AI and construction
The construction industry has, over time, experienced a range of technological advances, from the way buildings are designed to the way materials are produced and how they are combined to form buildings.
If one considers the shifts from hand-drawn plans to CAD, 3D models, environmental modelling, and on to BIM and VR, or from hand tools to electrical tools to robotics, onsite construction to offsite fabrication, and so on. Each innovative technological change has brought with it more effective and efficient ways to design and construct buildings, assess performance, and indeed, a certain level of disruption to the norms of the day.
Today, in a very short space of time, there have been shifts or potential shifts from computational design (CD) to algorithmic design (AD), machine learning (ML) to artificial intelligence (AI), natural language processing (NLP) to generative artificial intelligence (gen AI), through to artificial general intelligence. While many of these technologies are yet to become fully mainstream, there is already a long list of AI building design tools readily available, and the changes or potentialities are significant. The promise of such emergent innovative technologies is an enhancement of efficiency, production, and safety. What is clear is that these are set to become disruptive technologies at all levels of the construction industry, from conception to design, to detailed assessment of designs, planning and evaluation, material extraction and production, the process of selection, fabrication, and construction, through to the management and running of buildings.
AI in planning and design has the potential to use algorithms that can analyse vast amounts of data to help architects and engineers create smarter designs. While machine learning (ML) algorithms might assist in predicting potential project risks and identifying areas for improvement, Virtual reality (VR) simulations powered by AI allow stakeholders to visualise projects before final decisions are made, potentially reducing the possibility of design errors and thus risks.
AI in project management can potentially help optimise project schedules and resourcing, while natural language processing (NLP) algorithms enable automated analysis of various project documents, such as contracts and permits. Analytic tools can in turn assist with estimating, costing, value engineering, embodied carbon estimates, and so forth.
In terms of safety and risk management, AI has the potential to assess site issues, further expanding already used algothimic tools such as agent based modelling to estimate both site workers and final occupants potential behaviour, for example, in fire scenarios. Smart equipment, such as intelligent safety helmets, can also directly help detect hazards and alert workers on site. The use of hand held sensors and helmet cameras can help monitor and check site processes, safety procedures, and adherance to protocols.
The same tools, along with AI algorithms, can help analyse images to detect construction and defects, enhance quality control processes, and perform snagging and general checks.
Already-implemented robotic surveying and construction tools, then powered by AI, can increasingly perform repetitive construction actions and improve through learning while having the ability to maintain quality control, potentially more constantly, efficiently, and accurately than human workers. While equipment sensors can help monitor mechanical machinery performance and prevent downtime due to error and failure,.
Artificial intelligence is currently and will potentially continue to revolutionise the construction industry, from the earliest stages of design and procurement through to how buildings are made, occupied, and used. The potential lies in achieving unprecedented levels of efficiency and productivity. What is seemingly clear is that these kinds of changes in such a short space of time and throughout the spectrum of processes that go towards the making of buildings are unprecidented and will most likely be disruptive to the norms beyond any other change. The change will have both positive and negative aspects, depending on perspective.
[edit] Related articles on Designing for Buildings
- 5G is Paving the Way for AI and Big Data Technologies in Construction.
- AI building design tools.
- AI building planning, design, construction and management tools list.
- Artificial intelligence and civil engineering.
- Artificial Intelligence and its impact on the project profession.
- Artificial intelligence and surveying.
- Artificial intelligence for smarter, safer buildings.
- Artificial intelligence in buildings.
- Artificial intelligence in the construction industry
- Architectural Technology and AI.
- BSRIA publishes Artificial Intelligence in Buildings white paper.
- Building automation and control systems.
- Building information modelling.
- Computer aided design CAD.
- Computers in building design.
- Construction project professionals and AI.
- Designing Buildings Wiki and ECA forge a new alliance powered by AI.
- Generative design.
- Global building automation.
- Internet of things.
- Mind the AI gap.
- Parametric design.
- Predictive analytics.
- The long expanding list of AI tools for building planning, design, construction and management.
- The impact of digital on civil engineering.
- Will AI ever be able to design buildings?
Featured articles and news
Ministers to unleash biggest building boom in half a century
50 major infrastructure projects, 5 billion for housing and 1.5 million homes.
RIBA Principal Designer Practice Note published
With key descriptions, best practice examples and FAQs, with supporting template resources.
Electrical businesses brace for project delays in 2025
BEB survey reveals over half worried about impact of delays.
Accelerating the remediation of buildings with unsafe cladding in England
The government publishes its Remediation Acceleration Plan.
Airtightness in raised access plenum floors
New testing guidance from BSRIA out now.
Picking up the hard hat on site or not
Common factors preventing workers using head protection and how to solve them.
Building trust with customers through endorsed trades
Commitment to quality demonstrated through government endorsed scheme.
New guidance for preparing structural submissions for Gateways 2 and 3
Published by the The Institution of Structural Engineers.
CIOB launches global mental health survey
To address the silent mental health crisis in construction.
New categories in sustainability, health and safety, and emerging talent.
Key takeaways from the BSRIA Briefing 2024
Not just waiting for Net Zero, but driving it.
The ISO answer to what is a digital twin
Talking about digital twins in a more consistent manner.
Top tips and risks to look out for.
New Code of Practice for fire and escape door hardware
Published by GAI and DHF.
Retrofit of Buildings, a CIOB Technical Publication
Pertinent technical issues, retrofit measures and the roles involved.
New alliance will tackle skills shortage in greater Manchester
The pioneering Electrotechnical Training and Careers Alliance.