Overview
Global Construction Robot Market reached US$ 0.5 billion in 2022 and is expected to reach US$ 0.9 billion by 2030, growing with a CAGR of 15.6% during the forecast period 2023-2030.
Labor shortages in the construction industry are cause for concern, but robots may bridge the gap by carrying out jobs that would normally require human workers. Construction robot adoption is increasingly enticing as manpower becomes more expensive and scarce. As they can operate continuously without getting tired, construction robots can be more effective and productive on construction sites, which can lead to quicker project completion and cost savings.
For instance, on 27 November 2022, at the Massachusetts Institute of Technology, engineers developed robots that can self-assemble and construct a wide range of things, including vehicles, buildings and even larger robots. The new discovery demonstrates that the structures built by assembling robots may be constructed from the same sub-units and that these "voxel-based" robots can move independently in vast numbers to efficiently complete large-scale assembly.
In 2022, Asia-Pacific is expected to be the dominant and fastest growing region in the global construction robots market covering more than 1/3rd of the market. Many countries in Asia-Pacific are experiencing rapid urbanization, leading to increased construction activities. Construction robots helps to meet the demand for labor in this sector. Construction robots can fill this labor gap and improve productivity. Ongoing advancements in robotics and artificial intelligence are making construction robots more capable and cost-effective.
Dynamics
Enhanced Productivity
Construction robots can perform repetitive tasks with precision and speed, reducing the time required for construction projects. Robots handles dangerous or hazardous tasks, reducing the risk of accidents and injuries on construction sites. Construction robots can be scaled to handle various tasks, from bricklaying to concrete pouring, allowing for versatility in project execution. Construction robots can be integrated with Building Information Modeling systems, streamlining project planning and execution.
For instance, on 18 October 2022, Brokk, a leading manufacturer of remote-controlled demolition robots, introduced the BROKK SURFACE GRINDER 530 (BSG 530) attachment for material removal, surface preparation and polishing in renovation and restoration applications. Compatible with Brokk 170, Brokk 200 and Brokk 300 models, the BSG 530 enables contractors to complete tasks up to 10 times faster than the manual method.
Rising Collaboration and Agreement Boost the Market
The construction industry is becoming more receptive to advanced technologies. As construction robots become more sophisticated and capable, companies are eager to incorporate them into their operations. Collaborations with robot manufacturers allow them to access cutting-edge solutions. Construction robots can help bridge this gap by automating repetitive tasks and augmenting the workforce. Agreements with robot providers enable construction companies to access this labor-saving technology.
For instance, on 13 March 2023, FBR, an Australian robotic technology company, entered into a funding agreement with UK-based shareholder M&G Investment Management to manufacture and deploy three additional Hadrian X robots for U.S. market. The deal involves M&G purchasing 277 million FBR shares worth US$ 9.14 million. FBR goal is to provide a faster, safer and more sustainable solution for the construction industry with its robotic technology.
Technology Advancement
More autonomous construction robots are able to complete tasks without continual human supervision, including navigation, obstacle avoidance and decision-making. Robots can sense their environment with a high degree of accuracy due to advanced sensors like LiDAR, cameras and depth sensors, this is essential for jobs requiring spatial awareness and object recognition.
For instance, on 9 August 2023, Dr. Alicia Nahmad Vazquez, an associate professor at the University of Calgary’s School of Architecture, Planning and Landscape (SAPL), is conducting research to revolutionize the construction industry by merging human craftsmanship with robotics. Her team aims to enhance construction efficiency while preserving human skill and craftsmanship and their work involves democratizing the construction sector by integrating technology commonly used in factories into construction sites, making it accessible to a broader range of tradespeople.
Complex and Time-Consuming Process
Construction tasks can be highly complex, requiring adaptability, creativity and human judgment. Robots struggle with tasks that involve intricate decision-making, especially in unpredictable environments. Developing, purchasing and maintaining construction robots can be expensive. Smaller construction companies may find it challenging to invest in such technology, limiting its accessibility.
Programming construction robots for specific tasks can be time-consuming and require expertise. Workers need training to operate and supervise the robots effectively. Ensuring the safety of both workers and robots is crucial. Robots operating near humans need advanced safety features to prevent accidents and injuries. Some construction sites have uneven terrain or confined spaces that are challenging for robots to navigate. Mobility limitations can restrict their use in certain environments.

Segment Analysis
The global construction robot market is segmented based on type, automation, function, application and region.
Robotics Arms Automate Various Process
In 2022, robotic arm is expected to be the dominant segment in the global market covering around 1/3rd of the market. Robotic arms can perform repetitive tasks with precision and speed, leading to higher efficiency in construction processes. Robots can handle risky tasks, reducing the probability of accidents and injuries to human workers. It can consistently perform tasks with high precision, leading to improved quality control in construction projects.
For instance, on 23 March 2023, Advanced Construction Robotics (ACR) introduced IronBOT, a robot designed to handle rebar on construction sites. IronBOT can lift, carry and place bundles of horizontal and longitudinal rebar weighing up to 5,000 lbs. The system doesn’t require pre-programming or calibration and can automate rebar placement based on spacing requirements. The deployment of both IronBOT and TyBOT, another ACR system that ties steel reinforcement bars, is said to reduce rebar installation times by 50%.
Geographical Penetration
Various Technology Innovations in North America
North America is the second dominant region in the global construction robots market covering about 1/4th of the market. The region is a hub for technological innovation, with many companies and research institutions working on advancing construction robotics and artificial intelligence. Construction robots can be customized for specific projects, making them versatile and adaptable to various construction requirements.
For instance, on 19 January 2023, Boston Dynamics’ humanoid robot Atlas demonstrated its advanced capabilities by performing tasks on a construction site. Atlas was shown manipulating objects and modifying its actions based on its surroundings. It delivered a bag of tools to a person on a multi-story scaffold, pushed a cargo box, climbed stairs, jumped between levels and executed an inverted 540-degree flip known as the ’Sick Trick’.

Competitive Landscape
The major global players in the market include Brokk, Komastu, Construction Robotics,TopTec Spezialmaschinen,Fujita,MX3D, Alpine Sales and Rental, Giant Hydraulic Tech, nLink and Apis Cor.

COVID-19 Impact Analysis
The pandemic disrupted global supply chains, leading to delays in the production and delivery of construction robot components. Many manufacturers faced challenges in sourcing essential parts, which affected their ability to meet demand. Lockdowns and worksite closures in various regions disrupted construction projects. As a result, the deployment of construction robots was delayed or put on hold, impacting their adoption and utilization.
The construction industry experienced labor shortages due to COVID-19 restrictions, with many workers falling ill or unable to work. Construction robots were seen as a potential solution to compensate for the reduced workforce. The pandemic accelerated the construction industry’s interest in automation and robotics. Companies explored robotic solutions to minimize the need for human labor, reduce health risks and maintain construction project timelines..
To comply with social distancing measures, construction robots were increasingly operated and monitored remotely and this shift highlighted the potential for remote control and supervision of construction robots in the future. Construction robots were deployed for tasks that required minimal human intervention, reducing the risk of virus transmission. Robots were used for tasks such as cleaning and disinfecting construction sites.
AI Impact
AI algorithms enables construction robots to autonomously navigate and operate within construction sites and they can detect obstacles, plan optimal paths and avoid collisions, improving safety and efficiency. AI-powered sensors, such as cameras and LiDAR, can provide construction robots with advanced perception capabilities and can identify objects, people and changes in the environment, enabling better decision-making.
AI algorithms can optimize construction tasks by considering various factors, including project schedules, available resources and environmental conditions and this helps construction robots perform tasks more efficiently. AI can predict when construction robot components or equipment might fail, allowing for proactive maintenance and reducing downtime, this predictive maintenance approach ensures that robots operate smoothly.
For instance, on 17 August 2023, Dubai Municipality, through its Dubai Central Laboratory, has introduced AI robots for testing construction materials in the city and these robots employ X-ray technology to conduct chemical analyses of construction materials and cement products. The initiative aims to enhance the quality of construction testing services by significantly reducing testing durations, from 4 days to just 8 minutes and increasing the number of samples examined daily by up to 650%.
Russia- Ukraine War Impact
If the conflict disrupts supply chains, it could affect the production and distribution of components and materials needed for manufacturing construction robots and this could lead to delays in production and increased costs. Geopolitical tensions resulting from the war could affect international trade and cooperation in the robotics industry. Export restrictions and sanctions could limit the flow of construction robots and related technologies.
Geopolitical unrest can make businesses unwilling to invest in cutting-edge technologies like construction robots, which could impede their acceptance and restrain the market’s expansion. There might be a stronger emphasis on repairing infrastructure and mitigating war-related damage in the conflict-affected area and these initiatives to speed up reconstruction may involve the use of construction robots.
By Type


    • Robotic ARM
    • Traditional Robot
    • Exoskeleton


By Automation


  • • Fully Autonomous
    • Semi-Autonomous


By Function


  • • Demolition
    • Bricklaying
    • 3D Printing
    • Concrete Structural Erection
    • Finishing Work
    • Others


By Application


  • • Public Infrastructure
    • Commercial and Residential Buildings
    • Nuclear Dismantling and Demolition
    • Others


By Region


  • • North America


o U.S.
o Canada
o Mexico


  • • Europe


o Germany
o UK
o France
o Italy
o Russia
o Rest of Europe


  • • South America


o Brazil
o Argentina
o Rest of South America


  • • Asia-Pacific


o China
o India
o Japan
o Australia
o Rest of Asia-Pacific


  • • Middle East and Africa


Key Developments


  • • In March 2023, Hilti, a provider of construction technology and services, has announced a strategic partnership with Canvas, a construction robotics company. Canvas has developed a robotic drywalling solution that can apply level 5 and level 4 drywall finishes more quickly, safely and reliably compared to traditional methods.
    • In July 2023, Construction company Laing O’Rourker partnered with Robotics Australia Group for enhancing productivity, labour shortages and safety in the construction sector. Laing O’Rourke sees the partnership as an opportunity to identify and integrate robotics-related technologies into its projects. The partnership will facilitate connections between emerging technology companies and established businesses and support the growth of the Australian robotics industry.
    • In November 2022, Trimble, an American technology company providing software, hardware and services and Exyn Technologies, a manufacturer of autonomous aerial robot systems, are collaborating on the development of autonomous construction surveying technology. It will combine Boston Dynamics’ Spot robot, Exyn’s ExynPak powered by ExynAI and Trimble’s X7 total station to enable fully autonomous missions within complex construction environments.


Why Purchase the Report?


  • • To visualize the global construction robot market segmentation based on type, automation, function, application and region, as well as understand key commercial assets and players.
    • Identify commercial opportunities by analyzing trends and co-development.
    • Excel data sheet with numerous data points of construction robot market-level with all segments.
    • PDF report consists of a comprehensive analysis after exhaustive qualitative interviews and an in-depth study.
    • Product mapping available as excel consisting of key products of all the major players.


The global construction robot market report would provide approximately 69 tables, 70 figures and 203 pages.
Target Audience 2023


  • • Manufacturers/ Buyers
    • Industry Investors/Investment Bankers
    • Research Professionals
    • Emerging Companies