AROBOTS
Development of task-specific control systems and their configuration of individual construction robots in order to develop the most optimal solution for individualized automated construction robots.
AROBOTS
Machine Learning
Our machine learning algorithms can be used to teach our AROBOTS to recognize patterns in their environment and to adapt their behavior accordingly. For example, a finishing AROBOT could be trained to recognize different types of surfaces and adjust its painting or plastering technique accordingly.
Natural Language
Our integrated natural language processing algorithms can be used to enable AROBOTS to understand and respond to human commands or questions. For example, a human worker could give a verbal command to a panelized installation robot to move a panel to a specific location.
Predictive Analytics
Our predictive analytics can be used to analyze data collected by our AROBOTS and make predictions about future outcomes. For example, an automated excavation AROBOT could use predictive analytics to estimate the time and resources required to complete a digging task.
Our Advancements
Introducing AROBOTS into the construction industry can significantly transform operations by streamlining operations, enhancing safety, improving productivity, and driving innovation. This shift will benefit construction companies and impact the broader economy by enabling more sustainable and efficient construction practices.
Our AROBOTS
EARTH WORK AROBOTS
Multi-purpose robotic equipment and machines.
By utilizing AI-powered automated equipment in construction earthworks, construction professionals can optimize productivity, reduce material wastage, and achieve higher levels of accuracy and efficiency. These AI advancements in earthwork equipment can lead to cost savings, reduced construction timelines, and improved project outcomes, ultimately benefiting the construction industry and infrastructure development.
coming soon
These equipment play crucial roles in the concrete works phase of construction projects, from mixing and transporting concrete to placing, finishing, and ultimately achieving the desired concrete surface quality. By integrating AI and automation into some of these machines, there's great potential to further optimize concrete works, making them more efficient, accurate, and safe.
Multi-purpose robotic equipment and machines.
By incorporating AI-powered automation into steelworks equipment, the steel industry can benefit from increased efficiency, reduced operational costs, improved product quality, and enhanced worker safety. These AI-driven advancements have the potential to transform steel manufacturing and processing, making it more competitive and sustainable in the rapidly evolving industrial landscape.
Multi-purpose robotic equipment and machines.
By incorporating AI-powered automation into interior finishing equipment, construction professionals can achieve higher levels of accuracy, productivity, and quality. These advancements have the potential to revolutionize the interior finishing industry, making it more efficient, cost-effective, and capable of delivering superior results for clients.
SURVEYING WORKS AROBOTS
Multi-purpose robotic equipment and machines.
By leveraging AI-powered automated surveying equipment, professionals can optimize data collection and decision-making processes. These advancements lead to more accurate measurements, reduced surveying time, and enhanced overall site management. Integrating AI in construction surveying works paves the way for more efficient and informed construction projects, ultimately benefiting the construction industry as a whole.