Screen-door effect

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"Screen Door Effect". The text in the image is from the third paragraph in this article.

The screen-door effect or fixed-pattern noise (FPN) is a visual artifact of the projection technology used in digital projectors, where the fine lines separating the projector's pixels become visible in the projected image. This results in an image that appears as if viewed through a fine screen or mesh such as those used on anti-insect screen doors. It most commonly appears as a rectangular grid or sometimes as a hexagonal structure.

The "Screen Door Effect" was noticed on the first digital projector, which was an LCD projector, made in 1984 by Gene Dolgoff, the inventor of the LCD Projector. To elliminate this artifact, Dolgoff invented "Depixelization", which used various optical methods to eliminate the visibility of the spaces between the pixels. The dominant method made use of a micro-lens array, wherein each micro-lens caused a slightly magnified image of the pixel behind it, filling in the previously-visible spaces between pixels. In addition, when making a projector with a single, full-color LCD panel, an additional appearance of pixelation was visible due to the noticeability of green pixels (appearing bright) adjacent to red and blue pixels (appearing dark), forming a noticeable repeating light and dark pattern. Use of a micro-lens array at a slightly greater distance created new pixel images, with each "new" pixel being a summation of six neighboring sub-pixels (made up of two full color pixels, one above the other). Since there were as many micro-lenses as there were original pixels, no resolution was lost, which was confirmed with modulation transfer function (MTF) measurements.

The "Screen door effect" on DLP projectors can be mitigated by deliberately setting the projected image slightly out of focus, which blurs the boundaries of each pixel to its neighbor. This minimizes the effect by filling the black pixel perimeters with adjacent light. Some older LCD projectors often have a more noticeable screen door effect than first generation DLP projectors. Newer DLP chip designs promise closer spacing of the mirror elements which would reduce this effect; however, some space is still required along one edge of the mirror to provide a control circuit pathway. Use of Dolgoff's depixelization method could also produce a DLP projector without noticeable pixelation.