Many users establishing a drone workflow will focus on capturing basic photographs and video, and that can be a great starting place. You can turn those assets into highly effective deliverables—there are plenty of case studies that demonstrate how systems like this can be game changing for basic asset inspections.

However, many professionals don’t know how to take the technology to the next level, where they generate a three-dimensional model in the form of a point cloud or a mesh. For those not so familiar with this kind of reality capture, the workflow is an introduction to a whole new industry.

Doesn’t a point cloud cost too much?

The term “point cloud” might give some professionals a flashback to the “sticker-shock” moments from their laser scanning days, and that’s not surprising. In the past, point clouds required robust equipment as well as robust software to process, and that technology was cost prohibitive for many. It’s a technology that has been expensive for some time, so I understand anyone who is weary to jump in with it now on account of UAVs.

However, with the democratisation of UAVs and the technology that comes with it, surveyors, clients and many other professionals can now produce relatively high quality point clouds for a few hundred pounds. In many cases, professionals don’t even need to use lidar to generate a point cloud these day.

What do I need to know about accuracy?

As professionals dig deeper into this data, they’re beginning to see the true detail and accuracy of their new deliverable. Here are a few things to know:

• It’s safe to say that adding ground control points will increase a project’s accuracy.

• Point clouds from lidar offer high precision and incredible accuracy, sometimes to the millimeter.

• Photogrammetric solutions use photos to extract 3D data, so the more photos of a site or a project, the better the detail. This requirement makes it obvious when not enough photos were taken of a specific point of interest. Without enough photos, the sharp edges or details appear rounded and almost have what I call a “lava” effect. Reflective surfaces such as heavy glazing on a building or water features can cause inaccuracies in the data as well. Without enough photos or with poorly captured photos, the data can quickly become severely distorted, making them good only for pure visualizations.

What about quality control?

This brings up the question of quality control. Remember, no solution is perfect and every type of capture requires some form of quality control.

When capturing data from a UAV, it’s essential to do a quality check of the main areas of interest. If the data does not seem as it should, reassess your capture techniques and determine if you have reached the limitation of the platform, which can tell you if another technique is required.

The importance of education

Drones might represent a reintroduction to point clouds for certain people, but they also require a re-education to the overall topic of reality capture. Reality capture and point clouds can have many varying levels of accuracy, depending on your approach and the technology you use.

Not attempting to understand reality capture technology may not have immediate effects, but as technology advances, the inexperience will add up. We are already seeing prominent UAV and lidar combinations entering the market, and though they are not currently as cost-effective as UAVs with a basic camera, their price point will continue to go down while the data they capture gets better. When the time comes for the market to switch from camera-based solutions to lidar-based, inexperience could put professionals below the bar and further increase the technology gap.

Test it out

The technology is available at big box stores for such a low price point, which makes it a must to at least “taste” to maintain a basic understanding of the market and where it is going. It’s important to know how the drone point cloud varies from a flown lidar point cloud, for instance, just as it is important to know how aerial capture varies from terrestrial or mobile capture, and how high-end, millimeter accuracy, terrestrial capture varies from the accuracy of introductory level terrestrial systems.

Conclusion: Big questions

UAVs are making existing practices easier, cheaper, and safer, but they’re also getting professionals to ask important questions about their projects. For instance—Does this project or site require millimeter-level accuracy, or will a UAV with a 20MP camera suffice?

Drones have made the case for reconsidering our reality capture techniques and understanding what our project needs. They are making us ask, “What is the right tool to accomplish those needs?” As reality capture professionals, we have so many new tools now that we can achieve our needs in many different ways. We just have to develop an understanding of our minimum requirements and our basic capabilities.

Russsian defense contractor, Almaz-Antey, was recently awarded a patent for their shotgun-wielding drone. Almaz-Antey is a big player in the Russian arms industry. They are responsible for producing, among many armaments, some of the world’s most advanced surface-to-air missile systems.

The fixed-wing craft sports a Vepr-12 shotgun along with a 10-round magazine. It weighs 50 pounds (22.6 kg) and has a flight time of 40 minutes. Development of the drone began in 2016 and the craft is controlled by a visor-wearing operator who monitors the drone’s video link as well as sighting system.

Affixing a shotgun rather than a machinegun to the front of the drone was deliberate. Shotgun bullets disperse into tiny pellets making them more effective at hitting moving targets and therefore better for the presumed eventual purpose of shooting people.

The craft takes off and lands vertically from its tail (as seen in the cover image) but levels out and flies horizontally once it’s in the air. This takeoff method means the drone does not require minimal space to be deployed.

The three and a half minute video uploaded to YouTube (below) shows the extremely noisy drone zooming through the skies and blasting targets such as balloons out of the air. From what observe, the unnamed drone does not appear to experience much recoil as it shoots.

https://www.youtube.com/watch?time_continue=1&v=v5q--PYfs8Q

UK police have not excluded the possibility that the closure of Gatwick airport in December 2018 due to drone sightings, may have been an inside job.

Gatwick, the UK’s second busiest airport, was thrown into mayhem between December 19 and 22 last year following multiple drone sightings. The sightings caused 1000 flights to be delayed or cancelled, 130,000 passengers to be disrupted and cost airline companies millions.

The current theory that police are working on, is that either a current or former airport employee may have been responsible for a drone or drones passing over the airport.

A government source who alleged that whoever flew the drone, knew the locations at the airport where it would not be hit by anti-drone technology. That knowledge would be difficult to acquire without having worked at the airport. During the closure of the airport, the British military were deployed to Gatwick brought in armed with Israeli anti-drone technology. Despite the high-tech kit, they were unable to stop the drone making several more appearances over the next day.

Although scant photo and video evidence exist of the drones that flew over the airport, some 130 eyewitnesses claim to have seen a drone, including police, pilots and army personnel. Smartphone cameras aren’t necessarily good at catching clear images of moving objects from a great distance (as you can see below) and with no other good explanation for what the object flying over the airport was, a drone seems the most likely possibility.

The investigating police from Sussex have been roundly criticized for failings in their investigation. To this point in time, no suspects are in custody. Two people were briefly held by police in December but ultimately released without charge.

Electronic conspicuously solutions : A call for evidence

The widespread adoption of electronic conspicuously (EC), were everything flying sends an electronic signal identifying it, will be key in achieving safe and sustainable airspace in the future.

The government recognises this and has asked the CAA to develop proposals for its UK wide roll out Aviation Strategy Green Paper. The CAA have done this via it's airspace modernisation strategy that sets out the main initiatives required to upgrade the U.K.'s airspace structure.

The CAA have launched a call for evidence about some of the key proposals for the wider roll out on EC in the UK. The output of the call will directly influence the way forward.

This call for evidence is open 25 May 2019. To submit a response on line:

https://consultations.caa.co.uk/corporate-communications/e-conspicuity-solutions/