Latest trends in the AEC Industry

Amazing! Latest trends in the AEC Industry

Information about Latest trends in the AEC Industry

Phil Puccio

The AEC industry has developed at an incredible pace like never before. Technological integrations are being adopted in the various sectors of the AEC industry and tremendous results are being achieved. As technology evolves in the future, more options are open to the AEC domain. In this blog we discuss the latest technological trends in the AEC industry!

Digital twins are gradually finding their way into the AEC domain. A digital twin can be defined as a virtual model of a building that collects real information about the structure via sensors, drones and / or other wireless technologies.

A digital twin is also commonly referred to as BIM-IoT integration. BIM (Building Information Modeling) enables architects, engineers and contractors to jointly plan, design, build and manage the various physical and functional properties of a building using 3D models; whereas IOT (Internet of Things) includes devices and sensors that have built-in wireless connectivity. These are provided in the built environment and can extract real-time data and provide important information about the performance of the various components.

The “twin” can continuously learn from multiple sources, including advanced analytics, artificial intelligence (AI) and machine learning algorithms, to provide valuable insights into the performance, operations and profitability of a project, whether it is built or in progress is.

This technology can be used for building management, where graphical BIM models automatically provide real-time data such as energy consumption, service requests and preventive maintenance warnings. This allows you to continuously monitor your live asset and make the most of it.

The use of virtual reality technology in construction projects is becoming more and more common. For example, you can stroll through the virtual building and see what it would look like when completed. VR helps everyone involved to better understand the project: customers, contractors, subcontractors, etc. With the recent developments in VR, instead of huge VR glasses, all you have to do is hold up your smartphone and experience it. This technology will experience great growth in the coming future.

AR (Augmented Reality) means adding digital information to the real world. The possible uses of AR in construction are diverse. Augmented Reality technology can, for example, illustrate the various MEP installations in an existing building, such as how a pipe runs through a wall or roof, or even understand what the structural fabrication would look like in a given location.

Mixed Reality (MR) is a combination of Virtual Reality (VR) and Augmented Reality (AR). This means that the virtual component in question is so well anchored in reality that it appears to be part of the real world like a hologram.

With the implementation of this technology, a building owner can go to their location, put on their glasses and fully explore their property / building that has not yet been built. You can watch how it will look if you make a few adjustments or even enlarge the various details of the building. You can also go inside the house and have a full experience before it’s even built, see the view from different windows, see how wall movement affects the feel of space, and much more. This technology will also be of great importance for the installation industry.

Generative design is a technology that takes an engineering approach that we’ve never seen before in the digital realm. It replicates an evolutionary approach to design and contains all the basic and necessary properties. Combine this with the latest high-performance computing and cloud technologies and you get features that engineers never thought they’d have.

Generative design uses artificial intelligence and machine learning (AI & ML) to mimic a nature-like approach to design. It connects with engineers by allowing input design parameters to generate a result.

The advent of practical artificial intelligence (AI) algorithms has facilitated mainstream generative design tools. This means that engineers can create thousands of design options inherent in their digital design and choose the design that best suits their needs.

Suppose you have loads in certain locations or you need to adhere to certain material thicknesses or even certain costs; in this case all of these data points can be fed into the generative design tools. After you’ve run the program and let the algorithms do their job, you’ll get generative designs that match your input criteria. You can then scroll through the various options and then select a design that is suitable and optimized for your design end goals and modify it from there. In short, you can find a digital shortcut to tweak the perfect design as per the requirement.

The advantages of generative design are numerous. It becomes clear when you consider what it takes to get started on a building design. It opens up a new dimension for architects, structural engineers, etc. in order to obtain an optimized design according to the end goals in less time than with conventional methods.

Recently, Autodesk Revit 2021 (AEC Collection) added Generative Design functionality. Generative design will play a very central role on our way into the future! Coupled with the growth of artificial intelligence, machine learning, design automation, and other technologies, this will definitely be a game changer in the BIM industry!

Cloud technology plays a vital role in facilitating BIM-based collaboration between multiple stakeholders and disciplinary groups for complex AEC projects.

When the Covid-19 pandemic broke out, companies were forced to adapt to strategies for working from home and they realized the power of cloud technology. This turnaround was a challenge for the AEC industry, but it has adapted very well. Various technical teams and their members were scattered around the world and began adopting cloud services to collaborate and work continuously on their BIM projects.

Even Common Data Environments (CDE) are hosted in the cloud and all employees have access to the latest BIM data on their project. An example of such a platform is planBIM. planBIM is a cloud-based software that is called the next generation platform for BIM management. Each team member has access to the latest version of the BIM data and can also save the BIM documents such as BIM execution plans (BEPs), Exchange Information Requirements (EIRs) etc. in the cloud. In addition, you get a 3D viewer that allows you to view the BIM file you are working on right in the cloud!

In addition, the global provision of 5G services by the telecommunications sector also gives citizens access to high-speed internet, which will further accelerate the introduction of cloud services or cloud platforms for BIM collaboration, BIM management, etc. times to come.

These are just some of the trends, and there are many more opportunities for technology integration within the AEC domain. The industry is much more advanced than we thought a decade ago and with the extensive development of the technology sector we see today, we can safely say that the AEC industry has a great future ahead of us!

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