorporated
11.11 Saint-Gobain S.A.
11.12 Scienstry Inc.
11.13 Smartglass International
11.14 SPD Control System Corporation
11.15 View Inc.

*Details on Overview, Products and Services, Financials, Strategy & Development Might Not Be Capturedin Case of Unlisted Companies.
List of Tables

Table 1 Global Smart Glass Market Size, By Geography, 2013-2020 ($Million)
Table 2 Global Smart Glass Market Size, By Geography, 2013-2020 (Million Units)
Table 3 Market Investment Factors
Table 4 Drivers Impact Analysis
Table 5 Restraints Impact Analysis
Table 6 Quantification of Threat From Degree of Competition
Table 7 Quantification of Threat From the Bargaining Power of Buyers
Table 8 Quantification of Threat From the Bargaining Power of Suppliers
Table 9 Quantification of Threat From the Threat From Substitute
Table 10 Quantification of Threat From Threat From New Entrants
Table 11 Global Smart Glass Market Size, By Application, 2013 - 2020 ($Million)
Table 12 Smart Glass Market Size for Architectural Applications, By Technology, 2013-2020 ($Million)
Table 13 Smart Glass Market Size for Architectural Applications, By Geography, 2013-2020 (Million Units)
Table 14 Smart Glass Market Size for Transportation Applications, By Technology, 2013-2020 ($Million)
Table 15 Smart Glass Market Size for Transportation Applications, By Geography, 2013-2020 (Million Units)
Table 16 Smart Glass Market Size for Electronics and Other Applications, By Technology, 2013-2020 ($Million)
Table 17 Global Smart Windows Market Size, By Geography, 2013-2020 ($Million)
Table 18 Comparison of Active and Passive Smart Glass Technology
Table 19 Global Smart Glass Market Size, By Technology, 2013-2020 ($Million)
Table 20 Global Smart Glass Market Size, By Technology, 2013-2020 (Million Units)
Table 21 Smart Glass Charecterstics, By Technology
Table 22 Transformer Particular for Smart Glass Panel
Table 23 SPD Glass Product Specification
Table 24 SPD Smart Glass Market Size, By Application, 2013-2020 ($Million)
Table 25 SPD Smart Glass Market Size, By Application, 2013-2020 (Million Units)
Table 26 SPD Smart Glass Market Size, By Architectural Appplication, 2013-2020 ($Million)
Table 27 SPD Smart Glass Market Size , By Architectural Application, 2013-2020 (Million Units)
Table 28 SPD Smart Glass Market Size, By Commercial Architectural Application, 2013-2020 ($Million)
Table 29 SPD Smart Glass Market Size, By Commercial Architectural Application, 2013-2020 (Million Units)
Table 30 SPD Smart Glass Market Size, By Transportation Application, 2013-2020 ($Million)
Table 31 SPD Smart Glass Market Size, By Transportation Application, 2013-2020 (Million Units)
Table 32 SPD Smart Glass Market Size, By Automotive Application, 2013-2020 ($Million)
Table 33 SPD Smart Glass Market Size, By Automotive Application, 2013-2020 (Million Units)
Table 34 SPD Smart Glass Market Size, By Geography, 2013-2020 ($Million)
Table 35 SPD Smart Glass Market Size, By Geography, 2013-2020 (Million Units)
Table 36 SPD Smart Glass Market Size for Commercial Architectural Applciations, By Geography, 2013-2020 ($Million)
Table 37 SPD Smart Glass Market Size for Commercial Architectural Applications, By Geography, 2013-2020 (Million Units)
Table 38 SPD Smart Glass Market Size for Residential Architectural Applications, By Geography, 2013-2020 ($Million)
Table 39 SPD Smart Glass Market Size for Residential Architectural Applications, By Geography, 2013-2020 ( Million Units)
Table 40 SPD Smart Glass Market Size for Automotive Applications, By Geography, 2013-2020 ($Million)
Table 41 SPD Smart Glass Market Size for Automotive Applications, By Geography, 2013-2020 (Million)
Table 42 SPD Smart Glass Market Size for Rail Applications, By Geography, 2013-2020 ($Million)
Table 43 SPD Smart Glass Market Size for Rail Applications, By Geography, 2013-2020 (Million Units)

Table 44 SPD Smart Glass Market Size for Aviation Applications, By Geography, 2013-2020 ($Million)
Table 45 SPD Smart Glass Market Size for Aviation Applications, By Geography, 2013-2020 (Million Units)
Table 46 SPD Smart Glass Market Size for Marine Applications, By Geography, 2013-2020 ($Million)
Table 47 SPD Smart Glass Market Size for Marine Applications, By Geography, 2013-2020 (Million Units)
Table 48 Electrochromic Smart Glass Market Size, By Application, 2013-2020 ($Million)
Table 49 Electrochromic Smart Glass Market Size, By Application, 2013-2020 (Million Units)
Table 50 Electrochromic Smart Glass Market Size, By Architectural Application, 2013-2020 ($Million)
Table 51 Electrochromic Smart Glass Market Size, By Architectural Application, 2013-2020 (Million Units)
Table 52 Electrochromic Smart Glass Market Size, By Commercial Architectural Application, 2013-2020 ($Million)
Table 53 Electrochromic Smart Glass Market Size, By Commercial Architectural Application, 2013-2020 (Million Units)
Table 54 Electrochromic Smart Glass Market Size, By Transportation Application, 2013-2020 ($Million)
Table 55 Electrochromic Smart Glass Market Size, By Transportation Application, 2013-2020 (Million Units)
Table 56 Electrochromic Smart Glass Market Size, By Automotive Application, 2013-2020 ($Million)
Table 57 Electrochromic Smart Glass Market Size, By Automotive Application, 2013-2020 (Million Units)
Table 58 Electrochromic Smart Glass Market Size, By Geography, 2013-2020 ($Million)
Table 59 Electrochromic Smart Glass Market Size, By Geography, 2013-2020 (Million Units)
Table 60 Electrochromic Smart Glass Market Size for Commercial Architectural Applications, By Geography, 2013-2020 ($Million)

Table 61 Electrochromic Smart Glass Market Size for Commercial Architectural Applications, By Geography, 2013-2020 (Million Units)
Table 62 Electrochromic Smart Glass Market Size for Residential Architectural Applications, By Geography, 2013-2020 ($Million)
Table 63 Electrochromic Smart Glass Market Size for Residential Architectural Applications, By Geography, 2013-2020 (Million Units)
Table 64 Electrochromic Smart Glass Market Size, By Transportation Application, 2013-2020 ($Million)
Table 65 Electrochromic Smart Glass Market Size, By Transportation Application, 2013-2020 (Million Units)
Table 66 Electrochromic Smart Glass Market Size for Automotive Transportation Applications, By Geography, 2013-2020 ($Million)
Table 67 Electrochromic Smart Glass Market Size for Automotive Transportation Applications, By Geography, 2013-2020 (Million Units)
Table 68 Electrochromic Smart Glass Market Size for Rail Applications, By Geography, 2013-2020 ($Million)
Table 69 Electrochromic Smart Glass Market Size for Rail Applications, By Geography, 2013-2020 (Million Units)
Table 70 Electrochromic Smart Glass Market Size for Aviation Applications, By Geography, 2013-2020 ($Million)
Table 71 Electrochromic Smart Glass Market Size for Aviation Applications, By Geography, 2013-2020 (Million Units)
Table 72 Electrochromic Smart Glass Market Size for Marine Applications, By Geography, 2013-2020 ($Million)
Table 73 Electrochromic Smart Glass Market Size for Marine Applications, By Geography, 2013-2020 (Million Units)
Table 74 LC Product Specifications
Table 75 Liquid Crystal Smart Glass Market Size, By Application, 2013-2020 ($Million)
Table 76 Liquid Crystal Smart Glass Market Size, By Application, 2013-2020 (Million Units)
Table 77 Liquid Crystal Smart Glass Market Size, By Architectural Application, 2013-2020 ($Million)
Table 78 Liquid Crystal Smart Glass Market Size, By Architectural Application, 2013-2020 (Million Units)

Table 79 Liquid Crystal Smart Glass Market Size, By Commercial Architectural Application, 2013-2020 ($Million)
Table 80 Liquid Crystal Smart Glass Market Size, By Commercial Architectural Application, 2013-2020 (Million Units)
Table 81 Liquid Crystal Smart Glass Market Size, By Transportation Application, 2013-2020 ($Million)
Table 82 Liquid Crystal Smart Glass Market Size, By Transportation Application, 2013-2020 (Million Units)
Table 83 Liquid Crystal Smart Glass Market Size, By Automotive Application, 2013-2020 ($Million)
Table 84 Liquid Crystal Smart Glass Market Size, By Automotive Application, 2013-2020 (Million Units)
Table 85 Liquid Crystal Smart Glass Market Size, By Geography, 2013-2020 ($Million)
Table 86 Liquid Crystal Smart Glass Market Size, By Geography, 2013-2020 (Million Units)
Table 87 Liquid Crystal Smart Glass Market Size for Commercial Architectural Applications, By Geography, 2013-2020 ($Million)
Table 88 Liquid Crystal Smart Glass Market Size for Commercial Architectural Applications, By Geography, 2013-2020 (Million Units)
Table 89 Liquid Crystal Smart Glass Market Size for Residential Architectural Applications, By Geography, 2013-2020 ($Million)
Table 90 Liquid Crystal Smart Glass Market Size for Residential Architectural Applications, By Geography, 2013-2020 (Million Units)
Table 91 Liquid Crystal Smart Glass Market Size for Automotive Applications, By Geography, 2013-2020 ($Million)
Table 92 Liquid Crystal Smart Glass Market Size for Automotive Applications, By Geography, 2013-2020 (Million Units)
Table 93 Liquid Crystal Smart Glas Market Size for Rail Transportation Applications, By Geography, 2013-2020 ($Million)
Table 94 Liquid Crystal Smart Glass Market Size for Rail Transportation Applications, By Geography, 2013-2020 (Million Units)

Table 95 Liquid Crystal Smart Glass Market Size for Aviation Transportation Applications, By Geography, 2013-2020 ($Million)
Table 96 Liquid Crystal Smart Glass Market Size for Aviation Transportation Applications, By Geography, 2013-2020 (Million Units)
Table 97 Liquid Crystal Smart Glass Market Size for Marine Transportation Applications, By Geography, 2013-2020 ($Million)
Table 98 Liquid Crystal Smart Glass Market Size for Marine Transportation Applications, By Geography, 2013-2020 (Million Units)
Table 99 Microblinds Smart Glass Market Size, By Geography, 2013-2020 ($Million)
Table 100 Microblinds Smart Glass Market Size, By Geography, 2013-2020 (Million Units)
Table 101 Microblind Smart Glass Market Size, By Application, 2013-2020 ($Million)
Table 102 Microblind Smart Glass Market Size, By Application, 2013-2020 (Million Units)
Table 103 Technological Challenges and Shortcomings of Photochromic Glass
Table 104 Photochromic Smart Glass Market Size, By Geography, 2013-2020 ($Million)
Table 105 Photochromic Smart Glass Market Size, By Geography, 2013-2020 (Million Units)
Table 106 Photochromic Smart Glass Market Size, By Application (Million Units)
Table 107 Thermochromic Smart Glass Market Size, By Geography, 2013-2020 ($Million)
Table 108 Thermochromic Smart Glass Market Size, By Geography, 2013-2020 (Million)
Table 109 Thermochromic Smart Glass Market Size, By Application, 2013-2020 ($Million)
Table 110 Thermochromics Smart Glass Market Size, By Application, 2013-2020 (Million Units)
Table 111 Thermochromic Smart Glass Market Size, By Architectural Apllication, 2013-2020 ($Million)
Table 112 Thermochromic Smart Glass Market Size, By Architectural Apllication, 2013-2020 (Million Units)
Table 113 Thermochromic Smart Glass Market Size, By Architectural Apllication, 2013-2020 ($Million)
Table 114 Thermochromic Smart Glass Market Size, By Commercial Architectural Apllication, 2013-2020 (Million Units)
Table 115 Global Smart Glass Marekt Size, By Geography, 2013-2020 ($Million)
Table 116 Global Smart Glass Market Size, By Geography, 2013-2020 (Million Units)
Table 117 North America: Smart Glass Market Size, By Technology, 2013-2020 ($Million)
Table 118 North America: Smart Glass Market Size, By Technology, 2013-2020 (Million Units)
Table 119 Latin Ametica: Smart Glass Market Size, By Technology, 2013-2020 ($Million)
Table 120 Latin America: Smart Glass Market Size, By Technology (Million Units)
Table 121 Europe: Smart Glass Market Size, By Technology, 2013-2020 ($Million)
Table 122 Europe: Smart Glass Market Size, By Technology, 2013-2020 (Million Units)
Table 123 APAC: Smart Glass Market Size, By Technology, 2013-2020 ($Million)
Table 124 APAC: Smart Glass Market Size, By Technology, 2013-2020 (Million Units)
Table 125 ROW: Smart Glass Market Size, By Technology, 2013-2020 ($Million)
Table 126 ROW: Smart Glass Market Size, By Technology, 2013-2020 (Million Units)
Table 127 New Product Development/Launch, 2010-2014
Table 128 Mergers& Acquisitions and Business Expansions, 2011-2014
Table 129 Strategic Alliance, Agreements, and Contracts, 2012-2013

Table 130 Investments, 2013
Table 131 Others: Product Application, Awards & Recognition, 2011-2014 List of Figures (76 Figures)

Figure 1 Smart Glass Market Segmentation
Figure 2 Research Methodology for Smart Glass Market
Figure 3 Market Size Estimation
Figure 4 Market Crackdown & Data Triangulation
Figure 5 Global Smart Glass Market Size, By Technology, 2013-2020 ($Million)
Figure 6 Global Smart Glass Market Size, 2013-2020 ($Million)
Figure 7 Market Evolution of Smart Glass
Figure 8 Smart Glass Market Segmentation
Figure 9 Lifecycle of Smart Glass
Figure 10 Value Chain of Smart Glass
Figure 11 Vendor Landscape: Smart Glass Market
Figure 12 Smart Glass Pricing Analysis, By Technology, 2013-2020
Figure 13 Smart Glass Technology - Patent Analysis As of 2013
Figure 14 Market Dynamics, Smart Glass
Figure 15 Porters Five force Analysis for the Smart Glass Market
Figure 16 Smart Glass Market: Degree of Competition
Figure 17 Smart Glass Market: Bargaining Power of the Buyers
Figure 18 Smart Glass Market: Bargaining Power of Suppliers
Figure 19 Smart Glass Market : Threat From Substitute
Figure 20 Smart Glass Market: Threat From New Entrants
Figure 21 Smart Glass Market, By Application
Figure 22 Major Smart Glass Products in Architectural Sector
Figure 23 Smart Glass Features: Architectural Application
Figure 24 Skylights Used in Schools
Figure 25 Smart Glass Products Used As Paritions and Doors in Corporate offices
Figure 26 Smart Glass Applications in Healthcare & Lab Facilities
Figure 27 Smart Glass Applications in Transportation
Figure 28 Smart Glass As A Side Window in Automotive Application
Figure 29 Smart Glass Dimmable Windows in Airplane
Figure 30 Smart Glass in Marine
Figure 31 Smart Glass Market Size,in Power Generation Plant (Solar) Applicaiton, 2013-2020 ($Million)
Figure 32 Smartglass Applications in Others

Figure 33 Photochromic Glass Used in Sunglasses
Figure 34 Block Diagram : Smart Windows
Figure 35 Company Snapshot: the Boeing Company
Figure 36 Boeing Commercial Aircrafts
Figure 37 Dimmable Windows in Boeing 787 Dreamliner
Figure 38 Roles of Players in the Dreamliner Smart Windows Project
Figure 39 Smart Glass By Technology Segmentation
Figure 40 PV Integrated Smart Glass for Smart Building
Figure 41 Pricing Analysis of Low-E Glass, 2013-2020
Figure 42 SPD Smart Glass, Working
Figure 43 Electrochromatic Glass Working
Figure 44 Scheme of Electrochromic Panel
Figure 45 Liquid Crystal Smart Glass Operation
Figure 46 Photochromic Smart Glass Operation
Figure 47 Smart Glass Market By Geography
Figure 48 Market Share Analysis, 2013
Figure 49 Key Growth Strategies, 2010-2014
Figure 50 Asahi Glass Corporation: Company Snapshot
Figure 51 Asahi Glass Coprporation : Products & Services
Figure 52 Asahi Glass Coprporation: SWOT Analysis
Figure 53 Citala Ltd: Products & Services
Figure 54 Corning Inc: Company Snapshot
Figure 55 Corning Inc: Products & Services
Figure 56 SWOT Analysis: Corning Incorporated
Figure 57 Dupont: Company Snapshot
Figure 58 Dupont: Products & Service
Figure 59 SWOT Analysis: Dupont
Figure 60 Gentex Corporation: Company Snapshot
Figure 61 Gentex Corporation: Products
Figure 62 Gentex Corporation: SWOT Analysis
Figure 63 Hitachi Chemical Co.Ltd: Company Snapshot
Figure 64 Hitachi Chemical Co. Ltd.: Products & Services
Figure 65 Hitachi Chemical Co. Ltd.: SWOT Analysis
Figure 66 PPG Industries Inc: Company Snapshot
Figure 67 PPG Industries Inc: Products & Services
Figure 68 Ravenbrick Llc: Products & Services
Figure 69 Research Frontier Inc.: Company Snapshot
Figure 70 Saint-Gobain S.A.: Company Snapshot
Figure 71 Saint-Gobain S.A.: Products & Services
Figure 72 Saint-Gobain S.A.: SWOT Analysis
Figure 73 Scienstry Inc: Products & Services
Figure 74 Smartglass International: Products and Services
Figure 75 SPD Control System Corporation: Products & Services
Figure 76 View Inc.: Products & Services

To order this report: Smart Glass Market by Technology (Electrochromics, Liquid Crystal, Microblinds, Thermographic and Photochromics), Application (Architectural, Transportation, Solar power generation, Electronics & others), & by Geography - Global Forecast to 2014 – 2020
http://www.reportlinker.com/p02268625/Smart-Glass-Market-by-Technology-Electrochromics-Liquid-Crystal-Microblinds-Thermographic-and-Photochromics-Application-Architectural-Transportation-Solar-power-generation-Electronics--others--by-Geography---Global-Forecast-to-2014-–-2020.html

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The industrial software market has treated data with the mentality of “collect everything now, worry about how to use it later.” We now find ourselves buried in data, with the pervasive connectivity of the (Industrial) Internet of Things only piling on more numbers. There’s too much data and not enough information. In his session at @ThingsExpo, Bob Gates, Global Marketing Director, GE’s Intelligent Platforms business, to discuss how realizing the power of IoT, software developers are now focused on understanding how industrial data can create intelligence for industrial operations. Imagine ...
We certainly live in interesting technological times. And no more interesting than the current competing IoT standards for connectivity. Various standards bodies, approaches, and ecosystems are vying for mindshare and positioning for a competitive edge. It is clear that when the dust settles, we will have new protocols, evolved protocols, that will change the way we interact with devices and infrastructure. We will also have evolved web protocols, like HTTP/2, that will be changing the very core of our infrastructures. At the same time, we have old approaches made new again like micro-services...
Every innovation or invention was originally a daydream. You like to imagine a “what-if” scenario. And with all the attention being paid to the so-called Internet of Things (IoT) you don’t have to stretch the imagination too much to see how this may impact commercial and homeowners insurance. We’re beyond the point of accepting this as a leap of faith. The groundwork is laid. Now it’s just a matter of time. We can thank the inventors of smart thermostats for developing a practical business application that everyone can relate to. Gone are the salad days of smart home apps, the early chalkb...
Operational Hadoop and the Lambda Architecture for Streaming Data Apache Hadoop is emerging as a distributed platform for handling large and fast incoming streams of data. Predictive maintenance, supply chain optimization, and Internet-of-Things analysis are examples where Hadoop provides the scalable storage, processing, and analytics platform to gain meaningful insights from granular data that is typically only valuable from a large-scale, aggregate view. One architecture useful for capturing and analyzing streaming data is the Lambda Architecture, representing a model of how to analyze rea...
Today’s enterprise is being driven by disruptive competitive and human capital requirements to provide enterprise application access through not only desktops, but also mobile devices. To retrofit existing programs across all these devices using traditional programming methods is very costly and time consuming – often prohibitively so. In his session at @ThingsExpo, Jesse Shiah, CEO, President, and Co-Founder of AgilePoint Inc., discussed how you can create applications that run on all mobile devices as well as laptops and desktops using a visual drag-and-drop application – and eForms-buildi...
SYS-CON Events announced today that Vitria Technology, Inc. will exhibit at SYS-CON’s @ThingsExpo, which will take place on June 9-11, 2015, at the Javits Center in New York City, NY. Vitria will showcase the company’s new IoT Analytics Platform through live demonstrations at booth #330. Vitria’s IoT Analytics Platform, fully integrated and powered by an operational intelligence engine, enables customers to rapidly build and operationalize advanced analytics to deliver timely business outcomes for use cases across the industrial, enterprise, and consumer segments.
SYS-CON Events announced today that Dyn, the worldwide leader in Internet Performance, will exhibit at SYS-CON's 16th International Cloud Expo®, which will take place on June 9-11, 2015, at the Javits Center in New York City, NY. Dyn is a cloud-based Internet Performance company. Dyn helps companies monitor, control, and optimize online infrastructure for an exceptional end-user experience. Through a world-class network and unrivaled, objective intelligence into Internet conditions, Dyn ensures traffic gets delivered faster, safer, and more reliably than ever.
Containers and microservices have become topics of intense interest throughout the cloud developer and enterprise IT communities. Accordingly, attendees at the upcoming 16th Cloud Expo at the Javits Center in New York June 9-11 will find fresh new content in a new track called PaaS | Containers & Microservices Containers are not being considered for the first time by the cloud community, but a current era of re-consideration has pushed them to the top of the cloud agenda. With the launch of Docker's initial release in March of 2013, interest was revved up several notches. Then late last...
In their session at @ThingsExpo, Shyam Varan Nath, Principal Architect at GE, and Ibrahim Gokcen, who leads GE's advanced IoT analytics, focused on the Internet of Things / Industrial Internet and how to make it operational for business end-users. Learn about the challenges posed by machine and sensor data and how to marry it with enterprise data. They also discussed the tips and tricks to provide the Industrial Internet as an end-user consumable service using Big Data Analytics and Industrial Cloud.
Performance is the intersection of power, agility, control, and choice. If you value performance, and more specifically consistent performance, you need to look beyond simple virtualized compute. Many factors need to be considered to create a truly performant environment. In his General Session at 15th Cloud Expo, Harold Hannon, Sr. Software Architect at SoftLayer, discussed how to take advantage of a multitude of compute options and platform features to make cloud the cornerstone of your online presence.
The explosion of connected devices / sensors is creating an ever-expanding set of new and valuable data. In parallel the emerging capability of Big Data technologies to store, access, analyze, and react to this data is producing changes in business models under the umbrella of the Internet of Things (IoT). In particular within the Insurance industry, IoT appears positioned to enable deep changes by altering relationships between insurers, distributors, and the insured. In his session at @ThingsExpo, Michael Sick, a Senior Manager and Big Data Architect within Ernst and Young's Financial Servi...
Even as cloud and managed services grow increasingly central to business strategy and performance, challenges remain. The biggest sticking point for companies seeking to capitalize on the cloud is data security. Keeping data safe is an issue in any computing environment, and it has been a focus since the earliest days of the cloud revolution. Understandably so: a lot can go wrong when you allow valuable information to live outside the firewall. Recent revelations about government snooping, along with a steady stream of well-publicized data breaches, only add to the uncertainty
The explosion of connected devices / sensors is creating an ever-expanding set of new and valuable data. In parallel the emerging capability of Big Data technologies to store, access, analyze, and react to this data is producing changes in business models under the umbrella of the Internet of Things (IoT). In particular within the Insurance industry, IoT appears positioned to enable deep changes by altering relationships between insurers, distributors, and the insured. In his session at @ThingsExpo, Michael Sick, a Senior Manager and Big Data Architect within Ernst and Young's Financial Servi...
PubNub on Monday has announced that it is partnering with IBM to bring its sophisticated real-time data streaming and messaging capabilities to Bluemix, IBM’s cloud development platform. “Today’s app and connected devices require an always-on connection, but building a secure, scalable solution from the ground up is time consuming, resource intensive, and error-prone,” said Todd Greene, CEO of PubNub. “PubNub enables web, mobile and IoT developers building apps on IBM Bluemix to quickly add scalable realtime functionality with minimal effort and cost.”
Docker is an excellent platform for organizations interested in running microservices. It offers portability and consistency between development and production environments, quick provisioning times, and a simple way to isolate services. In his session at DevOps Summit at 16th Cloud Expo, Shannon Williams, co-founder of Rancher Labs, will walk through these and other benefits of using Docker to run microservices, and provide an overview of RancherOS, a minimalist distribution of Linux designed expressly to run Docker. He will also discuss Rancher, an orchestration and service discovery platf...
Sensor-enabled things are becoming more commonplace, precursors to a larger and more complex framework that most consider the ultimate promise of the IoT: things connecting, interacting, sharing, storing, and over time perhaps learning and predicting based on habits, behaviors, location, preferences, purchases and more. In his session at @ThingsExpo, Tom Wesselman, Director of Communications Ecosystem Architecture at Plantronics, will examine the still nascent IoT as it is coalescing, including what it is today, what it might ultimately be, the role of wearable tech, and technology gaps stil...