SE450802B - DEVICE FOR DEVICES FOR TRANSFERING IMAGE INFORMATION TO A SIGNAL - Google Patents

Description

450 802 2 the scan, however, is not suitable if the signal is to undergo certain types of processing and especially if the signal is given digitally form and processed in a computer for example for reproduction automated methods. _r The present invention has for its object to provide a device for limiting the scanned surface during conversion of an image to a signal to register a section with smaller dimensions than the maximum surface area for scanning registration of the device in such contexts where the signal processed.

The object of the invention is achieved by carrying out the device with the features specified in claim 1.

In the accompanying drawings, an embodiment of the invention. Fig. 1 then shows an image to be transmitted to signal form; Fig. 2 shows a row scanner for scanning the picture in question; Figs. 3 and 4 show on a much enlarged scale one small section of such an image reproduced from the obtained the signal; and Fig. 5 shows a block diagram of the device according to the invention. IN Z The image 1 shown in Fig. 1 represents with its outer edge 2 the largest image area a line scanner 3 (fig. 2) can scan.

The line scanner 3, which is shown schematically, has a light sensitive element 4, which is divided into a number of pixels for reading, as an example of the number has been chosen here 2048, which speech also plotted in Fig. 1 as representing the image 1 length extension. The line scanner 3 can be moved in its transverse direction along guides 6 and can thereby scan the image along line by line. The lines are then represented by the light-sensitive the element. This divides the image into a number of lines, which here is assumed to be 1360 pieces, which number is plotted in Fig. 1f Each line is then divided into the 2048 pixels. The wide the signal produced by the scan thus contains 2048 x 1360 modulated pulses, each corresponding to the brightness of the image in one specific point.

On many registration occasions, it may happen that the total, possible image area is not of interest without only wish to register a smaller section of this area. So- is shown in Fig. 1 how a section 8 is delimited in Fig. 1 ä: 450 802 and the intention is that only this part of the image should be race. In the case shown, the section 8 has such dimensions, that the longitudinal direction of the line scanner 3 corresponds to 1500 image points.In the line scanner and thus also j. the reading lines transverse direction corresponds to the section 800 lines, which also satts i Éig. 1.

However, for some purposes it is not appropriate to use flip any number of pixels when registering. As 2048, a speech formation_a power of 2. It is also desirable that the number shown corresponds to the total number of pixels, pixels at registration is always a power of 2. Here- through, the subsequent signal processing becomes better adapted to computer equipment for digitization of it in analog form reproduced, the light values corresponding to the signal. Also another type of data processing for transformation or analysis of the signal will be easier to perform if you can work with a number of images points, which is a power of 2.

The number of pixels corresponding to the desired section tet 8 should therefore be converted to the nearest lower power of 2, which here is 1024. On the other hand, it is not necessary for the said purpose necessary to convert the number of lines to any power of 2, as shown by the number of lines for the total image output the distance in this direction is 1360. Thus, The number of lines can be arbitrary.

In order to achieve the desired number of pixels, established according to the invention. to utilize only that number of pixels 5 along the element 4 of the line scanner, which together mans make up l024 pieces. To still cover the distance, which corresponds to 1500 pixels, the device is set up for scanning image between two external pixels between which the stand corresponds to 1500 pixels, that certain pixels are skipped during the scan.

In Fig. 3 it is indicated as but the scan is done so This is illustrated in Figures 3 and 4. squares a number of pixels on a significantly enlarged scale. They're in the longitudinal direction of the line scanner denoted by A-F. In the row scanner transverse direction are the designated a-j and each letter represents thus one of said scanning lines. If you searched for one original with imagined infinite resolution and this has been done 450 802 with a black line against a white background, the line being intended lie between the dotted lines 10 and 11, then one would reproduction via a complete scan signal will give the result tat, as shown in Fig. 3. Where the pixels have been completely covered the black line obtained completely black reproduction points 'while the pixels are divided into black and white fields at jens 10, ll edges different degrees of blackening obtained.

Onl vid. the scan image pixels shall not be completed constantly scanned but shall be reduced in the proportion, which mentioned: from 1500 to 1024, this is obtained according to the invention by skipping every third pixel at registration, thus two points are registered, the third skips the next two are registered, etc. Fully implemented, however, this would result in 1024 minus 24 pixels. Thus, the skipping must be ends at 24 places. This reduction can be mathematically kas as an operation using collection index. The index is in äåå '= 0.68266 ...

The reduction operation using the index value can be is written as follows. At each pixel should be mathematical seen ååšâ = 0.68266 .. pixels are registered but because the example the pixel is indivisible is registered at the first pixel l pixel. Thus, in terms of registration, a surplus value 1-0.68 = 0.32 (abbreviated values). At the next pixel would therefore be recorded 0.68-0.32 = 0.36 pixels. over the shot value thus rises to 0.64 upon registration. At next pixel, the surplus value rises to 0.96 and at the extreme next to 1.28. This is now reduced by l by this pixel is omitted. At the next pixel becomes the excess value 0.28 from the previous pixel to which is added 0.32. At. the pixel is then added an additional 0.32, thus a surplus value of 0.92. At the pixel thereafter exceeds the value again l and a new reduction takes place through leaving this pixel, etc. A calculation operation of this type well suited for mechanical treatment.

With good resolution in the scan, one is noticeable to the eye skipping not in most cases in terms of perception of the individual details of the image. However, it would shorten the 450 802 the image, which such a reduction of pixels would correspond to on the reproduced image is marked as a change of the section proportions and thus also the proportions of the image content if such an abbreviation was equivalent to maintaining the dimension in the other direction. However, this effect can eliminated.

Fig. 4 thus shows how only the registered 1024 the pixels are reproduced. To maintain the proportions also reduces the 800 lines in the other direction in the same proportions, giving 546 lines. This is done in the same way, by skipping every third line to the exclusion of 38 skips. The third, which disappears from the remaining The 762 lines give a reduction of the number 800 by 254 thus to the desired number 546. How a reproduction produced according to this image processing principle can look like is thus apparent from Fig. 4. B is followed directly here by D with skipping C as well as b followed by d and e by g. The scale of reproduction is reduced, something which, however, can be compensated by proportionate extent of the reproduction line and the line width.

Fig. 5 shows a block diagram of the device. Reference- the number lá symbolizes a control device with knobs ll and 12 for setting the image section 8 in Fig. 1, which is to be registered within the possible total area. The control unit is in connected to a computing unit 13, which in turn stands in connection to a control unit 14, which is arranged to in turn and order and in a sequence controlled by the calculation device 13 connect the reading points 5 of the reading element 4 of the line scanner and att control its line scan. This creates a pulse train, which a memory l5 is supplied for storing the signals for future use and / or delivery in the form of an output signal 16, e.g. pelvis for remote transmission of the image or for reproduction.

The calculation unit 13 is arranged to reduce it by means of the selected number of pixels in the control unit 10. distance, which corresponds to the longitudinal direction of the line scanner to the mast below the lying power of 2. It is then also arranged to perform this reduction using aggregation index such as described. On the basis of the reduction principle, the 450 802 t 6 unit 13 unit 14, so that it provides registration of the intended pixels. In the same way, the number of you in the second image dimension.

The generated signal is applied, as mentioned, to the unit 15.

Depending on the shape of the device, the further described sig- before the signal was used for reproduction of the picture takes place in the unit 15. However, more appropriate is the compensation for the reduction is performed in direct connection with reproduction.

As a result, the stored and remotely transmitted data the smaller. .w- fl (z

Claims (1)

450 802 CLAIMS 1. Apparatus for apparatus for transmitting image information to a signal and comprising a scanning device (3) arranged to scan an image in a line pattern and arranged to convert the information received by the element by means of a photosensitive element (4). about the brightness of the image in its successively scanned pixels along said scan lines to a modulated, preferably electrical signal, which is intended to control a reproducing apparatus for producing an image corresponding to the scanned image (1), actuators (11, 12), for setting the apparatus, when scanning the image (1), to produce a signal representing a limited section of the image area scannable in the apparatus, a control device (10) for controlling the scanning device of the scanning device (3) of the image surface to the section being set with the actuators limiting the number of scan lines and along these the number of pixels to the selected section, wherein a calculation device (13) is arranged to change the number of recorded and signal-transmitted lines and / or along the lines of their pixels from the numbers corresponding to the number of lines and pixels contained within the selected section, to numbers of smaller size by excluding the registration of certain lines or pixels, characterized in that the calculation device (13) is designed to reduce the number of lines and the number of pixels to numbers, each corresponding to the one closest to the number corresponding to the number of lines and pixels, which fit within the selected section, lie the power of the number 2 in order to adapt the signal for digital signal processing by excluding registration and transmitting to signal form the required number of the lines within the section and the pixels in order to reach said