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Photogrammetry vs. LIDAR – Choosing the proper sensors in your job


In drone survey missions, the selection between photogrammetry and LIDAR relies upon closely on the precise software. You additionally want to think about operational elements, akin to price and complexity. Figuring out what outputs you actually need will make it easier to make the fitting choice.
What’s LIDAR and the way does its output examine with outcomes obtained with high-resolution RGB cameras and photogrammetry? On this article, we’ll discover the methods photogrammetry and LIDAR are literally fairly completely different from one another, even when their three-dimensional (3D) outputs look related. We’ll then dig deeper into particular functions and the way photogrammetry can present distinctive outcomes for many missions at a fraction of the associated fee and complexity of LIDAR.
Photogrammetry {and professional}, high-resolution cameras can cost-effectively generate 2D and 3D surveys, with absolute accuracies all the way down to 1 cm (0.4 in) root imply sq. (RMS) horizontal and three cm (1.6 in) RMS vertical.

How Photogrammetry Works

In photogrammetry, a drone captures numerous high-resolution images over an space. These photographs overlap such that the identical level on the bottom is seen in a number of images and from completely different vantage factors. In the same method that the human mind makes use of info from each eyes to supply depth notion, photogrammetry makes use of these a number of vantage factors in photographs to generate a 3D map.
The consequence: a high-resolution 3D reconstruction that accommodates not solely elevation/peak info, but additionally texture, form, and shade for each level on the map, enabling simpler interpretation of the ensuing 3D level cloud.
Drone methods that use photogrammetry are price efficient and supply excellent flexibility when it comes to the place, when, and the way you seize 2D and 3D knowledge.

RotorDrone - Drone News | Photogrammetry vs. LIDAR – Choosing the right sensors for your job

The WingtraOne vertical take-off and touchdown (VTOL) drone permits customers to conduct small- and large-scale drone surveys with unmatched knowledge high quality at a fraction of the time and price of a crewed plane.

HOW LIDAR WORKS

LIDAR, which stands for “gentle detection and ranging,” is a know-how that has been round for a lot of a long time however has solely just lately been accessible in a dimension and energy possible for carrying on giant drones. A LIDAR sensor sends out pulses of laser gentle and measures the precise time it takes for these pulses to return as they bounce from the bottom. It additionally measures the depth of that reflection.
LIDAR makes use of oscillating mirrors to ship out laser pulses in lots of instructions in order to generate a “sheet” of sunshine because the drone strikes ahead. By way of measuring the timing and depth of the returning pulses, it could actually present readings of the terrain and of factors on the bottom.
The sensor itself is just one a part of a LIDAR system. Critically vital for capturing usable knowledge, you’ll additionally want a high-precision satellite tv for pc positioning system (GNSS) in addition to high-accuracy sensors to find out the orientation of the LIDAR sensor in area—an inertial measurement unit (IMU). All of those high-end subsystems should work in excellent orchestration to allow processing of the uncooked knowledge into usable info, a course of referred to as direct geo-referencing.
Because the sensors have developed, there’s now the choice to seize aerial LIDAR knowledge from one in all two varieties of methods: classical manned airborne and light-weight UAV.
Classical airborne LIDAR surveys are performed from a crewed airplane and are much less correct however able to overlaying extra floor than light-weight UAV LIDAR operations. Particularly, you may cowl between 10 and 1,000 sq. kilometers (4 and 400 sq. miles) in a single flight. Absolutely the accuracy is determined by the flight peak and sensor selection. At a typical flight peak of two,000 meters (6,600 toes) above floor stage (AGL), you may count on an absolute accuracy restrict of about 20 cm (8 inches) horizontal and 10 cm (4 inches) vertical.
Light-weight drone LIDAR methods cowl as a lot because the drone permits per flight. As we are going to focus on intimately in beneath sections, these methods may be extra correct than these carried by manned plane. Particularly, fixed-wing drones carrying a LIDAR payload can cowl as much as 10 sq. km (4 sq. miles) in a flight, with absolute accuracy limits proper round 10 cm (4 inches) horizontal and 5 cm (2 inches) vertical.
In each instances of crewed plane and light-weight drone LIDAR, the accuracy is considerably lower than photogrammetry avails. Plus the post-processing for LIDAR completely requires experience past a fast coaching or studying of a guide, as we’ll focus on beneath.

RotorDrone - Drone News | Photogrammetry vs. LIDAR – Choosing the right sensors for your job

A WingtraOne UAV outfitted with a LIDAR sensor can create correct 3D fashions with 2 to three cm (0.8 to 1.2 in) of vertical accuracy. These fashions can be utilized for exact volumetric calculations throughout plenty of industries.

ACCURACY CONSIDERATIONS

As we’ve seen, photogrammetry and aerial LIDAR differ in the best way factors on the bottom are registered. This immediately impacts the ultimate level cloud accuracy and we are going to see that, particularly for horizontal accuracy of areas free from dense forest cover, photogrammetry clearly outperforms aerial LIDAR.

Photogrammetry. Within the case of photogrammetry, a high quality, high-resolution, full-frame sensor digicam like WingtraOne’s Sony RX1R II can yield outputs with horizontal (x-y) accuracies within the vary of 1 cm (0.4 in) and elevation (z) accuracies within the vary of two to three cm (0.8 to 1.2 inches) over laborious surfaces, enabling exact volumetric evaluation.
Notice, nonetheless, that in an effort to obtain such efficiency the payload used for photogrammetry have to be knowledgeable one, with the fitting picture sensor and lens to seize extra element. It’s not simply concerning the variety of pixels. The truth is, two cameras with the identical variety of megapixels and completely different dimension sensors present completely different picture high quality and accuracy.
Correct mission planning and post-processing are additionally vital for attaining optimum accuracy: good overlap amongst photographs will increase accuracy and gives higher error correction in comparison with full reliance on the direct geo-referencing technique utilized in LIDAR. A high-end drone system with skilled mission planning and post-processing workflow helps be certain that you seize high quality knowledge that generates correct outcomes.

LIDAR. As for aerial LIDAR strategies, the sensor doesn’t goal particular options on floor however as an alternative shoots the beams at a set frequency in an outlined sample. Even when the horizontal accuracy of the only level could be increased, the perfect horizontal accuracy of a focal point on the bottom is proscribed by the purpose density.
Crewed aerial LIDAR can present a degree density of as much as 50 factors per sq. meter and affords a typical absolute accuracy of 20 cm horizontal and 10 cm vertical if flown at a regular peak of two,000 meters (6,600 toes) AGL.
By flying decrease, light-weight UAV LIDAR gives the next level density than crewed aerial LIDAR and might obtain higher accuracy despite the fact that the laser is much less highly effective. Mounted on a multicopter, level density and the ensuing level cloud accuracy may be improved by flying low and sluggish on the expense of lowered effectivity.
Within the case of LIDAR on fixed-wing drones, a degree density between 50 and 200 factors per sq. meter is feasible. This implies a measurement each ~ 10 cm, so an absolute horizontal accuracy of about 10 cm may be achieved.
On high of restricted horizontal accuracy, LIDAR-derived level cloud accuracy is determined by the precision of the LIDAR itself and the standard of the INS (IMU and GNSS) system. Contemplating all technological developments and system variables presently, the standard absolute accuracy you can count on from a light-weight LIDAR system on a fixed-wing drone is roughly 10 cm (4 inches) horizontal and 5 cm (2 inches) vertical.

RotorDrone - Drone News | Photogrammetry vs. LIDAR – Choosing the right sensors for your job

Whereas LIDAR can present extra element beneath denser vegetation, each photogrammetry (decrease graph) and LIDAR (high graph) can generate terrain fashions beneath sparse vegetation the place the bottom is partially seen from the air. (The information proven on this graphic was captured at 30 meters above the bottom.)

Photogrammetry and LIDAR Purposes

For many missions, 3D outcomes achievable with photogrammetry are much like these obtained with LIDAR, however with higher accuracy and better versatility, e.g., photorealistic outputs, because of the high-resolution visible knowledge. There are some functions—particularly that includes energy strains or giant areas of dense forest cover—the place the upper expense of LIDAR for airborne missions is justified. Let’s take a look at the proof for this throughout a spread of precise functions.

Topographical maps that includes gentle vegetation (sparse tree stands or open cover) are finest surveyed with high-resolution RGB knowledge seize. The decision and photorealistic outcomes are helpful in instances like wildfire administration in residential areas and have been utilized by among the world’s largest city hearth and rescue companies because the info serves many stakeholders who want an actual view of what’s occurred.

Topographical maps with medium vegetation may be obtained through a mix of photogrammetry and a technique to seize the bottom beneath the vegetation. To seize the extra info beneath the vegetation, floor survey strategies or aerial LIDAR can be utilized. The mixture with floor survey strategies retains the value down whereas guaranteeing excessive accuracy plus the decision and photorealistic outcomes accessible by means of photogrammetry.
Whereas LIDAR can present extra element beneath denser vegetation, each photogrammetry and LIDAR can generate terrain fashions beneath sparse vegetation the place the bottom is partially seen from the air.

Giant-scale topographical maps that includes heavy vegetation are finest acquired through manned airborne LIDAR. A digital terrain mannequin (DTM) of the forest floor gives helpful info for challenge planning in development (e.g., the planning of recent roads), forest biomass or detailed info on vegetation and habitats through topography and underlying terrain, functions falling beneath these circumstances will all the time require LIDAR not less than partly to normalize topographical knowledge.
Usually, state businesses attempt to keep fairly correct digital terrain fashions (DTMs) of the forest grounds. For these sorts of large-scale initiatives with low decision necessities, manned airborne LIDAR is essentially the most cost-effective choice accessible. If a extra correct or up-to-date DTM of a small forest is required, a standard floor survey would be the most cost-effective choice accessible, but light-weight drone LIDAR would possibly fill a distinct segment in-between.

Naked-earth mining, volumetric and pure useful resource surveys are finest dealt with by high-end RGB payloads. Even huge surveys are excellent with the fitting drone and RGB digicam. On high of this, photogrammetry is price efficient and saves time not solely to seize and course of knowledge associated to chop and fill volumes, stockpile assessments and standing stories, but additionally to share this info and reconcile with contractors and stakeholders.

Energy line surveys for vegetation management may be finished with LIDAR or high-resolution photogrammetry and powerline extraction options on software program like Pix4Dsurvey. For the sake of photorealism, value, and workflow, I like to recommend the latter choice. Analysis is ongoing round photogrammetry as a go-to, cost-effective resolution.

Powerline pole tower inspection advantages from dwell video inspection with a multicopter carrying an RGB or thermal payload. These are normally comparatively small areas that multicopters can maneuver round and take indirect pictures of simply and safely. With this technique, you get all info inside a really quick period of time. Zoom cameras permit detailed inspection that can not be provided by photogrammetry or LIDAR..

Rail monitor inspection remains to be most frequently carried out from the bottom—by a prepare outfitted with ultrasonic, LIDAR, and visible sensors. Inspection from the air with both photogrammetry or aerial LIDAR is gaining increasingly more curiosity however each strategies are in early phases. Excessive-resolution photogrammetry affords knowledge that avails outputs with all the important particulars precisely and autonomously whereas saving time. Plus the photorealism provides a component of simple identification and flexibility that may reply to a spread of questions.

RotorDrone - Drone News | Photogrammetry vs. LIDAR – Choosing the right sensors for your job

Metropolis mapping with vertical buildings requiring 3D vantage factors has been extensively demonstrated with photogrammetry based mostly on imagery captured with a payload that includes indirect capabilities. For cityscapes with many high-rises and intense ranges of vertical element, multicopters work effectively, though their potential to cowl wide-spread areas per flight is compromised. VTOL drones carrying indirect payloads can nonetheless seize large areas and obtain spectacular vertical accuracy.

Operational issues

The distinction between photogrammetry and LIDAR grows when contemplating operational and logistical elements. To generate high quality outcomes, a LIDAR system requires all of its elements to work completely in sync. Small gaps or errors in sensor measurements can result in vital errors in outputs. Or worse, outputs that “look” proper however should not. Strategies like floor management factors (GCPs), that are helpful in photogrammetry to right points, are tougher to implement with LIDAR. More often than not, the one resolution for faulty LIDAR knowledge is to repeat flights.
LIDAR initiatives require an skilled who understands the workflow and particulars of every subsystem and might acknowledge constant and correct knowledge.
In distinction, photogrammetry-based workflows are extra forgiving. The redundancy created by a number of, overlapping photographs of the identical level on the bottom permits error correction throughout processing and interprets to high-accuracy outputs, even in non-ideal circumstances or operations. The shorter studying curve for drone-based photogrammetry (even for operators with no prior expertise), results in better flexibility and cost-effectiveness.
The convenience of use of photogrammetry options just like the WingtraOne interprets into better operational flexibility, the flexibility to deploy a number of methods to cowl distributed websites, better frequency of captures, and total lowered prices.

RotorDrone - Drone News | Photogrammetry vs. LIDAR – Choosing the right sensors for your job

Photogrammetry permits the creation of correct 3D maps of enormous areas. Photogrammetry outputs additionally embrace high-resolution visible knowledge in full shade for each level on the map to help within the interpretation.

Closing ideas

We now have explored the variations between how photogrammetry and LIDAR work and the similarities of their outputs and discovered about conditions the place every know-how may be finest utilized. And whereas some particular functions would possibly justify the associated fee and complexity of LIDAR, photogrammetry can meet a lot of the on a regular basis challenges introduced throughout a spread of initiatives and industries, offering distinctive accuracy and stunningly detailed maps, accessible on demand and with minimal experience overhead.
So when you don’t want what LIDAR uniquely gives—particularly to mid- or large-scale forests with heavy however penetrable cover—you are able to do extra utilizing photogrammetry coupled with knowledgeable drone for considerably much less cash and complexity.

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