Computational Photography Market Analysis And Forecast To 2032: By Type (Single- and Dual-Lens, 16-Lens, Others), Product (Smartphone Cameras, Standalone Cameras, Machine Vision Cameras), Application (3D Imaging, AR, VR, MR), and Region

The global Computational Photography Market was valued at USD 12.8 Billion in 2022 and it is anticipated to grow up to USD 19.3 Billion by 2032, at a CAGR of 4.2% during the forecast period.

Computational photography is a field of computer science that deals with the construction of digital images. It is a relatively new field that has arisen out of the need to process the ever-increasing amount of digital image data being generated by modern cameras and other imaging devices.

Global Computational Photography Market Scope and Report Structure
Report Attribute Details
Market Size in 2022$4.8bn
Market Size in 2032$47.8bn
Growth Rate (2022-32)4.2%
Historic Period2016-2021
Forecast Period2023-2032
Base Year2022
Segments Covered

Type, Product, Application, and Region
Key CompaniesApple, Samsung, Nvidia, Qualcomm, Adobe, Nikon, Sony, LG, Light, and Canon.
Regional ScopeNorth America, Europe, Asia Pacific, Central & South America, Middle East & Africa
Analysis CoverageMarket Forecast, Competitive Landscape, Drivers, Trends, Restraints, Opportunities, Value-Chain, PESTLE, Key Events and Developments
Market Trends and Drivers

The key drivers of the computational photography market are the increasing demand for high-quality images, the need for better image processing capabilities, and the growing popularity of digital cameras. The demand for high-quality images has been driven by the increasing popularity of social media and the need for better image quality in advertising and marketing. This has led to a need for better image processing capabilities, which has in turn driven the development of computational photography. Digital cameras have also become increasingly popular, as they offer several advantages over traditional film cameras. Digital cameras are typically smaller and lighter than film cameras, and they offer the ability to take unlimited pictures without the need for film. This has made them particularly popular with amateur photographers and those who take a lot of pictures.

Market Restraints and Challenges

Computational photography is a field of image processing that uses computer algorithms to improve image quality. The key restraints in the computational photography market are the high costs associated with the development of algorithms and the need for specialized hardware. The challenges in the computational photography market include the need to develop algorithms that can handle a variety of different types of images, the need to develop algorithms that can run on a variety of different types of hardware, and the need to keep up with the rapidly changing field of image processing.

Global Computational Photography Market Segmental Overview

The report analyses the global Computational Photography Market based on type, product, application and region.

Global Computational Photography Market by Type

By type, the market is segmented into Single- and Dual-Lens, 16-Lens, and Others. Among these Single- and Dual-Lens accounted xx USD million in 2022. The single-lens camera uses a prism system and a mirror that allows the photographer to see through the lens and know what exactly is being captured whereas a dual-lens camera offers two sensors that help in capturing high-quality pictures as well as adds more elements.

Global Computational Photography Market by Product

By product, the Computational Photography Market is classified into Smartphone Cameras, Standalone Cameras, and Machine Vision Cameras. Among these, smartphone cameras accounted for largest market share in 2022. The smartphone camera lens market is moderately competitive. It appears to be mildly concentrated, moving toward the fragmented stage due to the presence of many large and small players in the market. Some of the major market players include Ability Opto-Electronics Technology Co. Ltd., AAC Technologies, Cowell Optics, IM Co. Ltd., and Kantatsu Co. Ltd., among others. These companies keep innovating and entering into strategic partnerships to retain their market share.

Global Computational Photography Market by Application

Based on application, It is segmented into, 3D Imaging, AR, VR, MR, The closure of manufacturing plants in the regions has resulted in a significant loss of business and revenue for the regions under lockdown. The disruption in global supply chains has negatively impacted the sales of products, delivery schedules, and manufacturing, which led to a notable drop in sales of 3D imaging devices and services. Nevertheless, the ongoing technological developments in the field of 3D imaging and the widespread adoption of and need for 3D imaging systems in different sectors are expected to drive the market in the coming future. Additionally, the increasing frequency of chronic diseases worldwide and growing awareness regarding the benefits of 3D imaging technology, such as a precise visual portrayal of internal organs that reduces tissue damage and the quality of data provided by various medical imaging methods, are among the factors driving the demand for 3D imaging solutions. The high cost of these sensors and a lack of knowledge about how to implement 3D imaging are expected to limit growth.

Geographical Analysis of Global Computational Photography Market

Region-wise, it is studied across North America, Europe, Asia Pacific, and the Rest of the World. North America held the largest market share of xx% in 2022. The growth of the smartphone market mainly drives the progress of the computational photography market in North America. Moreover, the presence of market leaders, such as Alphabet, Apple Inc., Light, NVIDIA Corporation, and Qualcomm Inc., is also contributing significantly to the growth of the market in North America. With the craze and wait of the new iPhone among the public in the United States, iPhone inhibits the growth of computational photography. In September 2019, Apple released the iPhone 11, where its Deep Fusion photography system arrived as part of Apple’s newest developer beta of iOS 13, version 13.2 beta 1. The Deep Fusion is a new image processing pipeline for medium-light images known as computational photography. Machine vision can use computational photography when higher quality imaging with less maintenance is desired. In recent years, the United States experienced rapid growth in machine vision systems, specifically in areas of advanced manufacturing.

According to AIA (Association for Advancing Automation), the overall North American machine vision market grew from USD1.8 billion in sales in 2010 to USD 2.07 billion till September 2019, including smart cameras sales. Further, the North American machine vision systems market is expected to grow to USD 14 billion by 2025. Driving this growth is the need for improved product inspection and quality control in the manufacturing sector, as well as the growing demand for smarter collaborative robots in manufacturing and warehousing. These factors tend to grow the market of computational photography.

Major Players in the Global Computational Photography Market

The key players in the Computational Photography Market Apple, Samsung, Nvidia, Qualcomm, Adobe, Nikon, Sony, LG, Light, and Canon.

COVID-19 Impact:

With the effect of COVID-19 impact, the production of smartphones for the first half of 2020 is expected to drop drastically. The chipmaker, Qualcomm Inc., says that the coronavirus outbreak globally, it poses a potential threat to the mobile phone industry, with a possible impact on manufacturing and sales. Globally, semiconductor revenues are expected to decline by nearly 2 to 3% in 2020. Further, it disrupted the supply chain with some smartphone brands such as Sony, Samsung, who announced the integration of Qualcomm’s Snapdragon 865 AI-enabled (has a camera architecture that should advance computational photography). This leads to the delay in the production as it is unpredictable currently when the pandemic gets over.

Recent Developments:
  • In April 2020 – Xiaomi announced to integrate a 144-megapixel camera phone, where the predecessors of these two phones, Mi 10 Pro and Mi CC9 Pro, had 108-megapixel cameras. The phones employ computational photography and further prioritizes to improve its computational photography features.
  • In October 2019, Arm Limited, renamed its 4-TOPS Arm ML NPU as the Ethos-N77 and launched small-footprint, low-power Ethos-N57 (2-TOPS), and Ethos-N37 (1-TOPS) models for edge AI-supported with the Linux-based Arm NN SDK.
  • In July 2019, Nvidia demonstrated prescription smart glasses that use augmented reality to improve a persons vision. Instead of replacing prescription glasses every few years, augmented reality prescription eyeglasses can simply adjust the vision of each lens to adapt to a person’s changing eyesight. This implementation can inhibit high growth in the market.
  • In September 2019, Apple released the iPhone 11, where its Deep Fusion photography system arrived as part of Apple’s newest developer beta of iOS 13, version 13.2 beta 1. The Deep Fusion is a new image processing pipeline for medium-light images known as computational photography.
Frequently Asked Questions

Q1. How big is the biliary stents market?

Ans. The global Computational Photography Market was valued at USD 12.8 Billion in 2022 and it is anticipated to grow up to USD 19.3 Billion by 2032, at a CAGR of 4.2% during the forecast period.

Q2. What is the Computational Photography Market growth rate?

Ans. The growth rate of the Computational Photography Market is 4.2%

Q3. Which region holds a major market share for the market?

Ans. North America holds a major market share of the Computational Photography Market in 2021.

Q4. Which segment accounted for the largest Computational Photography Market share?

Ans. By application, the 3D Imaging segment accounted for the largest Computational Photography Market share.

Q5. Who are the key players in the kidney stones management market?

Ans. The global Computational Photography Market report includes players such as  Apple, Samsung, Nvidia, Qualcomm, Adobe, Nikon, Sony, LG, Light, and Canon, among others.

Q6. What are the factors driving the Computational Photography Market growth?

Ans. The major factors driving the growth of the market are the rapid improvements in the smartphone cameras such as photo-taking capabilities using 3D technology sensors for high quality.

Q7. What are the key growth strategies of Computational Photography Market players?

Ans. The key growth strategies of Computational Photography Market players are product launch and product approval.

Q8. Which region will provide more business opportunities for the Computational Photography Market during the forecast period?

Ans. The Asia-Pacific region will provide more business opportunities for the Computational Photography Market during the forecast period.

Table of Contents

Chapter 1. Computational Photography Market Overview
1.1. Objectives of the Study
1.2. Market Definition and Research & Scope
1.3. Research Limitations
1.4. Research Methodologies
1.4.1. Secondary Research
1.4.2. Market Size Estimation Technique
1.4.3. Forecasting
1.4.4. Primary Research and Data Validation

Chapter 2. Executive Summary
2.1. Summary
2.2. Key Highlights of the Market

Chapter 3. Premium Insights on the Market
3.1. Market Attractiveness Analysis, by Region
3.2. Market Attractiveness Analysis, By Type
3.3. Market Attractiveness Analysis, By Product
3.4. Market Attractiveness Analysis, By Application

Chapter 4. Computational Photography Market Outlook
4.1. Computational Photography Market Segmentation
4.2. Market Dynamics
4.2.1. Market Drivers
4.2.1.1. Driver 1
4.2.1.2. Driver 2
4.2.1.3. Driver 3
4.2.2. Market Restraints
4.2.2.1. Restraint 1
4.2.2.2. Restraint 2
4.2.3. Market Opportunities
4.2.3.1. Opportunity 1
4.2.3.2. Opportunity 2
4.3. Porter’s Five Forces Analysis
4.3.1. Threat of New Entrants
4.3.2. Threat of Substitutes
4.3.3. Bargaining Power of Buyers
4.3.4. Bargaining Power of Supplier
4.3.5. Competitive Rivalry
4.4. PESTLE Analysis
4.5. Value Chain Analysis
4.5.1. Raw Industry Vertical Suppliers
4.5.2. Manufacturers
4.5.3. Wholesalers and/or Retailers
4.6. Impact of COVID-19 on the Computational Photography Market
4.7. Impact of the Russia and Ukraine War on the Computational Photography Market

Chapter 5. Computational Photography Market By Type
5.1. Market Overview
5.2. Single- and Dual-Lens
5.2.1. Key Market Trends & Opportunity Analysis
5.2.2. Market Size and Forecast, by Region, 2022-2032 ($Million)
5.3. 16-Lens
5.3.1. Key Market Trends & Opportunity Analysis
5.3.2. Market Size and Forecast, by Region, 2022-2032 ($Million)
5.4. Others
5.4.1. Key Market Trends & Opportunity Analysis
5.4.2. Market Size and Forecast, by Region, 2022-2032 ($Million)

Chapter 6. Computational Photography Market By Product
6.1. Market Overview
6.2. Smartphone Cameras
6.2.1. Market Trends & Opportunity Analysis
6.2.2. Market Size and Forecast, by Region, 2022-2032 ($Million)
6.3. Standalone Cameras
6.3.1. Market Trends & Opportunity Analysis
6.3.2. Market Size and Forecast, by Region, 2022-2032 ($Million)
6.4. Machine Vision Cameras
6.4.1. Market Trends & Opportunity Analysis
6.4.2. Market Size and Forecast, by Region, 2022-2032 ($Million)

Chapter 7. Computational Photography Market By Application
7.1. Market Overview
7.2. 3D Imaging
7.2.1. Key Market Trends & Opportunity Analysis
7.2.2. Market Size and Forecast, by Region, 2022-2032 ($Million)
7.3. AR
7.3.1. Key Market Trends & Opportunity Analysis
7.3.2. Market Size and Forecast, by Region, 2022-2032 ($Million)
7.4. VR
7.4.1. Key Market Trends & Opportunity Analysis
7.4.2. Market Size and Forecast, by Region, 2022-2032 ($Million)
7.5. MR
7.5.1. Key Market Trends & Opportunity Analysis
7.5.2. Market Size and Forecast, by Region, 2022-2032 ($Million)

Chapter 8. Flexible Endoscope Market, by Region
8.1. Overview
8.2. North America
8.2.1. Key Market Trends & Opportunity Analysis
8.2.2. North America Computational Photography Market Size and Forecast By Type, 2022-2032, ($Million)
8.2.3. North America Computational Photography Market Size and Forecast By Product, 2022-2032, ($Million)
8.2.4. North America Computational Photography Market Size and Forecast By Application, 2022-2032 , ($Million)
8.2.5. North America Computational Photography Market Size and Forecast by Country, 2022-2032 , ($Million)
8.2.6. The U.S.
8.2.6.1. The U.S. Computational Photography Market Size and Forecast By Type, 2022-2032 , ($Million)
8.2.6.2. The U.S. Computational Photography Market Size and Forecast By Product, 2022-2032, ($Million)
8.2.6.3. The U.S. Computational Photography Market Size and Forecast By Application, 2022-2032, ($Million)
8.2.7. Canada
8.2.7.1. Canada Computational Photography Market Size and Forecast By Type, 2022-2032 , ($Million)
8.2.7.2. Canada Computational Photography Market Size and Forecast By Product, 2022-2032, ($Million)
8.2.7.3. Canada Computational Photography Market Size and Forecast By Application, 2022-2032 , ($Million)
8.2.8. Mexico
8.2.8.1. Mexico Computational Photography Market Size and Forecast By Type, 2022-2032 , ($Million)
8.2.8.2. Mexico Computational Photography Market Size and Forecast By Product, 2022-2032 , ($Million)
8.2.8.3. Mexico Computational Photography Market Size and Forecast By Application, 2022-2032 , ($Million)
8.3. Europe
8.3.1. Key Market Trends & Opportunity Analysis
8.3.2. Europe Computational Photography Market Size and Forecast By Type, 2022-2032 , ($Million)
8.3.3. Europe Computational Photography Market Size and Forecast By Product, 2022-2032, ($Million)
8.3.4. Europe Computational Photography Market Size and Forecast By Application, 2022-2032, ($Million)
8.3.5. Europe Computational Photography Market Size and Forecast by Country, 2022-2032 , ($Million)
8.3.6. Germany
8.3.6.1. Germany Computational Photography Market Size and Forecast By Type, 2022-2032 , ($Million)
8.3.6.2. Germany Computational Photography Market Size and Forecast By Product, 2022-2032, ($Million)
8.3.6.3. Germany Computational Photography Market Size and Forecast By Application, 2022-2032, ($Million)
8.3.7. France
8.3.7.1. France Computational Photography Market Size and Forecast By Type, 2022-2032 , ($Million)
8.3.7.2. France Computational Photography Market Size and Forecast By Product, 2022-2032, ($Million)
8.3.7.3. France Computational Photography Market Size and Forecast By Application, 2022-2032 , ($Million)
8.3.8. U.K.
8.3.8.1. U.K. Computational Photography Market Size and Forecast By Type, 2022-2032 , ($Million)
8.3.8.2. U.K. Computational Photography Market Size and Forecast By Product, 2022-2032, ($Million)
8.3.8.3. U.K. Computational Photography Market Size and Forecast By Application, 2022-2032, ($Million)
8.3.9. Spain
8.3.9.1. Spain Computational Photography Market Size and Forecast By Type, 2022-2032, ($Million)
8.3.9.2. Spain Computational Photography Market Size and Forecast By Product, 2022-2032 , ($Million)
8.3.9.3. Spain Computational Photography Market Size and Forecast By Application, 2022-2032 , ($Million)
8.3.10. Italy
8.3.10.1. Italy Computational Photography Market Size and Forecast By Type, 2022-2032 , ($Million)
8.3.10.2. Italy Computational Photography Market Size and Forecast By Product, 2022-2032, ($Million)
8.3.10.3. Italy Computational Photography Market Size and Forecast By Application, 2022-2032 , ($Million)
8.3.11. Rest of Europe
8.3.11.1. Rest of Europe Computational Photography Market Size and Forecast By Type, 2022-2032, ($Million)
8.3.11.2. Rest of Europe Computational Photography Market Size and Forecast By Product, 2022-2032 , ($Million)
8.3.11.3. Rest of Europe Computational Photography Market Size and Forecast By Application, 2022-2032 , ($Million)
8.4. Asia-Pacific
8.4.1. Key Market Trends & Opportunity Analysis
8.4.2. Asia-Pacific Computational Photography Market Size and Forecast by Country, 2022-2032 , ($Million)
8.4.3. Asia-Pacific Computational Photography Market Size and Forecast By Product, 2022-2032 , ($Million)
8.4.4. Asia-Pacific Computational Photography Market Size and Forecast By Type, 2022-2032, ($Million)
8.4.5. Asia-Pacific Computational Photography Market Size and Forecast By Application, 2022-2032, ($Million)
8.4.6. China
8.4.6.1. China Computational Photography Market Size and Forecast By Type, 2022-2032 , ($Million)
8.4.6.2. China Computational Photography Market Size and Forecast By Product, 2022-2032, ($Million)
8.4.6.3. China Computational Photography Market Size and Forecast By Type Industry Vertical, 2022-2032 , ($Million)
8.4.7. India
8.4.7.1. India Computational Photography Market Size and Forecast By Type, 2022-2032, ($Million)
8.4.7.2. India Computational Photography Market Size and Forecast By Product, 2022-2032 , ($Million)
8.4.7.3. India Computational Photography Market Size and Forecast By Application, 2022-2032 , ($Million)
8.4.8. Japan
8.4.8.1. Japan Computational Photography Market Size and Forecast By Type, 2022-2032, ($Million)
8.4.8.2. Japan Computational Photography Market Size and Forecast By Product, 2022-2032 , ($Million)
8.4.8.3. Japan Computational Photography Market Size and Forecast By Application, 2022-2032, ($Million)
8.4.9. South Korea
8.4.9.1. South Korea Computational Photography Market Size and Forecast By Type, 2022-2032, ($Million)
8.4.9.2. South Korea Computational Photography Market Size and Forecast By Product, 2022-2032 , ($Million)
8.4.9.3. South Korea Computational Photography Market Size and Forecast By Application, 2022-2032 , ($Million)
8.4.10. Rest of APAC
8.4.10.1. Rest of APAC Computational Photography Market Size and Forecast By Type, 2022-2032, ($Million)
8.4.10.2. Rest of APAC Computational Photography Market Size and Forecast By Product, 2022-2032 , ($Million)
8.4.10.3. Rest of APAC Computational Photography Market Size and Forecast By Application, 2022-2032 , ($Million)
8.5. Rest of the World
8.5.1. Key Market Trends & Opportunity Analysis
8.5.2. Rest of the World Computational Photography Market Size and Forecast By Type, 2022-2032, ($Million)
8.5.3. Rest of the World Computational Photography Market Size and Forecast By Product, 2022-2032 , ($Million)
8.5.4. Rest of the World Computational Photography Market Size and Forecast By Application, 2022-2032 , ($Million)
8.5.5. Rest of the World Computational Photography Market Size and Forecast by Country, 2022-2032 , ($Million)
8.5.6. Latin America
8.5.6.1. Latin America Computational Photography Market Size and Forecast By Type, 2022-2032 , ($Million)
8.5.6.2. Latin America Computational Photography Market Size and Forecast By Product, 2022-2032 , ($Million)
8.5.6.3. Latin America Computational Photography Market Size and Forecast By Application, 2022-2032 , ($Million)
8.5.7. Middle East
8.5.7.1. Middle East Computational Photography Market Size and Forecast By Type, 2022-2032, ($Million)
8.5.7.2. Middle East Computational Photography Market Size and Forecast By Product, 2022-2032 , ($Million)
8.5.7.3. Middle East Computational Photography Market Size and Forecast By Application, 2022-2032 , ($Million)
8.5.8. Africa
8.5.8.1. Africa Computational Photography Market Size and Forecast By Type, 2022-2032, ($Million)
8.5.8.2. Africa Computational Photography Market Size and Forecast By Product, 2022-2032 , ($Million)
8.5.8.3. Africa Computational Photography Market Size and Forecast By Application, 2022-2032 , ($Million)

 

Chapter 9. Competitive Landscape
9.1. Market Overview
9.2. Market Share Analysis/Key Player Positioning
9.3. Vendor Benchmarking
9.4. Developmental Strategy Benchmarking
9.4.1. New Product Development
9.4.2. Product Launches
9.4.3. Business Expansions
9.4.4. Partnerships, Joint Ventures, and Collaborations
9.4.5. Mergers and Acquisitions

Chapter 10. Company Profiles
10.1. Accenture plc
10.1.1. Company Snapshot
10.1.2. Financial Performance
10.1.3. Product Offerings
10.1.4. Key Strategic Initiatives
10.1.5. SWOT Analysis
10.2. Apple
10.2.1. Company Snapshot
10.2.2. Financial Performance
10.2.3. Product Offerings
10.2.4. Key Strategic Initiatives
10.2.5. SWOT Analysis
10.3. Samsung
10.3.1. Company Snapshot
10.3.2. Financial Performance
10.3.3. Product Offerings
10.3.4. Key Strategic Initiatives
10.3.5. SWOT Analysis
10.4. Nvidia
10.4.1. Company Snapshot
10.4.2. Financial Performance
10.4.3. Product Offerings
10.4.4. Key Strategic Initiatives
10.4.5. SWOT Analysis
10.5. Qualcomm
10.5.1. Company Snapshot
10.5.2. Financial Performance
10.5.3. Product Offerings
10.5.4. Key Strategic Initiatives
10.5.5. SWOT Analysis
10.6. Adobe
10.6.1. Company Snapshot
10.6.2. Financial Performance
10.6.3. Product Offerings
10.6.4. Key Strategic Initiatives
10.6.5. SWOT Analysis
10.7. Nikon
10.7.1. Company Snapshot
10.7.2. Financial Performance
10.7.3. Product Offerings
10.7.4. Key Strategic Initiatives
10.7.5. SWOT Analysis
10.8. Sony
10.8.1. Company Snapshot
10.8.2. Financial Performance
10.8.3. Product Offerings
10.8.4. Key Strategic Initiatives
10.8.5. SWOT Analysis
10.9. LG
10.9.1. Company Snapshot
10.9.2. Financial Performance
10.9.3. Product Offerings
10.9.4. Key Strategic Initiatives
10.9.5. SWOT Analysis
10.10. Light
10.10.1. Company Snapshot
10.10.2. Financial Performance
10.10.3. Product Offerings
10.10.4. Key Strategic Initiatives
10.10.5. SWOT Analysis
10.11. Canon
10.11.1. Company Snapshot
10.11.2. Financial Performance
10.11.3. Product Offerings
10.11.4. Key Strategic Initiatives
10.11.5. SWOT Analysis
*The list of company is subject to change during the final compilation of the report

Market Segments

By Type

  • Single- and Dual-Lens
  • 16-Lens
  • Others

By Product

  • Smartphone Cameras
  • Standalone Cameras
  • Machine Vision Cameras

By Application

  • 3D Imaging
  • AR
  • VR
  • MR

By Region

  • North America
    • The U.S.
    • Canada
    • Mexico
  • Europe
    • The UK
    • Germany
    • France
    • Spain
    • Rest of Europe
  • The Asia Pacific
    • China
    • India
    • Japan
    • South Korea
    • Rest of Asia-Pacific
  • Rest of the World
    • Latin America
    • The Middle East
    • Africa

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