Revolutionizing Project Planning with Mixed Reality using Trimble’s XR10
In recent years, the construction industry has seen a significant increase in the adoption of mixed reality technology. Mixed reality, a combination of virtual and augmented reality, offers a new way of visualising and interacting with construction and mining projects, allowing for more accurate and efficient planning, design, and construction processes. With the development of lightweight, wearable devices such as the Trimble XR10 with HoloLens 2 headset, mixed reality is becoming more accessible and integrated into the workflows of construction and mining professionals.
One such professional is Pierre Henderson, technical director, Xodus Enterprises, who has taken this to heart and has been using mixed reality in his business in the planning and progress tracking of projects using 3D design models, known as 4D simulation.
By adopting Trimble Connect for HoloLens and the Trimble XR10, this mixed reality technology has enabled Xodus Enterprises to take project planning and progress tracking to a whole new level.
How The XR10 Works
The company focuses mainly on complex plant environments on mines and brownfield projects, such as furnace rebuilds, during their highly time-constrained maintenance shutdowns.
The Trimble XR10 mixed reality technology has allowed the company to overcome many of the discrepancies that arise in the construction industry.
Says Pierre, “Rebuilding the furnace every year is a major undertaking and we have picked up many discrepancies which I believe happens across all construction sites. After a 3D Laser scan, engineers design the furnace and it travels through a few channels where it is signed off by several individuals, who make adjustments along the way. It then it goes to production and installation on-site. The number of hands involved in early design often introduces several variations which include important discrepancies.”
The MR technology has allowed Xodus Enterprises to identify interferences and clashes that are not immediately apparent in the design phase. By loading the 3D design models onto the headset, and taking the model holographically to site, the company can check for potential issues that may arise during the construction phase.
“The first area that we use the XR10 for is literally after the design has been done. We take the model holographically on site, in place, and check for problems, interferences, and clashes that are sometimes not picked up in the model,” Pierre says.
Walking through the furnace (or any other site) with the headset on, the visuals on the headset show three-dimensional images overlaid on the actual surroundings as the viewer walks through the site. Looking in all directions, discrepancies are immediately evident as to where pipes are overlapping doorways for example or end abruptly, as well as where the model syncs exactly.
The use of the XR10 is integral to Xodus Enterprises’ operations, particularly when it comes to evaluating the correctness and speed of erection. By analysing and identifying problems on-site, the MR technology has enabled the company to assess the magnitude of issues and determine whether they can be resolved on-site or if they need to be escalated to manufacturing. This approach has led to significant cost savings and minimised delays that could have impacted the project timeline.
This approach has helped to ensure that what is being constructed fits seamlessly on-site, with perfect synergy with what is happening in real time. This has resulted in fewer discrepancies and errors, which has boosted the efficiency of operations and improved the overall quality of work.
Pierre adds, “Everything is recorded on the headset for later analysis where inconsistencies are picked up. From a QC analysis point of view checking the playback/recording afterward, you can inspect to see if installation is correct and pick up problems for example, pipes that are incorrectly connected. This prevents major rework after installation, which impacts significantly on production costs.”
Benefits Of Using Mixed Reality Technology
“In addition, because the visuals are 3D and everything is portrayed exactly as it will be once installed or constructed, enabling a thorough evaluation, this generates confidence in the customer and expedites decision making. For example, you can mount the headset on the decision maker, the CEO for example, to assist them to understand how things are going to appear on the site. They can see the pictorial for themselves right there, as you walk through the site.
“If you walk upstairs, are you going to reach the valve or is it too high or is it too low? That is literally what this had done for us in the last shutdown and that was I think one of the biggest success stories. Clients get to see for themselves how accurate this technology is. We literally got the project signed off in five minutes,” Pierre explains.
Another excellent use of the headset is to extract/move equipment within a confined space. By creating a scaled digital model of equipment set to be moved (in or out) and loading the model onto the headset it is possible to walk through the space where the equipment will be lifted, moved etc and perform a ‘dry run’ to see if there are obstacles in the way of the anticipated manoeuvre.
“Using the headset with the loaded model of the piece of equipment, I was able to seamlessly ‘move’ it through the space without incident, proving the accuracy of the software,” Pierre adds.
In addition, Brent Godfrey, Construction Technology Manager, BuildingPoint SA (Pty) Ltd, points out, “When measurement differences are detected, the device enables you to take measurements between the virtual model and the real world. There’s a built-in lidar scanner inside the headset. The entire time the headset is busy scanning your environment, you can take physical measurements where you see those discrepancies between what is physically there and the model. You can snap to the model and snap to the real world and measure these incongruities that you can see and quantify them live.”
Real-World Examples Of Using The XR10 In Project Planning
Further down the line Pierre sees the XR10 being integrated not just in site checking but from a maintenance point of view; accessing different kinds of equipment on site, where through the headset crews can check which machine is close to its maintenance cycle; which one has to be replaced, and more, with data drawn from the central control system.
“This technology has opened quite a few new business opportunities for me in my company, from a quality control point of view, in three areas: evaluation before a site installation, during site installation, and post-construction quality control. For the first time, it has bridged the gap between signed-off drawings and what is manufactured and delivered to the site. It is the first time that you can literally opt for the model that has been created, and then have the drawings populated from the model. We check the model on site so there is no discrepancy made by going from one person to another – there is no paperwork in between; you literally see it on site as it will appear. What you see is what you get, there are no sudden surprises or budget shocks,” Pierre enthuses.
Minimise Discrepancies and Errors with Trimbles XR10
Overall, the adoption of mixed reality technology has proven to be a game-changer for Xodus Enterprises. It has enabled the company to stay ahead of the curve in the adoption of new technologies, allowing it to remain competitive and innovative.
By using the Trimble XR10 and Trimble Connect for HoloLens, the company has been able to minimise discrepancies and errors, resulting in improved efficiency, cost savings, and higher-quality work. Xodus Enterprises is an excellent example of how mixed reality technology can revolutionise project planning and progress tracking in the construction and mining industries.
For more information on the Trimble XR10 and Trimble Connect for HoloLens contact us.