Technology is revolutionizing every aspect of daily life. It has improved the longevity and quality of modern structures in several ways. The construction industry has evolved rapidly with the installation of new high-tech devices in homes and builders using state-of-the-art equipment and tools to build structures that will last a lifetime. Innovative construction technology enables huge improvements in the productivity, efficiency and safety of large-scale construction projects. Here are some of the latest and modern technologies used in home construction.
5 Technologies used in the construction of houses:
· Prefabricated walls
Building Information Modeling
Drones have had a huge impact and contribution on the construction industry in recent years, and they are set to grow even more. A drone can dramatically improve the accuracy, speed, and safety standards of many parts of the construction cycle. The drones are equipped with high-resolution cameras and once the data is collected, they can create 3D or interactive topographic maps. Drones can have a huge impact and difference on construction sites in the following ways:
Rented or purchased equipment used on a job site can be misplaced fairly quickly, but with the use of a drone it can be located and still tracked on site.
Building and construction sites are vulnerable to theft of equipment and materials on non-working days. A drone can be used to survey and monitor the site for security purposes when workers are not present.
During the pre-construction phase, mapping is essential to this process. Aerial drones can be used to efficiently and quickly survey a wide range of land, reducing mapping costs by up to 95%.
Telematics is revolutionizing the construction industry, optimizing efficiency and visibility. Telematics is all about data and is used by well known companies such as drivewaypaving.ie. It allows you to send and receive data through telecommunications technology. Telematics is used in the construction industry to track vehicles, construction machinery and heavy equipment. Technology ensures safety, GPS
monitoring, remote diagnosis and fleet management. Telematics used during the housing process will allow a company to manage multiple projects and sites, monitor hours of use to determine when equipment needs maintenance, know exactly where construction assets are still located, and monitor the use of assets to maximize production.
GPS-enabled telematics is essential to keeping a construction site running by locating and tracking construction assets and equipment. Knowing what assets you have for the project is important to keep construction on budget and on schedule. Multiple job sites can be monitored easily using on-screen locations to ensure all sites are stocked with the equipment they need, monitoring engine hours for preventative maintenance, and keeping track of the whole operation as fuel efficient and safe as possible.
Robotics has not yet played a significant role in the construction industry. However, construction sites are getting smarter and with the rise of technology, robots can be programmed and used on construction projects today. There are 3 main types of robots that seem poised to reshape the construction industry, including the following:
Fully autonomous robots
Fully autonomous robots can scan the environment and perform many difficult tasks with tools alone.
· Collaborative robots
Collaborative robots can be used on a construction site to help a human carry the appropriate equipment and tools.
Factory robots can perform a simple manufacturing task perfectly and repeatedly.
Cartesian robots are the most popular robots due to their capability and ease of 3D printing. Cartesian robots use a 3-axis X, Y and Z system of Cartesian coordinates. 3D printing is one of the most popular applications to enter the construction industry. This is due to the ability to create a variety of products, including a 3D printed house. The efficient, affordable and fast way to 3D print a house.
Building Information Modeling
Building Information Modeling is a process used in construction creating a digital presentation of a structure before building begins. A precise presentation of the building will allow all the actors of the construction to determine the logistics, to anticipate the difficulties, to increase the efficiency and to eliminate all the risks. The top priority for any construction project team is to stay on budget and BIM will help significantly with this. BIM uses tools such as 3D laser scanners and robotic total stations to give the designer deeper insight into projects. BIM can be used at all stages of construction.
Building Information Modeling helps reduce the need for future change orders by anticipating challenges.
· During construction
BIM improves efficiency and communication by providing a central hub for accurate and up-to-date reference documentation.
· After building
BIM software can create the ability to manage the building for the entire lifecycle of structures by providing owners with valuable information about every detail of the building. BIM has become one of the most important developments in construction due to its effects and improvements on all aspects of the construction process.
Technology is constantly changing and evolving, and it now plays a huge role in building new homes. With the help of technological advancements in the construction industry, the longevity and quality of modern structures have improved dramatically.
Prefab construction is a sustainable and cost-effective building technology that is used in the newest and modern housing projects without compromising the quality of building materials. Precast concrete is a superb building material offering durable and flexible solutions for roofs and walls when building homes. Prefab is more efficient and requires less labor. This saves time and money. Precast concrete walls are fabricated offsite in a controlled environment. The construction process is accelerated with the use of prefabricated walls. It is an optimal technology for developers of large housing projects where reduced risks of project delays, low costs and high productivity are essential. The technology also uses less steel, cement, water and labor compared to traditional slabs and walls.