Archived posting to the Leica Users Group, 2004/10/26
[Author Prev] [Author Next] [Thread Prev] [Thread Next] [Author Index] [Topic Index] [Home] [Search]Frank Dernie schrieb: > Hi Phong, > I completely agree. Since film is the most digital of "analogue" > media, in that it consists of discrete grains, in a somewhat random > pattern, but still basically so many grains per square inch (depending > on film). When the film is exposed the grains are effected depending > on colour, light intensity etc but there are still a fixed number of > grains. When the negative is enlarged a new sheet of "analogue" > material is exposed in the enlarger. Unless this sheet of material has > identical grain pattern and number of grains as the original negative, > and the enlarger lens is perfect, the resulting enlargement has -must > have- interpolated information in it and is changed from the original. > Frank > True enough but I think in the case of analogue/film/negative we should get away from the term "interpolated".In the technical sense the definition is that a new, narrower, grid is constructed from a grid of original information. In the case of digital information the interstices between the existing value grid are "filled-out" with new values containing information from the surrounding or neighbouring values. The degree of influence (weighting) of the neighbouring real data on the resulting value is governed by processing algorithms or simple matrix filters. The simplest form would be to take an equal proportion of each of the four corner values of a grid to produce a reasonable approximation to what a real value might be at the centre. More complicated methods also take into account the neighbouring groups of values, these can be overlapped or weighted (binning) to produce an albeit less reliable but more realistic result including trends within the data.. In the case of a negative or film the more or less random distribution of grains shows no regular structure, the "data" may "look" different after enlargement but the finite number of grains remains the same. An interpolation per definition at source doesn't take place in so far that we are not creating any new grains.. Douglas