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螢幕醫學影像診斷

市場調查報告書

商品編碼

1615093

3D成像市場:各零件，配置，各技術，各業界，各地區，2024年～2031年

3D Imaging Market By Component (Hardware, Software), Deployment (Cloud, On-premise), By Technology (Stereo Imaging, Time-of-Flight (ToF)), Industry (Healthcare, Manufacturing, Government) & Region for 2024-2031

出版日期: 2024年09月23日 | 出版商:

Verified Market Research | 英文 202 Pages | 商品交期: 2-3個工作天內

價格

簡介目錄

2024-2031 年 3D 影像市場評估

3D 成像在各個行業中越來越受歡迎，因為它可以提供更準確、身臨其境和高效的解決方案。在醫療保健產業，3D 影像透過提供內部結構的精確視圖並協助手術規劃，正在改變醫療診斷和治療。此外，在汽車行業，3D 成像對於製造自動駕駛汽車至關重要，因為它可以準確感知周圍環境和複雜系統。 2024年市場規模將超過379.6億美元，2031年將達到約1,807.7億美元。

在娛樂產業，對 3D 影像的需求不斷增長，尤其是在遊戲和虛擬實境應用中。 3D 成像技術可實現更逼真和身臨其境的圖形，提高用戶參與度並為講故事開闢新的可能性。隨著技術的進步和變得更加容易獲得，對 3D 成像的需求將繼續增長，從而有可能推動創新並在多個行業中實現新的應用。由於對經濟高效的 3D 成像的需求不斷增長，2024 年至 2031 年該市場將以 21.5% 的複合年增長率增長。

3D 影像市場定義/概述

3D成像是一種使用特殊設備和軟體捕獲並產生物體和場景的三維表示的技術。此技術可描繪物體的深度、輪廓和空間關係，提供比典型 2D 成像更真實、更身臨其境的體驗。 3D成像應用廣泛。在醫療保健領域，它用於診斷，例如 MRI 和 CT 掃描，可提供器官和組織的詳細影像。在娛樂和遊戲領域，3D成像改善了視覺效果並增加了沉浸感。在製造和工程領域，我們透過 3D 建模和列印來幫助設計和測試原型。

隨著技術的不斷發展和各行業需求的不斷增加，3D成像的潛力是巨大的。在醫療保健領域，3D 影像、人工智慧和機器學習的結合預計將透過實現更準確的診斷和治療計劃來徹底改變個人化醫療。在汽車和航空航太產業，3D 建模和模擬的改進可實現更有效率、更安全的設計。

隨著擴增實境 (AR) 和虛擬實境 (VR) 變得越來越普遍，3D 成像在為培訓、娛樂和遠端協作創建逼真的環境方面將變得越來越重要。隨著 3D 成像技術變得越來越容易獲得和負擔得起，其應用預計將擴展到教育、零售和房地產等新市場，從而改善用戶體驗和決策。

哪些因素推動3D成像市場需求快速成長？

醫療保健領域 3D 影像技術的進步正在推動產業向前發展。 3D 影像技術的進步極大地推動了醫療保健產業的發展，因為它可以實現更準確的診斷和個人化治療。據世界衛生組織 (WHO) 稱，到 2050 年，全球 60 歲以上人口預計將超過 21 億，這增加了對先進醫學影像系統的需求。 3D 影像越來越多地應用於放射學、腫瘤學和外科手術，以改善複雜解剖結構的可視化並帶來更好的診斷和治療結果。解決與年齡相關的健康狀況和改善患者護理的需求推動了醫療保健領域對 3D 成像的日益依賴，這對我正在做的 3D 成像市場的成長做出了重大貢獻。

擴增實境 (AR) 和虛擬實境 (VR) 的日益普及正在推動 3D 影像市場的發展。 3D 成像是這些體驗的重要組成部分，因為 AR 和 VR 技術嚴重依賴 3D 成像來產生逼真和身臨其境的設定。根據國際數據公司（IDC）的研究，到2024年全球AR/VR投資預計將達到728億美元，顯示這些技術正在快速成長。隨著越來越多的公司將 AR 和 VR 納入其營運（包括遊戲、娛樂、教育和醫療保健），對強大的 3D 影像解決方案的需求不斷增加。隨著多種應用對高品質、逼真表現的需求不斷增加，這種接受度的激增正在推動 3D 成像市場向前發展。

阻礙3D影像市場成長的因素有哪些？

3D成像技術的高成本正在阻礙3D成像市場的成長。創建和分析 3D 成像所需的複雜設備、軟體和知識通常價格昂貴，使得資源有限的中小企業 (SME) 和醫療機構難以採用這些技術。維護和升級 3D 成像系統的成本可能令人望而卻步，尤其是在醫療保健和工業預算有限的欠發達國家。這種經濟障礙可能會阻礙 3D 成像的廣泛採用並限制市場成長，特別是在成本效率至關重要的行業。

資料處理障礙正在阻礙 3D 影像市場的擴張。 3D 成像的產生和分析會產生大量複雜的數據，需要強大的電腦能力和複雜的軟體來處理。這在醫療保健等行業尤其成問題，因為快速、準確的圖像解釋對於這些行業至關重要。處理速度慢、資料儲存要求高以及需要專業人員管理和理解資料都會導致延遲和營運成本增加。將 3D 成像診斷設備與當前 IT 基礎設施整合可能很困難並且阻礙了採用。此類數據處理課題可能會限制 3D 成像系統的效率和可擴展性，特別是在先進計算資源訪問有限的地區和行業，這可能會限制市場成長。

3D imaging is increasingly popular across a wide range of industries, due to its capacity to provide more precise, immersive, and efficient solutions. In the healthcare industry, 3D imaging is transforming medical diagnosis and treatment by providing an exact view of inside structures and assisting with surgical planning. Furthermore, in the automobile industry, 3D imaging is essential for creating self-driving vehicles since it allows for accurate perception of the surroundings and complex systems. The market size surpass USD 37.96 Billion valued in 2024 to reach a valuation of aroundUSD 180.77 Billion by 2031.

The entertainment business is seeing an increase in demand for 3D images, especially in gaming and virtual reality applications. 3D imaging technology enables more realistic and immersive graphics, increasing user engagement and opening up new possibilities for storytelling. As technology advances and becomes more accessible, the need for 3D imaging is likely to rise further, boosting innovation and enabling new applications in several industries. The rising demand for cost-effective and efficient 3D imaging is enabling the market grow at a CAGR of 21.5% from 2024 to 2031.

3D Imaging Market: Definition/ Overview

3D imaging is the technique of capturing and producing three-dimensional representations of objects or scenes with specialized equipment and software. This technique enables the depiction of an object's depth, contours, and spatial relationships, delivering a more realistic and immersive experience than typical two-dimensional imaging. 3D imaging has several applications in a wide range of sectors. In healthcare, it is utilized for diagnostic reasons, such as MRI and CT scans, which provide detailed views of organs and tissues. In both entertainment and gaming, 3D imaging improves visual effects and immersive experiences. In manufacturing and engineering, it aids in the design and testing of prototypes via 3D modeling and printing.

The potential for 3D imaging is enormous, thanks to ongoing technological developments and rising demand across industries. In healthcare, the combination of 3D imaging, artificial intelligence, and machine learning is predicted to transform customized medicine, allowing for more precise diagnosis and treatment plans. The automotive and aerospace industries will gain from improved 3D modeling and simulation, resulting in more efficient and safe designs.

As augmented reality (AR) and virtual reality (VR) gain popularity, 3D imagery will become increasingly important in generating realistic settings for training, entertainment, and remote collaboration. As 3D imaging technology becomes more available and affordable, its uses are expected to extend into new markets such as education, retail, and real estate, where it can improve user experience and decision-making.

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What are the Factors that Surge the Demand for the 3D Imaging Market?

Advancements in 3D imaging technologies in healthcare are propelling the industry forward. The healthcare industry is a major driver since technology advancements in 3D imaging enable more precise diagnostics and individualized treatments. According to the World Health Organization (WHO), the global population aged 60 and more is predicted to exceed 2.1 billion by 2050, driving up the need for advanced medical imaging systems. 3D imaging is increasingly used in radiology, oncology, and surgery, where it improves visualization of complicated anatomical structures, resulting in better diagnosis and treatment outcomes. This increased reliance on 3D imaging in healthcare, driven by the need to address age-related health conditions and improve patient care, is considerably contributing to the growth of the 3D imaging market.

The growing use of augmented reality (AR) and virtual reality (VR) is propelling the 3D imaging market. AR and VR technologies rely largely on 3D imagery to generate realistic and immersive settings; hence 3D imaging is an essential component of their experiences. According to a survey by the International Data Corporation (IDC), global investment in AR/VR is expected to reach $72.8 billion by 2024, demonstrating the rapid growth of these technologies. As more businesses, like gaming, entertainment, education, and healthcare, incorporate AR and VR into their operations, the demand for powerful 3D imaging solutions increases. This spike in acceptance is moving the 3D imaging market ahead, as the demand for high-quality, lifelike representations grows across multiple applications.

What Factors Hinder the Growth of the 3D Imaging Market?

The high cost of 3D imaging technology hinders the growth of the 3D imaging market. The complex equipment, software, and knowledge required to create and analyze 3D pictures are generally expensive, making it tough for small and medium-sized enterprises (SMEs) and healthcare facilities with limited resources to embrace these technologies. The expense of maintaining and improving 3D imaging systems can be prohibitively expensive, particularly in underdeveloped countries where healthcare and industrial budgets are tight. This financial barrier may hinder the broad adoption of 3D imaging, limiting its market growth, particularly in industries where cost-efficiency is critical.

Data processing hurdles impede the expansion of the 3D imaging market. The generation and analysis of 3D images generate massive amounts of complex data, necessitating tremendous computer power and advanced software for processing. This can be especially problematic in industries such as healthcare, where prompt and accurate picture interpretation is essential. Slow processing rates, high data storage needs, and the necessity for specialist personnel to manage and understand the data can all result in delays and increased operational expenses. Integrating 3D imaging devices with current IT infrastructures can be challenging, hindering uptake. These data processing challenges might limit the efficiency and scalability of 3D imaging systems, potentially delaying market growth, especially in locations or sectors with limited access to advanced computing resources.

Category-Wise Acumens

How Will the High Accuracy and Precision Propel the Structured Light Segment for the 3D Imaging Market?

Structured light is currently the dominant segment of the 3D imaging market. Structured light technology's exceptional accuracy and precision drive growth in the 3D imaging market. Structured light systems excel at capturing fine details and intricate geometries with high accuracy, making them excellent for applications that require exact measurements, such as industrial inspection, quality control, and medical imaging. This capacity to produce extremely accurate 3D representations with minimum mistakes is vital in industries where accuracy is essential, increasing demand for structured light solutions and propelling the segment's rise in the 3D imaging market.

The cost-effectiveness of structured light technology is propelling the structured light segment in the 3D imaging market. Structured light systems provide a lower-cost alternative to existing 3D imaging technologies, such as laser scanning, while maintaining excellent accuracy and resolution. This makes them especially appealing in areas such as manufacturing, automotive, and consumer electronics, where budget limitations are critical. The ability to create precise 3D imaging at a cheaper cost encourages more enterprises to use the technology, hence supporting the growth of the structured light segment in the 3D imaging market.

How Does the Medical Imaging Fuel the Healthcare Segment for the 3D Imaging Market?

The healthcare industry is the largest segment of the 3D imaging market. Medical imaging is driving the healthcare section of the 3D imaging market. The growing demand for diagnostic tools in healthcare, such as MRI and CT scans, is driving the adoption of 3D imaging technology. These technologies enable more detailed and accurate representations of anatomical features, resulting in improved diagnosis, treatment planning, and surgical precision. As healthcare providers strive for more effective patient care and outcomes, the demand for 3D imaging in medical applications continues to rise, causing considerable growth in the 3D imaging market's healthcare segment.

Dental applications are boosting the healthcare segment of the 3D imaging market. The use of 3D imaging in dentistry enables for detailed viewing of oral structures, which improves diagnostic accuracy and treatment planning for operations like implants, orthodontics, and root canals. The capacity to construct exact 3D models of teeth and jaw structures leads to better treatment outcomes and patient satisfaction. Dental clinics are progressively adopting advanced imaging technologies to provide higher-quality care and streamline workflows, which is contributing to the growth of the healthcare segment in the 3D imaging market.

Country/Region-wise Acumens

Will the Advanced Research Institutions in North America Lead the or the 3D Imaging Market?

North America has dominated the 3D imaging market. Advanced research institutes in North America, such as MIT, Stanford, and Carnegie Mellon, are pushing the 3D imaging market. Their cutting-edge research & development activities result in advancements that push the frontiers of 3D imaging technology, resulting in higher accuracy, new applications, and better performance. This research drives technical developments in a variety of industries, including healthcare, manufacturing, and entertainment. By creating new techniques and applications for 3D imaging, these institutes help to expand the market significantly. Their contributions not only propel scientific advancements but also increase demand for superior imaging solutions in both established and developing industries.

Strong technology hubs in North America, such as Silicon Valley and Boston, are fueling rapid growth in the 3D imaging market. These innovation centers are driving improvements in 3D imaging technology, which are transforming industries such as healthcare, manufacturing, and entertainment. The enormous technical advancement arising from these hubs is reflected by the expected expansion of the global 3D imaging market to $73.01 billion by 2030, with North America accounting for a significant part. In healthcare, the increasing number of FDA clearances for 3D-printed medical equipment, as well as the growth in new cancer cases, show the growing need for sophisticated imaging. In manufacturing, the expected 10% increase in industrial engineering positions reflects the incorporation of 3D imaging for quality control.

Will the Government Support in Asian Pacific Region's Expand for the 3D Imaging Market?

The Asia-Pacific region is the most rapid rise in the 3D imaging market. Government support in the Asia Pacific is propelling strong growth in the 3D imaging market. Government investments in technology and innovation are driving improvements and increasing acceptance of 3D imaging technologies. For instance, Japan's "Healthcare 2035" project seeks to increase medical research and development investment to 26 trillion yen ($260 billion) by 2035, boosting the use of 3D imaging in healthcare. China's "Made in China 2025" policy, as well as South Korea's projected investment of 450 billion won ($385 million) in digital technologies, demonstrate a commitment to the advancement of manufacturing and digital technologies, including 3D imaging. Furthermore, the entertainment industry's reliance on sophisticated 3D images and graphics promotes market growth. Continuous innovation and technology advances from these main centers are driving significant growth in North America's 3D imaging market.

Rapid economic expansion in countries such as China, India, and Japan is generating major growth in the 3D imaging market. The economic expansion in these countries is driving up healthcare spending and the prevalence of chronic diseases, increasing demand for improved 3D imaging technology for better diagnosis and treatment planning. Manufacturing's high level of automation, particularly in China, is primarily reliant on 3D imaging for quality control. Significant infrastructure projects, like India's ₹111 lakh crore ($1.5 trillion) National Infrastructure Pipeline, are expected to boost the usage of 3D imaging in building and urban planning. Rising healthcare needs, industrial automation, and infrastructure development are driving the 3D imaging market in Asia Pacific.

Competitive Landscape

The 3D imaging market is a dynamic and competitive space, characterized by a diverse range of players vying for market share. These players are on the run for solidifying their presence through the adoption of strategic plans such as collaborations, mergers, acquisitions, and political support.

The organizations are focusing on innovating their product line to serve the vast population in diverse regions. Some of the prominent players operating in the 3D imaging market include:

Siemens Healthineers
GE Healthcare
Philips Healthcare
Canon
Nikon
Sony
Microsoft
Google
Apple
Samsung
Konica Minolta Inc.

Latest Developments

In November 2023, the University of Wisconsin and GE Healthcare announced a 10-year strategic alliance, extending their 40-year partnership. This new research cooperation broadens the present scope of medical imaging to investigate new horizons in digital technology and disease-focused solutions.
In October 2023, Autodesk announced the acquisition of Flexism with plans to incorporate factory simulation and operational efficiency studies into its arsenal of factory design tools.
In June 2023, Panasonic Factory Solutions Asia Pacific Pte. Ltd. (Panasonic) and the Singapore Centre for 3D Printing (SC3DP) collaborated to create a revolutionary multi-material printer that uses multi-wavelength high-power lasers. This innovation permits the quick and easy 3D printing of intelligent, flexible devices.
In May 2023, Trimble, Inc. announced the X9 3D laser scanning system offering a versatile reality capture solution for surveying, construction, and engineering. It was based on proven laser scanning technology and included innovations such as Trimble X-Drive for automatic calibration and survey-grade self-leveling.