3D Reconstruction Technology Comprehensive Study by Type (3D Reconstruction Software, Based On Images and Video, Based On 3D Scanning), Application (Gaming and Entertainment, Medical Applications, Culture Heritage and Museum, 3D Printing, Drones and Robots, Others), Construction Method (Active, Passive) Players and Region - Global Market Outlook to 2028

3D Reconstruction Technology Market by XX Submarkets | Forecast Years 2023-2028  

  • Summary
  • Market Segments
  • Table of Content
  • List of Table & Figures
  • Players Profiled
Industry Background:
Three-dimensional (3D) reconstruction techniques is used to obtain the 3D representation of objects in the form of point Cloud models, mesh models and geometric models. It is applied to many field and used wide scale 3D virtualization from 2D and 3D imaging.This growth is primarily driven by Increasing Demand of 3D Mobile Applications and Movies .

AttributesDetails
Study Period2018-2028
Base Year2022
Forecast Period2023-2028
Volume UnitN
Value UnitUSD (N)
Customization ScopeAvail customization with purchase of this report. Add or modify country, region & or narrow down segments in the final scope subject to feasibility


The Systems Software sector in the region has been increasing at a sustainable rate and further growth is expected to be witnessed over the forecast period, owing to the robust investments and expansion in production facilities in the region. Major Players, such as Acute3D (France), Agisoft PhotoScan, Autodesk (United States), Elcovision (Switzerland), Photometrix (Brazil), PhotoModeler (Canada), Pix4D (Switzerland), RealityCapture, Realsense (Intel) (United States) and Skyline Software Systems (United States), etc have either set up their manufacturing facilities or are planning to start new provision in the dominated region in the upcoming years.

Key Developments in the Market:
In Jan 2019, Rovco And Global Marine Group Announced To Invest In Partnership To Bring Intelligent Inspection, Repair And Maintenance Solutions To The Global Offshore Market, Rovco’s Subslam Replaces Visual Video Inspection With Live 3D Reconstruction Technology.
In Nov 2018, 4DAGE Announced To Launch Of Mobile Terminal 3D Reconstruction Technology At The Third China-Germany Artificial Intelligence Conference. Additionally, In Nov Only, Dgene Announced Prepare To Integrate 3D Reconstruction Capabilities Into Mobile Phones And High Tech Scanning Equipment.

Influencing Trend:
Rising of 3D Scanning Based 3D Reconstruction Technology

Market Growth Drivers:
Increasing Demand of 3D Mobile Applications and Movies and Rising Demand of Medical Image Analysis

Opportunities:
Increase Demand of Medical Imaging In Diagnosis of Cardiovascular Disorders, Cancer and Others. Therefore Strong Opportunity of This Market in Healthcare Industry Segment.

AMA Research follows a focused and realistic research framework that provides the ability to study the crucial market dynamics in several regions across the world. Moreover, an in-depth assessment is mainly conducted by our analysts on geographical regions to provide clients and businesses the opportunity to dominate in niche markets and expand in emerging markets across the globe. This market research study also showcases the spontaneously changing Players landscape impacting the market's growth. Furthermore, our market researchers extensively analyze the products and services offered by multiple players competing to increase their market share and presence.

Data Sources of 3D Reconstruction Technology Market Study

Primary Collection: InMail, LinkedIn Groups, Survey Monkey, Google, and Other professional Forums are some of the mediums utilized to gather primary data through key industry participants and appointees, subject-matter experts, C-level executives of 3D Reconstruction Technology Industry, among others including independent industry consultants, experts, to obtain and verify critical qualitative commentary and opinion and quantitative statistics, to assess future market prospects.

The primary interviews and data collected as per the below protocols:
• By Designation: C-Level, D-Level, Others
• By Company Type: Tier 1, Tier 2, Tier 3

Secondary Data Sources such as Annual reports, Press releases, Analyst meetings, Conference calls, Investor presentations, Management statements, and SEC filings of 3D Reconstruction Technology players along with Regulatory Sites, Association, World bank, etc were used as sources secondary set of data.

Customization in the Report
AMA Research features not only specific market forecasts but also includes significant value-added commentary on:
- Market Trends
- Technological Trends and Innovations
- Market Maturity Indicators
- Growth Drivers and Constraints
- New Entrants into the Market & Entry/Exit Barriers
- To Seize Powerful Market Opportunities
- Identify Key Business Segments, Market Proposition & Gap Analysis

Against this Challenging Backdrop, 3D Reconstruction Technology Study Sheds Light on
— The 3D Reconstruction Technology Market status quo and key characteristics. To end this, Analysts at AMA organize and took surveys of the 3D Reconstruction Technology industry Players. The resultant snapshot serves as a basis for understanding why and how the industry can be expected to change.
— Where 3D Reconstruction Technology industry is heading and what are the top priorities. Insights are drawn from financial analysis, surveys, and interviews with key executives and industry experts.
— How every company in this diverse set of Players can best navigate the emerging competition landscape and follow a strategy that helps them position to hold the value they currently claim or capture the new addressable opportunity.

Report Objectives / Segmentation Covered

By Type
  • 3D Reconstruction Software
  • Based On Images and Video
  • Based On 3D Scanning
By Application
  • Gaming and Entertainment
  • Medical Applications
  • Culture Heritage and Museum
  • 3D Printing, Drones and Robots
  • Others
By Construction Method
  • Active
  • Passive

By Regions
  • South America
    • Brazil
    • Argentina
    • Rest of South America
  • Asia Pacific
    • China
    • Japan
    • India
    • South Korea
    • Taiwan
    • Australia
    • Rest of Asia-Pacific
  • Europe
    • Germany
    • France
    • Italy
    • United Kingdom
    • Netherlands
    • Rest of Europe
  • MEA
    • Middle East
    • Africa
  • North America
    • United States
    • Canada
    • Mexico
  • 1. Market Overview
    • 1.1. Introduction
    • 1.2. Scope/Objective of the Study
      • 1.2.1. Research Objective
  • 2. Executive Summary
    • 2.1. Introduction
  • 3. Market Dynamics
    • 3.1. Introduction
    • 3.2. Market Drivers
      • 3.2.1. Increasing Demand of 3D Mobile Applications and Movies
      • 3.2.2. Rising Demand of Medical Image Analysis
    • 3.3. Market Trends
      • 3.3.1. Rising of 3D Scanning Based 3D Reconstruction Technology
  • 4. Market Factor Analysis
    • 4.1. Porters Five Forces
    • 4.2. Supply/Value Chain
    • 4.3. PESTEL analysis
    • 4.4. Market Entropy
    • 4.5. Patent/Trademark Analysis
  • 5. Global 3D Reconstruction Technology, by Type, Application, Construction Method and Region (value) (2017-2022)
    • 5.1. Introduction
    • 5.2. Global 3D Reconstruction Technology (Value)
      • 5.2.1. Global 3D Reconstruction Technology by: Type (Value)
        • 5.2.1.1. 3D Reconstruction Software
        • 5.2.1.2. Based On Images and Video
        • 5.2.1.3. Based On 3D Scanning
      • 5.2.2. Global 3D Reconstruction Technology by: Application (Value)
        • 5.2.2.1. Gaming and Entertainment
        • 5.2.2.2. Medical Applications
        • 5.2.2.3. Culture Heritage and Museum
        • 5.2.2.4. 3D Printing, Drones and Robots
        • 5.2.2.5. Others
      • 5.2.3. Global 3D Reconstruction Technology by: Construction Method (Value)
        • 5.2.3.1. Active
        • 5.2.3.2. Passive
      • 5.2.4. Global 3D Reconstruction Technology Region
        • 5.2.4.1. South America
          • 5.2.4.1.1. Brazil
          • 5.2.4.1.2. Argentina
          • 5.2.4.1.3. Rest of South America
        • 5.2.4.2. Asia Pacific
          • 5.2.4.2.1. China
          • 5.2.4.2.2. Japan
          • 5.2.4.2.3. India
          • 5.2.4.2.4. South Korea
          • 5.2.4.2.5. Taiwan
          • 5.2.4.2.6. Australia
          • 5.2.4.2.7. Rest of Asia-Pacific
        • 5.2.4.3. Europe
          • 5.2.4.3.1. Germany
          • 5.2.4.3.2. France
          • 5.2.4.3.3. Italy
          • 5.2.4.3.4. United Kingdom
          • 5.2.4.3.5. Netherlands
          • 5.2.4.3.6. Rest of Europe
        • 5.2.4.4. MEA
          • 5.2.4.4.1. Middle East
          • 5.2.4.4.2. Africa
        • 5.2.4.5. North America
          • 5.2.4.5.1. United States
          • 5.2.4.5.2. Canada
          • 5.2.4.5.3. Mexico
  • 6. 3D Reconstruction Technology: Manufacturers/Players Analysis
    • 6.1. Competitive Landscape
      • 6.1.1. Market Share Analysis
        • 6.1.1.1. Top 3
        • 6.1.1.2. Top 5
    • 6.2. Peer Group Analysis (2022)
    • 6.3. BCG Matrix
    • 6.4. Company Profile
      • 6.4.1. Acute3D (France)
        • 6.4.1.1. Business Overview
        • 6.4.1.2. Products/Services Offerings
        • 6.4.1.3. Financial Analysis
        • 6.4.1.4. SWOT Analysis
      • 6.4.2. Agisoft PhotoScan
        • 6.4.2.1. Business Overview
        • 6.4.2.2. Products/Services Offerings
        • 6.4.2.3. Financial Analysis
        • 6.4.2.4. SWOT Analysis
      • 6.4.3. Autodesk (United States)
        • 6.4.3.1. Business Overview
        • 6.4.3.2. Products/Services Offerings
        • 6.4.3.3. Financial Analysis
        • 6.4.3.4. SWOT Analysis
      • 6.4.4. Elcovision (Switzerland)
        • 6.4.4.1. Business Overview
        • 6.4.4.2. Products/Services Offerings
        • 6.4.4.3. Financial Analysis
        • 6.4.4.4. SWOT Analysis
      • 6.4.5. Photometrix (Brazil)
        • 6.4.5.1. Business Overview
        • 6.4.5.2. Products/Services Offerings
        • 6.4.5.3. Financial Analysis
        • 6.4.5.4. SWOT Analysis
      • 6.4.6. PhotoModeler (Canada)
        • 6.4.6.1. Business Overview
        • 6.4.6.2. Products/Services Offerings
        • 6.4.6.3. Financial Analysis
        • 6.4.6.4. SWOT Analysis
      • 6.4.7. Pix4D (Switzerland)
        • 6.4.7.1. Business Overview
        • 6.4.7.2. Products/Services Offerings
        • 6.4.7.3. Financial Analysis
        • 6.4.7.4. SWOT Analysis
      • 6.4.8. RealityCapture
        • 6.4.8.1. Business Overview
        • 6.4.8.2. Products/Services Offerings
        • 6.4.8.3. Financial Analysis
        • 6.4.8.4. SWOT Analysis
      • 6.4.9. Realsense (Intel) (United States)
        • 6.4.9.1. Business Overview
        • 6.4.9.2. Products/Services Offerings
        • 6.4.9.3. Financial Analysis
        • 6.4.9.4. SWOT Analysis
      • 6.4.10. Skyline Software Systems (United States)
        • 6.4.10.1. Business Overview
        • 6.4.10.2. Products/Services Offerings
        • 6.4.10.3. Financial Analysis
        • 6.4.10.4. SWOT Analysis
  • 7. Appendix
    • 7.1. Acronyms
  • 8. Methodology and Data Source
    • 8.1. Methodology/Research Approach
      • 8.1.1. Research Programs/Design
      • 8.1.2. Market Size Estimation
      • 8.1.3. Market Breakdown and Data Triangulation
    • 8.2. Data Source
      • 8.2.1. Secondary Sources
      • 8.2.2. Primary Sources
    • 8.3. Disclaimer
List of Tables
  • Table 1. 3D Reconstruction Technology: by Type(USD N)
  • Table 2. 3D Reconstruction Technology 3D Reconstruction Software , by Region USD N (2017-2022)
  • Table 3. 3D Reconstruction Technology Based On Images and Video , by Region USD N (2017-2022)
  • Table 4. 3D Reconstruction Technology Based On 3D Scanning , by Region USD N (2017-2022)
  • Table 5. 3D Reconstruction Technology: by Application(USD N)
  • Table 6. 3D Reconstruction Technology Gaming and Entertainment , by Region USD N (2017-2022)
  • Table 7. 3D Reconstruction Technology Medical Applications , by Region USD N (2017-2022)
  • Table 8. 3D Reconstruction Technology Culture Heritage and Museum , by Region USD N (2017-2022)
  • Table 9. 3D Reconstruction Technology 3D Printing, Drones and Robots , by Region USD N (2017-2022)
  • Table 10. 3D Reconstruction Technology Others , by Region USD N (2017-2022)
  • Table 11. 3D Reconstruction Technology: by Construction Method(USD N)
  • Table 12. 3D Reconstruction Technology Active , by Region USD N (2017-2022)
  • Table 13. 3D Reconstruction Technology Passive , by Region USD N (2017-2022)
  • Table 14. South America 3D Reconstruction Technology, by Country USD N (2017-2022)
  • Table 15. South America 3D Reconstruction Technology, by Type USD N (2017-2022)
  • Table 16. South America 3D Reconstruction Technology, by Application USD N (2017-2022)
  • Table 17. South America 3D Reconstruction Technology, by Construction Method USD N (2017-2022)
  • Table 18. Brazil 3D Reconstruction Technology, by Type USD N (2017-2022)
  • Table 19. Brazil 3D Reconstruction Technology, by Application USD N (2017-2022)
  • Table 20. Brazil 3D Reconstruction Technology, by Construction Method USD N (2017-2022)
  • Table 21. Argentina 3D Reconstruction Technology, by Type USD N (2017-2022)
  • Table 22. Argentina 3D Reconstruction Technology, by Application USD N (2017-2022)
  • Table 23. Argentina 3D Reconstruction Technology, by Construction Method USD N (2017-2022)
  • Table 24. Rest of South America 3D Reconstruction Technology, by Type USD N (2017-2022)
  • Table 25. Rest of South America 3D Reconstruction Technology, by Application USD N (2017-2022)
  • Table 26. Rest of South America 3D Reconstruction Technology, by Construction Method USD N (2017-2022)
  • Table 27. Asia Pacific 3D Reconstruction Technology, by Country USD N (2017-2022)
  • Table 28. Asia Pacific 3D Reconstruction Technology, by Type USD N (2017-2022)
  • Table 29. Asia Pacific 3D Reconstruction Technology, by Application USD N (2017-2022)
  • Table 30. Asia Pacific 3D Reconstruction Technology, by Construction Method USD N (2017-2022)
  • Table 31. China 3D Reconstruction Technology, by Type USD N (2017-2022)
  • Table 32. China 3D Reconstruction Technology, by Application USD N (2017-2022)
  • Table 33. China 3D Reconstruction Technology, by Construction Method USD N (2017-2022)
  • Table 34. Japan 3D Reconstruction Technology, by Type USD N (2017-2022)
  • Table 35. Japan 3D Reconstruction Technology, by Application USD N (2017-2022)
  • Table 36. Japan 3D Reconstruction Technology, by Construction Method USD N (2017-2022)
  • Table 37. India 3D Reconstruction Technology, by Type USD N (2017-2022)
  • Table 38. India 3D Reconstruction Technology, by Application USD N (2017-2022)
  • Table 39. India 3D Reconstruction Technology, by Construction Method USD N (2017-2022)
  • Table 40. South Korea 3D Reconstruction Technology, by Type USD N (2017-2022)
  • Table 41. South Korea 3D Reconstruction Technology, by Application USD N (2017-2022)
  • Table 42. South Korea 3D Reconstruction Technology, by Construction Method USD N (2017-2022)
  • Table 43. Taiwan 3D Reconstruction Technology, by Type USD N (2017-2022)
  • Table 44. Taiwan 3D Reconstruction Technology, by Application USD N (2017-2022)
  • Table 45. Taiwan 3D Reconstruction Technology, by Construction Method USD N (2017-2022)
  • Table 46. Australia 3D Reconstruction Technology, by Type USD N (2017-2022)
  • Table 47. Australia 3D Reconstruction Technology, by Application USD N (2017-2022)
  • Table 48. Australia 3D Reconstruction Technology, by Construction Method USD N (2017-2022)
  • Table 49. Rest of Asia-Pacific 3D Reconstruction Technology, by Type USD N (2017-2022)
  • Table 50. Rest of Asia-Pacific 3D Reconstruction Technology, by Application USD N (2017-2022)
  • Table 51. Rest of Asia-Pacific 3D Reconstruction Technology, by Construction Method USD N (2017-2022)
  • Table 52. Europe 3D Reconstruction Technology, by Country USD N (2017-2022)
  • Table 53. Europe 3D Reconstruction Technology, by Type USD N (2017-2022)
  • Table 54. Europe 3D Reconstruction Technology, by Application USD N (2017-2022)
  • Table 55. Europe 3D Reconstruction Technology, by Construction Method USD N (2017-2022)
  • Table 56. Germany 3D Reconstruction Technology, by Type USD N (2017-2022)
  • Table 57. Germany 3D Reconstruction Technology, by Application USD N (2017-2022)
  • Table 58. Germany 3D Reconstruction Technology, by Construction Method USD N (2017-2022)
  • Table 59. France 3D Reconstruction Technology, by Type USD N (2017-2022)
  • Table 60. France 3D Reconstruction Technology, by Application USD N (2017-2022)
  • Table 61. France 3D Reconstruction Technology, by Construction Method USD N (2017-2022)
  • Table 62. Italy 3D Reconstruction Technology, by Type USD N (2017-2022)
  • Table 63. Italy 3D Reconstruction Technology, by Application USD N (2017-2022)
  • Table 64. Italy 3D Reconstruction Technology, by Construction Method USD N (2017-2022)
  • Table 65. United Kingdom 3D Reconstruction Technology, by Type USD N (2017-2022)
  • Table 66. United Kingdom 3D Reconstruction Technology, by Application USD N (2017-2022)
  • Table 67. United Kingdom 3D Reconstruction Technology, by Construction Method USD N (2017-2022)
  • Table 68. Netherlands 3D Reconstruction Technology, by Type USD N (2017-2022)
  • Table 69. Netherlands 3D Reconstruction Technology, by Application USD N (2017-2022)
  • Table 70. Netherlands 3D Reconstruction Technology, by Construction Method USD N (2017-2022)
  • Table 71. Rest of Europe 3D Reconstruction Technology, by Type USD N (2017-2022)
  • Table 72. Rest of Europe 3D Reconstruction Technology, by Application USD N (2017-2022)
  • Table 73. Rest of Europe 3D Reconstruction Technology, by Construction Method USD N (2017-2022)
  • Table 74. MEA 3D Reconstruction Technology, by Country USD N (2017-2022)
  • Table 75. MEA 3D Reconstruction Technology, by Type USD N (2017-2022)
  • Table 76. MEA 3D Reconstruction Technology, by Application USD N (2017-2022)
  • Table 77. MEA 3D Reconstruction Technology, by Construction Method USD N (2017-2022)
  • Table 78. Middle East 3D Reconstruction Technology, by Type USD N (2017-2022)
  • Table 79. Middle East 3D Reconstruction Technology, by Application USD N (2017-2022)
  • Table 80. Middle East 3D Reconstruction Technology, by Construction Method USD N (2017-2022)
  • Table 81. Africa 3D Reconstruction Technology, by Type USD N (2017-2022)
  • Table 82. Africa 3D Reconstruction Technology, by Application USD N (2017-2022)
  • Table 83. Africa 3D Reconstruction Technology, by Construction Method USD N (2017-2022)
  • Table 84. North America 3D Reconstruction Technology, by Country USD N (2017-2022)
  • Table 85. North America 3D Reconstruction Technology, by Type USD N (2017-2022)
  • Table 86. North America 3D Reconstruction Technology, by Application USD N (2017-2022)
  • Table 87. North America 3D Reconstruction Technology, by Construction Method USD N (2017-2022)
  • Table 88. United States 3D Reconstruction Technology, by Type USD N (2017-2022)
  • Table 89. United States 3D Reconstruction Technology, by Application USD N (2017-2022)
  • Table 90. United States 3D Reconstruction Technology, by Construction Method USD N (2017-2022)
  • Table 91. Canada 3D Reconstruction Technology, by Type USD N (2017-2022)
  • Table 92. Canada 3D Reconstruction Technology, by Application USD N (2017-2022)
  • Table 93. Canada 3D Reconstruction Technology, by Construction Method USD N (2017-2022)
  • Table 94. Mexico 3D Reconstruction Technology, by Type USD N (2017-2022)
  • Table 95. Mexico 3D Reconstruction Technology, by Application USD N (2017-2022)
  • Table 96. Mexico 3D Reconstruction Technology, by Construction Method USD N (2017-2022)
  • Table 97. Company Basic Information, Sales Area and Its Competitors
  • Table 98. Company Basic Information, Sales Area and Its Competitors
  • Table 99. Company Basic Information, Sales Area and Its Competitors
  • Table 100. Company Basic Information, Sales Area and Its Competitors
  • Table 101. Company Basic Information, Sales Area and Its Competitors
  • Table 102. Company Basic Information, Sales Area and Its Competitors
  • Table 103. Company Basic Information, Sales Area and Its Competitors
  • Table 104. Company Basic Information, Sales Area and Its Competitors
  • Table 105. Company Basic Information, Sales Area and Its Competitors
  • Table 106. Company Basic Information, Sales Area and Its Competitors
  • Table 107. Research Programs/Design for This Report
  • Table 108. Key Data Information from Secondary Sources
  • Table 109. Key Data Information from Primary Sources
List of Figures
  • Figure 1. Porters Five Forces
  • Figure 2. Supply/Value Chain
  • Figure 3. PESTEL analysis
  • Figure 4. Global 3D Reconstruction Technology: by Type USD N (2017-2022)
  • Figure 5. Global 3D Reconstruction Technology: by Application USD N (2017-2022)
  • Figure 6. Global 3D Reconstruction Technology: by Construction Method USD N (2017-2022)
  • Figure 7. South America 3D Reconstruction Technology Share (%), by Country
  • Figure 8. Asia Pacific 3D Reconstruction Technology Share (%), by Country
  • Figure 9. Europe 3D Reconstruction Technology Share (%), by Country
  • Figure 10. MEA 3D Reconstruction Technology Share (%), by Country
  • Figure 11. North America 3D Reconstruction Technology Share (%), by Country
  • Figure 12. Global 3D Reconstruction Technology share by Players 2022 (%)
  • Figure 13. Global 3D Reconstruction Technology share by Players (Top 3) 2022(%)
  • Figure 14. Global 3D Reconstruction Technology share by Players (Top 5) 2022(%)
  • Figure 15. BCG Matrix for key Companies
  • Figure 16. Acute3D (France) Revenue, Net Income and Gross profit
  • Figure 17. Acute3D (France) Revenue: by Geography 2022
  • Figure 18. Agisoft PhotoScan Revenue, Net Income and Gross profit
  • Figure 19. Agisoft PhotoScan Revenue: by Geography 2022
  • Figure 20. Autodesk (United States) Revenue, Net Income and Gross profit
  • Figure 21. Autodesk (United States) Revenue: by Geography 2022
  • Figure 22. Elcovision (Switzerland) Revenue, Net Income and Gross profit
  • Figure 23. Elcovision (Switzerland) Revenue: by Geography 2022
  • Figure 24. Photometrix (Brazil) Revenue, Net Income and Gross profit
  • Figure 25. Photometrix (Brazil) Revenue: by Geography 2022
  • Figure 26. PhotoModeler (Canada) Revenue, Net Income and Gross profit
  • Figure 27. PhotoModeler (Canada) Revenue: by Geography 2022
  • Figure 28. Pix4D (Switzerland) Revenue, Net Income and Gross profit
  • Figure 29. Pix4D (Switzerland) Revenue: by Geography 2022
  • Figure 30. RealityCapture Revenue, Net Income and Gross profit
  • Figure 31. RealityCapture Revenue: by Geography 2022
  • Figure 32. Realsense (Intel) (United States) Revenue, Net Income and Gross profit
  • Figure 33. Realsense (Intel) (United States) Revenue: by Geography 2022
  • Figure 34. Skyline Software Systems (United States) Revenue, Net Income and Gross profit
  • Figure 35. Skyline Software Systems (United States) Revenue: by Geography 2022
List of companies from research coverage that are profiled in the study
  • Acute3D (France)
  • Agisoft PhotoScan
  • Autodesk (United States)
  • Elcovision (Switzerland)
  • Photometrix (Brazil)
  • PhotoModeler (Canada)
  • Pix4D (Switzerland)
  • RealityCapture
  • Realsense (Intel) (United States)
  • Skyline Software Systems (United States)
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Historical year: 2018-2022; Base year: 2022; Forecast period: 2023 to 2028
Companies that are profiled in Global 3D Reconstruction Technology Market are Acute3D (France), Agisoft PhotoScan, Autodesk (United States), Elcovision (Switzerland), Photometrix (Brazil), PhotoModeler (Canada), Pix4D (Switzerland), RealityCapture, Realsense (Intel) (United States) and Skyline Software Systems (United States) etc.
Gaming and Entertainment segment in Global market to hold robust market share owing to "Increasing Demand of 3D Mobile Applications and Movies ".
AMA Research predicts that United States Players will contribute to the maximum growth of Global 3D Reconstruction Technology market throughout the forecasted period.

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