Drone LiDAR vs Photogrammetry: A Technical Guide


UAVs promise cheap and easy survey, but there is more to using them than meets the eye. To get results that suits your needs, you have to educate yourself about the sensors that UAVs use to capture data. You’ll have to educate yourself about LiDAR and photogrammetry.

In a recent article at our sister site UAV Expo News, editor Jeremiah Karpowicz laid out some basic facts about these two capture technologies. The piece is a fantastic first stop for consumers of data who want to dig through the hype and hyperbole to determine the right kind of sensor for their needs.

That piece included a lot of advice from experts in the field, including Lewis Graham, president and CTO of the GeoCue Corporation and general pillar of the survey scene. Graham offered so much useful technical detail that wouldn’t fit into the piece that we decided to give his advice a separate spotlight.

So, here’s a guide that takes you on a deep dive. It offers detailed technical advice that should give you even more help deciding when it is best to use photogrammetry, LiDAR, or both when you’re surveying with your UAV.

A point cloud in Maptek I-Site Studio

A point cloud in Maptek I-Site Studio

Use UAV LiDAR when…

You are mapping below tree canopy, mine site conveyors, and other obstructions.

Why: Photogrammetry has trouble generating elevation models in areas where objects block the ground.

Traditional stereo photogrammetry, Graham explains, tends to “blunder” when creating a digital elevation map. When measuring elevation for a point on the ground, this method needs two images that can “see” that point. If a tree is blocking the point, it may show up in one image but not the other. This confuses the automation algorithms that match the images. The end result is noisy elevation models.

What about modern photogrammetry? It exacerbates the problem. Once algorithms like Structure from Motion (SfM) were developed, photogrammetry could generate “very dense point clouds, often with a spacing factor of two or so larger than the resolution of the image.” This is called dense image matching (DIM). Unfortunately, DIM generates what Graham calls “first surface models” rather than true elevation maps.

In other words, photogrammetry is not ideal for mapping elevations when the ground isn’t clear from all angles.

Utility lines mapped using YellowScan UAV LiDAR

Utility lines mapped using YellowScan UAV LiDAR

Use UAV LiDAR when…

You are modeling narrow objects such as transmission lines, pipes, sharp-edge features (for instance roof edges), and fields of rocks (aggregates).

Why: SfM algorithms and DIM have lower “conformance” than LiDAR. As Graham explains it, “conformance is how well a point cloud models the actual object being imaged.”

LiDAR models, he says, model the object very well because each point in the cloud is measured by a single ray from the scanner. SfM algorithms and DIM are “a bit trickier.” The model doesn’t correspond to the object as well because modern photogrammetry makes rough approximations and then smooths the model out to remove noise. “An unfortunate side effect,” he says, “is that conformance at edges declines.”

This makes modern photogrammetry a tough sell for modeling smaller objects precisely.

Autodesk's ReCAP Fly Service for processing UAV photos

Autodesk’s ReCAP Fly Service processes UAV photos into models

Use UAV photogrammetry when…

You are imaging bare earth mine sites, earth works projects, and other areas that are not occluded by trees, buildings, or equipment.

Why: Drones are cheaper, lighter, and faster. If the modeling you aim to perform doesn’t require LiDAR—then strapping a camera to your UAV will save you a lot of money. In addition to avoiding the LiDAR unit itself, you get to skip the expensive IMU.

This means an outlay of 10 grand instead of, say, 75 grand. You’ll be thankful for that when you crash your UAV into something—and you will crash your UAV into something.

Use UAV photogrammetry when…

You are performing a small mapping project—and photogrammetry data will suit your needs.

Why: “It is usually not financially viable to mobilize a manned aircraft for a small-site mapping project,” Graham notes. On the other hand, a UAV is small enough that a single surveyor can throw it in the truck and operate it in the field quickly, and without any help.


A DJI Drone at the Commercial UAV Expo in 2015

Use both when…

You are performing modeling that requires LiDAR.

Why: Graham explains that really high-resolution data (“say resolutions greater than one meter”) can be tough to gather with aerial LiDAR. This means “one really needs to supplement the data with imagery—the ideal scenario is to use imagery for context and LiDAR for the 3D component.”

Cameras are so inexpensive, and offer such a great value, that there aren’t many good reasons to leave them out of your UAV sensor package.

You Should Use What Makes Sense for Your Business

LiDAR and photogrammetry are both powerful and full of potential if you use them the right way. The key is finding the right sensor for your needs.

Let’s put it more simply. Graham explains that if you’re making a business “out of focusing on clean stockpile yards of relatively fine materials, then photogrammetry (DIM) is the cost-effective solution. If, on the other hand, one frequently encounters projects that require modeling that can’t be performed with photogrammetry, then LiDAR is the obvious choice.”


Carnegie Mellon and Northeastern’s ARIA project scans a bridge

Other Considerations

When performing photogrammetry with a UAV, Graham says you should shell out about $800 or so for a camera with an APS-C format sensor. Here’s why.

If you care about accuracy (and you should), you need learn about ground control. Our blogger Will Tompkinson makes the case here.

Why this Advice Might Be Useless Soon

Now that you’ve arrived at the end, I have bad news: Nearly every piece of technical advice I’ve laid out above could change in the next few years. The reason is focal plane array (FPA) LiDAR, also known as flash LiDAR or solid-state LiDAR. (Here’s our primer on the technology.)

Graham offers a simple way to understand how FPA LiDAR works. Imagine it as a digital camera taking a picture. Once the LiDAR frames a shot, instead of taking a photo, “a single laser flashes and the scene is captured by an array of detectors.”

FPA LiDARs are perfect for drones because they’re cheaper, smaller, lighter, and more geometrically accurate than the LiDAR units we’re currently using—which means they offer the best of both worlds.

FPA LiDARs are also perfect for crash-avoidance systems in autonomous vehicles, which means demand for them is going to skyrocket in the next few years. As companies start producing FPA LiDAR at scale to meet demand, the cost of the sensors will fall. This means there will be a lot cheap sensors available for UAV use.

Graham makes a bold prediction. “Within the next three years,” he says, “FPA LiDAR supplemented with a camera will be the standard kit on a mapping drone.”


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  1. Avatar

    I always agree with Lewis… : ) One consideration is that current, commercial UAV platforms are not really capable of flying powerful LiDAR systems. For example, you can get a 1cm GSD with UAV photogrammetry, you cannot get 1cm spot spacings with current, commercial UAV LiDAR systems.

    So for me, the criteria breaks down around subject matter of trees, power lines, buildings and seafloor mapping. DTM (bare earth model) production in canopy or forest regions, bathymetric survey or power line mapping, then LiDAR is your solution. However, I prefer high resolution, photogrammetry for 3D building production, primarily, from the value proposition of a photogrammetry flight mission over a LIDAR only flight mission. With photogrammetry you are able to produce both imagery and a 3D point cloud… more and more, flying UAV’s at low altitude and getting good results is about the flight plan, you need a good flight plan to get good data and results.

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    Hi Sean,
    Do you have any research data on the relative accuracy and precision of photogrammetry comparing different cameras typically available on commercial mapping drones.

    We are a drone engineering services company in the UK, Drone Tech Aerospace (www.DroneTechAerospace.co.uk) and we find that the market is currently misled by the claims of both large corporate manufacturers of commercial drones and the typical pilots that buy them.

    Both tend to put out the message that accurate and precise topographical surveying can be conducted using quite basic uav’s with quite basic low resolution cameras and also that the operator/pilot need not be technically highly trained.

    In our experience non of these statements is true.

    In order to obtain consistent and reliable high levels of accuracy and precision we had to invest significantly in developing a specialised proprietary UAV/drone which has a highly stable flying profile, a chassis which significantly dampens any vibration through to the gimbal and camera, a custom gimbal for the same reasons, and also to mount a professional photography grade full frame camera with specialised shutter and top of the range professional lens.

    Additionally we have had to perfect the flying process and patterns, camera configuration and shooting patterns in order to achieve high quality.

    The dumbing down that the aforementioned media communications creates in the industries flies completely in the face of our knowledge and experience.

    A reliable and independent study that would benchmark the relative results of a range of UAV, camera and data collection processes would greatly help in educating the market appropriately.

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