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コンピュテーショナルフォトグラフィ(計算写真学)市場:アプリケーション毎(スマートフォンカメラ、通常カメラ、マシンビジョン)、タイプ毎(単・複レンズカメラ、16レンズカメラ)、製品毎(カメラモジュール、ソフトウェア)、地域毎 - 2023年までの世界市場予測

Computational Photography Market by Application (Smartphone Camera, Standalone Camera, Machine Vision), Type (Single- And Dual-Lens Cameras, 16-Lens Cameras), Offering (Camera Module, Software), and Geography - Global Forecast to 2023

 

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幅広い市場に関する調査レポートを出版しているマーケッツアンドマーケッツ(MarketsandMarkets)のコンピュテーショナルフォトグラフィ(計算写真学)市場に関する調査レポートです。

“The computational photography market is expected to grow at a CAGR of 29.14% during the forecast period”

The computational photography market is expected to reach USD 11.47 billion by 2023 from USD 2.47 billion in 2017, at a CAGR of 29.14% between 2017 and 2023. The growth of the computational photography market is attributed to the increasing resolution and complexity of image sensors for better image quality, increased application of software-based imaging technique in machine vision, growth in 4K pixel, and ultra HD technologies.

“Smartphone camera held a major share of the computational camera market in 2016”

Smartphone camera held a major share of the computational photography market based on application in 2016. The computational photography market for smartphone camera is witnessing major changes. Computational cameras have a high impact on the smartphone market. The smartphone customers prefer the handsets which exhibit better camera quality and advanced camera features. The smartphones manufacturers are, thus, focusing on enhancing the cameras embedded in their smartphones. The companies mainly focus on advancing the image sensors, optics, and camera modules. In October 2017, Google announced its Pixel 2 and Pixel 2 XL smartphones that support the computational photography feature.

“The market for standalone camera is expected to grow at the highest CAGR between 2017 and 2023”

The computational photography market for standalone camera is expected to grow at the highest CAGR between 2017 and 2023. Computational photography is a comparatively new technology, with a lucrative growth potential owing to the growing demand for innovation in the markets for standalone camera across the globe. Light Labs (US) has recently launched a standalone camera with the computational imaging capabilities. Moreover, the major camera providers, such as Nikon (Japan) and Canon (Japan), are expected to enter into this market during the forecast period.

“The computational photography market in APAC is expected to grow at a high CAGR during 2017-2023”

The computational photography market based on region has been segmented into North America, Europe, Asia Pacific (APAC), and Rest of the World (RoW). North America held the largest share of the computational photography market in 2016. The region is an early adopter of innovative technologies and is home to a large number of computational photography solution providers.

Between North America and APAC, the market in APAC is expected to grow at a higher CAGR between 2017 and 2023, owing to the high adoption of technically advanced products. China, Japan, and Australia have a huge market (or potential market) for computational photography. The growth opportunity for the computational photography market players in the countries apart from China, India, South Korea, Australia, and Japan would largely depend on the pricing strategies and awareness regarding the benefits of computational cameras over conventional digital single-lens reflex (DSLR) cameras.

Breakdown of profiles of primary participants:

- By Company Type: Tier 1 = 65%, Tier 2 = 15%, and Tier 3 = 20%
- By Designation: C-Level Executives = 55%, Directors = 15%, and Others = 30%
- By Region: North America = 45%, APAC = 32%, Europe = 14%, and RoW = 9%

The companies profiled in this report include Alphabet (US), Apple (US), Light Labs (US), NVIDIA (US), Qualcomm, (US), Samsung Electronics (South Korea), Sony (Japan), HTC (Taiwan), Pelican Imaging (US), Lytro (US), Algolux Inc. (Algolux), DxO Labs (France), Almalence (US), Nikon (Japan), Canon (Japan), Corephotonics (Israel), and XPERI (US).

Research Coverage:

The report describes the computational photography market and related developments in terms of type, application, and offering across different regions. It aims at estimating the size and future growth potential of the market for different segments, including type, application, offering, and geography. Furthermore, the report includes an in-depth competitive analysis of the key players in the market, along with their company profiles, recent developments, and key market strategies.

Reasons to Buy the Report:

- This report includes the statistics pertaining to the computational photography market on the basis of type, application, offering, and geography.
- The major drivers, restraints, opportunities, and challenges for the industrial computational photography market have been detailed in this report.
- Illustrative segmentation, analysis, and forecast based on type, application, offering, and geography have been provided to give an overall view of the computational photography market.
- A detailed competitive landscape has been provided in the report, including key players and in-depth analysis of these players.



目次

1 INTRODUCTION 12
1.1 OBJECTIVES OF STUDY 12
1.2 DEFINITION 12
1.3 MARKETS COVERED 13
1.3.1 GEOGRAPHIC SCOPE 13
1.3.2 YEARS CONSIDERED FOR STUDY 14
1.4 CURRENCY 14
1.5 LIMITATIONS 15
1.6 STAKEHOLDERS 15

2 RESEARCH METHODOLOGY 16
2.1 RESEARCH DATA 16
2.1.1 SECONDARY DATA 17
2.1.1.1 List of major secondary sources 17
2.1.1.2 Secondary sources 18
2.1.2 PRIMARY DATA 18
2.1.2.1 Primary interviews with experts 18
2.1.2.2 Breakdown of primaries 19
2.1.2.3 Key data from primary sources 19
2.2 SECONDARY AND PRIMARY RESEARCH 20
2.2.1.1 Key industry insights 20
2.3 MARKET SIZE ESTIMATION 21
2.3.1 BOTTOM-UP APPROACH 21
2.3.1.1 Approach for capturing the market share by bottom-up analysis (demand side) 21
2.3.1.2 Approach for capturing the market share with the help of various players in the value chain of the computational photography market 22
2.3.2 TOP-DOWN APPROACH 23
2.3.2.1 Approach for capturing the market share by top-down analysis (supply side) 23
2.4 MARKET BREAKDOWN AND DATA TRIANGULATION 24
2.5 RESEARCH ASSUMPTIONS 25

3 EXECUTIVE SUMMARY 26

4 PREMIUM INSIGHTS 30
4.1 ATTRACTIVE OPPORTUNITIES IN COMPUTATIONAL PHOTOGRAPHY MARKET 30
4.2 COMPUTATIONAL PHOTOGRAPHY MARKET, BY TYPE 31
4.3 COMPUTATIONAL PHOTOGRAPHY MARKET IN NORTH AMERICA, BY COUNTRY 32
4.4 COMPUTATIONAL PHOTOGRAPHY MARKET, BY GEOGRAPHY 33

5 MARKET OVERVIEW 34
5.1 INTRODUCTION 34
5.2 MARKET DYNAMICS 34
5.2.1 DRIVERS 35
5.2.1.1 High demand for digital still cameras with high resolution 35
5.2.1.2 Growing adoption of computational photography in smartphone cameras 35
5.2.2 RESTRAINTS 35
5.2.2.1 High cost of manufacturing and maintenance of computational camera modules 35
5.2.3 OPPORTUNITIES 36
5.2.3.1 Requirement of image fusion for enhanced image quality 36
5.2.3.2 Collaboration of computational photography and 4K technology 36
5.2.3.3 Increasing demand for high-resolution computational cameras in machine vision applications 36
5.2.4 CHALLENGES 37
5.2.4.1 Miniaturization of image sensor chips causing problem in the development of sensors for smartphone camera modules 37
5.2.4.2 Lack of commercialization and requirement of skilled workforce to develop computational photography products 37

6 COMPUTATIONAL PHOTOGRAPHY MARKET, BY APPLICATION 38
6.1 INTRODUCTION 39
6.2 SMARTPHONE CAMERA 42
6.3 STANDALONE CAMERA 44
6.4 MACHINE VISION 45

7 COMPUTATIONAL PHOTOGRAPHY MARKET, BY TYPE 47
7.1 INTRODUCTION 48
7.2 SINGLE- AND DUAL-LENS CAMERAS 48
7.3 16-LENS CAMERAS 48
7.4 OTHERS 49

8 COMPUTATIONAL PHOTOGRAPHY MARKET, BY OFFERING 52
8.1 INTRODUCTION 53
8.2 CAMERA MODULE 55
8.3 SOFTWARE 58
-
9 GEOGRAPHIC ANALYSIS 61
9.1 INTRODUCTION 62
9.2 NORTH AMERICA 64
9.2.1 US 66
9.2.2 CANADA 66
9.2.3 MEXICO 66
9.3 EUROPE 67
9.3.1 GERMANY 69
9.3.2 FRANCE 69
9.3.3 UK 69
9.3.4 REST OF EUROPE 69
9.4 ASIA PACIFIC 70
9.4.1 JAPAN 72
9.4.2 CHINA 72
9.4.3 REST OF APAC 72
9.5 ROW 73
9.5.1 MIDDLE EAST AND AFRICA 73
9.5.2 SOUTH AMERICA 73

10 COMPETITIVE LANDSCAPE 75
10.1 OVERVIEW 75
10.2 MARKET RANKING ANALYSIS, 2016 76
10.3 COMPETITIVE SITUATION AND TRENDS 77
10.3.1 PRODUCT LAUNCHES & DEVELOPMENTS 77
10.3.2 ACQUISITIONS 78
10.3.3 PARTNERSHIPS 78

11 COMPANY PROFILES 79
(Business Overview, Strength of Product Portfolio, Business Strategy Excellence, Recent Developments)*
11.1 KEY PLAYERS 79
11.1.1 APPLE 79
11.1.2 ALPHABET 82
11.1.3 SAMSUNG ELECTRONICS 85
11.1.4 QUALCOMM TECHNOLOGIES 87
11.1.5 LYTRO 89
11.1.6 NVIDIA 91
11.1.7 CANON 93
11.1.8 NIKON 95
11.1.9 LIGHT 97
11.1.10 SONY 99
11.1.11 ON SEMICONDUCTORS 101

11.2 KEY INNOVATORS 103
11.2.1 PELICAN IMAGING 103
11.2.2 ALMALENCE 103
11.2.3 MOVIDIUS 104
11.2.4 ALGOLUX 104
11.3 OTHER KEY PLAYERS 105
11.3.1 HTC 105
11.3.2 COREPHOTONICS 105
11.3.3 DXO LABS 105
11.3.4 XPERI 106
11.3.5 AFFINITY MEDIA 106
*Details on Business Overview, Strength of Product Portfolio, Business Strategy Excellence, Recent Developments might not be captured in case of unlisted companies.

12 APPENDIX 107
12.1 INSIGHTS FROM INDUSTRY EXPERTS 107
12.2 DISCUSSION GUIDE 107
12.3 KNOWLEDGE STORE: MARKETSANDMARKETS’ SUBSCRIPTION PORTAL 111
12.4 INTRODUCING RT: REAL-TIME MARKET INTELLIGENCE 113
12.5 AVAILABLE CUSTOMIZATIONS 114
12.6 RELATED REPORTS 114
12.7 AUTHOR DETAILS 115

 

LIST OF TABLES

TABLE 1 CURRENCY TABLE 14
TABLE 2 COMPUTATIONAL PHOTOGRAPHY MARKET, BY APPLICATION,
2016-2023 (USD MILLION) 39
TABLE 3 COMPUTATIONAL PHOTOGRAPHY MARKET IN NORTH AMERICA, BY APPLICATION, 2016-2023 (USD MILLION) 40
TABLE 4 COMPUTATIONAL PHOTOGRAPHY MARKET IN EUROPE, BY APPLICATION,
2016-2023 (USD MILLION) 40
TABLE 5 COMPUTATIONAL PHOTOGRAPHY MARKET IN APAC, BY APPLICATION,
2016-2023 (USD MILLION) 41
TABLE 6 COMPUTATIONAL PHOTOGRAPHY MARKET IN ROW, BY APPLICATION,
2016-2023 (USD MILLION) 42
TABLE 7 COMPUTATIONAL PHOTOGRAPHY MARKET FOR SMARTPHONE CAMERA,
BY OFFERING, 2016-2023 (USD MILLION) 42
TABLE 8 COMPUTATIONAL PHOTOGRAPHY MARKET FOR SMARTPHONE CAMERA,
BY REGION, 2016-2023 (USD MILLION) 43
TABLE 9 COMPUTATIONAL PHOTOGRAPHY MARKET FOR STANDALONE CAMERA,
BY OFFERING, 2016-2023 (USD MILLION) 44
TABLE 10 COMPUTATIONAL PHOTOGRAPHY MARKET FOR STANDALONE CAMERA,
BY REGION, 2016-2023 (USD MILLION) 44
TABLE 11 COMPUTATIONAL PHOTOGRAPHY MARKET FOR MACHINE VISION, BY OFFERING, 2016-2023 (USD MILLION) 45
TABLE 12 COMPUTATIONAL PHOTOGRAPHY MARKET FOR MACHINE VISION, BY REGION, 2016-2023 (USD MILLION) 46
TABLE 13 COMPUTATIONAL PHOTOGRAPHY MARKET, BY TYPE, 2016-2023 (USD MILLION) 49
TABLE 14 COMPUTATIONAL PHOTOGRAPHY MARKET IN NORTH AMERICA, BY TYPE,
2016-2023 (USD MILLION) 50
TABLE 15 COMPUTATIONAL PHOTOGRAPHY MARKET IN EUROPE, BY TYPE,
2016-2023 (USD MILLION) 50
TABLE 16 COMPUTATIONAL PHOTOGRAPHY MARKET IN APAC, BY TYPE,
2016-2023 (USD MILLION) 51
TABLE 17 COMPUTATIONAL PHOTOGRAPHY MARKET IN ROW, BY TYPE,
2016-2023 (USD MILLION) 51
TABLE 18 COMPUTATIONAL PHOTOGRAPHY MARKET, BY OFFERING,
2016-2023 (USD MILLION) 53
TABLE 19 COMPUTATIONAL PHOTOGRAPHY MARKET FOR CAMERA MODULE,
BY APPLICATION, 2016-2023 (USD MILLION) 54
TABLE 20 COMPUTATIONAL PHOTOGRAPHY MARKET FOR SOFTWARE, BY APPLICATION, 2016-2023 (USD MILLION) 54
TABLE 21 COMPUTATIONAL PHOTOGRAPHY MARKET FOR CAMERA MODULE IN NORTH AMERICA, BY APPLICATION, 2016-2023 (USD MILLION) 56
TABLE 22 COMPUTATIONAL PHOTOGRAPHY MARKET FOR CAMERA MODULE IN EUROPE,
BY APPLICATION, 2016-2023 (USD MILLION) 56
TABLE 23 COMPUTATIONAL PHOTOGRAPHY MARKET FOR CAMERA MODULE IN APAC,
BY APPLICATION, 2016-2023 (USD MILLION) 57
TABLE 24 COMPUTATIONAL PHOTOGRAPHY MARKET FOR CAMERA MODULE IN ROW,
BY APPLICATION, 2016-2023 (USD MILLION) 58
TABLE 25 COMPUTATIONAL PHOTOGRAPHY MARKET FOR SOFTWARE IN NORTH AMERICA,
BY APPLICATION, 2016-2023 (USD MILLION) 58
TABLE 26 COMPUTATIONAL PHOTOGRAPHY MARKET FOR SOFTWARE IN EUROPE,
BY APPLICATION, 2016-2023 (USD MILLION) 59
TABLE 27 COMPUTATIONAL PHOTOGRAPHY MARKET FOR SOFTWARE IN APAC,
BY APPLICATION, 2016-2023 (USD MILLION) 59
TABLE 28 COMPUTATIONAL PHOTOGRAPHY MARKET FOR SOFTWARE IN ROW,
BY APPLICATION, 2016-2023 (USD MILLION) 60
TABLE 29 COMPUTATIONAL PHOTOGRAPHY MARKET, BY REGION,
2016-2023 (USD MILLION) 63
TABLE 30 COMPUTATIONAL PHOTOGRAPHY MARKET IN NORTH AMERICA, BY COUNTRY, 2016-2023 (USD MILLION) 66
TABLE 31 COMPUTATIONAL PHOTOGRAPHY MARKET IN EUROPE, BY COUNTRY,
2016-2023 (USD MILLION) 69
TABLE 32 COMPUTATIONAL PHOTOGRAPHY MARKET IN ASIA PACIFIC, BY COUNTRY,
2016-2023 (USD MILLION) 72
TABLE 33 COMPUTATIONAL PHOTOGRAPHY MARKET IN ROW, BY REGION,
2016-2023 (USD MILLION) 74
TABLE 34 RANKING OF KEY PLAYERS IN COMPUTATIONAL PHOTOGRAPHY MARKET, 2016 76
TABLE 35 PRODUCT LAUNCHES AND DEVELOPMENTS, 2013-2017 77
TABLE 36 ACQUISITIONS, 2014-2016 78
TABLE 37 PARTNERSHIPS, 2014-2016 78

 

LIST OF FIGURES

FIGURE 1 MARKET SEGMENTATION 13
FIGURE 2 COMPUTATIONAL PHOTOGRAPHY MARKET: RESEARCH DESIGN 16
FIGURE 3 MARKET SIZE ESTIMATION METHODOLOGY: BOTTOM-UP APPROACH 22
FIGURE 4 MARKET SIZE ESTIMATION METHODOLOGY: TOP-DOWN APPROACH 23
FIGURE 5 DATA TRIANGULATION METHODOLOGY 24
FIGURE 6 COMPUTATIONAL PHOTOGRAPHY MARKET SIZE, 2016-2023 (USD MILLION) 27
FIGURE 7 SMARTPHONE CAMERAS TO HOLD LARGEST SHARE OF COMPUTATIONAL PHOTOGRAPHY MARKET BY 2023 27
FIGURE 8 SINGLE-AND DUAL-LENS CAMERAS TO HOLD LARGEST SHARE OF COMPUTATIONAL PHOTOGRAPHY MARKET BY 2023 28
FIGURE 9 SOFTWARE IS EXPECTED TO GROW AT A HIGHER CAGR THAN CAMERA
MODULES BY 2023 28
FIGURE 10 APAC TO HOLD THE LARGEST MARKET SIZE OF COMPUTATIONAL PHOTOGRAPHY MARKET BY 2023 29
FIGURE 11 DEMAND OF COMPUTATIONAL PHOTOGRAPHY IN HIGH-RESOLUTION CAMERA TECHNOLOGIES IN DIGITAL STILL CAMERA PROPELS GROWTH OF THE MARKET 30
FIGURE 12 SINGLE- AND DUAL-LENS CAMERAS HELD LARGEST SHARE OF COMPUTATIONAL PHOTOGRAPHY MARKET IN 2016 31
FIGURE 13 SMARTPHONE CAMERA HELD LARGEST SHARE OF NORTH AMERICAN COMPUTATIONAL PHOTOGRAPHY MARKET IN 2020 32
FIGURE 14 COMPUTATIONAL PHOTOGRAPHY MARKET IN SOUTH KOREA EXPECTED TO GROW AT HIGHEST CAGR BETWEEN 2017 AND 2023 33
FIGURE 15 HIGH DEMAND FOR DIGITAL STILL CAMERAS WITH HIGH RESOLUTION AS MAJOR FACTOR DRIVING GROWTH OF COMPUTATIONAL PHOTOGRAPHY MARKET 34
FIGURE 16 COMPUTATIONAL PHOTOGRAPHY MARKET, BY APPLICATION 39
FIGURE 17 SMARTPHONE CAMERA TO HOLD LARGEST SIZE OF COMPUTATIONAL PHOTOGRAPHY MARKET IN APAC DURING FORECAST PERIOD 41
FIGURE 18 APAC TO HOLD LARGEST SIZE OF COMPUTATIONAL PHOTOGRAPHY MARKET FOR SMARTPHONE CAMERA BY 2023 43
FIGURE 19 SOFTWARE MARKET FOR MACHINE VISION TO GROW AT HIGHER CAGR DURING FORECAST PERIOD 45
FIGURE 20 COMPUTATIONAL PHOTOGRAPHY MARKET, BY TYPE 48
FIGURE 21 SINGLE AND DUAL LENS CAMERA IS EXPECTED TO DOMINATE THE MARKET DURING THE FORECAST PERIOD 49
FIGURE 22 COMPUTATIONAL PHOTOGRAPHY MARKET, BY OFFERING 53
FIGURE 23 COMPUTATIONAL PHOTOGRAPHY CAMERA MODULE MARKET IN NORTH AMERICA FOR STANDALONE CAMERA TO GROW AT HIGHEST CAGR DURING FORECAST PERIOD 55
FIGURE 24 COMPUTATIONAL PHOTOGRAPHY CAMERA MODULE MARKET IN ROW FOR MACHINE VISION TO GROW AT HIGHEST CAGR DURING FORECAST PERIOD 57
FIGURE 25 COMPUTATIONAL PHOTOGRAPHY SOFTWARE MARKET IN ROW FOR STANDALONE CAMERA TO GROW AT HIGHEST CAGR DURING FORECAST PERIOD 60
FIGURE 26 COMPUTATIONAL PHOTOGRAPHY MARKET: BY GEOGRAPHY 62
FIGURE 27 REGIONAL SNAPSHOT: ASIA PACIFIC IS THE EMERGING MARKET FOR COMPUTATIONAL PHOTOGRAPHY 63
FIGURE 28 COMPUTATIONAL PHOTOGRAPHY MARKET IN NORTH AMERICA: SEGMENTATION 64
FIGURE 29 NORTH AMERICA: COMPUTATIONAL PHOTOGRAPHY MARKET SNAPSHOT 65
FIGURE 30 EUROPE: COMPUTATIONAL PHOTOGRAPHY MARKET SEGMENTATION 67
FIGURE 31 EUROPE: COMPUTATIONAL PHOTOGRAPHY MARKET SNAPSHOT 68
FIGURE 32 APAC: COMPUTATIONAL PHOTOGRAPHY MARKET SEGMENTATION 70
FIGURE 33 ASIA PACIFIC: COMPUTATIONAL PHOTOGRAPHY MARKET SNAPSHOT 71
FIGURE 34 ROW: COMPUTATIONAL PHOTOGRAPHY MARKET SEGMENTATION 73
FIGURE 35 COMPANIES ADOPTED PRODUCT LAUNCHES AND DEVELOPMENTS AS KEY GROWTH STRATEGY BETWEEN 2013 AND 2017 75
FIGURE 36 MARKET EVALUATION FRAMEWORK-PRODUCT LAUNCHES AND DEVELOPMENTS FUELED GROWTH AND INNOVATION BETWEEN 2014 AND 2016 77
FIGURE 37 APPLE: COMPANY SNAPSHOT 79
FIGURE 38 ALPHABET: COMPANY SNAPSHOT 82
FIGURE 39 SAMSUNG ELECTRONICS: COMPANY SNAPSHOT 85
FIGURE 40 QUALCOMM TECHNOLOGIES: COMPANY SNAPSHOT 87
FIGURE 41 NVIDIA: COMPANY SNAPSHOT 91
FIGURE 42 CANON: COMPANY SNAPSHOT 93
FIGURE 43 NIKON: COMPANY SNAPSHOT 95
FIGURE 44 SONY: COMPANY SNAPSHOT 99
FIGURE 45 ON SEMICONDUCTORS: COMPANY SNAPSHOT 101

 

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プレスリリース

[プレスリリース原文]

Computational Photography Market worth 11.47 Billion USD by 2023


November 20, 2017

According to the latest market research report "Computational Photography Market by Application (Smartphone Camera, Standalone Camera, Machine Vision), Type (Single- And Dual-Lens Cameras, 16-Lens Cameras), Offering (Camera Module, Software), and Geography - Global Forecast to 2023", the computational photography market is expected to be worth USD 11.47 Billion by 2023 from USD 2.47 Billion by 2017, at a CAGR of 29.14% from 2017 to 2023. The market has a huge potential across various applications, such as smartphone camera, and point and shoot camera. The major factors driving the growth of the computational camera market include growing adoption of computational photography in smartphone cameras and high demand for digitals till cameras with high resolution

Computational photography market for standalone camera to grow at high CAGR between 2017 and 2023

The market for the standalone camera segment is expected to grow at a high CAGR during the forecast period. As the overall point and shoot camera market has reached the maturity stage and is witnessing a decline in the shipment from last 3 years, vendors operating in the point and shoot camera industry are focusing on developing advanced camera hardware with computational capabilities. The blue-chip point and shoot camera manufacturers, including Nikon (Japan) and Canon (Japan), are working on the point and shoot cameras with computational architecture, and they are expected to commercialize their products by 2018.

Single- and dual-lens cameras held largest share of computational photography market in 2016

The single- and dual-lens cameras held the largest share of the computational photography market in 2016. The growth of dual-lens camera module for smartphones is one of the major factors driving the growth of the market for single- and dual-lens cameras. Single- and dual-lens computational cameras are embedded in smartphones. The camera quality has a significant impact on the smartphone buyers. Most of the smartphones in the market have single- and dual-lens cameras. Apple launched its iPhone 7 plus with dual-lens cameras, which supports the computational photography technology, in September 2016.

North America led the computational photography market in terms of size in 2016

North America held the largest size of the computational photography market in 2016. The market in this region is one of the fastest-growing markets in terms of technological advancements, manufacturing operations, and infrastructure. North America is one of the leading regions in terms of the adoption of computational photography. The region is one of the well-defined and controlled economies in terms of resources, GDP, infrastructure, and technological advancements in the world. As high-quality smartphone cameras are most widely used for photography in this region, it is expected to continue to be a major market for computational photography. Furthermore, the region has also rapidly adopted the latest advancements in the camera technology, and the US is a hub for start-ups in new camera technologies. These factors drive the growth of the computational photography market in North America.

APAC is expected to surpass the North American computational photography market by 2023. The presence of a large number of smartphone manufacturers in China and Taiwan is expected to boost the growth of computational photography market in this region. The standalone camera and machine vision system manufacturers in Japan, Australia, India, Singapore, and South Korea are expected to propel the growth of the computational photography market in APAC during the forecast period.

The presence of several market players in this region and the high degree of competition among them are also expected to be the major drivers for the growth of the market in APAC. Apple (US), Google (US), Qualcomm Technologies (US), NVIDIA (US), Light (US), Algolux (Canada), Movidius (US), Almalence (US), and Pelican Imaging (US) are the leading computational photography vendors operating in North America.

 

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