About the Infrared (IR) Thermography Market IR thermography uses IR band of electromagnetic radiations to detect and analyze the temperature of an object, device, or material (living or non-living) and display the temperature distribution on a display screen. IR thermography works on the principle of detecting electromagnetic radiations falling under IR spectrum. Technavio’s analysts forecast the global infrared thermography market to grow at a CAGR of 10.4% during the period 2016-2020. Covered in this report The report covers the present scenario and the growth prospects of the global infrared thermography market for 2016-2020. For market sizing, the report includes IR thermography equipment both handheld and portable, as well as stationary thermography camera modules like thermal cameras, spot thermal cameras, security cameras, voyagers, thermal monocular, thermal rifle scopes, thermal binocular, and all other cameras working on short wavelength infrared (SWIR), mid wavelength infrared (MWIR) and long wavelength infrared (LWIR) detectors, both cooled and uncooled. The market is divided into the following segments based on geography: • Americas • APAC • EMEA Technavio's... Research Beam Model: Research Beam Product ID: 663859 2500 USD New
Global Infrared Thermography Market 2016-2020
 
 

Global Infrared Thermography Market 2016-2020

  • Category : Semiconductor and Electronics
  • Published On : June   2016
  • Pages : 60
  • Publisher : Technavio
 
 
 
About the Infrared (IR) Thermography Market

IR thermography uses IR band of electromagnetic radiations to detect and analyze the temperature of an object, device, or material (living or non-living) and display the temperature distribution on a display screen. IR thermography works on the principle of detecting electromagnetic radiations falling under IR spectrum.

Technavio’s analysts forecast the global infrared thermography market to grow at a CAGR of 10.4% during the period 2016-2020.

Covered in this report
The report covers the present scenario and the growth prospects of the global infrared thermography market for 2016-2020. For market sizing, the report includes IR thermography equipment both handheld and portable, as well as stationary thermography camera modules like thermal cameras, spot thermal cameras, security cameras, voyagers, thermal monocular, thermal rifle scopes, thermal binocular, and all other cameras working on short wavelength infrared (SWIR), mid wavelength infrared (MWIR) and long wavelength infrared (LWIR) detectors, both cooled and uncooled.

The market is divided into the following segments based on geography:
• Americas
• APAC
• EMEA

Technavio's report, Global Infrared (IR) Thermography Market 2016-2020, has been prepared based on an in-depth market analysis with inputs from industry experts. The report covers the market landscape and its growth prospects over the coming years. The report also includes a discussion of the operating in this market.

Key vendors
• ATN
• BAE Systems
• DRS Technologies
• EO Tech
• Honeywell
• FLIR
• Fluke
• Jenoptik
• L-3 Communications
• Nippon Avionics
• Rockwell Collins
• Raytheon
• Sofradir
• Seek Thermal
• Testo
• Thermoteknix
• Ulir Vision

Market driver
• Development of crystal growth techniques
• For a full, detailed list, view our report

Market challenge
• Lack of awareness about product and technology
• For a full, detailed list, view our report

Market trend
• Continuous investment in military upgradation
• For a full, detailed list, view our report

Key questions answered in this report
• What will the market size be in 2020 and what will the growth rate be?
• What are the key market trends?
• What is driving this market?
• What are the challenges to market growth?
• Who are the in this market space?
• What are the market opportunities and threats faced by the key vendors?
• What are the strengths and weaknesses of the key vendors?

You can request one free hour of our analyst’s time when you purchase this market report. Details are provided within the report.


PART 01: Executive summary
• Highlights

PART 02: Scope of the report
• Base year
• Market coverage

PART 03: Market research methodology
• Research methodology
• Economic indicators

PART 04: Introduction
• Key market highlights
• Types of IR detector
• Advantages of IR thermography in commercial and industrial applications

PART 05: Technology landscape
• IR thermography detection mechanism

PART 06: Market landscape
• Market overview
• Market size and forecast by revenue
• Market size and forecast by volume
• ASP of IR thermography
• Five forces analysis

PART 07: Market segmentation by application
• Market overview
• Commercial and industrial applications
• IR thermography for defense systems

PART 08: Geographical segmentation
• IR thermography market in Americas
• IR thermography market in EMEA
• IR thermography market in APAC

PART 09: Market drivers
• Development of crystal growth techniques
• Improvement in topologies for photon absorption
• Evolution of IR FPAs
• Advances in camera module technologies
• Increase in government initiatives

PART 10: Impact of drivers

PART 11: Market challenges
• High cost to company
• Lack of awareness about product and technology
• Limitation in device capabilities

PART 12: Impact of drivers and challenges

PART 13: Market trends
• Growing market for small SWaPC
• Continuous investment in military upgradation
• Growing demand for thermography software
• Vertical integration in supply chain
• IR thermography for social cause

PART 14: Vendor landscape
• Competitive landscape

PART 15: Vendor analysis
• ATN
• BAE Systems
• DRS Technologies
• EOTech
• Honeywell
• FLIR
• Fluke
• Jenoptik
• L-3 Communications
• Nippon Avionics
• Rockwell Collins
• Raytheon
• Sofradir
• Seek Thermal
• Testo
• Thermoteknix
• Ulir Vision

PART 16: Summary of key figures

PART 17: Appendix
• List of abbreviation

PART 18: Explore Technavio

List of Exhibits
Exhibit 01: Product offerings
Exhibit 02: Cooled and uncooled IR detectors used in IR thermography
Exhibit 03: Advantages of using IR thermal imaging
Exhibit 04: IR thermography detection mechanism
Exhibit 05: IR thermography based on IR spectrum
Exhibit 06: Detector properties
Exhibit 07: Global IR thermography market
Exhibit 08: Global IR thermography market 2016-2020 ($ billions)
Exhibit 09: Global IR thermography market 2016-2020 (millions of units)
Exhibit 10: ASP trend of IR thermography for defense and commercial and industrial applications ($)
Exhibit 11: Five forces analysis
Exhibit 12: Global IR thermography market 2016-2020
Exhibit 13: Global IR thermography market 2016-2020 ($ billions)
Exhibit 14: Global IR thermography market for commercial and industrial applications 2015-2020 ($ billions)
Exhibit 15: Market share of IR thermography in commercial and industrial applications 2015
Exhibit 16: Market share of IR thermography in commercial and industrial applications 2020
Exhibit 17: Global IR thermography market for defense systems 2015-2020 ($ billions)
Exhibit 18: Global defense procurement market as % of global defense budget (2015)
Exhibit 19: Global IR thermography market by geography 2015-2020
Exhibit 20: Global IR thermography market by geography 2015-2020 ($ billions)
Exhibit 21: IR thermography market in Americas 2015-2020 ($ billions)
Exhibit 22: IR thermography market in EMEA 2015-2020 ($ billions)
Exhibit 23: IR thermography market in APAC 2015-2020 ($ billions)
Exhibit 24: Material used for IR sensing and generation of detectors
Exhibit 25: DROIC specifications
Exhibit 26: Program characteristics of WAP USA
Exhibit 27: US DOE budget allocation ($ thousands)
Exhibit 28: Impact of drivers
Exhibit 29: Impact of drivers and challenges
Exhibit 30: US budget and procurement expense ($ millions)
Exhibit 31: Annual defense budget for military spending 2015 ($ billions)
Exhibit 32: Comparison of microbolometer with TLV
Exhibit 33: Summary of key figures

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