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建築市場

市場調查報告書

商品編碼

1739598

建築資訊模型軟體市場規模（按類型、應用、部署、最終用戶、地區分類）預測至 2025 年

Global Building Information Modeling Software Market Size By Type, By Application, By Deployment, By End-User, By Geographic Scope and Forecast

出版日期: 2025年05月12日 | 出版商:

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

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簡介目錄

建築資訊模型（BIM）軟體市場規模與預測

建築資訊模型 (BIM) 軟體市場規模預計在 2024 年達到 47.3 億美元，到 2032 年將達到 172.9 億美元，2026 年至 2032 年的複合年成長率為 19.41%。

建築資訊模型 (BIM) 軟體是一款強大的數位工具，用於規劃、設計、建造和管理建築物及基礎設施。與生成2D圖紙的傳統 CAD（電腦輔助設計）軟體不同，BIM 允許使用者建立詳細的 3D 模型，其中包含建築計劃的多個組成部分，包括幾何形狀、空間關係和地理資訊。

BIM 透過建立一個用於計劃設計、視覺化和管理的協作平台，徹底改變了 AEC 產業。 BIM 軟體最常見的用途之一是在設計和規劃階段，建築師和工程師可以創建建築物的綜合 3D 模型。這可以實現設計的即時可視化，從而促進更明智的決策並減少施工過程中的錯誤。

由於技術發展和對永續建築技術日益成長的需求，BIM 軟體的使用預計將大幅成長。人工智慧 (AI) 和機器學習與 BIM 的整合實現了預測分析，幫助計劃經理預見挑戰並最佳化資源配置。

建築資訊模型（BIM）軟體市場動態

影響全球建築資訊模型 (BIM) 軟體市場的關鍵市場動態：

關鍵市場促進因素

對高效計劃管理的需求日益成長：建築業越來越注重簡化計劃管理流程，以節省時間和成本。 BIM 軟體使相關人員能夠即時協作，從而改善計劃規劃、協調和執行。這種效率可以減少錯誤、簡化工作流程並提高整體生產力，使 BIM 成為現代建築計劃的重要工具。

擴大採用永續實踐：隨著相關人員越來越關注能源效率和環境效益，永續性已成為建設產業的關鍵優先事項。 BIM 軟體透過使工程師能夠模擬能源性能、評估材料使用情況並檢驗建築的生命週期，從而促進了永續設計方法的發展。此功能使建築師和工程師能夠建造更永續的建築結構，從而促進了 BIM 在環保計劃中的廣泛應用。

政府措施和法規：全球許多政府都在鼓勵使用 BIM 來提高建築品質和施工效率。一些政府制定了政策和法律，強制要求公共計劃採用 BIM，為 BIM 軟體的應用創造了有利的環境。

主要挑戰

實施成本高昂：不僅BIM軟體的初始投資，硬體升級、培訓以及聘請經驗豐富的專業人員的支出都可能很高。許多中小企業難以證明這些成本的合理性，這可能會阻礙BIM的採用。投資收益（ROI）需要時間才能實現，這也會影響預算核准。

技能短缺：精通 BIM 技術和流程的專業人員嚴重短缺。由於 BIM 包含複雜的技術，招募合格人員可能是一項挑戰。這種短缺可能導致計劃交付延遲、對外部顧問的依賴增加以及營運成本上升，這對中小企業來說尤其沉重。

互通性問題：許多 BIM 工具和軟體平台各自為政，導致相關人員之間的資料交換和協作舉步維艱。軟體系統之間的不相容性會阻礙有效溝通，導致工作流程碎片化、預期不一致以及設計和施工過程中的錯誤。實現無縫互通性是 BIM 領域的關鍵挑戰。

主要趨勢

與先進技術的融合：BIM 與人工智慧 (AI)、機器學習和物聯網 (IoT) 等技術相結合，正在改變計劃的建造和管理方式。人工智慧演算法可以評估大量資料集，從而最佳化設計並預測未來問題，而物聯網設備則可以提供來自施工現場的即時數據，從而改善決策。

雲端基礎的系統：雲端基礎的BIM 系統正日益受到青睞，因為它們使團隊能夠跨多個地點更有效率地溝通。雲端平台提供對專案資料的即時訪問，從而改善溝通並減少數據傳輸延遲。此外，雲端基礎的BIM 軟體包通常包含多種定價模式，因此對於小型公司來說更經濟實惠。

永續性與綠色建築實踐：隨著永續性日益受到重視，BIM 軟體正在融入各種功能，幫助評估和改善建築的環境性能。能源分析、材料最佳化和使用壽命評估等工具正變得越來越普遍，使設計師能夠設計出不僅功能齊全，而且環保的建築。

Building Information Modeling (BIM) software is a powerful digital tool used to plan, design, construct, and manage buildings and infrastructure. Unlike traditional CAD (Computer-Aided Design) software which generates 2D drawings, BIM enables users to produce a detailed 3D model that incorporates multiple components of a building project such as geometry, spatial relationships, and geographical information.

They have transformed the construction and architecture sectors by enabling a collaborative platform for project design, visualization, and administration. One of the most common uses of BIM software is in the design and planning phases where architects and engineers may generate comprehensive 3D models of buildings. This enables real-time visualization of designs promoting improved decision-making and reducing errors during construction.

The use of BIM software is predicted to grow dramatically driven by technological developments and rising demand for sustainable construction techniques. The integration of artificial intelligence (AI) and machine learning into BIM will provide predictive analytics allowing project managers to foresee difficulties and optimize resource allocation.

Global Building Information Modeling (BIM) Software Market Dynamics

The key market dynamics that are shaping the global Building Information Modeling (BIM) Software market include:

Key Market Drivers:

Increased Demand for Efficient Project Management: The construction sector is increasingly focusing on streamlining project management processes to save time and money. BIM software allows stakeholders to collaborate in real time which improves project planning, coordination, and execution. This efficiency reduces errors, streamlines workflows, and increases overall productivity, making BIM a must-have tool for modern construction projects.

Growing Adoption of Sustainable Practices: Sustainability has become a significant priority in the construction industry with stakeholders emphasizing energy efficiency and environmental effect. BIM software promotes sustainable design practices by enabling users to simulate energy performance assess material usage, and examine building life cycles. This functionality enables architects and engineers to build more sustainable structures which contributes to the expanding use of BIM in environmentally friendly projects.

Government Initiatives and Regulations: Many governments throughout the world are encouraging the use of BIM to improve building quality and construction efficiency. Policies and legislation requiring BIM for public projects have evolved in some locations creating a favorable environment for BIM software uptake.

Key Challenges:

High Implementation Expenditures: The initial investment in BIM software as well as the expenditures for hardware upgrades, training, and the prospective hire of experienced specialists can be significant. Many small to medium-sized firms (SMEs) struggle to justify these costs which can prevent them from implementing BIM. The return on investment (ROI) may take time to materialize affecting budget approvals.

Skill Shortages: There is a major scarcity of professionals who are knowledgeable about BIM technologies and processes. Because BIM incorporates complicated technologies, hiring qualified individuals can be difficult. This talent gap can cause delays in project implementation, increased reliance on external consultants, and higher operational costs which can be especially expensive for smaller businesses.

Interoperability Issues: Many BIM tools and software platforms work in silos making data exchange and collaboration difficult among stakeholders. Incompatibility across software systems can impede effective communication resulting in fragmented workflows, misplaced expectations, and mistakes in the design and building processes. Achieving seamless interoperability is a significant challenge in the BIM landscape.

Key Trends:

Integration with Advanced Technologies: The combination of BIM with technologies such as Artificial Intelligence (AI), Machine Learning, and the Internet of Things (IoT) is changing the way projects are built and managed. AI algorithms can evaluate large datasets to optimize designs and forecast future problems whilst IoT devices give real-time data from construction sites which improves decision-making.

Cloud-Based Systems: The adoption of cloud-based BIM systems is gaining traction allowing teams to interact more effectively across several locations. Cloud platforms provide real-time access to project data which improves communication and reduces data transmission delays. Additionally, cloud-based BIM packages sometimes include variable pricing models making them accessible to smaller firms.

Sustainability & Green Building Practices: As the focus on sustainability grows, BIM software incorporates capabilities that assist in assessing and improving building environmental performance. Tools for energy analysis, material optimization, and lifetime evaluation are becoming more common allowing designers to develop buildings that are not only functional but also environmentally responsible.

Global Building Information Modeling (BIM) Software Market Regional Analysis

Here is a more detailed regional analysis of the global building information modeling (BIM) software market:

North America:

North American dominates the building information modeling (BIM) software market owing to its advanced construction industry and early use of digital technology in the architectural, engineering, and construction (AEC) sectors. This dominance is strengthened by government directives and the region's significant investment in infrastructure development.

According to the National Institute of Building Sciences, 72% of construction professionals in the United States said they used BIM in 2021, up from 49% in 2014. The Toronto BIM Community in Canada says that BIM usage increased by 23% between 2019 and 2023. This investment is projected to increase demand for BIM software, as the American Institute of Architects reports that BIM can lower project costs by up to 20% and completion time by up to 30%.

According to the US Green Building Council, the number of LEED-certified buildings that frequently use BIM for energy modeling, has increased by 13.5% per year since 2018. According to the US Department of Energy, BIM-enabled energy modeling can save buildings 18-30% of their energy consumption. In the private sector, a Dodge Data & Analytics poll indicated that 89% of North American contractors feel BIM adds value to sustainable construction projects.

Asia Pacific:

The Asia Pacific region is experiencing the highest growth in the building information modeling (BIM) software industry owing to increasing urbanization and major infrastructure-building efforts. This faster adoption is being driven by government mandates, increased knowledge of BIM benefits, and the region's thriving building industry. According to the United Nations Economic and Social Commission for Asia and the Pacific (UNESCAP), the region's urban population is predicted to increase from 2.3 billion in 2020 to 3.5 billion by 2050, needing effective urban planning and construction approaches.

Another major driving force behind BIM adoption is the desire to increase project efficiency and reduce costs. According to the Japan Federation of Construction Contractors, BIM implementation has resulted in an average of 20% cost savings and a 15% reduction in project duration. In South Korea, the Ministry of Land, Infrastructure, and Transport reported that using BIM in public projects resulted in a 12% reduction in design errors and a 7% increase in overall construction productivity.

According to India's National Building Information Model Standard (NBIMS) committee, using BIM might save up to 20% on project costs by decreasing rework and boosting collaboration. According to the Australian Productivity Commission, implementing BIM in the construction sector has the potential to increase national productivity by up to USD 25 Billion.

Global Building Information Modeling (BIM) Software Market: Segmentation Analysis

The Global Building Information Modeling (BIM) Software Market is segmented based on Type, Application, Deployment, End-User, and Geography.

Building Information Modeling (BIM) Software Market, By Type

3D BIM

4D BIM

5D BIM

6D BIM

7D BIM

Based on the Type, the Global Building Information Modeling (BIM) Software Market is bifurcated into 3D BIM, 4D BIM, 5D BIM, 6D BIM, and 7D BIM. In the global building information modeling (BIM) software market, 3D BIM is the dominant segment due to its foundational role in visualizing and modeling building designs. It allows architects, engineers, and contractors to create detailed three-dimensional representations of a project facilitating better communication and collaboration among stakeholders. The widespread adoption of 3D BIM is driven by its ability to streamline design processes, enhance accuracy, and reduce errors in construction. Therefore, 3D BIM remains the most widely utilized and accessible option in the market.

Building Information Modeling (BIM) Software Market, By Application

Design & Modeling
Construction Management
Facility Management
Building Energy Analysis

Based on the Application, the Global Building Information Modeling (BIM) Software Market is bifurcated into Design & Modeling, Construction Management, Facility Management, and Building Energy Analysis. In the global building information modeling (BIM) software market, design & modeling holds a dominant position. This segment is crucial as it enables architects and engineers to create precise 3D models facilitating better visualization and collaboration during the design phase. The integration of advanced tools in Design & Modeling improves accuracy, reduces errors, and enhances creativity making it essential for modern construction projects. Additionally, this application supports early detection of design flaws leading to cost savings and efficient project execution.

Building Information Modeling (BIM) Software Market, By Deployment

On-Premise
Cloud-Based
Hybrid

Based on the Deployment, the Global Building Information Modeling (BIM) Software Market is bifurcated into On-Premise, Cloud-Based, and Hybrid. In the global building information modeling (BIM) software market, cloud-based deployment is the dominant model. This preference is driven by its scalability, cost-effectiveness, and ease of collaboration. Cloud-based BIM solutions allow users to access the software from any location, facilitating real-time collaboration among project stakeholders which is essential in the construction industry. Additionally, the cloud offers automatic updates and maintenance reducing IT overhead for companies. As projects become more complex and involve multiple teams across various locations, the demand for flexible and accessible solutions makes cloud-based BIM increasingly attractive.

Building Information Modeling (BIM) Software Market, By End-User

Architecture, Engineering, & Construction
Government
Manufacturing
Healthcare
Education

Based on the End-User, the Global Building Information Modeling (BIM) Software Market is bifurcated into Architecture, Engineering, & Construction, Government, Manufacturing, Healthcare, and Education. In the global building information modeling (BIM) software market, the architecture, engineering, and construction (AEC) sector is the dominant end-user. This is primarily due to the high demand for innovative design solutions, improved project efficiency, and enhanced collaboration in construction projects. BIM enables AEC professionals to create detailed digital models that streamline design, visualization, and documentation processes. Additionally, the construction industry's growing emphasis on sustainability and cost management further drives the adoption of BIM technologies.

Building Information Modeling (BIM) Software Market, By Geography

North America
Europe
Asia Pacific
Rest of the World

Based on Geography, the Global Building Information Modeling (BIM) Software Market is classified into North America, Europe, Asia Pacific, and the Rest of the World. The North American region currently dominates the global building information modeling (BIM) software market due to its advanced technological infrastructure, early adoption of BIM practices, and a strong focus on innovation in the construction industry. The presence of key market players along with significant investments in infrastructure projects further strengthens this dominance. Moreover, the increasing demand for enhanced collaboration and efficiency in construction processes has driven the adoption of BIM software in both commercial and residential projects.

Key Players

The "Global Building Information Modeling (BIM) Software Market" study report will provide valuable insight with an emphasis on the global market. The major players in the market are Autodesk, Bentley Systems, Nemetschek Group, Trimble, Inc., Dassault Systems, Schneider Electric, Asite Solutions Ltd, Procore Technologies, Inc., Hexagon AB, and Archidata, Inc.

Our market analysis also entails a section solely dedicated to such major players wherein our analysts provide an insight into the financial statements of all the major players, along with product benchmarking and SWOT analysis. The competitive landscape section also includes key development strategies, market share, and market ranking analysis of the above-mentioned players globally.

Global Building Information Modeling (BIM) Software Market Key Developments

In May 2023, Autodesk, Inc. released the first set of features for Autodesk Forma, an industry cloud that would integrate workflows across teams who design, build, and run the built environment. Forma's initial capabilities focus on the early-stage planning and design process, using automation and AI-powered insights to simplify the exploration of design concepts, offload repetitive tasks, and help evaluate environmental qualities surrounding a building site, allowing architects to focus on creative solutions.
In April 2023, Autodesk, Inc. conducted a global research of over 2,500 corporate leaders and experts from the Design and Make industries, which include architecture, engineering, construction, and operations (AECO), product design and manufacture (D&M), and media and entertainment (M&E).