The general term 'drone' refers to robotic vehicles. However, it has come to be associated more specifically with unmanned aerial vehicles (UAV).
Unmanned aerial vehicles cane be:
- Remotely piloted aircraft (RPA) controlled from the ground.
- Autonomously controlled by on-board computers.
- Pre-programmed to fly specified routes.
They range in size from full-scale aeroplanes or helicopters, to small hand-held vehicles similar to the model aircraft used for recreational purposes.
Drones are widely known for their use in military operations, but as the cost of the technology required has fallen, they have been developed for a number of civil applications such as; film making, surveying, crop spraying and so on.
In the construction industry they can give relatively easy access to large or difficult sites or to large, complex or tall structures. They can gather aerial data, mapping information and images that can be used for:
- Providing visual material for clients and other stakeholders.
- Monitoring activities on site.
- Security surveillance.
- Mapping data across sites.
Their set up costs are generally low compared with full LIDAR surveys, or the use of cherry pickers or scaffolding to access difficult areas, and they can gather information over a wide area and from a variety of viewpoints. They can also be faster than other methods and can reduce safety risks.
Drones can be operated remotely from safe areas several hundred meters away from construction works, as long as the pilot has a clear line of sight of the flying zone. Small drones can be transported in a case, set up quickly and can gather high-resolution information and continuous footage. The pilot is given a real-time view on a remote monitor and can manoeuvre the drone and zoom in to obtain additional information where issues are identified during flight.
Drones can return and land automatically in the event of problems occurring, and have can be shut down in emergency situations. If required, they can be programmed to take-off, follow a flight path, perform specific tasks at defined locations and auto land. Information gathered can be automatically uploaded to the cloud and viewed on tablets by the project team.
However, there are dangers associated with flying aircraft, as well as public concerns about privacy. In addition, drones have limited payload and may be difficult to operate in poor weather conditions, or where there is poor visibility.
In 2010 the Civil Aviation Authority (CAA) introduced regulations for '…the operation of small unmanned aircraft used for aerial work purposes and those equipped for data acquisition and/or surveillance'. Certain sizes of vehicle must be registered, and where a flight is proposed within a congested area or in proximity to people or property permission must be obtained from the CAA. The CAA require that operators demonstrate piloting competence and that they have considered safety implications before permission is issued. This may involve a risk assessment for a one-off flight or submission of operating manuals for regular operators. Insurance is also required. Ref CAA.
Some larger construction companies have made significant investment in construction drones, with the intention of having multiple drones continually flying over sites monitoring safety and tracking construction progress. They might also include additional sensing capabilities such as; ultrasonic sensors for avoiding collisions, LiDAR capability, infrared scanners, temperature sensors, air quality detectors, radiation monitors and so on.
Mike Lewis, Bechtel's manager of construction, said: “This technology helps improve safety and quality of project delivery by providing real-time data and analysis to project teams so they can act in a timely manner.” Ref Global Construction Review 8 April 2015.
Experiments are also underway to see whether construction work itself might be possible with drones, for example, placing objects in difficult to access locations, positioning and fixing cables and so on. However, this is likely to be restricted in the short term by the weight that affordable drones are able to carry.
In August 2015, MIT Technology Review reported that drones were being used on the construction of the Sacramento Kings' stadium in California. Drone footage of progress on site was converted into a 3D model that could be compared to digital drawings to identify where progress was behind programme.
 Related articles on Designing Buildings Wiki
- 3D concrete printer
- 3D printer.
- Building information modelling.
- Global positioning systems and global navigation satellite systems.
- How can drones transform construction processes?
- Interview with David Southam about laser scanning in construction.
- Mitie - drone pest control inspection.
- Printing 3D models of buildings.
- Site information.
- Site surveys.
- Uses of drones in construction.
Featured articles and news
One of the largest churches in the world, the monumental St. Peter's Basilica.
How thermal comfort is quantified and how it can affect wellbeing.
Snøhetta complete a treehouse cabin that allows guests to lie beneath the Northern Lights.
Christiania is an anarchist 'freetown' in Copenhagen where strange and experimental architecture has flourished.
“UK waste data needs improving” say BRE specialists, in this summary of their report into construction waste.
UandI announce new joint venture with US developer to work on office refurbishment projects.
BSRIA give critical response to Theresa May's speech on leaving the EU.
Why buildings crack, how cracks are categorised and what can be done.
Inaugurated last week, the new Elbphilharmonie concert venue; a soaring new addition to Hamburg's skyline.
Summary of a new ICE Transport journal which says improving transport infrastructure is essential to eradicating global poverty.
BRE look at a new government report into the accuracy of heat meters.