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市場調查報告書
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1514833

全球 3D 光學計量市場規模研究(按類型、組件、產業、應用和區域預測)2024-2032 年

Global 3D Optical Metrology Market Size Study, by Type, by Component, by Industry, by Application, and Regional Forecasts 2024-2032
出版日期: | 出版商: Bizwit Research & Consulting LLP | 英文 200 Pages | 商品交期: 2-3個工作天內

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簡介目錄

2023年全球3D光學計量市場價值約75.7億美元,預計在2024-2032年預測期內將以超過8.44%的健康成長率成長。 3D 光學計量利用光作為資訊載體來測量製造產品和組件的尺寸、距離和溫度等物理特性。隨著工業 4.0 的興起和向自動化的轉變,對 3D 光學計量等先進技術的需求不斷成長。該技術提高了測量和分析的精度,對於在3D空間中繪製複雜產品具有不可估量的價值。

3D 光學計量因其對複雜產品的高效且經濟高效的檢測能力而在工業領域得到越來越多的採用。它捕獲詳細的資料點並提供精確的測量,從而改善產品設計、製造流程和品質控制。該技術也為流程最佳化提供了重要見解,幫助公司降低成本,同時提高效率、安全性和產品品質。儘管具有許多優點,但 3D 光學計量系統的高設定成本可能會阻礙其廣泛採用。然而,持續的進步和對改進可追溯性的日益成長的需求預計將推動該技術在全球製造業中的採用。

自動光學檢測 (AOI) 系統在整個製造領域的廣泛採用凸顯了 3D 光學計量的日益重要的意義。 AOI 系統、座標測量機 (CMM)、雷射掃描和光學數位化儀在確保各種應用中測量的準確性和可靠性方面都發揮著至關重要的作用。這些工具不僅有助於快速缺陷檢測和品質保證,而且還支援複雜的幾何測量和逆向工程過程。

先進的 3D 光學計量硬體產品(例如攜帶式測量臂、雷射追蹤儀和光學掃描儀)的可用性對於精確測量至關重要。這些組件可滿足各種精密測量應用的需求,確保全面的資料擷取和準確的解釋。隨附的軟體模組可最佳化網格、準備 3D 列印的 3D 掃描,並使品質控制專業人員能夠執行詳細的檢查並產生全面的報告。

航空航太和國防、汽車、製造和半導體等產業顯著受益於 3D 光學計量。這些行業依賴尺寸檢測、品質控制和流程最佳化技術。此外,製藥業也利用 3D 光學計量來分析片劑和膠囊等成分,確保它們符合嚴格的規格。

全球 3D 光學計量研究涵蓋的關鍵地區包括亞太地區、北美、歐洲、拉丁美洲和世界其他地區。就收入而言,北美是 3D 光學計量領域的主導地區。該地區市場的成長歸因於製造業日益轉向自動化和創新等因素。在工業成長、政府促進本地生產的舉措以及先進製造技術的採用的推動下,亞太地區也正在經歷快速擴張。然而,在工業成長、政府促進本地生產的舉措以及先進製造技術的採用的推動下,亞太地區市場預計在預測期內將以最快的速度成長。此外,完善的製造業和對創新技術的大量投資正在進一步促進區域市場的成長。

本報告中包含的主要市場參與者包括:

  • 愛德萬測試公司
  • 阿美特克公司
  • Artec歐洲有限公司
  • 阿特拉斯·科普柯公司
  • 貝克休斯公司
  • 布魯克公司
  • 卡爾蔡司公司
  • 康耐視公司
  • FARO 技術有限公司
  • 六角公司
  • InnovMetric 軟體公司
  • 業納股份公司
  • 基恩士公司
  • 科蘭公司
  • 馬爾有限公司

目錄

第 1 章:全球 3D 光學計量市場執行摘要

  • 全球3D光學計量市場規模與預測(2022-2032)
  • 區域概要
  • 分部摘要
    • 按類型
    • 按組件
    • 按行業分類
    • 按申請
  • 主要趨勢
  • 經濟衰退的影響
  • 分析師推薦與結論

第 2 章:全球 3D 光學計量市場定義與研究假設

  • 研究目的
  • 市場定義
  • 研究假設
    • 包容與排除
    • 限制
    • 供給側分析
      • 可用性
      • 基礎設施
      • 監管環境
      • 市場競爭
      • 經濟可行性(消費者的角度)
    • 需求面分析
      • 監理框架
      • 技術進步
      • 環境考慮
      • 消費者意識和接受度
  • 估算方法
  • 研究涵蓋的年份
  • 貨幣兌換率

第 3 章:全球 3D 光學計量市場動態

  • 市場促進因素
    • 日益關注工業 4.0 和自動化
    • 製造業對精確測量的需求不斷成長
    • 流程最佳化和成本降低
  • 市場挑戰
    • 設定成本高
    • 技術複雜性和整合問題
  • 市場機會
    • 3D 計量技術的進步
    • 新興用例和應用程式
    • 改進的可追溯性和品質控制

第 4 章:全球 3D 光學計量市場產業分析

  • 波特的五力模型
    • 供應商的議價能力
    • 買家的議價能力
    • 新進入者的威脅
    • 替代品的威脅
    • 競爭競爭
    • 波特五力模型的未來方法
    • 波特的 5 力影響分析
  • PESTEL分析
    • 政治的
    • 經濟
    • 社會的
    • 技術性
    • 環境的
    • 合法的
  • 頂級投資機會
  • 最佳制勝策略
  • 顛覆性趨勢
  • 產業專家視角
  • 分析師推薦與結論

第 5 章:2022-2032 年全球 3D 光學計量市場規模及類型預測

  • 細分儀表板
  • 全球 3D 光學計量市場:類型收入趨勢分析,2022 年和 2032 年
    • 3D自動光學檢測系統
    • 三坐標測量機
    • 雷射掃描
    • 光學數位化儀

第 6 章:2022-2032 年全球 3D 光學計量市場規模及按組件預測

  • 細分儀表板
  • 全球 3D 光學計量市場:2022 年和 2032 年元件收入趨勢分析
    • 硬體
    • 軟體

第 7 章:2022-2032 年全球 3D 光學計量市場規模及產業預測

  • 細分儀表板
  • 全球3D光學計量市場:2022年及2032年產業收入趨勢分析
    • 航太與國防
    • 建築與施工
    • 汽車與運輸
    • 能源與公用事業
    • 製造業
    • 醫療與製藥
    • 半導體與電子

第 8 章:2022-2032 年全球 3D 光學計量市場規模及應用預測

  • 細分儀表板
  • 全球 3D 光學計量市場:2022 年和 2032 年應用收入趨勢分析
    • 品質管制
    • 快速原型製作
    • 逆向工程
    • 虛擬組裝

第 9 章:2022-2032 年全球 3D 光學計量市場規模及地區預測

  • 北美3D光學計量市場
    • 美國3D光學計量市場
      • 2022-2032 年型別細分規模與預測
      • 2022-2032 年組件細分尺寸與預測
      • 2022-2032 年產業細分規模及預測
      • 2022-2032 年應用細分規模與預測
    • 加拿大3D光學計量市場
  • 歐洲3D光學計量市場
    • 英國3D光學計量市場
    • 德國3D光學計量市場
    • 法國3D光學計量市場
    • 西班牙3D光學計量市場
    • 義大利3D光學計量市場
    • 歐洲其他地區 3D 光學計量市場
  • 亞太地區3D光學計量市場
    • 中國3D光學計量市場
    • 印度3D光學計量市場
    • 日本3D光學計量市場
    • 澳洲3D光學計量市場
    • 韓國3D光學計量市場
    • 亞太地區其他地區 3D 光學計量市場
  • 拉丁美洲3D光學計量市場
    • 巴西3D光學計量市場
    • 墨西哥3D光學計量市場
    • 拉丁美洲其他地區 3D 光學計量市場
  • 中東和非洲3D光學計量市場
    • 沙烏地阿拉伯3D光學計量市場
    • 南非3D光學計量市場
    • 中東和非洲其他地區 3D 光學計量市場

第 10 章:競爭情報

  • 重點企業SWOT分析
  • 頂級市場策略
  • 公司簡介
    • Advantest Corporation
      • 關鍵訊息
      • 概述
      • 財務(視數據可用性而定)
      • 產品概要
      • 市場策略
    • AMETEK, Inc.
    • Artec Europe, Sarl
    • Atlas Copco AB
    • Baker Hughes Company
    • Bruker Corporation
    • Carl Zeiss AG
    • Cognex Corporation
    • FARO Technologies, Inc.
    • Hexagon AB
    • InnovMetric Software Inc.
    • Jenoptik AG
    • Keyence Corporation
    • KLA Corporation
    • Mahr GmbH

第 11 章:研究過程

  • 研究過程
    • 資料探勘
    • 分析
    • 市場預測
    • 驗證
    • 出版
  • 研究屬性
簡介目錄

Global 3D Optical Metrology Market is valued at approximately USD 7.57 billion in 2023 and is anticipated to grow with a healthy growth rate of more than 8.44% over the forecast period 2024-2032. 3D optical metrology leverages light as an information carrier to measure physical properties such as dimensions, distances, and temperatures of manufacturing products and components. With the rise of Industry 4.0 and the shift towards automation, there is a growing demand for advanced technologies like 3D optical metrology. This technology enhances precision in measurement and analysis, making it invaluable for mapping complex products in three-dimensional space.

3D optical metrology is increasingly adopted in the industrial sector due to its efficient and cost-effective inspection capabilities for intricate products. It captures detailed data points and provides precise measurements, thereby improving product design, manufacturing processes, and quality control. This technology also offers significant insights into process optimization, helping companies reduce costs while enhancing efficiency, safety, and product quality. Despite its advantages, the high setup costs of 3D optical metrology systems can hinder its widespread adoption. However, ongoing advancements and the increasing need for improved traceability are expected to drive the technology's uptake in manufacturing sectors globally.

The high adoption of automated optical inspection (AOI) systems across the manufacturing sector highlights the growing significance of 3D optical metrology. AOI systems, coordinate measuring machines (CMMs), laser scanning, and optical digitizers each play crucial roles in ensuring the accuracy and reliability of measurements in various applications. These tools not only facilitate rapid defect detection and quality assurance but also support complex geometric measurements and reverse engineering processes.

The availability of advanced 3D optical metrology hardware products, such as portable measuring arms, laser trackers, and optical scanners, is crucial for precise measuring purposes. These components cater to a wide range of precision measurement applications, ensuring comprehensive data capture and accurate interpretation. The accompanying software modules optimize meshes, prepare 3D scans for 3D printing, and enable quality control professionals to perform detailed inspections and generate comprehensive reports.

Industries such as aerospace & defense, automotive, manufacturing, and semiconductor sectors are significantly benefiting from 3D optical metrology. These sectors rely on the technology for dimensional inspection, quality control, and process optimization. Additionally, the pharmaceutical industry utilizes 3D optical metrology for analyzing components like tablets and capsules, ensuring they meet stringent specifications.

The key regions considered for the global 3D Optical Metrology study include Asia Pacific, North America, Europe, Latin America, and Rest of the World. North America is a dominating region in the 3D Optical Metrology in terms of revenue. The market growth in the region is being attributed to factors including the increasing shift towards automation and innovation in manufacturing. The APAC region is also experiencing rapid expansion, driven by industrial growth, government initiatives to boost local production, and the adoption of advanced manufacturing technologies. Whereas, the market in Asia Pacific is anticipated to grow at the fastest rate over the forecast period fueled by industrial growth, government initiatives to boost local production, and the adoption of advanced manufacturing technologies. Also, well-established manufacturing sectors and substantial investments in innovative technologies are further fostering the regional market growth.

Major market players included in this report are:

  • Advantest Corporation
  • AMETEK, Inc.
  • Artec Europe, S.a.r.l.
  • Atlas Copco AB
  • Baker Hughes Company
  • Bruker Corporation
  • Carl Zeiss AG
  • Cognex Corporation
  • FARO Technologies, Inc.
  • Hexagon AB
  • InnovMetric Software Inc.
  • Jenoptik AG
  • Keyence Corporation
  • KLA Corporation
  • Mahr GmbH

The detailed segments and sub-segment of the market are explained below:

By Type:

  • 3D Automated Optical Inspection System
  • Coordinate Measuring Machine
  • Laser Scanning
  • Optical Digitizer

By Component:

  • Hardware
  • Software

By Industry:

  • Aerospace & Defense
  • Architecture & Construction
  • Automotive & Transportation
  • Energy & Utilities
  • Manufacturing
  • Medical & Pharmaceuticals
  • Semiconductor & Electronics

By Application:

  • Quality Control
  • Rapid Prototyping
  • Reverse Engineering
  • Virtual Assembly

By Region:

  • North America
  • U.S.
  • Canada
  • Europe
  • UK
  • Germany
  • France
  • Spain
  • Italy
  • ROE
  • Asia Pacific
  • China
  • India
  • Japan
  • Australia
  • South Korea
  • RoAPAC
  • Latin America
  • Brazil
  • Mexico
  • RoLA
  • Middle East & Africa
  • Saudi Arabia
  • South Africa
  • RoMEA

Years considered for the study are as follows:

  • Historical year - 2022
  • Base year - 2023
  • Forecast period - 2024 to 2032

Key Takeaways:

  • Market Estimates & Forecast for 10 years from 2022 to 2032.
  • Annualized revenues and regional level analysis for each market segment.
  • Detailed analysis of geographical landscape with Country level analysis of major regions.
  • Competitive landscape with information on major players in the market.
  • Analysis of key business strategies and recommendations on future market approach.
  • Analysis of competitive structure of the market.
  • Demand side and supply side analysis of the market.

Table of Contents

Chapter 1. Global 3D Optical Metrology Market Executive Summary

  • 1.1. Global 3D Optical Metrology Market Size & Forecast (2022-2032)
  • 1.2. Regional Summary
  • 1.3. Segmental Summary
    • 1.3.1. By Type
    • 1.3.2. By Component
    • 1.3.3. By Industry
    • 1.3.4. By Application
  • 1.4. Key Trends
  • 1.5. Recession Impact
  • 1.6. Analyst Recommendation & Conclusion

Chapter 2. Global 3D Optical Metrology Market Definition and Research Assumptions

  • 2.1. Research Objective
  • 2.2. Market Definition
  • 2.3. Research Assumptions
    • 2.3.1. Inclusion & Exclusion
    • 2.3.2. Limitations
    • 2.3.3. Supply Side Analysis
      • 2.3.3.1. Availability
      • 2.3.3.2. Infrastructure
      • 2.3.3.3. Regulatory Environment
      • 2.3.3.4. Market Competition
      • 2.3.3.5. Economic Viability (Consumer's Perspective)
    • 2.3.4. Demand Side Analysis
      • 2.3.4.1. Regulatory frameworks
      • 2.3.4.2. Technological Advancements
      • 2.3.4.3. Environmental Considerations
      • 2.3.4.4. Consumer Awareness & Acceptance
  • 2.4. Estimation Methodology
  • 2.5. Years Considered for the Study
  • 2.6. Currency Conversion Rates

Chapter 3. Global 3D Optical Metrology Market Dynamics

  • 3.1. Market Drivers
    • 3.1.1. Growing Focus on Industry 4.0 and Automation
    • 3.1.2. Increasing Demand for Precise Measurement in Manufacturing
    • 3.1.3. Process Optimization and Cost Reduction
  • 3.2. Market Challenges
    • 3.2.1. High Setup Costs
    • 3.2.2. Technical Complexity and Integration Issues
  • 3.3. Market Opportunities
    • 3.3.1. Advancements in 3D Metrology Technology
    • 3.3.2. Emerging Use Cases and Applications
    • 3.3.3. Improved Traceability and Quality Control

Chapter 4. Global 3D Optical Metrology Market Industry Analysis

  • 4.1. Porter's 5 Force Model
    • 4.1.1. Bargaining Power of Suppliers
    • 4.1.2. Bargaining Power of Buyers
    • 4.1.3. Threat of New Entrants
    • 4.1.4. Threat of Substitutes
    • 4.1.5. Competitive Rivalry
    • 4.1.6. Futuristic Approach to Porter's 5 Force Model
    • 4.1.7. Porter's 5 Force Impact Analysis
  • 4.2. PESTEL Analysis
    • 4.2.1. Political
    • 4.2.2. Economical
    • 4.2.3. Social
    • 4.2.4. Technological
    • 4.2.5. Environmental
    • 4.2.6. Legal
  • 4.3. Top investment opportunity
  • 4.4. Top winning strategies
  • 4.5. Disruptive Trends
  • 4.6. Industry Expert Perspective
  • 4.7. Analyst Recommendation & Conclusion

Chapter 5. Global 3D Optical Metrology Market Size & Forecasts by Type 2022-2032

  • 5.1. Segment Dashboard
  • 5.2. Global 3D Optical Metrology Market: Type Revenue Trend Analysis, 2022 & 2032 (USD Billion)
    • 5.2.1. 3D Automated Optical Inspection System
    • 5.2.2. Coordinate Measuring Machine
    • 5.2.3. Laser Scanning
    • 5.2.4. Optical Digitizer

Chapter 6. Global 3D Optical Metrology Market Size & Forecasts by Component 2022-2032

  • 6.1. Segment Dashboard
  • 6.2. Global 3D Optical Metrology Market: Component Revenue Trend Analysis, 2022 & 2032 (USD Billion)
    • 6.2.1. Hardware
    • 6.2.2. Software

Chapter 7. Global 3D Optical Metrology Market Size & Forecasts by Industry 2022-2032

  • 7.1. Segment Dashboard
  • 7.2. Global 3D Optical Metrology Market: Industry Revenue Trend Analysis, 2022 & 2032 (USD Billion)
    • 7.2.1. Aerospace & Defense
    • 7.2.2. Architecture & Construction
    • 7.2.3. Automotive & Transportation
    • 7.2.4. Energy & Utilities
    • 7.2.5. Manufacturing
    • 7.2.6. Medical & Pharmaceuticals
    • 7.2.7. Semiconductor & Electronics

Chapter 8. Global 3D Optical Metrology Market Size & Forecasts by Application 2022-2032

  • 8.1. Segment Dashboard
  • 8.2. Global 3D Optical Metrology Market: Application Revenue Trend Analysis, 2022 & 2032 (USD Billion)
    • 8.2.1. Quality Control
    • 8.2.2. Rapid Prototyping
    • 8.2.3. Reverse Engineering
    • 8.2.4. Virtual Assembly

Chapter 9. Global 3D Optical Metrology Market Size & Forecasts by Region 2022-2032

  • 9.1. North America 3D Optical Metrology Market
    • 9.1.1. U.S. 3D Optical Metrology Market
      • 9.1.1.1. Type breakdown size & forecasts, 2022-2032
      • 9.1.1.2. Component breakdown size & forecasts, 2022-2032
      • 9.1.1.3. Industry breakdown size & forecasts, 2022-2032
      • 9.1.1.4. Application breakdown size & forecasts, 2022-2032
    • 9.1.2. Canada 3D Optical Metrology Market
  • 9.2. Europe 3D Optical Metrology Market
    • 9.2.1. U.K. 3D Optical Metrology Market
    • 9.2.2. Germany 3D Optical Metrology Market
    • 9.2.3. France 3D Optical Metrology Market
    • 9.2.4. Spain 3D Optical Metrology Market
    • 9.2.5. Italy 3D Optical Metrology Market
    • 9.2.6. Rest of Europe 3D Optical Metrology Market
  • 9.3. Asia-Pacific 3D Optical Metrology Market
    • 9.3.1. China 3D Optical Metrology Market
    • 9.3.2. India 3D Optical Metrology Market
    • 9.3.3. Japan 3D Optical Metrology Market
    • 9.3.4. Australia 3D Optical Metrology Market
    • 9.3.5. South Korea 3D Optical Metrology Market
    • 9.3.6. Rest of Asia Pacific 3D Optical Metrology Market
  • 9.4. Latin America 3D Optical Metrology Market
    • 9.4.1. Brazil 3D Optical Metrology Market
    • 9.4.2. Mexico 3D Optical Metrology Market
    • 9.4.3. Rest of Latin America 3D Optical Metrology Market
  • 9.5. Middle East & Africa 3D Optical Metrology Market
    • 9.5.1. Saudi Arabia 3D Optical Metrology Market
    • 9.5.2. South Africa 3D Optical Metrology Market
    • 9.5.3. Rest of Middle East & Africa 3D Optical Metrology Market

Chapter 10. Competitive Intelligence

  • 10.1. Key Company SWOT Analysis
  • 10.2. Top Market Strategies
  • 10.3. Company Profiles
    • 10.3.1. Advantest Corporation
      • 10.3.1.1. Key Information
      • 10.3.1.2. Overview
      • 10.3.1.3. Financial (Subject to Data Availability)
      • 10.3.1.4. Product Summary
      • 10.3.1.5. Market Strategies
    • 10.3.2. AMETEK, Inc.
    • 10.3.3. Artec Europe, S.a.r.l.
    • 10.3.4. Atlas Copco AB
    • 10.3.5. Baker Hughes Company
    • 10.3.6. Bruker Corporation
    • 10.3.7. Carl Zeiss AG
    • 10.3.8. Cognex Corporation
    • 10.3.9. FARO Technologies, Inc.
    • 10.3.10. Hexagon AB
    • 10.3.11. InnovMetric Software Inc.
    • 10.3.12. Jenoptik AG
    • 10.3.13. Keyence Corporation
    • 10.3.14. KLA Corporation
    • 10.3.15. Mahr GmbH

Chapter 11. Research Process

  • 11.1. Research Process
    • 11.1.1. Data Mining
    • 11.1.2. Analysis
    • 11.1.3. Market Estimation
    • 11.1.4. Validation
    • 11.1.5. Publishing
  • 11.2. Research Attributes