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August 5, 2025
Digital Twin is another remarkable emerging technology in the construction industry.
Reports from MarketsandMarkets show that its market continues to hold an upward trajectory, expected to reach USD 110.0 billion by 2028 from USD 10.1 billion in 2023. Market players in the automotive industry are leveraging digital twins to facilitate a more efficient manufacturing process.
And as we know, the technology is not married to one sector, and has vast applications from managing an entire smart city to predicting crop yields by monitoring soil health.
Digital twins coupled with Artificial Intelligence (AI) open up a realm of possibilities.
If AI makes digital twins smart, generative AI powers them with the ability to imagine and craft entirely new futures. However, complexities in data collection and data loss due to cyber threats throw some serious wrenches into the growth of the digital twin industry.
This article unfolds the current scenario, possibilities, and applications of Digital Twins and Generative AI in the construction industry.
Generative AI redefines the fundamental processes in the construction industry, offering capabilities never imagined before.
As the traditional AI workflows continue to empower predictive analysis, classification of tasks, and resource optimization, generative AI gives the power of creation. Generative AI models in the field of computer science refer to the systems that can produce new content.
It can be design schematics, construction plans, detailed shop drawings, or optimized schedules.
Generative AI’s capabilities, however, have strengthened further to create simulations for testing multiple scenarios and generating outcomes for enhanced cost-effectiveness. Construction firms and BIM services providers are considering this more than just a trend. It is, rather, a strategic move to enhance productivity and position themselves as leaders in innovation.
There are several Gen AI tools in the market that are beneficial from design and planning to the execution and risk management stage.
Design optimization tools: Generative AI tools integrated with Revit enhance the design process with optimal material selection for structural integrity and environmental sustainability. Designers can generate multiple options of the same design and even simulate various climatic conditions to create climate-resilient and eco-conscious designs.
Scheduling of construction processes also plays a central role in smooth project execution. As we know, building a structure involves numerous steps, and if sufficient time is not allotted to the processes, the whole project may get disrupted. Gen AI comes to the rescue in these scenarios, with its data analysis, reasoning, and generative capabilities. AI-powered scheduling tools can generate project timelines based on a range of critical factors such as weather conditions, material availability, issues encountered in previous projects, etc.
Traditional resource allocation methods prolong the process, and modern construction cannot afford that. An industry that is dynamic, involves multiple stakeholders, tight deadlines, firms need to adopt new age methodologies. While humans can beat AI in creative tasks, when it comes to data analysis, AI takes the stage. By analyzing the available manpower, equipment, materials, and the project timeline, generative AI can efficiently distribute resources, aiming for maximum efficiency.
With the capability to simulate real-life construction scenarios, Gen AI can assess potential risks on-site. Since the industry involves the lives at stake of the workers, the predetermination of safety hazards and potential bottlenecks becomes indispensable.
Gen AI can prepare accurate Bills of Quantities and Bills of Materials, unlike traditional processes. It can generate those directly from the BIM model and also reflect changes as the model undergoes any updates. This saves time, cost, and ensures a smooth procurement process.
Digital twins are the virtual replicas with detailed specifications, dimensions, and characteristics of the actual physical systems. These replicas or twins are usually created by scanning a structure or a part of the structure through the scan-to-BIM method.
Creating digital twins has several applications in the construction industry, ranging from virtual prototyping to facility management. It enables paperless construction, clash detection, and constructability analysis.
Design and Engineering: A digital twin consists of very detailed specifications of various trades involved, like architecture, engineering, mechanical, electrical, and plumbing. It will be a mirrored copy of its real-life alternative.
Hence, digital twins provide engineers the freedom to try and test various design options and come up with the best design.
Course of construction: The technology also excels at streamlining project execution when connected with Internet of Things (IoT) sensors. It helps monitor the progress of the building in real-time through data sent by the sensors placed at various locations. Project managers can pre-plan logistics, material requirements, workforce allocation, and track progress against the project timeline.
Operation and Maintenance: Once the construction is completed, the digital twin will become an as-built model. This model will hold all the data straight from the design to the construction phase. Facility managers can use this data to find installation dates of various components to calculate which sections need retrofits. And, here’s where it gets interestingー Digital twins, when integrated with AI, become capable of predicting equipment failures, smartly optimizing energy consumption, instantly floating alerts for any safety concerns, and a lot more.
Retrofits and Renovations: Here’s where laser scanning and digital twins collide as friends. Renovations of buildings become very easy using virtual replicas. Once the scan data is converted into a model, professionals can easily identify areas that need immediate attention.
The combination of these two technologies creates promising use cases, driving real value to the industry.
Experts are seeing it as a meaningful association, which can enhance decision-making, real-world simulations, and drive cost-efficiency. Leading engineering firms, John Holland and GHD, are embracing the power of generative AI in their latest bridge projects. Using AI, they generated multiple variations of a bridge design, successfully cutting off concrete usage by 5% and reducing carbon emissions.
Scheduling and resource management also get better with generative AI.
Contractors need not analyze huge data sets and schedule detailed construction processes. Additionally, AI can actively monitor resource usages and idle times, sending actionable insights to project managers and on-site contractors. Further, AI also enhances digital-twin-based facility management, predicting system failures before they occur, reducing downtime, and increasing operational efficiency through predictive maintenance.
There is no room for doubt that manufacturing digital twins integrated with generative AI will help the construction industry become more efficient.
The city of Vatican in collaboration with Microsoft, created a virtual twin of one of the most renowned Italian renaissance architecture St, Peter Basilica.
The project aimed to preserve the structural integrity of the historical site, along with certain additional features for better visitor management.The AI-generated digital twin uses over 4,00,000 high-resolution images and offers immersive virtual tours. Integrated with IoT sensors, it drives smooth visitor flow and provides insights into structural damage invisible to the naked eye.
Developed by the Hong Kong University of Science and Technology (HKUST), this City-Level AI-Enhanced Digital Twin Platform protects the country’s heritage sites across eighteen districts.
Another operational snapshot of AI powered digital replicas, this platform uses sensor data from satellite remote sensing, drones, the Internet of Things (IoT), and radar to intelligently monitor and provide prompt notifications for maintenance and renovation activities of physical system.
The platform uses generative AI to create interactive model agents, to facilitate maintenance checks, simulate various climatic conditions, and circulate emergency warnings.
Virtual Singapore is the world’s first digital twin of a country. The Singapore Land Authority (SLA) led this groundbreaking project, which involved the development of a highly detailed 3D model of the entire country.
The model features terrain and surface information, including buildings, roads, green spaces, and even underground infrastructure. The digital twin aims to aid in urban planning, efficient disaster response, and other infrastructure operations through real-time data and simulations.
“AI is a new paradigm shift, transforming every industry, and infrastructure is no exception,” said Nicholas Cumins, CEO of Bentley, in their annual conference, Bentley Systems’ year in infrastructure 2024.
As the CEO’s mention spotlights the transformative power of AI, Bentley Systems launched OpenSite+ on October 9, 2024.
OpenSite+ is a re-engineered version of Bentley’s OpenSite Designer software, with both versions focusing on infrastructure design.
The company brings a more powerful rollout with integrated Gen AI features that offer real-time design optimizations, 10x faster construction drawing productions, and construction cost optimizations with thousands of design scenarios, in a single click.
As per Joe Viscuso, Senior Vice President of Pennoni, a recognized engineering consulting firm, OpenSite+ helped in faster project completion, with increased accuracy while making real-time design changes, and eliminating the need to switch between platforms by combining design and routine tasks.
These were a few of the real-life use cases of Digital twins and Gen AI for streamlined design and construction processes.
With a staggering CAGR of 24.6% as per a 2025 report from Fortune Business Insights, the global AI construction market size is projected to reach USD 22.68 billion by 2032 from USD 3.93 billion in 2024.
However, many firms are still facing hurdles in implementing AI-based workflows for a couple of reasons. These are keeping them away from leveraging the benefits that we mentioned earlier.
As we have discovered so far, Gen AI’s capabilities in the construction sector are vast. From real-time design optimizations and automated workflows to faster and more accurate plan productions, the possibilities remain limitless. However, understanding these challenges is critical to minimizing potential bottlenecks that companies are facing today.
Upfront investments in software, hardware upgrades, and employee training pose a significant challenge. These factors lay the foundation for how well a company can leverage AI in creating a digital model. Especially for small firms with limited funding options, this becomes a serious setback.
A company willing to reap the benefits of Gen AI should have stringent data management policies. The ISO-19650 standard lays out a universal framework for managing construction information throughout the project lifecycle.
Companies like Pinnacle Infotech, which are ISO-19650 certified, sidestep this obstacle. They can use structured and organized data for the Gen AI models to function efficiently. However, even with proper data management, there still remains fragmented data that needs to be sorted over time.
Hence, companies need to foster a culture where they comply with standard data handling practices.
Rapid adoptions in workflows often leave staff skeptical of the company’s future. Simultaneously, they feel that productivity levels will go down because of learning curves.
To overturn this assumption and foster an innovative culture, companies must prioritize strategies that empower awareness and facilitate a step-by-step implementation of the Gen AI.
These are a few actionable points before starting to implement AI:
Step1: Set a clear vision and communicate it through the entire organization.
Step2: Setting up training and upskilling sessions
Step3: Identifying members who coalesce seamlessly with the changes
Step4: Start with the pilot projects
Step5: Monitor, measure the impact, and make adjustments
A company’s existing workflows remain aligned with its systems, hardware, software, and IT resources.
Abrupt changes in such workflows to integrate AI-driven features can result in data incompatibility and delays in project timelines. Hence, before integrating Gen AI into digital models, companies must perform audits of their existing resources.
Post that, they can get an idea of extent to which they need to customize their workflows, and where they need to replace existing systems and install new ones.
Both of these technologies are at their evolving stages, where numerous possibilities are yet to be uncovered.
With rapidly growing adoptions in the construction industry, the community expresses positive notes on the integration of the two in their current workflows. Digital Twins, when combined with Gen AI, bring a transformative shift to BIM (Building Information Modeling) construction workflows.
Several established companies, along with some startups worldwide, are actively working on improving their workflows through Gen AI and digital twins.
As Augmented Reality (AR) and Virtual Reality (VR) also become a mainstay in the industry, Gen AI is expected to complement them well.
Gen AI can create thousands of interactive virtual representations much faster than traditional AI. It can create multiple design versions, enhance the accuracy of shop drawings, and automate error-prone tasks.
The two technologies will drive substantial changes in the Net Zero scenario of the global construction sector. Recent initiatives of the IKEA East Asia stores involved connecting 37 stores through 7000 data points into a single twin.
An example of how complex and advanced digital twins can get. Coupled with AI, this integrated digital twin smartly monitored the energy consumption and resulted in a 30% reduction in the HVAC energy consumption.
Further, the use of Gen AI in digital twins of data centres will prove as a valuable integration. As data centres produce some million metric tonnes of CO2, predictive analysis and optimized energy consumption through AI-enabled digital twins will fuel this sector’s push towards net-zero emissions.
All in all, digital twins and Gen AI (machine learning) will drive faster completion of net targets of countries who having the most greenhouse gas emissions.
Both technologies are set to conquer the market with their limitless possibilities. While digital twins continue to advance, Gen AI gradually makes its space, empowering the capabilities further.
The revolution that BIM brought to the construction sector is carried forward more gracefully by these two technologies. Processes like quantity take-offs and cost estimation grow more intuitive with real-time updates as per design changes.
No more building alternative design options from scratch. The ability of Gen AI to generate multiple digital twins of a building speeds up the process of choosing the most optimal design.
And most importantly, Digital Twins and Gen AI boost the drive for net-zero emissions as they allow the design of sustainable buildings from scratch.
Also Read:
Fire Protection Design System: Five Steps to Project Success
BIM and Digital Twin Technology
Unveiling BIM's Transformative Power at Global Summit
Leveraging BIM for Efficient Construction Management
Breaking Barriers with Digital Design
Electrical Design in Construction: Fundamentals, Key Elements & Best Practices
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