This article is part of a blog series, in which you can find out how the Internet of Things (IoT) and robotics will grow and the benefits and challenges of using them in the construction industry.

Traditional industries like automotive, consumer goods, and manufacturing have used robots for a long time to expand their businesses. Worldwide, less advanced industries, like construction, are also looking at how they can automate processes using robots in the following areas:

• i-beams
• insulation
• production of construction materials.

Construction companies are always looking for ways to improve their sites' operations through the introduction of digital tools and robots. IoT, and data analytics coupled with robots can help you to minimize:

• health and safety threats
• over-budget spending
• schedule overruns
• theft and waste issues.

Where to use robots and IoT?

Robots and IoT are used to:

• cut
• stack
• bundle
• package
• palletize
• monitor data and asset utilization.

For example, Fanuc Robotics developed a robot that can:

• manipulate fiberglass insulation
• polyisocyanurate board insulation
• house wrap
• pipe foam insulation.

Robots are fully customizable to meet your client's expectations according to their requirements. Integrating robots and IoT into your workflow will help you to be more efficient and more competitive if you use them in your fabrication process.

Meet deadlines

Construction projects are well-known for being late and missing deadlines.

IoT devices connected to robots can help construction companies track their projects' progress.

By equipping site workers and machinery with IoT, such as connected sensors, construction companies can track employee and asset movements to ensure resources are optimized.

IoT-enabled management systems help keep track of material deliveries to sites, so projects can meet deadlines, and reduce costs.

Digital twins of a building not yet built can help to ensure efficiency, keep projects on track, and keep costs under control by:

• testing designs
• keeping plans on track through simulations
• improving operational processes before physical construction begins.

Prevent theft

IoT-connected sensors and digital tracking tools can help reduce theft.

According to insurer Allianz Cornhill, thefts from construction sites cost the UK construction industry $800 Million a year.

During the COVID-19 lockdown, we had a resurgence of thefts from construction sites, according to the UK Construction Equipment Association (CEA), by 50%, as sites were not properly guarded.

Revolutionize health and safety

The main causes of accidents in the construction industry include:

• cuts
• falls
• flying objects landing on workers
• lifting or carrying items.

Site managers can be alerted when workers enter unsafe site areas, thanks to robots that monitor hazardous areas; wearable that monitor hazardous materials; and sensors that inspect platforms which can potentially reduce accidents.

IoT sensors mounted on robots to track noise, vibration, or motion into reputed unsafe areas around sites can improve workforce safety.

Data analytics tools used to analyze historical data can detect patterns for potential damage from environmental or site issues. Having these data available helps reduce costs from accident management, preventing potential recurring on-site casualties.

Astute tools for wise results

Engineering and construction companies worldwide are partnering with technology providers to use robots, IoT tools, digital technologies, and data analysis to boost their performance.

In Australia, GHD, a leading regional construction company, and engineering and advisory services firm, partnered with Orange to co-innovate an IoT as a Service (IoTaaS) platform called connected objects.

The project allows tracking the movement of materials and assets at a construction site in real-time and monitoring the number of people on-site, giving construction companies the data to optimize logistics, detect thefts, and maintain equipment.

Kevin Griffen, Managing Director of Orange Australasia said:

Digital tools like robots, data, and IoT can be of huge benefit to the construction industry. Whether keeping track of assets, reducing the threat of theft, or making sites safer for workers, technology is revolutionizing construction and enabling sites with things that previously couldn’t be done. It helps companies drive fewer injuries, better-budgeted projects, and reduced overruns. Digital is scalable, so these tools can be used on construction projects no matter how large they are. From new factories to airports to housing estates, digital can enhance construction operations.

Robots and IoT transform a traditional industry

With data and digital tools, the construction industry can thrive. According to KPMG 95% of construction companies believe that emerging technologies, including IoT and robots, will fundamentally change the industry.

The Construction industry is known for costly overruns, expensive equipment, skilled labor shortages, and increasingly short project schedules, IoT tools can leverage real-time data to help construction firms to succeed.

What tasks should robots perform?

Construction robots are mainly used in the industry for fabrication. Some robots are used on construction sites. The majority of robots will perform the following tasks:

• assembling construction machinery
• welding various components
• using adhesive application
• assembling doors and windows.

Move, orchestrate, and lay bricks

The traditional process can be very challenging for human beings, certainly physically but also mentally. Brick-laying robots are in their infancy, but they prove beneficial when in use, as they can find variations in blocks and appropriately use bricks or concrete blocks.

For example, a brick factory in France, Lhoist Refractaires, uses robotic systems for palletizing bricks.

Dispense concrete on the job site

Instead of human labor applying the concrete, a robot can layer concrete vertically to form a structure. This process is similar to the application of the adhesive process, except that concrete is much heavier than typical adhesives.

Welding in Japanese construction

The Japanese have introduced welding systems to bring down welding time on construction sites.

One company developed a factory system that uses two six-axis robots to:

• weld structural steel for buildings
• incise holes for plumbing and electrical systems into the beams
• cut i-beams to the right length and weld them
• attach a unique part number to each beam to ensure that the right beam is used onsite.

When the i-beams are delivered to the construction site, the whole process helps to minimize the welding requirements necessary. The time saved is used to develop other projects.

Industry automation with robots and IoT.

Automating your processes with robots and IoT will allow you to:

• increase productivity
• boost efficiency and manufacturing flexibility
• automate the fabrication of modular homes
• build components off-site
• weld materials
• control and self-drive machinery on building sites
• 3D print houses and structures
• make your sites safer and more cost-effective
• ameliorate sustainability
• minimize the impact on the environment
• enhance quality
• eliminate waste.

Automation is not yet the main driver in construction businesses. The potential to change the way we work by using robots in industry is enormous.

It is time to develop new solutions including robotics and the IoT to mitigate key industry challenges.

ABB commissioned a global survey consisting of 1900 large and small construction businesses in Europe, the US, and China. The respondents said the industry has to change immediately as:

• 91% fear a skills crisis over the next 10 years
• 44% struggle to recruit for construction jobs
• 42% need to improve health and safety on building sites
• 42% believe that the environment should drive change.

New robotic and IoT automation solutions

Worldwide, governments are desperate to:

• get affordable and environmentally friendly houses
• meet the environmental goals of reducing the impact of construction
• overcome labor and skills shortages.

Some of the solutions could be to enhance productivity, efficiency, and manufacturing flexibility by:

• introducing more automation in the fabrication of modular homes
• building components off-site
• using robots on building sites to improve safety.

Those solutions would help to improve the image of the industry and mitigate the risks of a skill and labor shortage crisis as it will:

• improve safety
• reduce repetitive tasks
• improve sustainability
• diminish waste, decreasing the impact it has on the environment
• enhance quality.

The above issues are very important in the eyes of young people who envisage working in the construction industry. Making the necessary changes to improve the image will attract more graduates to develop the new technologies they are born with, and less skilled people may be retrained to have more rewarding jobs like controlling robots and new machinery.

Automation and digital solutions will help you to design effective building design and construction processes.

Construction workers account for around 30 percent of workplace injuries and are up to four times more likely to be involved in a fatal accident vs. other sectors, with an estimated 108,000 fatalities every year worldwide. Robots can:

• handle large and heavy loads
• work in hazardous places.

Investment in Robotics and IoT

Placing Robots and IoT at the center of the construction industry value chain will support investment in innovation like:

• automated assembly of walls, floors, and ceilings to create affordable high-rise buildings
• installation of elevators
• production of prefabricated modular homes for intelligent cities
• welding applications
• automated fabrication of steel reinforcement baskets on-site
• efficient deployment of workers.

Several leading universities co-develop new automated technologies with the industry.

For example, ETH Zurich, a leading research university in Switzerland supports research in the field of robotics fabrication in architecture and construction. It has helped establish the world’s first laboratory for collaborative robotic digital fabrication in architecture, hosted at the ETH Institute of Technology in Architecture.

In conclusion

A Procore survey identified 3 measurable benefits of performance visibility thanks to the IoT and real-time data:

Money The survey respondents estimated that around five hours per week (c. 240 hours annually) were saved as a result of performance visibility.

Weighted to the relative sizes of the organizations and to measurable benefits of performance visibility and the manpower costs involved, the results suggested average annual savings of $330,000 per business from addressing performance gaps in the UK and Ireland.

By contrast, those firms that had no visibility of performance estimated they were wasting an average of 3.5 hours per week, with average financial costs to each firm of around $345,000 a year due to poor performance.

Quality and Safety were improved by having performance visibility. For respondents with performance visibility:

• 49% registered fewer defects
• 48% reported better tracking of safety records
• 46% felt visibility supported their compliance with standards such as ISO 9001 / 45001.

Respondents without visibility of their performance globally felt they were hampered:

• 30% in managing risks
• 25% in managing defects
• 23% in managing safety.

Robots help the construction industry to be safer by:

• handling large and heavy loads
• working in difficult to access areas
• allowing new, safer methods of construction
• replacing human intervention in tasks people do not want to perform.

Focusing on health, safety, and sustainability will boost investment in robotics and the IoT. These investments will help to address the challenges of meeting the requirements for:

• urbanization and climate change
• more affordable and sustainable construction
• the industry’s labor shortage
• new, safer ways of building.

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