In construction, 5G can help better enable crucial real-time data collection, capture, and analysis on site to monitor health, location, and more.

In construction, 5G can help better enable crucial real-time data collection, capture and analysis on site to monitor the health, location, status and specifications of various assets, improving overall job site connectivity. . Here are four ways 5G will transform construction job sites.

Higher bandwidth will support new technologies

Construction companies are increasingly working with very large data sets for richer visualization and multidimensional data sets, such as with building information modeling, imagery/reality capture, 4D, 5D, and laser scanning. Add new technologies, such as virtual and augmented reality (AR), and faster broadband will become more and more important.

The high bandwidth of 5G is expected to reach speeds that are 20 times faster than 4G LTE. This could give construction professionals near-instant access to data-intensive cloud and edge applications, allowing multiple users to interact with each other in real time from anywhere in the world. Not only will this help foster interactions between workplaces and the office for better measurement and tracking, but these improved speeds will enable artificial intelligence (AI)-powered video streams that help recognize objects, workers and security issues.

Harnessing the possibilities of IoT devices

5G will also have a significant impact on the growth potential of the Internet of Things (IoT), with the capability of more static and mobile IoT devices that can be applied in all aspects of construction, including manufacturing and the supply chain. . IoT describes the network of physical objects, “things,” that are embedded with sensors, software, and other technologies for the purpose of connecting and exchanging data with other devices and systems over the Internet.

Eventually, job sites will be able to detect virtually anything on a job site, allowing companies to collect tool and material data. For example, workers could place sensors in concrete to assess healing time. IoT sensors can be used for smart buildings, and with 5G, contractors can have a digital twin of that building with data from the start of the project throughout its lifetime.

IoT sensors can also be used for projects like bridges while they are being built, monitoring as they are moved and installed, tracking when they are complete, and then measuring data such as vibrations. Capturing information from these IoT sensors will make 5G a critical component of a job site.

Unlock edge computing

As 5G continues to enable increased data volumes, not everything will be able to be done in the cloud. It will require some computing to be done on-site with edge computing and mobile edge computing on 5G networks. Edge computing is a distributed computing framework that brings business applications closer to data sources, such as IoT devices or local edge servers. This proximity to the data at its source is extremely necessary in the build. For example, if a machine is digging on a job site, it must be able to respond immediately to a safety issue. This will require the low latency of edge computing.

Edge computing and mobile edge computing on 5G networks can deliver strong business benefits, including faster and more comprehensive data insights and analytics, improved response times, and better bandwidth availability.

Less delay = more data in real time

5G will give construction professionals the ability to access reliable information in near real time with low network latency. The technology’s extremely short lag time could be the gateway to remote or autonomous construction operations. Construction companies can quickly and easily understand what is happening on job sites, get the job done with machines. This will be a huge step forward given the complexities of ever-evolving construction work environments.

Greater mobility and connectivity advances brought about by 5G will further boost the industry’s ability to utilize insights provided through IoT, AR, AI and machine learning. Being able to quickly join and analyze all this data in a common data environment will be a game changer in the way projects are built.

To do this, there will be significant changes to the architecture of the device and where the computation occurs. Imagine a day when a pair of augmented reality glasses can connect to a 5G network and allow you to see the various future construction phases of a project. With these technologies providing greater connectivity, capacity and democratization of technology, 5G stands as a key element in the transformation of the construction industry.