This technique was born with photography in the middle of the 19th century. Its evolution and wide application permitted a leap forward in different scientific fields.

3D photogrammetry recostruction of Bran Castle, Transylvania.

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What Is Photogrammetry?

Photogrammetry was defined by Wolf and Dewitt as “the science and technology of obtaining reliable information about physical objects and the environment through the process of recording, measuring and interpreting photographic images and patterns of electromagnetic radiant imagery and other phenomena”. While this term was coined by the architect Albrecht Meydenbauer, the photogrammetry born with photography, in the middle of the 19th century. Dominique F. Arago conceived the use of photographs to create topographic maps around 1840. Since then, photogrammetry moved from an analog, mechanical technique to a most analytical method based on computer algorithms and digital software and on the use of 3D application

A pidgeon, used in WWII to collect aerial photography.probably during the First World War

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Main Applications

There are many variants of photogrammetry and different usages. An example is the extraction of 3D models from 2D images, which is useful to determine the distance between two points on a plane and to measure the distance on a scale. This science is known as stereophotogrammetry. Moreover, from close-range photogrammetry is possible to elaborate 3D motions. Another common use is the extraction from photographs of accurate color ranges and values in representing the characteristics of different materials for a more realistic rendering.

Flemington, Melbourne
A modern drone for photomapping.PhotoMap StreetMap Terrain


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The Mapping Process

Thanks to the photomapping we can create a map from a photomosaic, or a composite photographic image of the ground. The process of rectification of imagery is fundamental, and consists of fitting each photograph into a set of four control points. The position of the control points derives from an existing map. Then scaled photographs are positioned on a grid of control points, and the photomosaic creates a faithful map. This process is possible thanks to aerial photography and data collected by high altitude aircraft and satellites. GoogleEarth, for example, is a product of photomapping.

The process of mapping with the photomosaic. Photomosaic of the detailed grid map.

Image source: by Young-Seog Kim

Photogrammetry and Archaeology

Since WWI aerial photography has been used to map and aid archaeological excavations, thanks to photo sources deriving from War Balloons. Today this system is integrated with digital photographs, used with geographic information systems, in order to record excavation exposures. The use in maritime archaeology is increasing, due to the relative ease of mapping sites compared to traditional methods, allowing the creation of 3D maps that can be quickly rendered in virtual reality.

Use of photogrammetry in maritime archaeology.

Image source: by NOAA’s National Ocean Service

3D Modeling

This process is similar to those previously described. 3D modeling is based on a data mining process, which starts from scaling the photography into a grid with control points. This is necessary to respect the proportion of the model in reality. Then 3D modeling makes use of advanced rendering software to represent the albedo (the “whiteness”), specular reflection, metallicity, or ambient occlusion of different materials.

750 drone images were used with photogrammetry software to make a 3D model of Trim Castle in Ireland

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Example of Photogrammetry Software. Video Guide – 3DF Zephyr, Photogrammetry and 3D Scan Free Download and Install

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