CADPAT digital camouflage pattern (Temperate Woodland variant)

Multi-scale camouflage is a type of military camouflage combining patterns at two or more scales, often (though not necessarily) with a digital camouflage pattern created with computer assistance. The function is to provide camouflage over a range of distances, or equivalently over a range of scales (scale-invariant camouflage), in the manner of

fractal In mathematics, a fractal is a geometric shape containing detailed structure at arbitrarily small scales, usually having a fractal dimension strictly exceeding the topological dimension. Many fractals appear similar at various scales, as illu ...

s, so some approaches are called fractal camouflage. Not all multiscale patterns are composed of rectangular pixels, even if they were designed using a computer. Further, not all pixellated patterns work at different scales, so being pixellated or digital does not of itself guarantee improved performance. The first standardized pattern to be issued was the single-scale Italian '' telo mimetico''. The root of the modern multi-scale camouflage patterns can be traced back to 1930s experiments in Europe for the

German German(s) may refer to: * Germany (of or related to) **Germania (historical use) * Germans, citizens of Germany, people of German ancestry, or native speakers of the German language ** For citizens of Germany, see also German nationality law **Ger ...

and Soviet armies. This was followed by the Canadian development of the Canadian Disruptive Pattern ( CADPAT), first issued in 2002, and then with US work which created the Marine pattern ( MARPAT), launched between 2002 and 2004.

Principle

Scale invariance

The scale of camouflage patterns is related to their function. Large structures need larger patterns than individual soldiers to disrupt their shape. At the same time, large patterns are more effective from afar, while small scale patterns work better up close. Traditional single scale patterns work well in their optimal range from the observer, but an observer at other distances will not see the pattern optimally. Nature itself is very often

, where plants and rock formations exhibit similar patterns across several magnitudes of scale. The idea behind multi-scale patterns is both to mimic the

self-similar __NOTOC__ In mathematics, a self-similar object is exactly or approximately similar to a part of itself (i.e., the whole has the same shape as one or more of the parts). Many objects in the real world, such as coastlines, are statistically se ...

ity of nature, and also to offer scale invariant or so-called fractal camouflage. Flounder camo md (cropped)

Animals such as the

flounder Flounders are a group of flatfish species. They are demersal fish, found at the bottom of oceans around the world; some species will also enter estuaries. Taxonomy The name "flounder" is used for several only distantly related species, thou ...

have the ability to adapt their camouflage patterns to suit the background, and they do so extremely effectively, selecting patterns that match the spatial scales of the current background.

Design trade-offs

Scorpion W2, Operational Camouflage Pattern (OCP) swatch

When a pattern is called digital, this most often means that it is visibly composed of computer-generated pixels. The term is sometimes also used of computer generated patterns like the non-pixellated MultiCam and the Italian fractal ''Vegetato'' pattern. Neither pixellation nor digitization contribute to the camouflaging effect. The pixellated style, however, simplifies design and eases printing on fabric, compared to traditional patterns. While digital patterns are becoming widespread, critics maintain that the pixellated look is a question of fashion rather than function. The design process involves trading-off different factors, including colour, contrast and overall disruptive effect. A failure to consider all elements of pattern design tends to result in poor results. The US Army's Universal Camouflage Pattern (UCP), for example, adopted after limited testing in 2003–4, performed poorly because of low pattern contrast ("isoluminance"—beyond very close range, the design looks like a field of solid light grey, failing to

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an object's outlines) and arbitrary colour selection, neither of which could be saved by quantizing (digitizing) the pattern geometry. The design was replaced from 2015 with Operational Camouflage Pattern, a non-pixellated pattern.

History

Interwar development in Europe

The idea of patterned camouflage extends back to the

interwar period In the history of the 20th century, the interwar period lasted from 11 November 1918 to 1 September 1939 (20 years, 9 months, 21 days), the end of the World War I, First World War to the beginning of the World War II, Second World War. The in ...

in Europe. The first printed camouflage pattern was the 1929 Italian '' telo mimetico'', which used irregular areas of three colours at a single scale.

German WWII experiments

During the Second World War,

Johann Georg Otto Schick German World War II camouflage patterns formed a family of disruptively patterned military camouflage designs for clothing, used and in the main designed during the Second World War. The first pattern, ''Splittertarnmuster'' ("splinter camoufla ...

designed a series of patterns such as ''

Platanenmuster German World War II camouflage patterns formed a family of disruptively patterned military camouflage designs for clothing, used and in the main designed during the Second World War. The first pattern, '' Splittertarnmuster'' ("splinter camoufl ...

'' (plane tree pattern) and ''

Erbsenmuster The Erbsenmuster or pea pattern was one of a family of German World War II camouflage patterns, said to have been designed by Johann Georg Otto Schick, and first issued to the Waffen-SS in 1944. The pattern had five colours, pale brown, dark brown ...

'' (pea-dot pattern) for the Waffen-SS, combining micro- and macro-patterns in one scheme. The

German Army The German Army (, "army") is the land component of the armed forces of Germany. The present-day German Army was founded in 1955 as part of the newly formed West German ''Bundeswehr'' together with the ''Marine'' (German Navy) and the ''Luftwaf ...

developed the idea further in the 1970s into Flecktarn, which combines smaller shapes with dithering; this softens the edges of the large scale pattern, making the underlying objects harder to discern.

Soviet WWII experiments

Pixel-like shapes pre-date

computer-aided design Computer-aided design (CAD) is the use of computers (or ) to aid in the creation, modification, analysis, or optimization of a design. This software is used to increase the productivity of the designer, improve the quality of design, improve c ...

by many years, already being used in Soviet Union experiments with camouflage patterns, such as "TTsMKK") is short for "three-colour disguise camouflage suit" ("трёхцветный маскировочный камуфлированный костюм", ''tryokhtsvetniy maskirovochniy kamuflirovanniy kostyum''). developed in 1944 or 1945. The pattern uses areas of olive green, sand, and black running together in broken patches at a range of scales.

1976 research by Timothy O'Neill

In 1976, Timothy O'Neill created a pixellated pattern named "Dual-Tex". He called the digital approach "texture match". The initial work was done by hand on a retired M113

armoured personnel carrier An armoured personnel carrier (APC) is a broad type of armoured military vehicle designed to transport personnel and equipment in combat zones. Since World War I, APCs have become a very common piece of military equipment around the world. Acc ...

; O'Neill painted the pattern on with a 2-inch (5 centimetres) roller, forming squares of colour by hand. Field testing showed that the result was good compared to the U. S. Army's existing camouflage patterns, and O'Neill went on to become an instructor and camouflage researcher at West Point military academy. Flecktarn

2000s fractal-like digital patterns

By 2000, development was underway to create pixellated camouflage patterns for battledress like the Canadian Forces' CADPAT, that was developed in 1997 which later was issued in 2002, and then the US Marines' MARPAT, rolled out between 2002 and 2004. The CADPAT and MARPAT patterns were somewhat

(in the manner of fractals and patterns in nature such as vegetation), is designed to work at two different scales; a genuinely fractal pattern would be statistically similar at all scales. A target camouflaged with MARPAT takes about 2.5 times longer to detect than older NATO camouflage which worked at only one scale, while recognition, which begins after detection, took 20 percent longer than with older camouflage.O’Neill, T., Matthews, M., & Swiergosz, M. (2004). Marine Corps innovative camouflage. Midyear meeting of the American Psychological Association, Divisions 19 & 21. Supplementary data at http://www.hyperstealth.com/digital-design/index.htm Fractal-like patterns work because the human visual system efficiently discriminates images that have different fractal dimension or other second-order statistics like Fourier spatial amplitude spectra; objects simply appear to pop out from the background. Timothy O'Neill helped the Marine Corps to develop first a digital pattern for vehicles, then fabric for uniforms, which had two colour schemes, one designed for woodland, one for desert.

Notes

References

{{Camouflage Camouflage Military camouflage Military technology Camouflage patterns