Key Highlights
• A shortwave infrared (SWIR) camera is an electronic device that detects radiation in the shortwave infrared spectrum (usually in the range of 1 to 2.5 microns). It detects and visualizes light that the human eye cannot see. SWIR cameras are used in many applications such as night vision, remote sensing, surveillance and research. It performs well in situations where the camera sees light attacks, providing better visibility in fog, haze and poor lighting conditions. SWIR cameras are essential tools for discovering hidden details and analyzing data based on unique signatures in the SWIR wavelength range.
• The market size of the worldwide Shortwave Infrared Camera Industry surpassed USD XX billion in 2022, and by 2032, it is projected to reach USD XX billion, boosting at a CAGR of XX%.
• In January 2022, UCID Vision Labs, Inc., a commercial vision camera manufacturer and supplier, presents the latest Atlas SWIR 1.3 MP and with an IP67 rating. 3MP camera. Atlas SWIR is a GigE PoE+ camera with wideband and high sensitivity Sony SenSWIR1.3 MP IMX990 and 0.3 MP IMX991 InGaAs sensors that can capture images in the visible and visible spectrum with a miniature 5μm pixel size.
• Increasing spending on consumer electronics is a major factor influencing the growth of the SWIR camera market. Factors such as increased disposable income and increased digitalization have resulted in increased consumer electronics spending. The proliferation of advanced technology and the availability of different brands and price ranges are expected to drive the growth of the global electrical equipment market during the forecast period. These factors increase the demand for electronic products. Due to the large number of digitalization initiatives and domestic companies producing cheap electronics and technology. Many vendors offer SWIR cameras for applications such as surveillance. For example, on April 27, 2023, Quantum Imaging introduced the MIRA 02Y-E SWIR camera for various applications including enemy fire and identification and imaging. Therefore, higher disposable incomes and increased demand for energy products are likely to drive consumer spending on energy products, which will spur growth of the global shortwave infrared camera market over the forecast period.
Scope of the Industry Profile
Key Players
• Collins Aerospace (US)
• Teledyne FLIR (US)
• Xenics (India)
• New Imaging Technologies (France)
• Allied Vision Technologies (US)
• Raptor Photonics (UK)
• Lynred (France)
• Opgal Optronic (US)
• Photon (US)
• Hamamatsu Photonics (Japan)
Segmentation
By Technology
• Cooled
• Uncooled
By Material
• Indium Gallium Arsenide
• Indium Antimonide
• Lead Sulfide
• Mercury Cadmium Telluride
By End Use
• Industrial Sorting
• Solar Cell Inspection
• Astronomy
• Spectroscopy
• Hyperspectral Imaging
• Small Animal Imaging
• Laser Beam Profiling
By Application
• Inspection
• Quality Control
• Identification
• Detection
• Surveillance
What to Expect from Industry Profile
1. Save time carrying out entry-level research by identifying the size, growth, major segments, and leading players in the Shortwave Infrared Camera market in the world.
2. Use the PORTER’s Five Forces analysis to determine the competitive intensity and therefore market attractiveness of the Global Shortwave Infrared Camera market.
3. Leading company profiles reveal details of key Shortwave Infrared Camera market players’ global operations, strategies, financial performance & their recent developments.
4. Add weight to presentations and pitches by understanding the future growth prospects of the Global Shortwave Infrared Camera market with forecast for decade by both market share (%) & revenue (USD Million).
Recent Development
• In February 2022, Espoo, Finland-based Emberion has raised USD 6 million to meet machine vision and analytics market needs for VIS-SWIR (Visible / Short Wave Infrared) image cameras with wide spectrum and wide dynamic range performance. Emberion is trying to differentiate itself in the market for [shortwave infrared] SWIR cameras without sensors that cover a wide spectral range, and existing cameras are expensive.
• In January 2022, UCID Vision Labs, Inc., a commercial vision camera manufacturer and supplier, presents the latest Atlas SWIR 1.3 MP and with an IP67 rating. 3MP camera. Atlas SWIR is a GigE PoE+ camera with wideband and high sensitivity Sony SenSWIR1.3 MP IMX990 and 0.3 MP IMX991 InGaAs sensors that can capture images in the visible and visible spectrum with a miniature 5μm pixel size.
Segment Insights
By Application
The demand for shortwave infrared (SWIR) cameras in quality control is driven by their unique ability to detect defects and provide insights into a variety of industries. SWIR cameras operate in the 900 to 1700 nanometre spectral range, allowing them to access data and capture details that cannot be seen with the naked eye or under normal light. This ability is essential for identifying defects, inconsistencies and impurities in products, materials and facilities during production and quality control. Industries such as electronics, semiconductors, pharmaceuticals and agriculture have benefited from SWIR cameras by detecting product defects, inspecting packaging, examining chemical muscles and inspecting healthy crops. The growing need for quality control and efficiency, combined with SWIR technology's ability to improve defect detection and diagnostic equipment, has made the SWIR camera an essential tool for product integrity and process optimization.
By End-use
The demand for shortwave infrared (SWIR) cameras in spectroscopy is driven by their ability to capture important information in a variety of applications. SWIR cameras excel in revealing the molecular structure, chemical and physical properties of materials, making them important in industries such as medicine, environmental protection, agriculture and information science. These cameras allow scientists to observe absorption, reflection and emission spectra, understand molecular structures, and identify objects that are difficult to handle with light or other photographic methods. The ability of SWIR cameras to operate in poor lighting conditions and access certain information improves their use in a variety of models. There is a need for fast, accurate data analysis driven by research and business needs, and SWIR cameras have become an essential tool for advancing research and technology using spectroscopy.
Regional Insights
Asia Pacific is estimated to contribute 40% to global economic growth over the forecast period. The growth of the market in Asia Pacific is driven by several factors such as increasing demand for short infrared cameras and vision equipment. With the rapid transition from analog equipment to digital equipment, the Asia-Pacific region will grow the fastest. Countries like China, Japan, and India have invested heavily in their armies and defences. Increasing security concerns about terrorist attacks encourage countermeasures. For this reason, the use of SWIR cameras is increasing in the region. Japan, China, South Korea and India are the largest sources of income in the region due to various manufacturing industries such as automobile manufacturing, paper manufacturing, glass manufacturing, and computer manufacturing and semiconductor devices.
1 INTRODUCTION
1.1 Study Objectives
1.2 Market Definitions
1.2.1 Inclusions & Exclusions
1.2.2 Region: Inclusions & Exclusions
1.2.3 Study Scope
1.2.3.1 Markets Covered
1.2.3.2 Regional Scope
1.2.3.3 Years Considered
1.2.4 Currency Considered
1.2.5 Limitations
1.2.6 Summary Of Report (Chapter Wise Summary)
2 RESEARCH
METHODOLOGY
2.1 Research Data
2.1.1 Secondary & Primary Research
2.1.2 Secondary Data
2.1.2.1 Secondary Sources
2.1.3 Primary Data
2.1.3.1 Primary Sources
2.2 Market Breakdown & Data
Triangulation
2.3 Market Size Estimation
2.3.1 Bottom-Up Approach
2.3.2 Top-Down Approach
2.4 Research Assumptions & Limitations
2.4.1 Assumptions
2.4.2 Limitations
3 EXECUTIVE
SUMMARY
4 ACROSS
THE GLOBE
4.1 Upcoming Attractive Market
Opportunities
4.2 Country Wise Market Growth
4.3 Segment Wise Market Growth
5 MARKET
OVERVIEW
5.1 Market Introduction
5.2 Market Dynamics
5.2.1 Drivers
5.2.2 Restraints
5.2.3 Opportunities
5.2.4 Challenges
5.3 PORTOR’S Five Forces Analysis
5.3.1 Threat of New Entrants
5.3.2 Threat of Substitutes
5.3.3 Bargaining Power of Suppliers
5.3.4 Bargaining Power of Buyers
5.3.5 Intensity of Competitive Rivalry
5.4 Market Premium insights (Enterprise
license)
5.4.1 Case Study Analysis
5.4.2 Country Wise Import & Export Data (If
Applicable)
5.4.3 Regulatory Bodies & Authorization
Across the Globe
5.4.4 Key Conferences & Events: 2022 &
2023
5.4.5 Top Patents for The Market: 2022
6 SHORTWAVE
INFRARED CAMERA MARKET OVERVIEW, BY TECHNOLOGY
6.1 Global Market Revenue & Share
Analysis, By Technology
6.1.1 Cooled
6.1.2 Uncooled
6.2 Global Market Revenue & Share
Analysis, 2018 – 2022
6.3 Global Market Revenue & Share
Forecast Analysis, 2023 – 2032
6.4 Key Takeaways
7 SHORTWAVE
INFRARED CAMERA MARKET OVERVIEW, BY MATERIAL
7.1 Global Market Revenue & Share
Analysis, By Material
7.1.1 Indium Gallium Arsenide
7.1.2 Indium Antimonide
7.1.3 Lead Sulfide
7.1.4 Mercury Cadmium Telluride
7.2 Global Market Revenue & Share
Analysis, 2018 – 2022
7.3 Global Market Revenue & Share
Forecast Analysis, 2023 – 2032
7.4 Key Takeaways
8 SHORTWAVE
INFRARED CAMERA MARKET OVERVIEW, BY END USE
8.1 Global Market Revenue & Share
Analysis, By End Use
8.1.1 Industrial Sorting
8.1.2 Solar Cell Inspection
8.1.3 Astronomy
8.1.4 Spectroscopy
8.1.5 Hyperspectral Imaging
8.1.6 Small Animal Imaging
8.1.7 Laser Beam Profiling
8.2 Global Market Revenue & Share
Analysis, 2018 – 2022
8.3 Global Market Revenue & Share
Forecast Analysis, 2023 – 2032
8.4 Key Takeaways
9 SHORTWAVE
INFRARED CAMERA MARKET OVERVIEW, BY AAPLICATION
9.1 Global Market Revenue & Share
Analysis, By Application
9.1.1 Inspection
9.1.2 Quality Control
9.1.3 Identification
9.1.4 Detection
9.1.5 Surveillance
9.2 Global Market Revenue & Share
Analysis, 2018 – 2022
9.3 Global Market Revenue & Share
Forecast Analysis, 2023 – 2032
9.4 Key Takeaways
10 SHORTWAVE
INFRARED CAMERA MARKET OVERVIEW, BY REGION
10.1 Global Market Revenue & Share
Analysis, By Region
10.1.1 North America
10.1.2 Europe
10.1.3 Asia Pacific
10.1.4 Middle East & Africa
10.1.5 South America
10.2 Global Market Revenue & Share
Analysis, 2018 – 2022
10.3 Global Market Revenue & Share
Forecast Analysis, 2023 – 2032
10.4 Key Takeaways
11 NORTH
AMERICA MARKET ANALYSIS
11.1 North America Market Revenue & Share
Analysis, By Technology
11.2 North America Market Revenue & Share
Analysis, By Material
11.3 North America Market Revenue & Share
Analysis, By End Use
11.4 North America Market Revenue & Share
Analysis, By Application
11.5 North America Market Revenue & Share
Analysis, By Country
11.5.1 US
11.5.2 Canada
11.5.3 Mexico
11.6 Key Takeaways
12 EUROPE
MARKET ANALYSIS
12.1 Europe Market Revenue & Share
Analysis, By Technology
12.2 Europe Market Revenue & Share
Analysis, By Material
12.3 Europe Market Revenue & Share
Analysis, By End Use
12.4 Europe Market Revenue & Share
Analysis, By Application
12.5 Europe Market Revenue & Share
Analysis, By Country
12.5.1 UK
12.5.2 Italy
12.5.3 Spain
12.5.4 Germany
12.5.5 France
12.5.6 Rest of Europe
12.6 Key Takeaways
13 ASIA
PACIFIC MARKET ANALYSIS
13.1 APAC Market Revenue & Share Analysis,
By Technology
13.2 APAC Market Revenue & Share Analysis,
By Material
13.3 APAC Market Revenue & Share Analysis,
By End Use
13.4 APAC Market Revenue & Share Analysis,
By Application
13.5 APAC Market Revenue & Share Analysis,
By Country
13.5.1 China
13.5.2 Japan
13.5.3 India
13.5.4 South Korea
13.5.5 Rest of APAC
13.6 Key Takeaways
14 MIDDLE
EAST & AFRICA MARKET ANALYSIS
14.1 MEA Market Revenue & Share Analysis,
By Technology
14.2 MEA Market Revenue & Share Analysis,
By Material
14.3 MEA Market Revenue & Share Analysis,
By End Use
14.4 MEA Market Revenue & Share Analysis,
By Application
14.5 MEA Market Revenue & Share Analysis,
By Country
14.5.1 GCC
14.5.2 South Africa
14.5.3 Rest of MEA
14.6 Key Takeaways
15 SOUTH
AMERICA MARKET ANALYSIS
15.1 SA Market Revenue & Share Analysis,
By Technology
15.2 SA Market Revenue & Share Analysis,
By Material
15.3 SA Market Revenue & Share Analysis,
By End Use
15.4 SA Market Revenue & Share Analysis,
By Application
15.5 SA Market Revenue & Share Analysis,
By Country
15.5.1 Brazil
15.5.2 Argentina
15.5.3 Rest of SA
15.6 Key Takeaways
16 COMPETITIVE
SCENARIO
16.1 Overview
16.2 Key Players Market Share Analysis
16.3 Recent Developments & Source Launches
16.4 Mergers & Acquisitions
16.5 Partnerships, Agreements &
Collaborations
17 COMPANY
PROFILES
17.1 Overview
17.2 Key players
17.2.1 Collins Aerospace (US)
17.2.1.1 Business Overview
17.2.1.2 Product Offered
17.2.1.3 Financial Insights
17.2.1.4 Strategic Developments
17.2.1.4.1 New Product Launches
17.2.1.4.2 Agreements & Collaborations
17.2.1.5 Business Aspects (NOISE Analysis)
17.2.1.5.1 Key Strengths
17.2.1.5.2 Opportunities
17.2.1.5.3 Weaknesses & Competitive Threats
17.2.1.5.4 Needs & Improvements
17.2.2 Teledyne FLIR (US)
17.2.3 Xenics (India)
17.2.4 New Imaging Technologies (France)
17.2.5 Allied Vision Technologies (US)
17.2.6 Raptor Photonics (UK)
17.2.7 Lynred (France)
17.2.8 Opgal Optronic (US)
17.2.9 Photon (US)
17.2.10 Hamamatsu Photonics (Japan)
18 DISCLAIMER
19 APPENDIX
