시장보고서
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1429205

농업용 이미지 센서 시장 : 세계 및 지역 시장 - 용도별, 제품별, 지역별 분석 및 예측(2023-2033년)

Agriculture Imaging Sensor Market - A Global and Regional Analysis: Focus on Application, Product, and Region - Analysis and Forecast, 2023-2033

발행일: | 리서치사: BIS Research | 페이지 정보: 영문 | 배송안내 : 1-5일 (영업일 기준)

    
    
    


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세계 농업용 이미지 센서 시장 규모는 2023년 13억 4,990만 달러에서 예측 기간 동안 15.10%의 연평균 복합 성장률(CAGR)로 성장하여 2033년에는 55억 970만 달러에 달할 것으로 예상됩니다.

세계 농업용 이미지 센서 시장은 북미가 기술 도입 및 개발에서 주도권을 잡고 있으며, 2023년 2월 미국 농무부(USDA)가 발표한 주요 보고서에 따르면 1996년부터 2019년까지 미국 농업 부문에서 디지털 농업 기술의 도입이 눈에 띄게 증가했다고 밝혔습니다.에 대해 밝혔습니다. 이 보고서는 옥수수와 콩 재배 면적에서 수확량 지도, 토양 지도, 가변 비율 기술(VRT)이 크게 통합되어 수년간의 기술 발전을 위해 노력해 왔음을 강조하고 있습니다. 디지털 매핑 활동에 이미지 센서가 광범위하게 사용되고 있는 것은 예측 기간 동안 미국에서 이러한 센서에 대한 수요가 증가할 것임을 시사합니다.

주요 시장 통계
예측 기간 2023-2033년
2023년 평가 13억 4,990만 달러
2033년 전망 55억 970만 달러
CAGR 15.1%

세계 농업용 이미지 센서 시장은 멀티 스펙트럼 센서가 압도적인 제품 부문으로 부상하면서 큰 전환점을 맞이하고 있습니다. 다중 스펙트럼 센서는 다양한 파장의 데이터를 수집할 수 있어 농부들에게 작물의 건강 상태, 영양 수준, 해충 발생에 대한 중요한 통찰력을 제공합니다. 이 첨단 기술을 통해 정확한 의사결정을 내릴 수 있고, 수확량과 자원 효율성을 높이기 위해 농업 관행을 최적화할 수 있습니다.

세계 농업용 이미지 센서 시장을 조사했으며, 시장 개요, 시장 성장에 영향을 미치는 각종 영향요인 분석, 기술 및 특허 동향, 규제 환경, 시장 규모 추이 및 예측, 주요 국가별 상세 분석, 주요 기업 분석 등의 정보를 정리하여 전해드립니다.

목차

주요 요약

제1장 시장

  • 동향 : 현재 및 향후 영향 평가
    • AI 진보
    • 드론이나 자동 기계와의 통합
    • 비용 효율 높은 영상 센서 증가 경향
  • 공급망 개요
    • 밸류체인 분석
    • 시장 맵
  • R&D 리뷰
    • 특허 출원 동향(국가/기업별)
  • 규제 상황
  • 시장 역학 개요
    • 시장 성장 촉진요인
    • 시장 성장 억제요인
    • 시장 기회

제2장 용도

  • 용도 분류
  • 용도 개요
  • 농업용 영상 센서 시장 : 최종사용자별
    • 농업용 로봇 제조업체
    • 농업용 드론 제조업체
    • 가축 모니터링 기기 제조업체
    • 기타

제3장 제품

  • 제품 분류
  • 제품 개요
  • 농업용 영상 센서 시장 : 제품별
    • RGB 센서
    • 하이퍼 스펙트럼 센서
    • 멀티 스펙트럼 센서
    • 기타

제4장 지역

  • 지역 개요
  • 성장 촉진요인 및 억제요인
  • 북미
  • 유럽
  • 아시아태평양
  • 라틴아메리카
  • 중동 및 아프리카
    • 지역 개요
    • 시장 성장 촉진요인
    • 시장이 해결해야 할 과제
    • 용도
    • 제품
    • 국가별 분석

제5장 시장 : 경쟁 벤치마킹과 기업 개요

  • 다음 프론티어
  • 지역 평가
    • Sony Semiconductor Solutions Corporation
    • Teledyne Technologies Incorporated
    • Ageagle Aerial Systems, Inc.
    • Fototerra
    • Cubert GmbH
    • OMNIVISION Technologies, Inc.
    • Hamamatsu Photonics K.K.
    • BaySpec
    • Specim
    • Surface Optics Corporation
    • Headwall Photonics
    • Corning Incorporated
    • Sentera
    • SLANTRANGE Inc.(HIPHEN)
    • Parrot Drone SAS

제6장 조사 방법

LSH 24.02.29

The Global Agriculture Imaging Sensor Market Expected to Reach $5,509.7 Million by 2033

Introduction to the Agriculture Imaging Sensor Market

The global agriculture imaging sensor market has experienced remarkable growth, with North America taking the lead in adopting and advancing this technology. A pivotal report from the United States Department of Agriculture (USDA) in February 2023 shed light on the notable adoption of digital agriculture technologies within the U.S. farm sector from 1996 to 2019. The report emphasized the substantial integration of yield maps, soil maps, and variable rate technologies (VRT) on corn and soybean acreage, indicating a long-standing commitment to technological advancements. The prevalent use of imaging sensors for digital mapping activities suggests a rising demand for these sensors in the U.S. throughout the forecast period.

KEY MARKET STATISTICS
Forecast Period2023 - 2033
2023 Evaluation$1,349.9 Million
2033 Forecast$5,509.7 Million
CAGR15.1%

The global agriculture imaging sensor market is witnessing a transformative shift, with multispectral sensors emerging as a dominating product segment. Multispectral sensors offer the capability to capture data across various wavelengths, providing farmers with crucial insights into crop health, nutrient levels, and pest infestations. This advanced technology enables precise decision-making, optimizing agricultural practices for increased yields and resource efficiency.

The global agriculture imaging sensor market was valued at $1,349.9 million in 2023 and is expected to reach $5,509.7 million by 2033, following a CAGR of 15.10% during 2023-2033.

Factors Influencing Market Expansion:

  • Increasing adoption of precision agriculture practices
  • Growing demand for drone-based agriculture solutions incorporating imaging sensors for real-time monitoring.

Industrial Impact

The agriculture imaging sensor market is marked by a competitive landscape, with key players such as Teledyne Technologies Incorporated, Fototerra, Sony Semiconductor Solutions Corporation, Omnivision Technologies, Inc., Hamamatsu Photonics K.K, and Parrot Drone SAS leading the industry. In 2022, these companies collectively held approximately 34% of the market share. The market exhibits both competitive and fragmented characteristics, as several players contribute to the diverse ecosystem of agricultural imaging solutions. Teledyne Technologies, with its advanced imaging technologies, and Micasense, specializing in multispectral sensors, are prominent players, along with Sony Semiconductor Corporation, Omnivision, Hamamatsu Photonics K.K, and Parrot Drone SAS, collectively shaping the evolving landscape of agricultural imaging sensor technologies. Teledyne Technologies, known for its advanced imaging technologies, has been at the forefront with innovations such as its state-of-the-art multispectral sensors catering to the precision agriculture sector.

Market Segmentation:

Segmentation 1: by End User

  • Agriculture Robot Manufacturer
  • Agriculture Drone Manufacturer
  • Livestock Monitoring Equipment Manufacturer
  • Others

Agriculture Drone Manufacturer to Dominate the Agriculture Imaging Sensor Market (by End User)

The agriculture drone manufacturing segment is poised to become a dominant force in the global agriculture imaging sensor market, indicating a pivotal shift toward precision agriculture. Companies operating in this space increasingly focus on developing and integrating advanced imaging sensors into their drone technologies to enhance crop monitoring and management capabilities. As an example, DJI unveiled the Mavic 3 Multispectral drone in November 2022, which is specifically crafted for precision agriculture and environmental monitoring. This drone is outfitted with an advanced multispectral imaging system, swiftly capturing crucial crop growth data to enhance overall crop production effectiveness.

As agriculture drone adoption continues to rise globally, propelled by the demand for efficient and data-driven farming practices, the role of imaging sensors in this sector is expected to grow significantly.

Segmentation 2: by Product

  • RGB Sensor
  • Hyperspectral Sensor
  • Multispectral Sensor
  • Others

Multispectral Sensor to Dominate the Agriculture Imaging Sensor Market (by Product)

The global agriculture imaging sensor market is witnessing a transformative shift, with multispectral sensors emerging as a dominating product segment. Multispectral sensors offer the capability to capture data across various wavelengths, providing farmers with crucial insights into crop health, nutrient levels, and pest infestations. This advanced technology enables precise decision-making, optimizing agricultural practices for increased yields and resource efficiency.

Key industry players recognize the potential of multispectral sensors and actively contribute to their dominance in the market. MicaSense is a leading player in multispectral sensor development, with its RedEdge-MX camera designed for unmanned aerial systems showcasing its capabilities in accurate multiband data collection for agricultural remote sensing. The integration of such technology is presented as a game-changer for farmers, enabling informed decision-making and maximizing yield potential while reducing labor costs.

Segmentation 3: by Region

  • North America - U.S., Canada
  • Europe - Germany, France, U.K., Belgium, Spain, Italy, Ukraine, and Rest-of-Europe
  • Asia-Pacific - Japan, China, Australia, and Rest-of-Asia-Pacific
  • Latin America - Brazil, Mexico
  • Middle East and Africa - South Africa, Turkey, and Rest-of-Middle East and Africa

The North America agriculture imaging sensor market has been experiencing substantial growth and presents numerous opportunities. The North America agriculture imaging sensor market is experiencing a significant growth rate, characterized by a competitive environment with several key players. Companies such as Teledyne DALSA, Phototerra, and Surface Optics Corporation are major contributors to the market. The market is highly fragmented, with intense competition among major players such as Canon Inc., Samsung, Sony, and others. While fostering innovation, this competitive environment also puts pressure on pricing and market share, making it challenging for new entrants and smaller companies to establish a foothold.

Recent Developments in the Agriculture Imaging Sensor Market

  • In October 2023, Hamamatsu Photonics achieved a significant milestone by creating an innovative near-infrared area image sensor. This sensor boasted remarkable features, including enhanced speed and an impressive dynamic range that has doubled in comparison to existing hyperspectral camera products. Referred to as the G16564-0808T, this sensor is constructed using a combination of indium, gallium, and arsenic materials.
  • In January 2023, OMNIVISION Technologies, Inc. introduced its latest innovation, the OV50H, a high-resolution 50-megapixel (MP) image sensor equipped with dual conversion gain (DCG) technology and 1.2-micron (µm) pixels. This sensor was designed to cater to the needs of high-end smartphone rear-facing cameras, boasting flagship-level performance and autofocus capabilities in low-light conditions. It supports impressive specifications, including 12.5MP at 120 frames per second (fps) and high dynamic range (HDR) at 60 fps. Notably, the OV50H also marks a milestone as OMNIVISION Technologies, Inc.'s first sensor to incorporate horizontal/vertical (H/V) quad-phase detection (QPD) technology.
  • In April 2023, Teledyne Technologies Incorporated successfully provided the CIS115 CMOS sensor for integration into JUICE's optical camera, known as JANUS. This sensor boasts a 3-megapixel capacity and a pixel pitch of 7µm. Once deployed, the JANUS camera equipped with this sensor will deliver remarkable imaging capabilities, offering a stunning resolution of up to 2.4 meters when observing Ganymede and providing clear imagery at distances of approximately 10 kilometers.
  • In June 2020, OMNIVISION Technologies, Inc. introduced an automotive image sensor, the OX03C10 ASIL-C. This sensor is a pioneering solution designed for viewing applications in the automotive sector, setting new standards in image quality. The sensor combines a generous 3.0-micron pixel size with an impressive high dynamic range of 140 dB.

Demand - Drivers, Limitations, and Opportunities

Market Demand Drivers: Increasing Use of Precision Agriculture and Yield Optimization

Precision agriculture relies heavily on detailed, real-time crop data. Image sensors, particularly drones and satellites, enable detailed monitoring of crop health, identifying issues such as disease, nutrient deficiencies, and water stress. This information helps in making timely interventions to improve crop yields. For instance, companies such as AgEagle Aerial Systems provide drone-based imaging solutions that have been instrumental in enhancing crop monitoring efficiency. The integration of image sensors with IoT and AI technologies is enhancing the capabilities of precision agriculture. These integrations allow for more sophisticated data analysis and decision-making processes, leading to smarter farming practices. An example is the collaboration between sensor manufacturers and AI companies to develop predictive analytics for crop management.

The adoption and growth of precision agriculture vary significantly by region. North America is currently the largest market, while Asia-Pacific is anticipated to witness significant growth, driven by government initiatives and the adoption of modern farming technologies. This regional growth is crucial for understanding the global spread and acceptance of precision agriculture. Image sensors facilitate the precise application of resources such as water, fertilizers, and pesticides. This targeted approach, supported by data from sensors, optimizes resource usage and reduces wastage. For instance, the use of multispectral imaging sensors in precision irrigation systems has improved water usage efficiency in agriculture.

Market Challenges: High Initial Investment Cost

The cost of advanced imaging sensors and related technology, which includes drones, satellite imaging, and IoT-enabled devices, can be prohibitively expensive for many farmers. The integration of these technologies into regular farming operations often requires a substantial upfront investment. High-end drones equipped with sophisticated imaging sensors, for example, come with a steep price tag. Additionally, these systems usually necessitate complementary investments in software and data analytics tools, adding to the overall expense.

The implementation of imaging sensor technology in agriculture is not just about purchasing equipment; it also involves the cost of training personnel and adapting existing farm management practices. Farmers must invest time and resources to learn how to effectively utilize these technologies and integrate the data into their decision-making processes. This learning curve can be steep and time-consuming, requiring ongoing training and support. The adoption of imaging sensor technology also carries an element of financial risk. Agriculture is inherently influenced by external factors such as weather, market fluctuations, and policy changes. Investing a significant amount of capital into a technology-dependent farming approach can be risky, especially for smaller operations that may not have the financial resilience to absorb potential losses.

Market Opportunities: Collaborations in Agri-Tech Startups

Collaborations and partnerships in the agriculture imaging sensor market represent significant opportunities, fostering innovation, market expansion, and technological advancements. These alliances are crucial in overcoming challenges such as high costs, technical complexities, and market penetration barriers. The increasing number of partnerships between Agri-Tech companies is a key factor for the growing opportunities in the agriculture imaging sensor market. For instance, in 2023, FRAMOS' collaborated with NXP Semiconductors, which enhanced its capabilities in mastering the unique aspects of image sensor technology. This partnership granted FRAMOS access to specialized technical support, allowing its engineers and developers to utilize innovative sensor features that go beyond standard implementations. This collaboration empowers FRAMOS to extract optimal image quality from image signal processors. FRAMOS offers a range of services, including RAW IQ characterization, system-level processed IQ characterization, IQ optimization, and the development of custom IQ tests, reports, and tuning. Collaborations between tech companies and academic institutions or research organizations are instrumental in driving innovation. For example, a tech firm partnering with a university's agricultural department can lead to the development of new, more efficient sensor technologies.

How can this report add value to an organization?

Product/Innovation Strategy: The product segment helps the reader understand the different applications of the agriculture imaging sensor products available based on distribution channel, product type, and technology. The market is poised for significant expansion with ongoing technological advancements, increased investments, and growing awareness of precision agriculture. Therefore, the agriculture imaging sensor business is a high-investment and high-revenue generating model.

Growth/Marketing Strategy: The agriculture imaging sensor market has been growing at a rapid pace. The market offers enormous opportunities for existing and emerging market players. Some of the strategies covered in this segment are mergers and acquisitions, product launches, partnerships and collaborations, business expansions, and investments. The strategies preferred by companies to maintain and strengthen their market position primarily include partnerships and collaborations.

Competitive Strategy: The key players in the agriculture imaging sensor market analyzed and profiled in the study include imaging sensor manufacturers. Additionally, a comprehensive competitive landscape such as partnerships, agreements, and collaborations are expected to aid the reader in understanding the untapped revenue pockets in the market.

Research Methodology

Factors for Data Prediction and Modeling

  • The scope of this report has been focused on agriculture imaging sensors only.
  • The base currency considered for the market analysis is US$. Currencies other than the US$ have been converted to the US$ for all statistical calculations, considering the average conversion rate for that particular year.
  • The currency conversion rate has been taken from the historical exchange rate of the Oanda website.
  • Nearly all the recent developments from January 2021 to December 2023 have been considered in this research study.
  • The information rendered in the report is a result of in-depth primary interviews, surveys, and secondary analysis.
  • Where relevant information was unavailable, proxy indicators and extrapolation were employed.
  • Any economic downturn in the future has not been taken into consideration for the market estimation and forecast.
  • Technologies currently used are expected to persist through the forecast with no major breakthroughs in technology.

Market Estimation and Forecast

This research study involves the usage of extensive secondary sources, such as certified publications, articles from recognized authors, white papers, annual reports of companies, directories, and major databases to collect useful and effective information for an extensive, technical, market-oriented, and commercial study of the agriculture imaging sensor market.

The process of market engineering involves the calculation of the market statistics, market size estimation, market forecast, market crackdown, and data triangulation (the methodology for such quantitative data processes is explained in further sections). The primary research study has been undertaken to gather information and validate the market numbers for segmentation types and industry trends of the key players in the market.

Primary Research

The primary sources involve industry experts from the agriculture imaging sensor market and various stakeholders in the ecosystem. Respondents such as CEOs, vice presidents, marketing directors, and technology and innovation directors have been interviewed to obtain and verify both qualitative and quantitative aspects of this research study.

The key data points taken from primary sources include:

  • validation and triangulation of all the numbers and graphs
  • validation of reports segmentation and key qualitative findings
  • understanding the competitive landscape
  • validation of the numbers of various markets for market type
  • percentage split of individual markets for geographical analysis

Secondary Research

This research study involves the usage of extensive secondary research, directories, company websites, and annual reports. It also makes use of databases, such as Hoovers, Bloomberg, Businessweek, and Factiva, to collect useful and effective information for an extensive, technical, market-oriented, and commercial study of the global market. In addition to the aforementioned data sources, the study has been undertaken with the help of other data sources and websites, such as GFI and Delft University of Technology.

Secondary research was done in order to obtain crucial information about the industry's value chain, revenue models, the market's monetary chain, the total pool of key players, and the current and potential use cases and applications.

The key data points taken from secondary research include:

  • segmentations and percentage shares
  • data for market value
  • key industry trends of the top players of the market
  • qualitative insights into various aspects of the market, key trends, and emerging areas of innovation
  • quantitative data for mathematical and statistical calculations

Key Market Players and Competition Synopsis

The companies that are profiled have been selected based on inputs gathered from primary experts and analyzing company coverage, product portfolio, and market penetration.

Some of the prominent names in this market are:

  • Teledyne Technologies Incorporated
  • Ageagle Aerial Systems, Inc.
  • Sony Semiconductor Solutions Corporation
  • OMNIVISION Technologies, Inc.
  • Hamamatsu Photonics K.K.

Companies that are not a part of the aforementioned pool have been well represented across different sections of the report (wherever applicable).

Table of Contents

Executive Summary

Scope and Definition

1 Markets

  • 1.1 Trends: Current and Future Impact Assessment
    • 1.1.1 Advancements in Artificial Intelligence
    • 1.1.2 Integration with Drones and Automated Machinery
    • 1.1.3 Rising Trend of Cost-Effective Imaging Sensors
  • 1.2 Supply Chain Overview
    • 1.2.1 Value Chain Analysis
    • 1.2.2 Market Map
  • 1.3 Research and Development Review
    • 1.3.1 Patent Filing Trend (by Country and Company)
  • 1.4 Regulatory Landscape
  • 1.5 Market Dynamics Overview
    • 1.5.1 Market Drivers
      • 1.5.1.1 Increasing Use of Precision Agriculture and Yield Optimization
      • 1.5.1.2 Innovations in Imaging Technologies
      • 1.5.1.3 Government Initiatives and Support
    • 1.5.2 Market Restraints
      • 1.5.2.1 High Initial Investment Cost
      • 1.5.2.2 Lack of Technical Skills in Farmers
    • 1.5.3 Market Opportunities
      • 1.5.3.1 Collaborations in Agri-Tech Startups
      • 1.5.3.2 Expansion in Developing Economies

2 Application

  • 2.1 Application Segmentation
  • 2.2 Application Summary
  • 2.3 Agriculture imaging sensor market (by End User)
    • 2.3.1 Agriculture Robot Manufacturer
    • 2.3.2 Agriculture Drone Manufacturer
    • 2.3.3 Livestock Monitoring Equipment Manufacturer
    • 2.3.4 Others

3 Products

  • 3.1 Product Segmentation
  • 3.2 Product Summary
  • 3.3 Agriculture imaging sensor market (by Product)
    • 3.3.1 RGB Sensor
    • 3.3.2 Hyperspectral Sensor
    • 3.3.3 Multispectral Sensor
    • 3.3.4 Others

4 Regions

  • 4.1 Regional Summary
  • 4.2 Drivers and Restraints
  • 4.3 North America
    • 4.3.1 Regional Overview
    • 4.3.2 Driving Factors for Market Growth
    • 4.3.3 Factors Challenging the Market
    • 4.3.4 Application
    • 4.3.5 Product
    • 4.3.6 U.S.
    • 4.3.7 Canada
  • 4.4 Europe
    • 4.4.1 Regional Overview
    • 4.4.2 Driving Factors for Market Growth
    • 4.4.3 Factors Challenging the Market
    • 4.4.4 Product
    • 4.4.5 France
    • 4.4.6 Germany
    • 4.4.7 U.K.
    • 4.4.8 Spain
    • 4.4.9 Italy
    • 4.4.10 Belgium
    • 4.4.11 Ukraine
    • 4.4.12 Rest-of-Europe
  • 4.5 Asia-Pacific
    • 4.5.1 Regional Overview
    • 4.5.2 Driving Factors for Market Growth
    • 4.5.3 Factors Challenging the Market
    • 4.5.4 Application
    • 4.5.5 Product
    • 4.5.6 China
    • 4.5.7 Australia
    • 4.5.8 Japan
    • 4.5.9 Rest-of-Asia-Pacific
  • 4.6 Latin America
    • 4.6.1 Regional Overview
    • 4.6.2 Driving Factors for Market Growth
    • 4.6.3 Factors Challenging the Market
    • 4.6.4 Application
    • 4.6.5 Product
    • 4.6.6 Brazil
    • 4.6.7 Mexico
  • 4.7 Middle East and Africa
    • 4.7.1 Regional Overview
    • 4.7.2 Driving Factors for Market Growth
    • 4.7.3 Factors Challenging the Market
    • 4.7.4 Application
    • 4.7.5 Product
    • 4.7.6 Turkey
    • 4.7.7 South Africa
    • 4.7.8 Rest-of-Middle East and Africa

5 Markets - Competitive Benchmarking & Company Profiles

  • 5.1 Next Frontiers
  • 5.2 Geographic Assessment
    • 5.2.1 Sony Semiconductor Solutions Corporation
      • 5.2.1.1 Overview
      • 5.2.1.2 Top Products/Product Portfolio
      • 5.2.1.3 Top Competitors
      • 5.2.1.4 Target Customers
      • 5.2.1.5 Key Personnel
      • 5.2.1.6 Analyst View
      • 5.2.1.7 Market Share
    • 5.2.2 Teledyne Technologies Incorporated
      • 5.2.2.1 Overview
      • 5.2.2.2 Top Products/Product Portfolio
      • 5.2.2.3 Top Competitors
      • 5.2.2.4 Target Customers
      • 5.2.2.5 Key Personnel
      • 5.2.2.6 Analyst View
      • 5.2.2.7 Market Share
    • 5.2.3 Ageagle Aerial Systems, Inc.
      • 5.2.3.1 Overview
      • 5.2.3.2 Top Products/Product Portfolio
      • 5.2.3.3 Top Competitors
      • 5.2.3.4 Target Customers
      • 5.2.3.5 Key Personnel
      • 5.2.3.6 Analyst View
      • 5.2.3.7 Market Share
    • 5.2.4 Fototerra
      • 5.2.4.1 Overview
      • 5.2.4.2 Top Products/Product Portfolio
      • 5.2.4.3 Top Competitors
      • 5.2.4.4 Target Customers
      • 5.2.4.5 Key Personnel
      • 5.2.4.6 Analyst View
      • 5.2.4.7 Market Share
    • 5.2.5 Cubert GmbH
      • 5.2.5.1 Overview
      • 5.2.5.2 Top Products/Product Portfolio
      • 5.2.5.3 Top Competitors
      • 5.2.5.4 Target Customers
      • 5.2.5.5 Key Personnel
      • 5.2.5.6 Analyst View
      • 5.2.5.7 Market Share
    • 5.2.6 OMNIVISION Technologies, Inc.
      • 5.2.6.1 Overview
      • 5.2.6.2 Top Products/Product Portfolio
      • 5.2.6.3 Top Competitors
      • 5.2.6.4 Target Customers
      • 5.2.6.5 Key Personnel
      • 5.2.6.6 Analyst View
      • 5.2.6.7 Market Share
    • 5.2.7 Hamamatsu Photonics K.K.
      • 5.2.7.1 Overview
      • 5.2.7.2 Top Products/Product Portfolio
      • 5.2.7.3 Top Competitors
      • 5.2.7.4 Target Customers
      • 5.2.7.5 Key Personnel
      • 5.2.7.6 Analyst View
      • 5.2.7.7 Market Share
    • 5.2.8 BaySpec
      • 5.2.8.1 Overview
      • 5.2.8.2 Top Products/Product Portfolio
      • 5.2.8.3 Top Competitors
      • 5.2.8.4 Target Customers
      • 5.2.8.5 Key Personnel
      • 5.2.8.6 Analyst View
      • 5.2.8.7 Market Share
    • 5.2.9 Specim
      • 5.2.9.1 Overview
      • 5.2.9.2 Top Products/Product Portfolio
      • 5.2.9.3 Top Competitors
      • 5.2.9.4 Target Customers
      • 5.2.9.5 Key Personnel
      • 5.2.9.6 Analyst View
      • 5.2.9.7 Market Share
    • 5.2.10 Surface Optics Corporation
      • 5.2.10.1 Overview
      • 5.2.10.2 Top Products/Product Portfolio
      • 5.2.10.3 Top Competitors
      • 5.2.10.4 Target Customers
      • 5.2.10.5 Key Personnel
      • 5.2.10.6 Analyst View
      • 5.2.10.7 Market Share
    • 5.2.11 Headwall Photonics
      • 5.2.11.1 Overview
      • 5.2.11.2 Top Products/Product Portfolio
      • 5.2.11.3 Top Competitors
      • 5.2.11.4 Target Customers
      • 5.2.11.5 Key Personnel
      • 5.2.11.6 Analyst View
      • 5.2.11.7 Market Share
    • 5.2.12 Corning Incorporated
      • 5.2.12.1 Overview
      • 5.2.12.2 Top Products/Product Portfolio
      • 5.2.12.3 Top Competitors
      • 5.2.12.4 Target Customers
      • 5.2.12.5 Key Personnel
      • 5.2.12.6 Analyst View
      • 5.2.12.7 Market Share
    • 5.2.13 Sentera
      • 5.2.13.1 Overview
      • 5.2.13.2 Top Products/Product Portfolio
      • 5.2.13.3 Top Competitors
      • 5.2.13.4 Target Customers
      • 5.2.13.5 Key Personnel
      • 5.2.13.6 Analyst View
      • 5.2.13.7 Market Share
    • 5.2.14 SLANTRANGE Inc. (HIPHEN)
      • 5.2.14.1 Overview
      • 5.2.14.2 Top Products/Product Portfolio
      • 5.2.14.3 Top Competitors
      • 5.2.14.4 Target Customers
      • 5.2.14.5 Key Personnel
      • 5.2.14.6 Analyst View
      • 5.2.14.7 Market Share
    • 5.2.15 Parrot Drone SAS
      • 5.2.15.1 Overview
      • 5.2.15.2 Top Products/Product Portfolio
      • 5.2.15.3 Top Competitors
      • 5.2.15.4 Target Customers
      • 5.2.15.5 Key Personnel
      • 5.2.15.6 Analyst View
      • 5.2.15.7 Market Share

6 Research Methodology

  • 6.1 Data Sources
    • 6.1.1 Primary Data Sources
    • 6.1.2 Secondary Data Sources
    • 6.1.3 Data Triangulation
  • 6.2 Market Estimation and Forecast
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