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市场调查报告书
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数位双胞胎(DT):市场占有率分析、产业趋势与统计、成长预测(2025-2030 年)

Digital Twin (DT) - Market Share Analysis, Industry Trends & Statistics, Growth Forecasts (2025 - 2030)
出版日期: | 出版商: Mordor Intelligence | 英文 135 Pages | 商品交期: 2-3个工作天内

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简介目录

2025 年数位双胞胎市场规模预估为 361.9 亿美元,预计到 2030 年将达到 1,802.8 亿美元,预测期内(2025-2030 年)的复合年增长率为 37.87%。

数位孪生(DT)-市场-IMG1

主要亮点

  • 新冠疫情使得数位双胞胎技术的采用显着增加。受社交距离和旅行限制的限制,公司正在转向数位双胞胎进行远端流程监控和优化。医疗保健领域也出现了数位双胞胎应用激增的情况,用于模拟病患流量和改善医院资源分配。人们对数位双胞胎日益增长的兴趣不仅限于医疗保健领域。工厂也采用该技术来控制生产线并确保工人安全。
  • 数位双胞胎将人工智慧(AI)、巨量资料、机器学习(ML)和物联网(IoT)融入工业4.0,主要用于工业物联网(IIoT)、工程和製造业务领域。物联网的广泛使用使得数位双胞胎技术更具成本效益,并可供商业世界使用。
  • 数位数位双胞胎的日益广泛使用有望改变製造流程并提供创新方法来降低成本、优化维护、监控资产、减少停机时间和开发新的连网产品。数位双胞胎模型并不新鲜,但它们正在迅速进入製造业和其他行业。物联网和云端基础的平台等技术正在推动数位双胞胎解决方案的广泛采用。
  • 预计市场成长将受到低度开发国家使用的传统系统存在的阻碍。大多数旧有系统都已经开发完成,但主要是为无需连接即可运行而设计和构建的。无法融入提供即时资料的先进感测器技术限制了新兴技术的采用。
  • 然而,自疫情爆发以来,企业开始转向数位孪生来建模和增强其营运的弹性。这种积极主动的方法将帮助您制定强有力的应对和恢復策略,使您能够更好地为未来的市场混乱做好准备。

数位双胞胎(DT)市场趋势

製造业是最大的应用

  • 数位双胞胎将应用于从设计开发到生产和售后服务的整个产品生命週期。这使得製造商能够根据即时回馈不断改进他们的产品和流程。透过创建机械设备的数位复製品,製造商可以预测潜在故障并在问题发生之前安排维护,从而最大限度地减少停机时间并延长资产的使用寿命。透过使用复製产品或生产系统的数位双胞胎,製造商可以减少在工厂车间组装、安装和检验生产系统的成本和时间。
  • 物联网 (IoT) 设备的迅速普及和人工智慧 (AI) 的进步使得更详细的即时资料收集成为可能,这对于创建准确的数位双胞胎至关重要。根据 GSMA 预测,到 2025 年,北美消费者和工业IoT连接总数将成长到 54 亿。
  • 此外,据爱立信称,到 2023 年,全球短距离物联网设备数量将达到 123.9 亿。预计到 2027 年,这一数字将增长到 250 亿。物联网技术的这些发展有可能催生出数位双胞胎市场。
  • 随着製造业变得越来越复杂以及对更先进技术的需求不断增长,公司设计、检验和确认其半导体晶片产品变得越来越困难。数位双胞胎可以实现更快、更完整的 IC检验和确认週期,从而显着提高最终产品品质并缩短上市时间。例如,西门子使用数位双胞胎技术来检验和确认积体电路。
  • 此外,製造业的成长可能会进一步刺激市场需求。达拉斯联邦储备银行的数据显示,2024年2月,美国以外全球工业生产以三个月移动平均计算年增1.1%。此外,根据世界银行的数据,2024年4月全球PMI新出口订单为50.5,製造业PMI为50.3。

北美占有最大市场占有率

  • 随着数位领域与实体世界不断融合,数位双胞胎技术已成为转变产业和营运的重要工具。製造业、航空航太、石油和天然气以及汽车等行业正在有效利用数位双胞胎技术的优势。区域市场采用率的提高和供应商的积极参与预计将推动市场扩张。
  • 例如,美国联邦政府机构已经开始探索数位双胞胎应用,显示该技术的接受度越来越高。Accenture最近的发展表明,空军、海军、能源部、农业部和国家海洋与大气管理局等不同机构都已采用或对数位双胞胎开发表现出浓厚的兴趣。这些措施显示美国政府越来越意识到数位双胞胎所能带来的好处。
  • 此外,该地区的製造业预计将大幅推动对数位双胞胎技术的需求。数位双胞胎技术使製造商能够在实体生产之前开发工具工具机的虚拟复製品。这有助于在数位环境中进行测试和原型製作,使工程师能够在开始实际生产之前识别并解决潜在问题。预计该地区製造业的投资增加和生产能力的增强将在预测期内推动市场大幅成长。
  • 加拿大的製造业、建设业和汽车业正在广泛应用数位双胞胎技术。这些产业正在利用数位双胞胎技术来评估其实物资产的性能,找出需要改进的领域,并最终取得更有利的结果。此外,加拿大医疗保健领域对数位双胞胎技术的日益广泛应用有望推动市场成长。
  • 此外,该国在多个领域都拥有巨大的成长潜力,并有望在未来几年大幅增加市场占有率。随着航太和石油天然气行业投资的激增,市场将利用这些机会。此外,电力产业对可再生能源的日益关注是市场成长的驱动力。

数位双胞胎(DT)市场概览

数位双胞胎市场由 ANSYS Inc.、Cal-Tek SRL、Cityzenith Inc.、通用电气公司和 IBM 公司等主要企业分割。市场参与者正在采取合作和收购等策略来增强其服务产品并获得永续的竞争优势。

  • 2024 年 3 月:IBM Consulting 与 NVIDIA 合作,在开放生态系统中引领客户实现 AI主导的转型。该策略联盟将利用 IBM Consulting 深厚的产业洞察力和技术力,并协同效应NVIDIA 的服务产品,包括 NVIDIA AI Enterprise 软体。值得注意的组件包括 NVIDIA NIM 微服务的引入和多功能 NVIDIA Omniverse 平台。该策略的核心是生成式人工智慧、机器人和数数位双胞胎,它们对于无缝整合到生产环境至关重要。 IBM Consulting 在利用 NVIDIA 的 Isaac Sim 和 Omniverse 建置和部署数位双胞胎应用程式方面处于领先地位。这些应用程式正在编配复杂的多智能体机器人设定并彻底改变供应链和製造业格局。
  • 2024 年 3 月:微软公司和 NVIDIA 透过强大的新整合扩大了他们长期的合作,这些整合利用了 Microsoft Azure、Azure AI 服务、Microsoft Fabric 和 Microsoft 365 中最新的 NVIDIA 生成 AI 和 Omniverse 技术。

其他福利:

  • Excel 格式的市场预测 (ME) 表
  • 3 个月的分析师支持

目录

第 1 章 简介

  • 研究假设和市场定义
  • 研究范围

第二章调查方法

第三章执行摘要

第四章 市场洞察

  • 市场概况
  • 产业吸引力-波特五力分析
    • 供应商的议价能力
    • 消费者议价能力
    • 新进入者的威胁
    • 替代品的威胁
    • 竞争对手之间的竞争
  • 产业价值链分析
  • COVID-19 产业影响评估

第五章 市场动态

  • 市场驱动因素
    • 物联网和云端基础平台的成长
    • 3D 列印技术在製造业的应用激增
    • 计划成本降低目标
  • 市场挑战
    • 欠发达国家基础设施不足和资料安全问题

第六章 市场细分

  • 按应用
    • 製造业
    • 能源和电力
    • 航太
    • 石油和天然气
    • 其他的
  • 按地区
    • 北美洲
      • 美国
      • 加拿大
    • 欧洲
      • 英国
      • 德国
      • 法国
    • 亚洲
      • 中国
      • 日本
      • 印度
    • 澳洲和纽西兰
    • 拉丁美洲
    • 中东和非洲

第七章 竞争格局

  • 公司简介
    • ANSYS Inc.
    • Cal-Tek SRL
    • Cityzenith Inc.
    • General Electric Company
    • IBM Corporation
    • Lanner Group Limited(Royal Haskoning DHV)
    • Mevea Ltd
    • Microsoft Corporation
    • Rescale Inc.
    • SAP SE

第八章投资分析

第九章:市场的未来

简介目录
Product Code: 66631

The Digital Twin Market size is estimated at USD 36.19 billion in 2025, and is expected to reach USD 180.28 billion by 2030, at a CAGR of 37.87% during the forecast period (2025-2030).

Digital Twin (DT) - Market - IMG1

Key Highlights

  • The adoption of digital twin technology witnessed significant growth due to the COVID-19 pandemic. Constrained by social distancing and travel limitations, businesses increasingly turned to digital twins for remote process monitoring and optimization. The healthcare sector also witnessed a sharp rise in the use of digital twins to simulate patient flows and enhance resource allocation in hospitals. This heightened interest in digital twins was not limited to healthcare. Factories also embraced the technology to manage production lines and ensure workers' safety.
  • Digital twins incorporate artificial intelligence (AI), Big Data, machine learning (ML), and the Internet of Things (IoT) in Industry 4.0 and are predominantly used in the industrial Internet of Things (IIoT), engineering, and manufacturing business space. The widespread usage of IoT has made digital twin technology more cost-effective and accessible for the business world.
  • The growth in the use of digital twins is anticipated to transform the manufacturing processes and offer innovative approaches to reducing costs, optimizing maintenance, monitoring assets, reducing downtime, and creating new connected products. Although not new, the digital twin model has been entering manufacturing and other industries rapidly. Technologies such as IoT and cloud-based platforms have been major drivers for the increased adoption of digital twin solutions.
  • The market's growth is expected to be hampered by the presence of traditional systems used in underdeveloped countries. Most of these legacy systems had already been developed but were primarily designed and built to function without connectivity. They cannot incorporate advanced sensor technology that offers real-time data, limiting the adoption of advanced technologies.
  • However, post-pandemic, companies are increasingly turning to digital twins to model and enhance their operational resilience. This proactive approach helps them craft robust response and recovery strategies, better preparing them for future market disruptions.

Digital Twin (DT) Market Trends

Manufacturing to be the Largest Application

  • Digital twins are used throughout the life cycle of a product, ranging from design and development to production and after-sales service. This allows manufacturers to improve products and processes continuously based on real-time feedback. By forming digital replicas of machinery and equipment, manufacturers can predict potential failures and schedule maintenance before issues arise, minimizing downtime and extending the life of assets. Manufacturers can reduce the cost and time associated with assembling, installing, and validating factory production systems using digital twins replicating the product and production systems.
  • The rapid spread of Internet of Things (IoT) devices and advancements in artificial intelligence (AI) enable more detailed and real-time data collection, crucial for creating accurate digital twins. According to GSMA, North America's total number of consumer and industrial IoT connections is forecast to grow to 5.4 billion by 2025.
  • In addition, according to Ericsson, in 2023, the number of short-range IoT devices reached 12.39 billion worldwide. This number is forecast to increase to 25 billion by 2027. Such growing IoT technologies may develop the market for digital twins.
  • As manufacturing complexity and demand for more advanced technology grows, it has become more difficult for companies to design, verify, and validate products of semiconductor chips. Digital twins enable faster and more complete IC verification and validation cycles, leading to significantly higher quality end-products and faster market time. For example, Siemens uses digital twins' technology for IC verification and validation.
  • Furthermore, the manufacturing sector's growth may further propel the market's demand. According to the Dallas Fed, in February 2024, global industrial production, excluding the United States, increased by 1.1% compared to the same time in the previous year, based on three-month moving averages. Furthermore, according to the World Bank, in April 2024, the global PMI amounted to 50.5 for new export orders and 50.3 for manufacturing.

North America Holds Largest Market Share

  • With the continuous integration of the digital realm into the physical world, digital twin technology has become a crucial tool for transforming industries and operations. Sectors such as manufacturing, aerospace, oil and gas, automobile, and others in the area effectively utilize the advantages of digital twin technology. The rise in adoption rates and the active involvement of vendors in the regional market are projected to propel the market's expansion.
  • For instance, federal agencies in the United States have begun exploring the applications of digital twins, showcasing a significant embrace of this technology. Recent reports from Accenture reveal that various entities such as The Air Force, Navy, the Department of Energy, the Department of Agriculture, and the National Oceanic and Atmospheric Administration have introduced the development of digital twins or shown keen interest in doing so. These advancements indicate a growing recognition within the US government of the advantages that digital twins can offer.
  • Moreover, the region's manufacturing sector is expected to drive the demand for digital twin technology at a significant rate. Digital twin technology allows manufacturers to develop virtual replicas of machine tools prior to their physical fabrication. This facilitates testing and prototyping in a digital setting, empowering engineers to identify and resolve potential issues before the start of real production. The increasing investments in the region's manufacturing sector and extensive production capabilities will enable the market to grow significantly during the forecast period.
  • Canadian manufacturing, construction, and automotive sectors are witnessing a substantial adoption of digital twins. These industries leverage digital twin technology to assess the performance of their physical assets, pinpoint areas for enhancement, and ultimately achieve more favorable results. Furthermore, the healthcare sector in Canada is increasingly embracing digital twin technology, poised to propel the market's growth.
  • Moreover, the nation presents substantial growth potential across multiple sectors and is poised to bolster its market share significantly in the coming years. With escalating investments in the aerospace and O&G industries, the market is set to capitalize on these opportunities. Furthermore, the growing attention on renewable energy sources within the power sector is primed to propel the market's growth.

Digital Twin (DT) Market Overview

The digital twin market is fragmented with major players like ANSYS Inc., Cal-Tek SRL, Cityzenith Inc., General Electric Company, and IBM Corporation. Players in the market are adopting strategies such as partnerships and acquisitions to enhance their service offerings and gain sustainable competitive advantage.

  • March 2024: IBM Consulting, in collaboration with NVIDIA, spearheaded AI-driven transformations for its clients within an open ecosystem. This strategic alliance leverages IBM Consulting's profound industry insights and technological prowess, synergizing with NVIDIA's offerings, such as the NVIDIA AI Enterprise software. Noteworthy components include the introduction of NVIDIA NIM microservices and the versatile NVIDIA Omniverse platform. Central to their strategy are generative AI, robotics, and digital twins, pivotal for seamless integration into production environments. IBM Consulting is at the forefront, harnessing NVIDIA's Isaac Sim and Omniverse to craft and deploy digital twin applications. These applications are revolutionizing supply chain and manufacturing landscapes, orchestrating intricate multi-agent robotic setups.
  • March 2024: Microsoft Corp. and NVIDIA expanded their longstanding collaboration with powerful new integrations that leverage the latest NVIDIA generative AI and Omniverse technologies across Microsoft Azure, Azure AI services, Microsoft Fabric, and Microsoft 365.

Additional Benefits:

  • The market estimate (ME) sheet in Excel format
  • 3 months of analyst support

TABLE OF CONTENTS

1 INTRODUCTION

  • 1.1 Study Assumptions and Market Definition
  • 1.2 Scope of the Study

2 RESEARCH METHODOLOGY

3 EXECUTIVE SUMMARY

4 MARKET INSIGHTS

  • 4.1 Market Overview
  • 4.2 Industry Attractiveness - Porter's Five Forces Analysis
    • 4.2.1 Bargaining Power of Suppliers
    • 4.2.2 Bargaining Power of Consumers
    • 4.2.3 Threat of New Entrants
    • 4.2.4 Threat of Substitutes
    • 4.2.5 Intensity of Competitive Rivalry
  • 4.3 Industry Value Chain Analysis
  • 4.4 Assessment of the Impact of COVID-19 on the Industry

5 MARKET DYNAMICS

  • 5.1 Market Drivers
    • 5.1.1 Growth in IoT and Cloud-based Platforms
    • 5.1.2 Surge in Adoption of 3D Printing Technology in the Manufacturing Industry
    • 5.1.3 Objective to Reduce Project Cost
  • 5.2 Market Challenges
    • 5.2.1 Inadequate Infrastructure in Under-developed Countries and Data Security-related Concerns

6 MARKET SEGMENTATION

  • 6.1 By Application
    • 6.1.1 Manufacturing
    • 6.1.2 Energy and Power
    • 6.1.3 Aerospace
    • 6.1.4 Oil and Gas
    • 6.1.5 Automobile
    • 6.1.6 Others Applications
  • 6.2 By Geography
    • 6.2.1 North America
      • 6.2.1.1 United States
      • 6.2.1.2 Canada
    • 6.2.2 Europe
      • 6.2.2.1 United Kingdom
      • 6.2.2.2 Germany
      • 6.2.2.3 France
    • 6.2.3 Asia
      • 6.2.3.1 China
      • 6.2.3.2 Japan
      • 6.2.3.3 India
    • 6.2.4 Australia and New Zealand
    • 6.2.5 Latin America
    • 6.2.6 Middle East and Africa

7 COMPETITIVE LANDSCAPE

  • 7.1 Company Profiles
    • 7.1.1 ANSYS Inc.
    • 7.1.2 Cal-Tek SRL
    • 7.1.3 Cityzenith Inc.
    • 7.1.4 General Electric Company
    • 7.1.5 IBM Corporation
    • 7.1.6 Lanner Group Limited (Royal Haskoning DHV)
    • 7.1.7 Mevea Ltd
    • 7.1.8 Microsoft Corporation
    • 7.1.9 Rescale Inc.
    • 7.1.10 SAP SE

8 INVESTMENT ANALYSIS

9 FUTURE OF THE MARKET