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1457112

非冷凍紅外線成像市場 – 2024 年至 2029 年預測

Uncooled Infrared Imaging Market - Forecasts from 2024 to 2029
出版日期: | 出版商: Knowledge Sourcing Intelligence | 英文 114 Pages | 商品交期: 最快1-2個工作天內

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簡介目錄

非冷凍紅外線成像市場預計將從2022年的39.02億美元增加到2029年的72.65億美元,複合年成長率為9.28%。

非冷凍熱像儀在室溫下運作的裝置中包含紅外線感測組件。這些相機利用材料電阻、電壓和電流中與溫度相關的變化來識別熱變化。該技術由攝影機核心、檢測器和像素組成,廣泛應用於佔用感測器系統,例如建築物照明啟動和入侵者偵測。

與冷卻型紅外線成像儀不同,非冷卻型紅外線成像儀具有顯著的成本效益優勢,可用於各種應用和用戶群。緊湊的尺寸、輕巧的設計和低功耗使其成為可攜式和電池供電應用的理想選擇。

微測輻射熱計技術的進步顯著提高了非製冷紅外線熱像儀的影像品質和靈敏度。現在可以在各種照明條件下(包括黑暗、霧和煙霧)提供高解析度熱影像。這種多功能性在周邊安全、夜視以及搜救行動等應用中非常有利,在這些應用中,惡劣天氣條件下的能見度非​​常重要。

在汽車領域,夜視應用、駕駛輔助系統、行人偵測和用於引擎診斷的熱成像對非製冷熱像儀的需求量很大。在工業領域,它透過檢測溫度變化來識別設備的潛在問題、實現預防性保養並減少停機時間來發揮重要作用。

此外,隨著智慧型手機和家庭安全系統熱成像儀的普及,非製冷紅外線成像在家用電子電器領域也越來越受歡迎。由於經濟實惠、易於使用、性能提高以及各行業應用領域的不斷擴大,非製冷紅外線成像市場有望實現顯著成長。

市場促進因素:

  • 醫療和工業領域的不斷擴大的應用正在推動市場發展。

醫療領域和工業測試對熱成像的需求不斷成長,推動了熱像儀需求的激增。在醫療領域,醫用熱成像技術在身體部位成像和準確測量皮膚溫度方面發揮著至關重要的作用。這項技術可以讓醫療專業人員快速識別內部感染、傷口和發炎,大大提高診斷能力。

同樣,在工業領域,熱像儀市場受益於塑膠射出成型、玻璃器皿製造、焊接和壓力容器監控等各種製造業對錶面測試日益成長的需求。這些相機可以檢測各種波長,從而更容易檢測化學成分和水分,從而提高產品品質和安全標準。

此外,電動車 (EV) 銷量快速成長,2022 年銷量將達到 730 萬輛,而 2021 年為 460 萬輛,這進一步推動了對熱像儀的需求。具體來說,非製冷紅外線攝影機被用來透過檢測溫度變化來找出工業設備中的潛在問題。此功能支援主動維護措施,減少停機時間並提高各個行業領域的業務效率。

  • 消費性電子產品的使用增加

非製冷紅外線成像與消費性電子產品的整合正在經歷顯著的成長。這種趨勢在熱感攝影機整合到智慧型手機和家庭安全系統中尤其明顯。

在監控和安全領域,大多數長波紅外線 (LWIR) 攝影機都是非冷卻的。這些相機採用微測輻射熱計,其靈敏度很高,可以有效阻擋周圍環境的過多熱雜訊。此功能使其適合環境條件變化很大的戶外使用。

非製冷紅外線熱像儀產生的影像在識別生物和無生命物體發出的熱訊號方面發揮著重要作用。此功能可讓您在白天和夜間追蹤人、動物和車輛的移動。

總體而言,非製冷紅外線成像在消費性電子產品中的普及普及變得越來越重要,特別是在提高熱感像儀在個人安全和監控等各種應用中的功能和有效性方面。

市場限制因素:

  • 技術故障

非製冷紅外線成像儀的影像解析度和靈敏度通常低於冷凍紅外線成像儀。這種差異是由於非冷卻偵測器的動作溫度較高,這會增加雜訊水平並降低其辨別微小溫度波動的能力。此外,非製冷熱像儀的檢測範圍本質上比製冷型紅外線熱像儀的檢測範圍短。在需要遠距觀察的場景中,例如在大量的安全性和監視應用中,這種限制可能會成為一種限制。

非冷凍紅外線成像市場依波長細分:短波長、中波長、長波長

非製冷紅外線成像市場按波長細分為短波長、中波長和長波長。短波長紅外線(SWIR)具有出色的材料對比度和穿透矽等某些材料的能力。中波長紅外線(MWIR)比短波紅外線(SWIR)具有更高的熱檢測能力,可以更輕鬆地透過檢測熱異常來識別潛在的設備故障。

長波紅外線 (LWIR) 由於能夠在環境溫度下捕捉詳細的熱成像,在非製冷紅外線市場佔據主導地位。長波紅外線可用於在照度或完全黑暗的情況下檢測人和物體,以及識別結構內的熱損失和隔熱問題。

北美預計將在非製冷紅外線成像市場佔據主要佔有率

預計北美將佔據非製冷紅外線成像市場的主要佔有率。該地區擁有成熟的工業,並擁有非製冷紅外線成像技術的主要製造商。著名的例子包括 FLIR Systems、Fluke Corporation、L3Harris Technologies 和 Leonardo DRS,所有這些公司在推動創新和推動市場顯著成長方面都發揮關鍵作用。

這些公司服務於各種應用,包括邊防安全、週邊安全、商業和政府部門的一般監視、夜間業務、目標捕獲以及搜索和救援任務。此外,它還應用於各個行業領域,例如預測性維護、製程監控和品管。此外,它在識別結構中的熱損失、絕緣問題和濕氣損壞方面也發揮著重要作用。

受惠於強勁且相對穩定的經濟環境,北美持續投資於基礎建設計劃、安全措施和技術進步。這些投資正在推動對非製冷紅外線成像解決方案的需求,事實證明該地區在推動市場成長方面發揮關鍵作用。

市場開拓:

  • 2023年4月-NEC公司成功開發出全球首款高靈敏度非製冷紅外線影像感測器,在紅外線探測部分採用高純度半導體奈米碳管(CNT)。這項突破性的成果是透過應用 NEC 專有的萃取技術而實現的。
  • 2022 年 9 月—全球高品質紅外線 (IR) 感測元件供應商 Lynred 與環形材料技術領先公司 Umicore 宣布共同開發下一代熱感感測技術。這項開發旨在顯著提高行人自動緊急煞車(PAEB)系統在困難照明條件下的性能,同時保持成本效益。

目錄

第1章 簡介

  • 市場概況
  • 市場定義
  • 調查範圍
  • 市場區隔
  • 貨幣
  • 先決條件
  • 基準年和預測年時間表
  • 相關人員的主要利益

第2章調查方法

  • 研究設計
  • 調查過程

第3章執行摘要

  • 主要發現
  • 分析師觀點

第4章市場動態

  • 市場促進因素
  • 市場限制因素
  • 波特五力分析
  • 產業價值鏈分析
  • 分析師觀點

第5章非冷凍紅外線成像市場:依相機核心分類

  • 介紹
  • 熱釋電
  • 熱電堆
  • 微測輻射熱計
  • 碲化汞鎘
  • 砷化銦鎵
  • 鐵電體
  • 其他

第6章非冷凍紅外線成像市場:依波長

  • 介紹
  • 短的
  • 期間~
  • 長的

第7章非冷凍紅外線成像市場:依產品類型

  • 介紹
  • 固定式
  • 可攜式的

第8章非製冷紅外線成像市場:依行業分類

  • 介紹
  • 安全與國防
  • 家用電器
  • 醫療保健
  • 其他

第9章非製冷紅外線成像市場:按地區

  • 介紹
  • 北美洲
  • 南美洲
  • 歐洲
  • 中東/非洲
  • 亞太地區

第10章競爭環境及分析

  • 主要企業及策略分析
  • 市場佔有率分析
  • 合併、收購、協議和合作
  • 競爭對手儀表板

第11章 公司簡介

  • Photonis(Xenics)
  • Teledyne Technologies(FLIR Systems, Inc.)
  • Cantronic Systems, Inc.
  • BAE Systems
  • Bosch(Fraunhofer IMS)
  • Teledyne DALSA
  • TOPTICA Photonics AG(DS Photonics)
  • Rochester Precision Optics
  • VIGO System
  • Irvine Sensors Corp.
  • Zhejiang ULIRVISION Technology Co., LTD.
簡介目錄
Product Code: KSI061610644

The uncooled Infrared Imaging market is projected to rise at a compound annual growth rate (CAGR) of 9.28% to reach a market valuation of US$7.265 billion by 2029, from US$3.902 billion in 2022.

Uncooled infrared imaging cameras house infrared-detecting components within a unit that operates at room temperature. These cameras leverage temperature-related changes in a material's resistance, voltage, or current to identify thermal variations. Comprising the camera's core, detectors, and pixels, this technology is widely used in motion and people-sensing systems, such as activating lights in buildings or detecting intruders.

Unlike their cooled counterparts, uncooled infrared imagers offer a notable advantage in cost-effectiveness, making them accessible across diverse applications and user bases. Their compact size, lightweight design, and lower power consumption render them ideal for portable and battery-powered applications.

Advancements in microbolometer technology have significantly enhanced the image quality and sensitivity of uncooled infrared cameras. They now deliver high-resolution thermal images under various lighting conditions, including darkness, fog, and smoke. This versatility positions them favorably for applications like perimeter security, night vision, and search and rescue operations, where visibility through adverse weather conditions is crucial.

In the automotive sector, there is a rising demand for uncooled infrared cameras in night vision applications, driver assistance systems, pedestrian detection, and thermal imaging for engine diagnostics. In industrial settings, these cameras play a vital role in identifying potential issues in equipment by detecting temperature variations, thereby enabling preventive maintenance and reducing downtime.

Furthermore, uncooled infrared imaging is gaining traction in consumer electronics, with thermal cameras for smartphones and home security systems becoming increasingly prevalent. With their affordability, ease of use, improved performance, and expanding application areas across various industries, the market for uncooled infrared imaging is poised for significant growth.

Market Drivers:

  • Increasing application in healthcare and industrial sectors propels the market.

The growing necessity for thermal imaging within both the healthcare sector and industrial inspections has spurred a notable surge in the demand for infrared cameras. In the healthcare realm, medical thermal cameras play a pivotal role in imaging body parts and accurately gauging skin temperature. This technology enables healthcare professionals to swiftly identify internal infections, wounds, and inflammations, significantly enhancing diagnostic capabilities.

Similarly, in the industrial sector, the market for infrared cameras benefits from a heightened need for surface inspection across various manufacturing industries, such as plastic injection molding, glassware production, welding, and pressure vessel monitoring. These cameras, with their ability to detect various wavelengths, facilitate the detection of chemical components and water content, thereby improving product quality and safety standards.

Moreover, the soaring sales of electric vehicles (EVs), reaching 7.3 million worldwide in 2022 compared to 4.6 million in 2021, have further bolstered the demand for infrared cameras. Specifically, uncooled infrared cameras are employed to pinpoint potential issues in industrial equipment by detecting temperature variations. This capability enables proactive maintenance measures, leading to reduced downtime and enhanced operational efficiency across various industrial sectors.

  • Increasing use of consumer electronics

The integration of uncooled infrared imaging into consumer electronics is experiencing a notable surge. This trend is particularly evident in the incorporation of thermal cameras into smartphones and home security systems.

In the realm of surveillance and security, the majority of long-wave infrared (LWIR) cameras deployed are uncooled. These cameras utilize microbolometers that exhibit high sensitivity, effectively filtering out excessive thermal noise from the surroundings. This feature renders them well-suited for outdoor usage, where environmental conditions can vary widely.

The imagery produced by these uncooled infrared cameras serves a crucial function in discerning heat signatures emitted by living organisms and inanimate objects. This capability enables the tracking of movements by people, animals, and vehicles, irrespective of whether it's day or night.

Overall, the increasing prevalence of uncooled infrared imaging in consumer electronics underscores its growing importance in enhancing the functionality and effectiveness of thermal cameras for a diverse range of applications, particularly in the domains of personal security and surveillance.

Market Restraint:

  • Technological impediments

Uncooled infrared imagers typically exhibit lower image resolution and sensitivity in contrast to their cooled counterparts. This discrepancy arises from the higher operating temperatures of uncooled detectors, which consequently introduce heightened noise levels and diminish their capacity to discern minor temperature fluctuations. Additionally, the detection range of uncooled infrared cameras is inherently shorter compared to cooled counterparts. Such limitations can prove restrictive in scenarios necessitating long-range observation, such as in expansive security and surveillance applications.

Uncooled infrared imaging market segmentation by wavelength into short, medium, and long

Segmentation of the uncooled infrared imaging market by wavelength categorizes it into short, medium, and long wavelengths. Short-wave infrared (SWIR) offers advantageous material contrast and the capability to penetrate certain materials like silicon. Medium-wave infrared (MWIR) provides enhanced thermal detection capabilities compared to SWIR, facilitating the identification of potential equipment failures through the detection of thermal anomalies.

Long-wave infrared (LWIR) dominates the uncooled infrared market due to its proficiency in capturing detailed thermal images under ambient temperatures. LWIR is instrumental in detecting people and objects in low-light or complete darkness, as well as identifying heat loss or insulation problems within structures.

North America is anticipated to hold a significant share of the uncooled Infrared Imaging market

In the uncooled Infrared Imaging market, North America is projected to hold a significant share. This region boasts a well-established industry featuring leading manufacturers of uncooled infrared imaging technology. Notable examples include FLIR Systems, Fluke Corporation, L3Harris Technologies, and Leonardo DRS, all of which are pivotal in driving innovation and fostering substantial market growth.

These companies cater to a diverse range of applications, spanning border security, perimeter protection, general surveillance in both commercial and government sectors, as well as night vision operations, target acquisition, and search and rescue missions. Moreover, their offerings extend to predictive maintenance, process monitoring, and quality control across various industries. Additionally, they play a crucial role in identifying heat loss, insulation problems, and moisture damage in structures.

Benefiting from a robust and relatively stable economic environment, North America continually invests in infrastructure projects, security measures, and technological advancements. These investments serve to bolster the demand for uncooled infrared imaging solutions, underscoring the region's pivotal role in driving market growth.

Market Developments:

  • April 2023- NEC Corporation succeeded in developing the world's first high-sensitivity uncooled infrared image sensor that utilized high-purity semiconducting carbon nanotubes (CNTs) in the infrared detection area. This milestone was achieved through the application of NEC's proprietary extraction technology. The company worked towards the practical application of this image sensor, with plans set for implementation in 2025.
  • September 2022- Lynred, a prominent global supplier of high-quality infrared (IR) detectors, and Umicore, a leading company in circular materials technology, announced the collaborative development of a next-generation thermal sensing technology. This advancement aimed to significantly enhance the performance of Pedestrian Autonomous Emergency Braking (PAEB) systems in challenging lighting conditions while remaining cost-effective.

Market Segmentation:

By Camera Core

  • Pyro Electric
  • Thermopile
  • Microbolometer
  • Mercury Cadmium Telluride
  • Indium Gallium Arsenide
  • Ferro Electric
  • Others

By Wavelength

  • Short
  • Medium
  • Long

By Product Type

  • Fixed
  • Portable

By Industry Vertical

  • Security and Defence
  • Consumer Electronics
  • Healthcare
  • Others

By Geography

  • North America
  • USA
  • Canada
  • Mexico
  • South America
  • Brazil
  • Argentina
  • Others
  • Europe
  • Germany
  • France
  • UK
  • Spain
  • Others
  • Middle East and Africa
  • Saudi Arabia
  • Israel
  • Others
  • Asia Pacific
  • China
  • Japan
  • India
  • South Korea
  • Indonesia
  • Taiwan
  • Thailand
  • Australia
  • Others

TABLE OF CONTENTS

1. INTRODUCTION

  • 1.1. Market Overview
  • 1.2. Market Definition
  • 1.3. Scope of the Study
  • 1.4. Market Segmentation
  • 1.5. Currency
  • 1.6. Assumptions
  • 1.7. Base and Forecast Years Timeline
  • 1.8. Key benefits to the stakeholder

2. RESEARCH METHODOLOGY

  • 2.1. Research Design
  • 2.2. Research Process

3. EXECUTIVE SUMMARY

  • 3.1. Key Findings
  • 3.2. Analyst View

4. MARKET DYNAMICS

  • 4.1. Market Drivers
  • 4.2. Market Restraints
  • 4.3. Porter's Five Forces Analysis
    • 4.3.1. Bargaining Power of Suppliers
    • 4.3.2. Bargaining Power of Buyers
    • 4.3.3. Threat of New Entrants
    • 4.3.4. Threat of Substitutes
    • 4.3.5. Competitive Rivalry in the Industry
  • 4.4. Industry Value Chain Analysis
  • 4.5. Analyst View

5. UNCOOLED INFRARED IMAGING MARKET BY CAMERA CORE

  • 5.1. Introduction
  • 5.2. Pyro Electric
    • 5.2.1. Market opportunities and trends
    • 5.2.2. Growth prospects
    • 5.2.3. Geographic lucrativeness
  • 5.3. Thermopile
    • 5.3.1. Market opportunities and trends
    • 5.3.2. Growth prospects
    • 5.3.3. Geographic lucrativeness
  • 5.4. Microbolometer
    • 5.4.1. Market opportunities and trends
    • 5.4.2. Growth prospects
    • 5.4.3. Geographic lucrativeness
  • 5.5. Mercury Cadmium Telluride
    • 5.5.1. Market opportunities and trends
    • 5.5.2. Growth prospects
    • 5.5.3. Geographic lucrativeness
  • 5.6. Indium Gallium Arsenide
    • 5.6.1. Market opportunities and trends
    • 5.6.2. Growth prospects
    • 5.6.3. Geographic lucrativeness
  • 5.7. Ferro Electric
    • 5.7.1. Market opportunities and trends
    • 5.7.2. Growth prospects
    • 5.7.3. Geographic lucrativeness
  • 5.8. Others
    • 5.8.1. Market opportunities and trends
    • 5.8.2. Growth prospects
    • 5.8.3. Geographic lucrativeness

6. UNCOOLED INFRARED IMAGING MARKET BY WAVELENGTH

  • 6.1. Introduction
  • 6.2. Short
    • 6.2.1. Market opportunities and trends
    • 6.2.2. Growth prospects
    • 6.2.3. Geographic lucrativeness
  • 6.3. Medium
    • 6.3.1. Market opportunities and trends
    • 6.3.2. Growth prospects
    • 6.3.3. Geographic lucrativeness
  • 6.4. Long
    • 6.4.1. Market opportunities and trends
    • 6.4.2. Growth prospects
    • 6.4.3. Geographic lucrativeness

7. UNCOOLED INFRARED IMAGING MARKET BY PRODUCT TYPE

  • 7.1. Introduction
  • 7.2. Fixed
    • 7.2.1. Market opportunities and trends
    • 7.2.2. Growth prospects
    • 7.2.3. Geographic lucrativeness
  • 7.3. Portable
    • 7.3.1. Market opportunities and trends
    • 7.3.2. Growth prospects
    • 7.3.3. Geographic lucrativeness

8. UNCOOLED INFRARED IMAGING MARKET BY INDUSTRY VERTICAL

  • 8.1. Introduction
  • 8.2. Security and Defence
    • 8.2.1. Market opportunities and trends
    • 8.2.2. Growth prospects
    • 8.2.3. Geographic lucrativeness
  • 8.3. Consumer Electronics
    • 8.3.1. Market opportunities and trends
    • 8.3.2. Growth prospects
    • 8.3.3. Geographic lucrativeness
  • 8.4. Healthcare
    • 8.4.1. Market opportunities and trends
    • 8.4.2. Growth prospects
    • 8.4.3. Geographic lucrativeness
  • 8.5. Others
    • 8.5.1. Market opportunities and trends
    • 8.5.2. Growth prospects
    • 8.5.3. Geographic lucrativeness

9. UNCOOLED INFRARED IMAGING MARKET BY GEOGRAPHY

  • 9.1. Introduction
  • 9.2. North America
    • 9.2.1. By Camera Core
    • 9.2.2. By Wavelength
    • 9.2.3. By Product Type
    • 9.2.4. By Industry Vertical
    • 9.2.5. By Country
      • 9.2.5.1. United States
        • 9.2.5.1.1. Market Trends and Opportunities
        • 9.2.5.1.2. Growth Prospects
      • 9.2.5.2. Canada
        • 9.2.5.2.1. Market Trends and Opportunities
        • 9.2.5.2.2. Growth Prospects
      • 9.2.5.3. Mexico
        • 9.2.5.3.1. Market Trends and Opportunities
        • 9.2.5.3.2. Growth Prospects
  • 9.3. South America
    • 9.3.1. By Camera Core
    • 9.3.2. By Wavelength
    • 9.3.3. By Product Type
    • 9.3.4. By Industry Vertical
    • 9.3.5. By Country
      • 9.3.5.1. Brazil
        • 9.3.5.1.1. Market Trends and Opportunities
        • 9.3.5.1.2. Growth Prospects
      • 9.3.5.2. Argentina
        • 9.3.5.2.1. Market Trends and Opportunities
        • 9.3.5.2.2. Growth Prospects
      • 9.3.5.3. Others
        • 9.3.5.3.1. Market Trends and Opportunities
        • 9.3.5.3.2. Growth Prospects
  • 9.4. Europe
    • 9.4.1. By Camera Core
    • 9.4.2. By Wavelength
    • 9.4.3. By Product Type
    • 9.4.4. By Industry Vertical
    • 9.4.5. By Country
      • 9.4.5.1. Germany
        • 9.4.5.1.1. Market Trends and Opportunities
        • 9.4.5.1.2. Growth Prospects
      • 9.4.5.2. France
        • 9.4.5.2.1. Market Trends and Opportunities
        • 9.4.5.2.2. Growth Prospects
      • 9.4.5.3. UK
        • 9.4.5.3.1. Market Trends and Opportunities
        • 9.4.5.3.2. Growth Prospects
      • 9.4.5.4. Spain
        • 9.4.5.4.1. Market Trends and Opportunities
        • 9.4.5.4.2. Growth Prospects
      • 9.4.5.5. Others
        • 9.4.5.5.1. Market Trends and Opportunities
        • 9.4.5.5.2. Growth Prospects
  • 9.5. Middle East and Africa
    • 9.5.1. By Camera Core
    • 9.5.2. By Wavelength
    • 9.5.3. By Product Type
    • 9.5.4. By Industry Vertical
    • 9.5.5. By Country
      • 9.5.5.1. Saudi Arabia
        • 9.5.5.1.1. Market Trends and Opportunities
        • 9.5.5.1.2. Growth Prospects
      • 9.5.5.2. Israel
        • 9.5.5.2.1. Market Trends and Opportunities
        • 9.5.5.2.2. Growth Prospects
      • 9.5.5.3. Others
        • 9.5.5.3.1. Market Trends and Opportunities
        • 9.5.5.3.2. Growth Prospects
  • 9.6. Asia Pacific
    • 9.6.1. By Camera Core
    • 9.6.2. By Wavelength
    • 9.6.3. By Product Type
    • 9.6.4. By Industry Vertical
    • 9.6.5. By Country
      • 9.6.5.1. China
        • 9.6.5.1.1. Market Trends and Opportunities
        • 9.6.5.1.2. Growth Prospects
      • 9.6.5.2. Japan
        • 9.6.5.2.1. Market Trends and Opportunities
        • 9.6.5.2.2. Growth Prospects
      • 9.6.5.3. India
        • 9.6.5.3.1. Market Trends and Opportunities
        • 9.6.5.3.2. Growth Prospects
      • 9.6.5.4. South Korea
        • 9.6.5.4.1. Market Trends and Opportunities
        • 9.6.5.4.2. Growth Prospects
      • 9.6.5.5. Indonesia
        • 9.6.5.5.1. Market Trends and Opportunities
        • 9.6.5.5.2. Growth Prospects
      • 9.6.5.6. Taiwan
        • 9.6.5.6.1. Market Trends and Opportunities
        • 9.6.5.6.2. Growth Prospects
      • 9.6.5.7. Thailand
        • 9.6.5.7.1. Market Trends and Opportunities
        • 9.6.5.7.2. Growth Prospects
      • 9.6.5.8. Australia
        • 9.6.5.8.1. Market Trends and Opportunities
        • 9.6.5.8.2. Growth Prospects
      • 9.6.5.9. Others
        • 9.6.5.9.1. Market Trends and Opportunities
        • 9.6.5.9.2. Growth Prospects

10. COMPETITIVE ENVIRONMENT AND ANALYSIS

  • 10.1. Major Players and Strategy Analysis
  • 10.2. Market Share Analysis
  • 10.3. Mergers, Acquisition, Agreements, and Collaborations
  • 10.4. Competitive Dashboard

11. COMPANY PROFILES

  • 11.1. Photonis (Xenics)
  • 11.2. Teledyne Technologies (FLIR Systems, Inc.)
  • 11.3. Cantronic Systems, Inc.
  • 11.4. BAE Systems
  • 11.5. Bosch (Fraunhofer IMS)
  • 11.6. Teledyne DALSA
  • 11.7. TOPTICA Photonics AG (DS Photonics)
  • 11.8. Rochester Precision Optics
  • 11.9. VIGO System
  • 11.10. Irvine Sensors Corp.
  • 11.11. Zhejiang ULIRVISION Technology Co., LTD.