Automated Optical Inspection Market Overview

Automated Optical Inspection Market size is projected to reach USD 2,605.52 Million by 2028 from an estimated USD 651.43 Million in 2021, growing at a CAGR of 21.9% globally.

Automated optical inspection (AOI) is an automated visual inspection method used primarily for testing printed circuit board (PCB) defects. These systems test and evaluate PCBs to detect defects such as solder defects, component defects, ball grid arrays (BGA), surface defects, dimensional defects, component placement defects, and chip-scale packaging (CSP) defects. With the advent of miniature electronics and advances in printed circuit boards, circuits have become more complex, making a manual inspection of boards almost impossible. Therefore, AOI plays an important role in inspecting these boards. Keeping costs as low as possible helps you achieve the desired product quality on your production line. This system is superior to manual inspection and takes less time. The AOI market has grown significantly in the past due to increasing demand for AOI systems in the consumer electronics, automotive, and industrial electronics sectors.

Market Dynamics And Factors For Automated Optical Inspection Market

Drivers:

The COVID19 pandemic has significantly shifted the world to remote work and learning in 2020. With this change, consumers have had a hard time getting devices that can be conveniently operated anywhere, such as phones, computers, monitors, microphones, keyboards, mice, cameras, and even smart coffee makers and digital foot massagers. Banned in most of the world in 2019 and 2020, after spending a long day working and studying at home, the only option people decided was to relax and play. Manufacturers want consumers to spend their hard-earned cash on flashy toys to see, hear, and play indoors. TVs, speakers, personal audio, gaming PCs and peripherals, and consoles make consumers feel comfortable at home. Homes should be more comfortable as people who spend most of their time indoors are investing more in technology upgrades. This has further increased the demand for innovative home appliances.

Demand for sophisticated home appliances and devices is increasing due to factors such as an increase in urban population and an increase in disposable income. At the same time, consumers want high-quality products that are affordable, durable, and durable. As the demand for household appliances grows exponentially, electronics manufacturing facilities are being built around the world. The growing demand for better products has led PCB manufacturers to invest in manufacturing processes and make them more economical. Therefore, to improve product quality and make production more economical, circuit board manufacturers use AOI systems on their production lines. The AOI system replaces manual inspection of PCBs, enabling faster and more accurate defect detection and accelerating overall production cycle times to help PCB manufacturers improve their quality processes. The AOI system has evolved. With the shrinking size of printed circuit boards and the advent of advanced technology in electronics, a manual inspection is no longer a viable option, increasing the need for AOI systems.

Automated optical inspection is regarded by the majority of the electronics industry as a reliable inspection process for printed circuit boards. The penetration of powerful technology in the consumer electronics sector is driving the growth of the global AOI market.

Restraints:

The false call rate is defined as the number of good parts identified as defective, and the number of parts per million is a measure of the false call rate. When considering an image-based AOI system, false calls are the most important factor. Image-based AOI systems use a set of images to isolate defective components from good components. At the same time, the system primarily relies on operators to capture these images and feed them into the database. Images that are misclassified may be included in the image database, making parameter optimization impossible. If an image containing defective components is placed in the "good" part of the image based, the optimization process may adjust the parameters of the AOI algorithm that classified the image as "good". As a result, the system cannot detect this specified error. This can indicate a false call that can cause a serious inspection disaster. In addition, the wrong call requires the operator to check for errors and repeat the process, resulting in slower manufacturing processes, lower productivity, and higher manufacturing costs.

Opportunities:

Self-Monitoring, Analysis, and Reporting Technology (SMART), as the name implies, has revolutionized the outlook for technology with the advent of intelligent technology. From smart devices such as smartphones, smart watches, and laptops to a wider range of applications in smart homes and smart factories, smart technology is becoming increasingly widespread.

Smart technologies include a variety of devices such as IoT devices and smart connected devices. IoT devices are a network of devices that use sensors, chips, software, online connections, analytics, and applications to bring static physical objects to life. These devices create great value and are futuristic, scalable, and automated. Some prominent examples are smart cities, smart homes, and smart factories. Smart-connected devices are controlled via remote control and connected via the Internet or Bluetooth. Intelligently networked devices can provide a personalized experience but must be operated using remote controls. Smart security cameras, smart light bulbs, and smartphones are examples of smart connected devices.  The manufacturing process for basic components such as PCBs and integrated circuits (ICs) that make up

Smart devices are also evolving. With the increasing demand for smaller, more sophisticated devices, PCBs with complex multitier architectures are becoming even smaller. The trend toward smaller sizes has allowed manufacturers to increase the number of components mounted on their circuit boards. The need to quickly and reliably check all components is driving the demand for AOI systems.  AOI systems play an important role in the inspection of compact circuit boards. In this way, the AOI system guarantees error-free production of printed circuit boards and reduces electronics malfunction.

Challenges:

The latest AOI systems are highly developed for the current harsh conditions of the electronics manufacturing ecosystem. The miniaturization of electronic components and the increasing complexity of PCB architectures mean that AOI systems have evolved. Multiple high-resolution cameras are used in today's AOI systems to capture more detailed images of complex circuit boards. These new cameras can reach over 120 frames per second (fps). High-resolution images and fast scan rates produce a significant amount of data. Enterprises need to maintain sophisticated hardware systems and software solutions to store and process this vast amount of data. Not all electronics manufacturers can maintain such an expensive support system. This is a challenge for the growth of the AOI system market.

Market Segmentation

Segmentation Analysis of Automated Optical Inspection Market:

By Type, The 3D AOI system is dominating the Automated Optical Inspection Market during the forecast period. For large-scale production, the 3D AOI system is mainly used extensively in the various manufacturing application. Although, 3D AOI systems are expensive to operate and work with complex programming code, but are more efficient and more sensitive to defect and error detection than 2D AOI systems. 3D AOI systems are superior to 2DAOI systems because they can detect defects in PCB boards and ball grid arrays (BGAs). In addition, the 3D AOI system is an electronics manufacturing service (EMS) with the ability to quickly inspect tall component defects, significantly reduce false call rates, and provide volume data for the component under test. It will be an ideal choice for providers.

By Technology, Inline AOI systems are expected to become a larger and faster-growing market during the forecast period. The inline Automated Optical Inspection provides a higher level of PCB inspection. This is ideal for electronics manufacturers involved in mass production. As a result, most large manufacturers install multiple inline Automated Optical Inspection systems on their production lines to speed up the inspection process. Several major manufacturers are innovating and developing inline AOI systems. In March 2021, Viscom developed a new HeavyFlex processing solution. Heavy flex handling options are available on Viscom's S3016 Ultra AOI system for optical inline 3D inspection. In addition, GÖPEL launched two new AOI systems on the market in June 2020. The 3D-XE series of AOI platforms are characterized by low acquisition costs but provide full 3D inspection capabilities. This series consists of the basic line 3DXE for standalone systems and the advanced line 3DXE for inline systems.

By Industry Use, The consumer electronics segment will hold the largest share of the AOI system market during the forecast period. The miniaturization of electronic devices has further increased the complexity of internal circuits and components. To efficiently inspect the complex circuit boards of small, compact home appliances, manufacturers are using increasingly sophisticated AOI systems to provide their customers with high-quality products. The tendency to have multi-functional devices makes the architecture of modern electronic devices such as smartphones, laptops, and wearable’s more complex. The increasing complexity of these devices requires sophisticated AOI systems for inspection. In addition, with the advent of 3D inspection technology, AOI systems play an important role in maintaining high-quality standards for these complex household appliances.

Regional Analysis of Automated Optical Inspection Market:

The Asia Pacific is the dominating region in Automated Optical Inspection Market during the forecasted period. APAC is a major region of global printed circuit board manufacturing, with countries such as China, Taiwan, Japan, and South Korea at the forefront. With the mass production of printed circuit boards, there is a demand for Automated Optical Inspection systems with high inspection speeds. The APAC region's electronics industry has become a world-class innovation-driven manufacturing center due to its affordable, skilled workforce, business-friendly environment, low production costs, and rising demand for electronics in the region. The growth of the electronics industry has allowed the Asia Pacific Automated Optical Inspection market to grow significantly.

Players Covered in Automated Optical Inspection Market are:

• Koh Young (South Korea)
• Test Research Inc. (TRI) (Taiwan)
• Omron (Japan)
• Camtek (Israel)
• Viscom (Germany)
• Saki Corporation (Japan)
• Nordson (US)
• KLA (US)
• Cyberoptics (US)
• Goepel Electronics (Germany) and other major players.

COVID-19 Impact on Automated Optical Inspection Market

In the COVID 19 situation, the growth of the AOI market is expected to slow as pandemics limit the supply and deployment of hardware components such as sensors in many applications. This is due to the serious turmoil in business and the global economy. However, not all semiconductor companies are experiencing a slowdown in growth. Working from home in remote areas allows businesses to continue working during the blockade. In the current COVID 19 crisis, some companies face short-term operational problems due to the limited availability of the workforce through the government's social distance protocol. Many companies whose fiscal year ended in March 2020 were affected by COVID 19.

Key Industry Developments In Automated Optical Inspection Market

• In March 2021, Viscom developed a new Heavy Flex handling solution to meet the need for flexible handling of large and heavy objects. Heavy Flex handling options are available for Viscom's S3016 ultra system for optical inline 3D inspection.
• In March 2021, Saki Corporation enhanced the 3Di Series AOI system with its new Z-axis solution to accelerate inspection of tall components, press-fit components, and PCBAs in jigs. The new Z-axis package for 3Di Series achieves a maximum height-measurement range in 3D mode to 40 mm. The maximum focus height in 2D is also increased to 40mm.

Chapter 1: Introduction
 1.1 Research Objectives
 1.2 Research Methodology
 1.3 Research Process
 1.4 Scope and Coverage
  1.4.1 Market Definition
  1.4.2 Key Questions Answered
 1.5 Market Segmentation

Chapter 2:Executive Summary

Chapter 3:Growth Opportunities By Segment
 3.1 By Type
 3.2 By Technology
 3.3 By Application
 3.4 By Industry Use

Chapter 4: Market Landscape
 4.1 Porter's Five Forces Analysis
  4.1.1 Bargaining Power of Supplier
  4.1.2 Threat of New Entrants
  4.1.3 Threat of Substitutes
  4.1.4 Competitive Rivalry
  4.1.5 Bargaining Power Among Buyers
 4.2 Industry Value Chain Analysis
 4.3 Market Dynamics
  3.5.1 Drivers
  3.5.2 Restraints
  3.5.3 Opportunities
  3.5.4 Challenges
 4.4 Pestle Analysis
 4.5 Technological Roadmap
 4.6 Regulatory Landscape
 4.7 SWOT Analysis
 4.8 Price Trend Analysis
 4.9 Patent Analysis
 4.10 Analysis of the Impact of Covid-19
  4.10.1 Impact on the Overall Market
  4.10.2 Impact on the Supply Chain
  4.10.3 Impact on the Key Manufacturers
  4.10.4 Impact on the Pricing

Chapter 4: Automated Optical Inspection Market by Type
 4.1 Automated Optical Inspection Market Overview Snapshot and Growth Engine
 4.2 Automated Optical Inspection Market Overview
 4.3 2D AOI
  4.3.1 Introduction and Market Overview
  4.3.2 Historic and Forecasted Market Size (2016-2028F)
  4.3.3 Key Market Trends, Growth Factors and Opportunities
  4.3.4 2D AOI: Grographic Segmentation
 4.4 3D AOI
  4.4.1 Introduction and Market Overview
  4.4.2 Historic and Forecasted Market Size (2016-2028F)
  4.4.3 Key Market Trends, Growth Factors and Opportunities
  4.4.4 3D AOI: Grographic Segmentation

Chapter 5: Automated Optical Inspection Market by Technology
 5.1 Automated Optical Inspection Market Overview Snapshot and Growth Engine
 5.2 Automated Optical Inspection Market Overview
 5.3 Inline AOI System
  5.3.1 Introduction and Market Overview
  5.3.2 Historic and Forecasted Market Size (2016-2028F)
  5.3.3 Key Market Trends, Growth Factors and Opportunities
  5.3.4 Inline AOI System: Grographic Segmentation
 5.4 Offline AOI System
  5.4.1 Introduction and Market Overview
  5.4.2 Historic and Forecasted Market Size (2016-2028F)
  5.4.3 Key Market Trends, Growth Factors and Opportunities
  5.4.4 Offline AOI System: Grographic Segmentation

Chapter 6: Automated Optical Inspection Market by Application
 6.1 Automated Optical Inspection Market Overview Snapshot and Growth Engine
 6.2 Automated Optical Inspection Market Overview
 6.3 Fabrication Phase
  6.3.1 Introduction and Market Overview
  6.3.2 Historic and Forecasted Market Size (2016-2028F)
  6.3.3 Key Market Trends, Growth Factors and Opportunities
  6.3.4 Fabrication Phase: Grographic Segmentation
 6.4 Assembly Phase
  6.4.1 Introduction and Market Overview
  6.4.2 Historic and Forecasted Market Size (2016-2028F)
  6.4.3 Key Market Trends, Growth Factors and Opportunities
  6.4.4 Assembly Phase: Grographic Segmentation

Chapter 7: Automated Optical Inspection Market by Industry Use
 7.1 Automated Optical Inspection Market Overview Snapshot and Growth Engine
 7.2 Automated Optical Inspection Market Overview
 7.3 Consumer Electronics
  7.3.1 Introduction and Market Overview
  7.3.2 Historic and Forecasted Market Size (2016-2028F)
  7.3.3 Key Market Trends, Growth Factors and Opportunities
  7.3.4 Consumer Electronics: Grographic Segmentation
 7.4 Telecommunications
  7.4.1 Introduction and Market Overview
  7.4.2 Historic and Forecasted Market Size (2016-2028F)
  7.4.3 Key Market Trends, Growth Factors and Opportunities
  7.4.4 Telecommunications: Grographic Segmentation
 7.5 Automotive
  7.5.1 Introduction and Market Overview
  7.5.2 Historic and Forecasted Market Size (2016-2028F)
  7.5.3 Key Market Trends, Growth Factors and Opportunities
  7.5.4 Automotive: Grographic Segmentation
 7.6 Medical Devices
  7.6.1 Introduction and Market Overview
  7.6.2 Historic and Forecasted Market Size (2016-2028F)
  7.6.3 Key Market Trends, Growth Factors and Opportunities
  7.6.4 Medical Devices: Grographic Segmentation
 7.7 Aerospace & Defense
  7.7.1 Introduction and Market Overview
  7.7.2 Historic and Forecasted Market Size (2016-2028F)
  7.7.3 Key Market Trends, Growth Factors and Opportunities
  7.7.4 Aerospace & Defense: Grographic Segmentation
 7.8 Industrial Electronics
  7.8.1 Introduction and Market Overview
  7.8.2 Historic and Forecasted Market Size (2016-2028F)
  7.8.3 Key Market Trends, Growth Factors and Opportunities
  7.8.4 Industrial Electronics: Grographic Segmentation
 7.9 Energy & Power
  7.9.1 Introduction and Market Overview
  7.9.2 Historic and Forecasted Market Size (2016-2028F)
  7.9.3 Key Market Trends, Growth Factors and Opportunities
  7.9.4 Energy & Power: Grographic Segmentation

Chapter 8: Company Profiles and Competitive Analysis
 8.1 Competitive Landscape
  8.1.1 Competitive Positioning
  8.1.2 Automated Optical Inspection Sales and Market Share By Players
  8.1.3 Industry BCG Matrix
  8.1.4 Ansoff Matrix
  8.1.5 Automated Optical Inspection Industry Concentration Ratio (CR5 and HHI)
  8.1.6 Top 5 Automated Optical Inspection Players Market Share
  8.1.7 Mergers and Acquisitions
  8.1.8 Business Strategies By Top Players
 8.2 KOH YOUNG (SOUTH KOREA)
  8.2.1 Company Overview
  8.2.2 Key Executives
  8.2.3 Company Snapshot
  8.2.4 Operating Business Segments
  8.2.5 Product Portfolio
  8.2.6 Business Performance
  8.2.7 Key Strategic Moves and Recent Developments
  8.2.8 SWOT Analysis
 8.3 TEST RESEARCH INC. (TRI) (TAIWAN)
 8.4 OMRON (JAPAN)
 8.5 CAMTEK (ISRAEL)
 8.6 VISCOM (GERMANY)
 8.7 SAKI CORPORATION (JAPAN)
 8.8 NORDSON (US)
 8.9 KLA (US)
 8.10 CYBEROPTICS (US)
 8.11 GOEPEL ELECTRONICS (GERMANY)

Chapter 9: Global Automated Optical Inspection Market Analysis, Insights and Forecast, 2016-2028
 9.1 Market Overview
 9.2 Historic and Forecasted Market Size By Type
  9.2.1 2D AOI
  9.2.2 3D AOI
 9.3 Historic and Forecasted Market Size By Technology
  9.3.1 Inline AOI System
  9.3.2 Offline AOI System
 9.4 Historic and Forecasted Market Size By Application
  9.4.1 Fabrication Phase
  9.4.2 Assembly Phase
 9.5 Historic and Forecasted Market Size By Industry Use
  9.5.1 Consumer Electronics
  9.5.2 Telecommunications
  9.5.3 Automotive
  9.5.4 Medical Devices
  9.5.5 Aerospace & Defense
  9.5.6 Industrial Electronics
  9.5.7 Energy & Power

Chapter 10: North America Automated Optical Inspection Market Analysis, Insights and Forecast, 2016-2028
 10.1 Key Market Trends, Growth Factors and Opportunities
 10.2 Impact of Covid-19
 10.3 Key Players
 10.4 Key Market Trends, Growth Factors and Opportunities
 10.4 Historic and Forecasted Market Size By Type
  10.4.1 2D AOI
  10.4.2 3D AOI
 10.5 Historic and Forecasted Market Size By Technology
  10.5.1 Inline AOI System
  10.5.2 Offline AOI System
 10.6 Historic and Forecasted Market Size By Application
  10.6.1 Fabrication Phase
  10.6.2 Assembly Phase
 10.7 Historic and Forecasted Market Size By Industry Use
  10.7.1 Consumer Electronics
  10.7.2 Telecommunications
  10.7.3 Automotive
  10.7.4 Medical Devices
  10.7.5 Aerospace & Defense
  10.7.6 Industrial Electronics
  10.7.7 Energy & Power
 10.8 Historic and Forecast Market Size by Country
  10.8.1 U.S.
  10.8.2 Canada
  10.8.3 Mexico

Chapter 11: Europe Automated Optical Inspection Market Analysis, Insights and Forecast, 2016-2028
 11.1 Key Market Trends, Growth Factors and Opportunities
 11.2 Impact of Covid-19
 11.3 Key Players
 11.4 Key Market Trends, Growth Factors and Opportunities
 11.4 Historic and Forecasted Market Size By Type
  11.4.1 2D AOI
  11.4.2 3D AOI
 11.5 Historic and Forecasted Market Size By Technology
  11.5.1 Inline AOI System
  11.5.2 Offline AOI System
 11.6 Historic and Forecasted Market Size By Application
  11.6.1 Fabrication Phase
  11.6.2 Assembly Phase
 11.7 Historic and Forecasted Market Size By Industry Use
  11.7.1 Consumer Electronics
  11.7.2 Telecommunications
  11.7.3 Automotive
  11.7.4 Medical Devices
  11.7.5 Aerospace & Defense
  11.7.6 Industrial Electronics
  11.7.7 Energy & Power
 11.8 Historic and Forecast Market Size by Country
  11.8.1 Germany
  11.8.2 U.K.
  11.8.3 France
  11.8.4 Italy
  11.8.5 Russia
  11.8.6 Spain

Chapter 12: Asia-Pacific Automated Optical Inspection Market Analysis, Insights and Forecast, 2016-2028
 12.1 Key Market Trends, Growth Factors and Opportunities
 12.2 Impact of Covid-19
 12.3 Key Players
 12.4 Key Market Trends, Growth Factors and Opportunities
 12.4 Historic and Forecasted Market Size By Type
  12.4.1 2D AOI
  12.4.2 3D AOI
 12.5 Historic and Forecasted Market Size By Technology
  12.5.1 Inline AOI System
  12.5.2 Offline AOI System
 12.6 Historic and Forecasted Market Size By Application
  12.6.1 Fabrication Phase
  12.6.2 Assembly Phase
 12.7 Historic and Forecasted Market Size By Industry Use
  12.7.1 Consumer Electronics
  12.7.2 Telecommunications
  12.7.3 Automotive
  12.7.4 Medical Devices
  12.7.5 Aerospace & Defense
  12.7.6 Industrial Electronics
  12.7.7 Energy & Power
 12.8 Historic and Forecast Market Size by Country
  12.8.1 China
  12.8.2 India
  12.8.3 Japan
  12.8.4 Southeast Asia

Chapter 13: South America Automated Optical Inspection Market Analysis, Insights and Forecast, 2016-2028
 13.1 Key Market Trends, Growth Factors and Opportunities
 13.2 Impact of Covid-19
 13.3 Key Players
 13.4 Key Market Trends, Growth Factors and Opportunities
 13.4 Historic and Forecasted Market Size By Type
  13.4.1 2D AOI
  13.4.2 3D AOI
 13.5 Historic and Forecasted Market Size By Technology
  13.5.1 Inline AOI System
  13.5.2 Offline AOI System
 13.6 Historic and Forecasted Market Size By Application
  13.6.1 Fabrication Phase
  13.6.2 Assembly Phase
 13.7 Historic and Forecasted Market Size By Industry Use
  13.7.1 Consumer Electronics
  13.7.2 Telecommunications
  13.7.3 Automotive
  13.7.4 Medical Devices
  13.7.5 Aerospace & Defense
  13.7.6 Industrial Electronics
  13.7.7 Energy & Power
 13.8 Historic and Forecast Market Size by Country
  13.8.1 Brazil
  13.8.2 Argentina

Chapter 14: Middle East & Africa Automated Optical Inspection Market Analysis, Insights and Forecast, 2016-2028
 14.1 Key Market Trends, Growth Factors and Opportunities
 14.2 Impact of Covid-19
 14.3 Key Players
 14.4 Key Market Trends, Growth Factors and Opportunities
 14.4 Historic and Forecasted Market Size By Type
  14.4.1 2D AOI
  14.4.2 3D AOI
 14.5 Historic and Forecasted Market Size By Technology
  14.5.1 Inline AOI System
  14.5.2 Offline AOI System
 14.6 Historic and Forecasted Market Size By Application
  14.6.1 Fabrication Phase
  14.6.2 Assembly Phase
 14.7 Historic and Forecasted Market Size By Industry Use
  14.7.1 Consumer Electronics
  14.7.2 Telecommunications
  14.7.3 Automotive
  14.7.4 Medical Devices
  14.7.5 Aerospace & Defense
  14.7.6 Industrial Electronics
  14.7.7 Energy & Power
 14.8 Historic and Forecast Market Size by Country
  14.8.1 Saudi Arabia
  14.8.2 South Africa

Chapter 15 Investment Analysis

Chapter 16 Analyst Viewpoint and Conclusion

LIST OF TABLES

TABLE 001. EXECUTIVE SUMMARY
TABLE 002. AUTOMATED OPTICAL INSPECTION MARKET BARGAINING POWER OF SUPPLIERS
TABLE 003. AUTOMATED OPTICAL INSPECTION MARKET BARGAINING POWER OF CUSTOMERS
TABLE 004. AUTOMATED OPTICAL INSPECTION MARKET COMPETITIVE RIVALRY
TABLE 005. AUTOMATED OPTICAL INSPECTION MARKET THREAT OF NEW ENTRANTS
TABLE 006. AUTOMATED OPTICAL INSPECTION MARKET THREAT OF SUBSTITUTES
TABLE 007. AUTOMATED OPTICAL INSPECTION MARKET BY TYPE
TABLE 008. 2D AOI MARKET OVERVIEW (2016-2028)
TABLE 009. 3D AOI MARKET OVERVIEW (2016-2028)
TABLE 010. AUTOMATED OPTICAL INSPECTION MARKET BY TECHNOLOGY
TABLE 011. INLINE AOI SYSTEM MARKET OVERVIEW (2016-2028)
TABLE 012. OFFLINE AOI SYSTEM MARKET OVERVIEW (2016-2028)
TABLE 013. AUTOMATED OPTICAL INSPECTION MARKET BY APPLICATION
TABLE 014. FABRICATION PHASE MARKET OVERVIEW (2016-2028)
TABLE 015. ASSEMBLY PHASE MARKET OVERVIEW (2016-2028)
TABLE 016. AUTOMATED OPTICAL INSPECTION MARKET BY INDUSTRY USE
TABLE 017. CONSUMER ELECTRONICS MARKET OVERVIEW (2016-2028)
TABLE 018. TELECOMMUNICATIONS MARKET OVERVIEW (2016-2028)
TABLE 019. AUTOMOTIVE MARKET OVERVIEW (2016-2028)
TABLE 020. MEDICAL DEVICES MARKET OVERVIEW (2016-2028)
TABLE 021. AEROSPACE & DEFENSE MARKET OVERVIEW (2016-2028)
TABLE 022. INDUSTRIAL ELECTRONICS MARKET OVERVIEW (2016-2028)
TABLE 023. ENERGY & POWER MARKET OVERVIEW (2016-2028)
TABLE 024. NORTH AMERICA AUTOMATED OPTICAL INSPECTION MARKET, BY TYPE (2016-2028)
TABLE 025. NORTH AMERICA AUTOMATED OPTICAL INSPECTION MARKET, BY TECHNOLOGY (2016-2028)
TABLE 026. NORTH AMERICA AUTOMATED OPTICAL INSPECTION MARKET, BY APPLICATION (2016-2028)
TABLE 027. NORTH AMERICA AUTOMATED OPTICAL INSPECTION MARKET, BY INDUSTRY USE (2016-2028)
TABLE 028. N AUTOMATED OPTICAL INSPECTION MARKET, BY COUNTRY (2016-2028)
TABLE 029. EUROPE AUTOMATED OPTICAL INSPECTION MARKET, BY TYPE (2016-2028)
TABLE 030. EUROPE AUTOMATED OPTICAL INSPECTION MARKET, BY TECHNOLOGY (2016-2028)
TABLE 031. EUROPE AUTOMATED OPTICAL INSPECTION MARKET, BY APPLICATION (2016-2028)
TABLE 032. EUROPE AUTOMATED OPTICAL INSPECTION MARKET, BY INDUSTRY USE (2016-2028)
TABLE 033. AUTOMATED OPTICAL INSPECTION MARKET, BY COUNTRY (2016-2028)
TABLE 034. ASIA PACIFIC AUTOMATED OPTICAL INSPECTION MARKET, BY TYPE (2016-2028)
TABLE 035. ASIA PACIFIC AUTOMATED OPTICAL INSPECTION MARKET, BY TECHNOLOGY (2016-2028)
TABLE 036. ASIA PACIFIC AUTOMATED OPTICAL INSPECTION MARKET, BY APPLICATION (2016-2028)
TABLE 037. ASIA PACIFIC AUTOMATED OPTICAL INSPECTION MARKET, BY INDUSTRY USE (2016-2028)
TABLE 038. AUTOMATED OPTICAL INSPECTION MARKET, BY COUNTRY (2016-2028)
TABLE 039. MIDDLE EAST & AFRICA AUTOMATED OPTICAL INSPECTION MARKET, BY TYPE (2016-2028)
TABLE 040. MIDDLE EAST & AFRICA AUTOMATED OPTICAL INSPECTION MARKET, BY TECHNOLOGY (2016-2028)
TABLE 041. MIDDLE EAST & AFRICA AUTOMATED OPTICAL INSPECTION MARKET, BY APPLICATION (2016-2028)
TABLE 042. MIDDLE EAST & AFRICA AUTOMATED OPTICAL INSPECTION MARKET, BY INDUSTRY USE (2016-2028)
TABLE 043. AUTOMATED OPTICAL INSPECTION MARKET, BY COUNTRY (2016-2028)
TABLE 044. SOUTH AMERICA AUTOMATED OPTICAL INSPECTION MARKET, BY TYPE (2016-2028)
TABLE 045. SOUTH AMERICA AUTOMATED OPTICAL INSPECTION MARKET, BY TECHNOLOGY (2016-2028)
TABLE 046. SOUTH AMERICA AUTOMATED OPTICAL INSPECTION MARKET, BY APPLICATION (2016-2028)
TABLE 047. SOUTH AMERICA AUTOMATED OPTICAL INSPECTION MARKET, BY INDUSTRY USE (2016-2028)
TABLE 048. AUTOMATED OPTICAL INSPECTION MARKET, BY COUNTRY (2016-2028)
TABLE 049. KOH YOUNG (SOUTH KOREA): SNAPSHOT
TABLE 050. KOH YOUNG (SOUTH KOREA): BUSINESS PERFORMANCE
TABLE 051. KOH YOUNG (SOUTH KOREA): PRODUCT PORTFOLIO
TABLE 052. KOH YOUNG (SOUTH KOREA): KEY STRATEGIC MOVES AND DEVELOPMENTS
TABLE 052. TEST RESEARCH INC. (TRI) (TAIWAN): SNAPSHOT
TABLE 053. TEST RESEARCH INC. (TRI) (TAIWAN): BUSINESS PERFORMANCE
TABLE 054. TEST RESEARCH INC. (TRI) (TAIWAN): PRODUCT PORTFOLIO
TABLE 055. TEST RESEARCH INC. (TRI) (TAIWAN): KEY STRATEGIC MOVES AND DEVELOPMENTS
TABLE 055. OMRON (JAPAN): SNAPSHOT
TABLE 056. OMRON (JAPAN): BUSINESS PERFORMANCE
TABLE 057. OMRON (JAPAN): PRODUCT PORTFOLIO
TABLE 058. OMRON (JAPAN): KEY STRATEGIC MOVES AND DEVELOPMENTS
TABLE 058. CAMTEK (ISRAEL): SNAPSHOT
TABLE 059. CAMTEK (ISRAEL): BUSINESS PERFORMANCE
TABLE 060. CAMTEK (ISRAEL): PRODUCT PORTFOLIO
TABLE 061. CAMTEK (ISRAEL): KEY STRATEGIC MOVES AND DEVELOPMENTS
TABLE 061. VISCOM (GERMANY): SNAPSHOT
TABLE 062. VISCOM (GERMANY): BUSINESS PERFORMANCE
TABLE 063. VISCOM (GERMANY): PRODUCT PORTFOLIO
TABLE 064. VISCOM (GERMANY): KEY STRATEGIC MOVES AND DEVELOPMENTS
TABLE 064. SAKI CORPORATION (JAPAN): SNAPSHOT
TABLE 065. SAKI CORPORATION (JAPAN): BUSINESS PERFORMANCE
TABLE 066. SAKI CORPORATION (JAPAN): PRODUCT PORTFOLIO
TABLE 067. SAKI CORPORATION (JAPAN): KEY STRATEGIC MOVES AND DEVELOPMENTS
TABLE 067. NORDSON (US): SNAPSHOT
TABLE 068. NORDSON (US): BUSINESS PERFORMANCE
TABLE 069. NORDSON (US): PRODUCT PORTFOLIO
TABLE 070. NORDSON (US): KEY STRATEGIC MOVES AND DEVELOPMENTS
TABLE 070. KLA (US): SNAPSHOT
TABLE 071. KLA (US): BUSINESS PERFORMANCE
TABLE 072. KLA (US): PRODUCT PORTFOLIO
TABLE 073. KLA (US): KEY STRATEGIC MOVES AND DEVELOPMENTS
TABLE 073. CYBEROPTICS (US): SNAPSHOT
TABLE 074. CYBEROPTICS (US): BUSINESS PERFORMANCE
TABLE 075. CYBEROPTICS (US): PRODUCT PORTFOLIO
TABLE 076. CYBEROPTICS (US): KEY STRATEGIC MOVES AND DEVELOPMENTS
TABLE 076. GOEPEL ELECTRONICS (GERMANY): SNAPSHOT
TABLE 077. GOEPEL ELECTRONICS (GERMANY): BUSINESS PERFORMANCE
TABLE 078. GOEPEL ELECTRONICS (GERMANY): PRODUCT PORTFOLIO
TABLE 079. GOEPEL ELECTRONICS (GERMANY): KEY STRATEGIC MOVES AND DEVELOPMENTS

LIST OF FIGURES

FIGURE 001. YEARS CONSIDERED FOR ANALYSIS
FIGURE 002. SCOPE OF THE STUDY
FIGURE 003. AUTOMATED OPTICAL INSPECTION MARKET OVERVIEW BY REGIONS
FIGURE 004. PORTER'S FIVE FORCES ANALYSIS
FIGURE 005. BARGAINING POWER OF SUPPLIERS
FIGURE 006. COMPETITIVE RIVALRYFIGURE 007. THREAT OF NEW ENTRANTS
FIGURE 008. THREAT OF SUBSTITUTES
FIGURE 009. VALUE CHAIN ANALYSIS
FIGURE 010. PESTLE ANALYSIS
FIGURE 011. AUTOMATED OPTICAL INSPECTION MARKET OVERVIEW BY TYPE
FIGURE 012. 2D AOI MARKET OVERVIEW (2016-2028)
FIGURE 013. 3D AOI MARKET OVERVIEW (2016-2028)
FIGURE 014. AUTOMATED OPTICAL INSPECTION MARKET OVERVIEW BY TECHNOLOGY
FIGURE 015. INLINE AOI SYSTEM MARKET OVERVIEW (2016-2028)
FIGURE 016. OFFLINE AOI SYSTEM MARKET OVERVIEW (2016-2028)
FIGURE 017. AUTOMATED OPTICAL INSPECTION MARKET OVERVIEW BY APPLICATION
FIGURE 018. FABRICATION PHASE MARKET OVERVIEW (2016-2028)
FIGURE 019. ASSEMBLY PHASE MARKET OVERVIEW (2016-2028)
FIGURE 020. AUTOMATED OPTICAL INSPECTION MARKET OVERVIEW BY INDUSTRY USE
FIGURE 021. CONSUMER ELECTRONICS MARKET OVERVIEW (2016-2028)
FIGURE 022. TELECOMMUNICATIONS MARKET OVERVIEW (2016-2028)
FIGURE 023. AUTOMOTIVE MARKET OVERVIEW (2016-2028)
FIGURE 024. MEDICAL DEVICES MARKET OVERVIEW (2016-2028)
FIGURE 025. AEROSPACE & DEFENSE MARKET OVERVIEW (2016-2028)
FIGURE 026. INDUSTRIAL ELECTRONICS MARKET OVERVIEW (2016-2028)
FIGURE 027. ENERGY & POWER MARKET OVERVIEW (2016-2028)
FIGURE 028. NORTH AMERICA AUTOMATED OPTICAL INSPECTION MARKET OVERVIEW BY COUNTRY (2016-2028)
FIGURE 029. EUROPE AUTOMATED OPTICAL INSPECTION MARKET OVERVIEW BY COUNTRY (2016-2028)
FIGURE 030. ASIA PACIFIC AUTOMATED OPTICAL INSPECTION MARKET OVERVIEW BY COUNTRY (2016-2028)
FIGURE 031. MIDDLE EAST & AFRICA AUTOMATED OPTICAL INSPECTION MARKET OVERVIEW BY COUNTRY (2016-2028)
FIGURE 032. SOUTH AMERICA AUTOMATED OPTICAL INSPECTION MARKET OVERVIEW BY COUNTRY (2016-2028)