Global High-Speed Camera Market
商品番号 : SMB-69588
| 出版社 | Astute Analytica |
| 出版年月 | 2024年10月 |
| ページ数 | 316 |
| 価格タイプ | シングルユーザライセンス |
| 価格 | USD 4,250 |
| 種別 | 英文調査報告書 |
Report Overview
Global High-Speed Camera Market: Driven by Increasing need for high-speed image processing, Forecast to Reach US$ 6.40 Billion by 2031 with a robust CAGR of 6.71% over the forecast period 2024–2031.
世界の高速カメラ市場:高速画像処理のニーズの高まりにより、2024年から2031年の予測期間にわたって6.71%という堅調なCAGRで、2031年までに64億米ドルに達すると予測されています。
Introduction
The Global High-Speed Camera Market is experiencing robust expansion, valued at US$ 3.91 billion in 2023 and projected to grow at a CAGR of 6.71% from 2024 to 2031. The global high-speed camera market is experiencing substantial growth due to rising demand across industries like automotive, aerospace, and healthcare. These cameras, capable of capturing rapid events at high frame rates, are vital for analyzing fast-moving objects in research, testing, and quality control. Technological advancements, such as improved resolution, faster processing, and greater sensitivity, have made high-speed cameras more versatile and accessible. Industries use them for product development, safety testing, and scientific research. Additionally, their increasing adoption in entertainment, sports, and media for slow-motion effects is further driving market expansion.
Drivers of Growth
High-speed cameras are increasingly integrated with automation systems to boost efficiency and productivity in manufacturing and industrial settings. These cameras capture images at exceptionally high speeds, providing real-time feedback that allows automation systems to make rapid, precise adjustments to production processes. This capability helps minimize downtime, reduce waste, and improve overall product quality. As industries adopt more automation technologies, the demand for high-speed cameras is expected to grow. These cameras also enhance workplace safety by monitoring hazardous or hard-to-reach areas on production lines, allowing workers to respond to potential risks quickly, thus reducing the chance of accidents. In quality control, high-speed cameras capture detailed images of products in production, identifying defects or abnormalities to help manufacturers maintain high-quality standards while minimizing waste and costs. The increasing need for high-speed image processing in sectors like automotive, aerospace, and manufacturing is further driving demand. In automotive production, high-speed cameras inspect components for defects, while in aerospace, they are crucial for testing aircraft components to ensure they meet safety standards. Overall, high-speed cameras play a vital role in modern manufacturing, helping industries improve efficiency, reduce costs, and ensure consistent product quality.
Segment Overview
The RGB segment is projected to exceed USD 3 billion by 2031, with the highest CAGR anticipated from 2024 to 2031. This growth is fueled by advancements in accuracy and low-light performance, which are increasingly essential for applications in autonomous robots and automated guided vehicles worldwide. The integration of high-performance imaging technology enhances navigation and operational efficiency in these vehicles. As demand for more precise imaging solutions rises, manufacturers are investing heavily in developing innovative RGB technologies, making them critical for various industrial applications. This momentum is further supported by the broader trend towards automation and smart technology adoption, which is reshaping industries globally.
The infrared segment is set for significant growth, particularly due to its essential role in long-range imaging applications. Infrared cameras, often housed in cryogenically cooled, vacuum-sealed cases, provide high-sensitivity imaging critical for tasks that require precision in challenging conditions. In semiconductor applications, cooling is crucial to prevent cameras from being blinded by their own radiation. As the demand for advanced driver assistance systems (ADAS) and autonomous vehicles rises, the infrared segment is positioned to benefit from increased investments in these technologies. This growth reflects a broader trend in enhancing vehicle safety and functionality through advanced imaging solutions.
The lens segment is primarily driven by the increasing demand for operational flow analysis and inspection processes. In 2023, this segment held over 30% market share and is expected to experience the fastest CAGR through 2031. The rise in high-speed camera usage for tracking worker productivity and enhancing inspection processes is notable. Additionally, the demand for high-resolution lenses is growing, fueled by their applications in major events like sports and films. The popularity of photogrammetry software across various industries further supports this trend. High customer satisfaction with high-speed camera offerings is also contributing to the lens market’s expansion, indicating a robust future.
High-speed cameras are advanced digital imaging devices capable of capturing rapid events with exceptional resolution. They allow for the examination of very small objects that may be invisible to the naked eye. With a wide range of frame rates, high-speed cameras can significantly enhance image penetration compared to standard digital cameras. Industries such as entertainment, military, aerospace, automotive, and healthcare utilize these cameras for various applications, from scientific research to safety testing. In 2023, the 10,001-30,000 FPS frame rate dominated the market, while the 1,001-10,000 FPS segment is projected to exhibit the highest CAGR, driven by widespread usage and demand for rapid imaging solutions.
In 2023, high-speed cameras with throughput levels greater than 2,000 to 5,000 MPPS dominated the market, capturing the largest market share. This throughput range is favored for meeting a variety of high-speed imaging needs, including combustion imaging and fluid dynamics. The segment is anticipated to register the fastest CAGR during the forecast period of 2024-2031. High-speed cameras are valued for their ability to provide real-time recording and stability, essential for accurate data capture in demanding applications. As industries increasingly rely on high-speed imaging for research and testing, the growth of this segment is expected to continue, driven by advancements in technology and expanding applications.
The market for high-speed cameras with 2-5 MP resolution is projected to grow significantly during 2024-2031, primarily due to rising demand for lightweight and compact designs. These cameras are increasingly used across end-user industries like media, automotive, and transportation. Higher resolutions are crucial for analyzing intricate details in high-speed events, but increasing resolution typically reduces maximum frame rates. However, advancements in image sensor technology and processing capabilities are enabling higher resolutions to maintain competitive frame rates. This segment’s growth reflects the broader trend towards high-definition imaging in various applications, enhancing both performance and detail in high-speed capture scenarios.
In 2023, the USB interface segment held a major share of the high-speed camera market, valued for its flexibility despite limitations in frame transfer rates compared to CameraLink. High-speed USB connections allow for moderate frame transfer rates, catering to specific needs. However, the GigE interface segment is expected to exhibit the fastest CAGR during the forecast period, driven by the demand for cost-effective solutions. GigE Vision cameras leverage high-resolution CMOS sensors to offer fast frame rates at lower costs, while their ease of integration with PCs minimizes the need for additional hardware like frame grabbers. This efficiency is making GigE cameras increasingly popular for high-speed applications.
The industrial and robotics segment was the market leader in 2023 and is projected to experience the fastest CAGR from 2024 to 2031. High-speed cameras are vital for testing, calibrating, and debugging robotic mechanisms, functioning similarly to an oscilloscope for mechanical engineers. Their ability to capture fast-moving details that traditional cameras miss—recording over 1,000 frames per second—makes them essential in various applications, including robotics, auto-crash testing, and web inspection. In scientific applications, high-speed cameras enable detailed imaging, even at high zoom levels. Their versatility and effectiveness in capturing critical data contribute significantly to advancements in both industrial and research environments.
Regional Insights
The Asia-Pacific region is poised for strong growth, driven by rapid industrialization and the emergence of manufacturing hubs in China and India. Global investments in the region’s manufacturing sector are increasing demand for efficient production line monitoring. High-speed cameras are being adopted for machinery diagnostics, repairs, analysis, and preventive maintenance in sectors like healthcare, automotive, food and beverage, and consumer electronics. Additionally, the rise of robotics and computer vision in industrial and automotive sectors in India, China, and Japan is further boosting regional growth. Meanwhile, North America led the global market in 2023 with a 30% share, supported by high industry standards and key players investing in high-speed cameras with advanced frame rates, resolution, and processing capabilities, sustaining market growth.
Competitive Landscape
The Global High-Speed Camera market is highly competitive, led by major players such as Teledyne DALSA, Hikvision, HIKMICRO Sensing Technology Co., Ltd, Dahua Technology, and Keyence Corporation, collectively holding over 45% market share. These companies drive competition through extensive research, development, and strategic collaborations, aiming to strengthen their market position and diversify offerings. Key competitive factors include pricing, product quality, and technological innovation. As the industry grows, competition among these players is expected to intensify, spurred by the need for innovation and adapting to customer preferences and regulations. This dynamic environment is likely to result in new innovations and growth strategies, driving further industry expansion.
Conclusion
The Global High-Speed Camera Market is poised for robust growth, projected to reach USD 6.40 billion by 2031, with a CAGR of 6.71% from 2024 to 2031. This expansion is driven by increasing demand across industries such as automotive, aerospace, healthcare, and entertainment, highlighting the critical role of high-speed imaging in enhancing product development, safety testing, and quality control. Technological advancements in resolution, frame rates, and integration with automation systems further establish high-speed cameras as essential tools for modern manufacturing and research. The Asia-Pacific region is emerging as a significant market, fueled by rapid industrialization and the adoption of advanced imaging solutions, while established markets in North America continue to thrive due to high standards and ongoing investments from key players. As competition intensifies, a focus on innovation, product quality, and customer adaptability will drive further advancements in the field. The growing integration of high-speed cameras across diverse applications ensures their relevance in a rapidly evolving technological landscape, solidifying their importance in improving efficiency, reducing costs, and maintaining high-quality standards across various sectors.
Segmentation Overview
The various segments of the Global High-Speed Camera market are:
By Spectrum, the Global High-Speed Camera market is segmented into:
- Visible RGB
- Infrared
- X-ray
By Component, the Global High-Speed Camera market is segmented into:
- Image Sensors
- Processors
- Lens
- Battery
- Memory Systems
By Frame Rate, the Global High-Speed Camera market is segmented into:
- 250 – 1, 000 FPS
- 1, 001-10, 000 FPS
- 10, 001-30, 000 FPS
- 30, 001-50, 000 FPS
- Above 50, 000 FPS
By Throughput, the Global High-Speed Camera market is segmented into:
- 0-2,000 MPPS
- >2,000 – 5,000 MPPS
- >5,000 – 10,000 MPPS
- >10,000 MPPS
By Resolution, the Global High-Speed Camera market is segmented into:
- VGA – 2 MP
- 2-5 MP
- >5 MP
By Interface, the Global High-Speed Camera market is segmented into:
- CameraLink
- GigE
- USB
- Coax Press
- Others
By Application, the Global High-Speed Camera market is segmented into:
- Automotive & Transportation
Crash Test Imaging
- Entertainment & Media
- Consumer Electronics
- Research & Design
Digital Image Correlation (DIC)
Image Cytometry
Microfluidics
Particle Image Velocimetry
- Industrial & Robotics
Surface and Bump Inspection
Solar Panel Inspection
Flying Splice Packaging
Machine Troubleshooting
Line Spray Analysis
3D solder paste inspection
- Aerospace & Defense
Motion Tracking & Analysis
Ballistics and Wind Tunnel Examinations
- Food & Beverages Industry
Vegetable Sorting
Baked Products Inspection
Bottle Inspection
- Healthcare Industry
Spectroscopy
Live cell functions
Supersonic development
- Others
By Region, the Global High-Speed Camera market is segmented into:
- North America
- Europe
- Asia Pacific
- Middle East & Africa
- South America
Table of Contents
Chapter 1. Research Framework
1.1 Research Objective
1.2 Product Overview
1.3 Market Segmentation
Chapter 2. Research Methodology
2.1 Qualitative Research
2.1.1 Primary & Secondary Sources
2.2 Quantitative Research
2.2.1 Primary & Secondary Sources
2.3 Breakdown of Primary Research Respondents, By Region
2.4 Assumption for the Study
2.5 Market Size Estimation
2.6. Data Triangulation
Chapter 3. Executive Summary: Global High Speed Camera Market
Chapter 4. Global High Speed Camera Market Overview
4.1. Industry Value Chain Analysis
4.1.1. Material Provider
4.1.2. Manufacturer
4.1.3. Distribution
4.1.4. End User
4.2. Industry Outlook
4.2.1. Commercially available high-speed cameras for automation and measurement
4.3. PESTLE Analysis
4.4. Porter’s Five Forces Analysis
4.4.1. Bargaining Power of Suppliers
4.4.2. Bargaining Power of Buyers
4.4.3. Threat of Substitutes
4.4.4. Threat of New Entrants
4.4.5. Degree of Competition
4.5. Market Dynamics and Trends
4.5.1. Growth Drivers
4.5.2. Restraints
4.5.3. Opportunity
4.5.4. Key Trends
4.6. Covid-19 Impact Assessment on Market Growth Trend
4.7. Market Growth and Outlook
4.7.1. Market Revenue Estimates and Forecast (US$ Mn), 2018 – 2031
4.7.2. Market Volume Estimates and Forecast (000′ Units), 2018 – 2031
4.7.3. Price Trend Analysis
4.8. Competition Dashboard
4.8.1. Market Concentration Rate
4.8.2. Company Market Share Analysis (Value %), 2022
4.8.2.1. By Application
4.8.2.2. By Resolution
4.8.2.3. By Interface
4.8.3. Competitor Mapping
Chapter 5. Global High-Speed Camera Market Analysis, By Spectrum
5.1. Key Insights
5.2. Market Size and Forecast, 2018 – 2031 (US$ Mn & 000′ Units)
5.2.1. Visible RGB
5.2.2. Infrared
5.2.3. X-ray
Chapter 6. Global High-Speed Camera Market Analysis, By Component
6.1. Key Insights
6.2. Market Size and Forecast, 2018 – 2031 (US$ Mn & 000′ Units)
6.2.1. Image Sensors
6.2.2. Processors
6.2.3. Lens
6.2.4. Battery
6.2.5. Memory Systems
Chapter 7. Global High-Speed Camera Market Analysis, By Frame Rate
7.1. Key Insights
7.2. Market Size and Forecast, 2018 – 2031 (US$ Mn & 000′ Units)
7.2.1. 250 – 1, 000 FPS
7.2.2. 1, 001-10, 000 FPS
7.2.3. 10, 001-30, 000 FPS
7.2.4. 30, 001-50, 000 FPS
7.2.5. Above 50, 000 FPS
Chapter 8. Global High-Speed Camera Market Analysis, By Throughput
8.1. Key Insights
8.2. Market Size and Forecast, 2018 – 2031 (US$ Mn & 000′ Units)
8.2.1. 0-2,000 MPPS
8.2.2. >2,000 – 5,000 MPPS
8.2.3. >5,000 – 10,000 MPPS
8.2.4. >10,000 MPPS
Chapter 9. Global High-Speed Camera Market Analysis, By Resolution
9.1. Key Insights
9.2. Market Size and Forecast, 2018 – 2031 (US$ Mn & 000′ Units)
9.2.1. VGA – 2 MP
9.2.2. 2-5 MP
9.2.3. > 5 MP
Chapter 10. Global High-Speed Camera Market Analysis, By Interface
10.1. Key Insights
10.2. Market Size and Forecast, 2018 – 2031 (US$ Mn & 000′ Units)
10.2.1. CameraLink
10.2.2. GigE
10.2.3. USB
10.2.4. Coax Press
10.2.5. Others
Chapter 11. Global High-Speed Camera Market Analysis, By Industry/Application
11.1. Key Insights
11.2. Market Size and Forecast, 2018 – 2031 (US$ Mn & 000′ Units)
11.2.1. Automotive & Transportation
11.2.1.1. Crash Test Imaging
11.2.2. Entertainment & Media
11.2.3. Consumer Electronics
11.2.4. Research & Design
11.2.4.1. Digital Image Correlation (DIC)
11.2.4.2. Image Cytometry
11.2.4.3. Microfluidics
11.2.4.4. Particle Image Velocimetry
11.2.5. Industrial & Robotics
11.2.5.1. Surface and Bump Inspection
11.2.5.2. Solar Panel Inspection
11.2.5.3. Flying Splice Packaging
11.2.5.4. Machine Troubleshooting
11.2.5.5. Line Spray Analysis
11.2.5.6. 3D solder paste inspection
11.2.6. Aerospace & Defense
11.2.6.1. Motion Tracking & Analysis
11.2.6.2. Ballistics and Wind Tunnel Examinations
11.2.7. Food & Beverages Industry
11.2.7.1. Vegetable Sorting
11.2.7.2. Baked Products Inspection
11.2.7.3. Bottle Inspection
11.2.8. Healthcare Industry
11.2.8.1. Spectroscopy
11.2.8.2. Live cell functions
11.2.8.3. Supersonic development
11.2.9. Others
Chapter 12. Global High-Speed Camera Market Analysis, By Region
12.1. Key Insights
12.2. Market Size and Forecast, 2018 – 2031 (US$ Mn & 000′ Units)
12.2.1. North America
12.2.1.1. The U.S.
12.2.1.2. Canada
12.2.1.3. Mexico
12.2.2. Europe
12.2.2.1. Western Europe
12.2.2.1.1. The UK
12.2.2.1.2. Germany
12.2.2.1.3. France
12.2.2.1.4. Italy
12.2.2.1.5. Spain
12.2.2.1.6. Rest of Western Europe
12.2.2.2. Eastern Europe
12.2.2.2.1. Poland
12.2.2.2.2. Russia
12.2.2.2.3. Rest of Eastern Europe
12.2.3. Asia Pacific
12.2.3.1. China
12.2.3.2. India
12.2.3.3. Japan
12.2.3.4. South Korea
12.2.3.5. Australia & New Zealand
12.2.3.6. ASEAN
12.2.3.7. Rest of Asia Pacific
12.2.4. Rest of the World
12.2.4.1. Middle East & Africa
12.2.4.1.1. UAE
12.2.4.1.2. Saudi Arabia
12.2.4.1.3. South Africa
12.2.4.1.4. Rest of MEA
12.2.4.2. South America
12.2.4.2.1. Argentina
12.2.4.2.2. Brazil
12.2.4.2.3. Rest of South America
Chapter 14. Europe High-Speed Camera Market Analysis
14.1. Key Insights
14.2. Market Size and Forecast, 2018 – 2031 (US$ Mn & 000′ Units)
14.2.1. By Spectrum
14.2.2. By Component
14.2.3. By Frame Rate
14.2.4. By Throughput
14.2.5. By Resolution
14.2.6. By Interface
14.2.7. By Application
14.2.8. By Country
Chapter 15. Asia Pacific High-Speed Camera Market Analysis
15.1. Key Insights
15.2. Market Size and Forecast, 2018 – 2031 (US$ Mn & 000′ Units)
15.2.1. By Spectrum
15.2.2. By Component
15.2.3. By Frame Rate
15.2.4. By Throughput
15.2.5. By Resolution
15.2.6. By Interface
15.2.7. By Application
15.2.8. By Country
Chapter 16. Rest of the World High-Speed Camera Market Analysis
16.1. Key Insights
16.2. Market Size and Forecast, 2018 – 2031 (US$ Mn & 000′ Units)
16.2.1. By Spectrum
16.2.2. By Component
16.2.3. By Frame Rate
16.2.4. By Throughput
16.2.5. By Resolution
16.2.6. By Interface
16.2.7. By Application
16.2.8. By Country
Chapter 17. Company Profile (Company Overview, Financial Matrix, Key Product landscape, Key Personnel, Key Competitors, Contact Address, and Business Strategy Outlook, Production Capacity, Supplying Application and Product Specification)
17.1. SVS-Vistek
17.2. Basler AG
17.3. Teledyne FLIR LLC
17.4. ACT Cameras
17.5. FRAMOS GmbH
17.6. Hikvision
17.7. HIKMICRO Sensing Technology Co., Ltd
17.8. Dahua Technology
17.9. Omron Sentech
17.10. Toshiba Terry
17.11. JAI
17.12. CIS
17.13. COGNEX
17.14. Keyence Corporation
17.15. Photron
17.16. AOS Technologies AG
17.17. Shimadzu Corporation
17.18. Other Prominent Players
Astute Analytica(アステュートアナリティカ)は幅広いネットワークをベースに多様な市場調査レポートを出版するインドの市場調査会社です。
ライセンス別価格表
調査会社の事情により予告なしに変更されることがございます。最新の状況およびその他のパターンについてはお問い合わせください。
ライセンスタイプ1
| シングルユーザ | マルチユーザ | エンタープライズサイト |
| USD 1,800 | USD 2,500 | USD 3,200 |
ライセンスタイプ2
| シングルユーザ | マルチユーザ | エンタープライズサイト |
| USD 2,750 | USD 3,750 | USD 4,900 |
ライセンスタイプ3
| シングルユーザ | マルチユーザ | エンタープライズサイト |
| USD 4,250 | USD 5,250 | USD 6,400 |
サンプルページのご依頼、見積り、レポートに関するご質問など購入前のご相談はいつでもお気軽にChosaReport.comまでご連絡ください。
ご購入に関するご案内
価格・納期について
- 価格
- ウェブサイトに記載の外貨(定価)を見積日のTTSレートで換算後消費税を加えた金額が弊社からの請求金額になります。見積金額はレート変動に関係なく見積書発行日より2週間有効です。手数料(ハンドリングチャージ)無料。
- ライセンス
- シングルユーザライセンス
- 1名のみ閲覧可。印刷不可・ファイルの内のコピー&ペースト不可のPDFでの提供となります。
- マルチユーザライセンス
- 同一企業内5名までご共有可。印刷およびファイルの内のコピー&ペースト可能なPDFをご提供いたします。
- コーポレートライセンス
- 同一企業内人数無制限でご共有可。印刷およびファイルの内のコピー&ペースト可能なPDFをご提供いたします。
- 一部タイトルはExcelも提供されます。詳細はお問い合わせください。
- 納品形態
- Eメール添付でご納品いたします。
- シングルユーザライセンス
- 納期
- ご注文後2営業日以内
ご注文方法
- レポートページ内のお問い合わせフォームより見積もりをご請求ください。確認次第見積書と発注書をお送りいたします。既に弊社の見積書をお持ちの場合にはEメールまたはFAXでご注文ください。
その他
- 商品の性質上、ご注文後のキャンセル/返品/交換はできません。ご了承ください。
