PL219873B1 - Method for preparation of camouflage pattern - Google Patents

Description

Description of the invention

The subject of the invention is a method of preparing a camouflage pattern intended for effective masking in any chosen terrain for military, hunting and sports purposes.

A method of preparing a camouflage pattern is known from the US patent application US Patent No. 5,972,479. In the first stage, it involves taking a series of photos in the environment in which the masking pattern is to be applied. A typical scenery includes foliage of various types, and in a preferred embodiment, the foliage includes at least oak, poplar, and birch leaves. Then, digital photos of tree leaves are transferred graphically to a computer. The digital photos on the computer are layered on top of each other, creating a complex print showing the entire camouflage pattern. The camouflage pattern created in this way is used to create the camouflage material. In this process, after the image is superimposed on top of each other using a computer program, the colors in the image are separated from each other, creating the size of the dominant colors in composite printing. Then, based on the size of the individual color prints created by color separation, multiple layers are created. Each of the rasters corresponds to one color printout created by color separation. In the next stage, the colors separated as a result of the separation process are identified. Knowing the colors and accepted color ranges, as well as having the raster layers, the colors are identified and the material layer is rasterized by using appropriate raster layers. In an embodiment where the masking material is intended to simulate an environment in which oaks, poplars and birches grow, the dominant colors selected from composite printing are black, dark green, light green, khaki orange, and gray.

A similar method is also known from US patents US 2005/0 005 339 A1 and US 2009/0 105 018 A1, where in the initial stage pictures of e.g. leaves or animals with specific camouflage are taken, which serve as a camouflage pattern to be applied for the equipment or clothing of soldiers.

The essence of the invention consists in taking and developing photos on devices that are part of one color management system, then the images are analyzed in terms of selecting areas of similar colors and determining a representative color of individual areas and the percentage of the designated colors. Then, the images are analyzed again, taking into account the elements characteristic for a given area, and the distribution and shape of spots with representative previously determined colors are determined, creating a dedicated camouflage pattern. In the final stage, the obtained camouflage pattern is simulated on the images made in order to optimize it.

The method according to the invention allows for obtaining a unique camouflage texture and guarantees, through specific selection of colors, effective camouflage in the area for which it was developed. Its advantage is also the fact that the color, distribution and shape of the spots are selected with the use of a commercially available computer program. Averaging the number of colors in the selected area to one and reducing the number of these areas to a minimum significantly shortens the camouflage development time and increases its masking effectiveness.

P r z k ł a d

Visible and near-infrared images are imaged in representative scenery of the area using high-end digital cameras with known color profiles. These images made in RAW format are developed, taking into account the color profile, on the workstation in the format of a graphic file that enables its further analysis. The images taken are combined to create one panorama of the scenery. The panorama of visualization images is divided into areas representing terrain background elements of similar color. Light green vegetation is assigned to the regions of the panorama representing light green, dark green vegetation is assigned to the regions of the panorama representing dark green, trunks and litter are assigned to the regions of the panorama representing brown. One representative color is selected from each area of the selected pixels in the panorama. From among all the obtained colors of the designated areas, the target camouflage colors are determined and their color components are read. The percentage of colors is calculated on the basis of the quantitative analysis of the marked pixels of the panorama areas. Based on the scenery in the near infrared panorama, the level of re-emission of the marked areas of the terrain background is determined. Then, the panoramas of the scenery are analyzed taking into account the elements characteristic for a given one

In order to define the distribution and shape of the spots of a dedicated camouflage pattern. A camouflage is created with the given colors, re-emission level, distribution and shape of spots and percentage share. The created camouflage pattern is applied to image panoramas in order to optimize it and finally verify the effectiveness of the masking. This verified and optimized product constitutes the final camouflage pattern. Each of the devices used at the stage of acquiring and analyzing the camouflage pattern is part of a digital color management system.

Claims (1)

Patent claim A method of preparing a camouflage pattern consisting in taking a series of photos using a digital technique of a representative area of the terrain in the visible and near infrared range and analyzing the images obtained in order to generate a camouflage pattern dedicated to a given area, characterized by the fact that on devices included in one color management system, and develops photos, the images are analyzed in terms of selecting areas of similar colors, a representative color of individual areas and their percentage share are determined, then the images are re-analyzed taking into account the elements characteristic for a given area and the shape and distribution of spots with previously designated representative colors by creating a dedicated camouflage pattern, and then the obtained camouflage pattern is simulated on the images made by optimizing it.