DE2932120A1 - Television-to-facsimile image conversion system - uses line frequency for switching reading and writing operations for two line memories - Google Patents

Abstract

The appts. for reproducing a television picture as a hard copy facsimile signal has the output of the camera connected to an A/D converter followed by a control circuit and a parallel path to a switching system. The switch controls entry in one of two parallel line memories. The outputs are connected by a second switching system to a D/A converter, a signal adapter and the facsimile appts. The control circuit uses the line frequency to control the writing and reading operations for the two memories by operating the two switching systems to obtain the facsimile signal. The height and width of the image can be calculated.

Description

METHOD OF CONVERTING A TELEVISION SINGLE IMAGE SIGNAL INTO A FACSIMILE SIGNAL AND REVERSE Description The invention relates to a method of conversion a television still image signal to a foci signal and vice versa.

The known methods and apparatus for hardcopy production of individual television images are relatively complex and expensive. You work over with photosensitive paper Exposure by means of an appropriately controlled laser beam or via television-like Intermediate image about fiber optics.

The invention is based on the object of creating a method with the help of a simple interface device the adaptation of the video signal to a facsimile device and vice versa.

The solution to this problem takes place according to the invention by the in the characterizing Part of claim 1 specified requirements.

Advantageous further developments result from the subclaims.

The price and quality of the produced hard copy television picture become wide determined by the properties of facsimile earth.

The invention offers the significant advantage that the time-transformed Video signal can be treated like a facsimile signal, i.e. H. the signal can transmitted before the hardcopy recording via transmission paths of the facsimile technology and then recorded with a facsimile machine.

When converting the video signal into the signal of the standardized fax machines (e.g. CCITT group 2 facsimile) can e.g.

transmit the video signal over the worldwide telephone network and then on the receiving side either as a hard copy or with the help of a corresponding interface device is converted back into a video signal will.

The method according to the invention is described below with reference to FIG the drawing figures are explained by way of example: FIG. 1 shows a basic representation the aspect ratios of a television picture on the one hand and a facsimile picture (DIN A4) on the other hand, FIG. 2 shows a basic illustration of the individual signal processing stages for converting a video signal to a facsimile signal in the form of a block diagram and FIG. 3 shows a complex representation of the read-in and read-out and storage time relationships in relation to the video signal to be transformed and the facsimile signal to be generated.

The data of the television signal to be recorded that are of interest here as well as the resulting facsimile sign are characterized by the following quantities: 1. TV signal: number of lines n vertical blanking a v horizontal blanking aH Image duration tB Line duration tz Aspect ratio b = (width to tones) h From it the following quantities can be derived directly: visible number of lines n = (1 - av). n Duration of the visible line t = (1 - aH). tz For the European television system is z. E.g .: n = 625 lines, a = 6%, aH = 18%, tB = 40 ms, tZ = 64 usec, b = 4, n5 = 587 lines, t = 52.48 usec.

h 3 2nd facsimile signal: r Total line length B Visible (usable) line B length (written width of the hardcopy) Maximum writable height of the H hardcopy Vertical resolution R (line density) Line frequency F The following parameters can be derived directly from this: Total number of lines NN = HR at the level H of the hard copy transmission time for the hard copy written in full TB = N / F F total line duration TZ = 1 F duration of the visible line For the mutually compatible fax machines of the CCITT group 2 is z. 8 .: W = 215 mm, W = 200 mm, H = 297 mm, R = 3.85 lines / mm, 5 F = 360 lines / minute = 6 lines / sec, N = 1143 lines, TB = 3.18 min, T = 167 ms, T = 155 ms.

z zs When the lines of the television signal are transformed into the lines of the facsimile signal, n of the hard copy are written with the television signal. These take the height there one and be at a time of written.

To achieve a distortion-free image, the length (width) b of the part of the facsimile line described by the television signal must be to get voted. This part of the facsimile line is in time written. With the values of the European television system and the values for the facsimile machines of CCITT Group-2, z. E.g .: h = 152.6 mm, tB = 1 min 38 sec, b = 203.5 mm, Gz = 157.73 ms.

The geometrical proportions calculated here are in the Fig. 1 using the example of a television signal according to the European television standard and a facsimile machine of CCITT Group 2 is shown. On the in Fig. 1 reduced DIN A4 page 1 shown with the size H x W is the television picture on the hatched Area 2 shown in size h x w. This is the beginning of the hard copy, i. H. the position of the first line described by a television signal, chosen arbitrarily.

In Fig. 2, the video signal 8 to be recorded as hard copy arrives at one Video frame from the video signal source 5, which is a television camera or an image memory can be, initially to an analog / digital converter shown in dashed lines in FIG 6 for analog / digital conversion of the video signal. From here the signal is on the one hand a control circuit 7 and on the other hand via an electronic switch S 1 either a line memory A or a line memory B supplied. At her Outputs are the line memories A and B via the electronic switch S 2, the digital / analog converter 10 (shown in dashed lines) and a device connected to the facsimile device 12 for signal adaptation 11. The control circuit 7, the facsimile line frequency of the facsimile machine other than the video signal to be recorded is supplied, is used for write / read control of the two line memories A and B as well as to control the two electronic switch S 1 and S 2. The two electronic switches S 1 and S 2 are in the cycle of the facsimile line frequency switched and in opposite directions, d. H. whenever S 1 is in position a, if S 2 is in position b and vice versa, the control circuit 7 is now alternately on the one hand in one line memory for the duration of a facsimile line a specific video line of a specific video frame period is read in and stored and, on the other hand, a previously stored video line from the other line memory read out facsimile line frequency and vice versa. This is where the video frequency happens Reading in the video line after A / D conversion via the electronic Scholter S 1, the readout via the electronic switch S 2, whereby before the signal adaptation the facsimile-frequency digital signal via the A / D handler to the facsimile device 10 is converted back into an analog signal. In this way, all of them become Lines of the video signal next to each other cus certain frame periods of the video signal video frequency taken over from the line memories and then facsimile frequency read from these and recorded on the hard copy. The actual time transformation of the signal is done by the different read-in / read-out speeds Line memory.

The factor K between the read-in and read-out cycle is equal to the quotient from the duration of the facsimile line T written with the television signal and the duration the visible television line t d. H. K = ZZ. For the example chosen so far with zs Uzs TZ = 157.75 ms and tzs = 52.48 / usec z. B. K = 3006. The for the procedure necessary storage time of the signal in the line memory is today only achieved through digital storage.

Therefore, an A / D conversion is prior to storage and a D / A conversion required after saving. The A / D converter 6 and the D / A converter 10 can be omitted as soon as analog line memories with corresponding storage times be available.

The control circuit 7, which controls the read-in / read-out control of the line memories determined, evaluates the sync pulse raster of the video signal and the facsimile line frequency raster the end. For this purpose, these two grids do not need to be coupled to one another, i. H. it is not necessary that they be derived from a common clock. The control circuit 7 on the one hand performs the video image selection, i. H. she decides, which video frame period during a particular facsimile line for storage a video line is used.

On the other hand, the control circuit 7 also takes over the video line selection, d. H. it is determined on the basis of the number of those already recorded on the hard copy Facsimile lines, which video line of the selected video frame period to save arrives in a line memory.

For hardcopy recording of a single television picture with interlaced lines In FIG. 3, the read-in, read-out and storage time relationships are shown under a time grid the two line memories A and B as well as the positions of the electronic counter S 1 and S 2 in relation to the television field raster and the facsimile line raster shown. The standard of the European television system was again used as an example as well as the standard for fax machines according to CCITT group 2, the same naturally also applies to other standards.

The facsimile lines have the temporal length T of which only z is the in Fig. 3 hatched area T can be described with signal zs. According to FIG. 3, several field periods fall during the duration of a facsimile line of the video signal, which are numbered consecutively in Fig. 3, so that the odd numbers the first, the even numbers the second television field characterize.

Via the control circuit are now successively in the line memory A the lines of certain odd-numbered television fields video-frequency and read out facsimile frequency while in the line memory 8 one after the other the lines of certain even-numbered Fernsehholbbildern and video frequency can be read out at facsimile frequency. The start is for reading out the line memory the beginning of a facsimile line. There are several television fields on a single line of Foksimile several television fields can also be used for line selection.

In Fig. 3, the odd ones selected for row selection are Television halves rhombus-shaped for the Line selection selected Even-numbered television fields are marked in a circle. So in Fig. 3 is the first Television line Z1 taken from the first television field raster, video frequency in the Line memory A stored and with the beginning of the first facsimile line facsimile line frequency read out. During the duration of the first line of the facsimile, the second line of television will be displayed Z2 in FIG. 3, for example, taken from the eighth television field raster, video frequency stored in the line memory 8 and at the beginning of the second facsimile line read out from this facsimile frequency. This is followed by the selection of the third one Television line Z3, for example from television field 17, the selection of the fourth television line Z4, for example, from television field 26, etc. All the lines come in this way two television half-picture rasters for evaluation and recording. Of course the content of the television images must not change.

As indicated, Z1 'Z2, Z3 etc. denote the 1st, 2nd, 3rd etc.

visible line of the television picture on the monitor, d. H. the lines are numbered locally. This follows within the first field grid the image blanking temporally Z Z2 Z5 etc. one another within the second field grid Z2, Z4 'Z6 etc.

As already mentioned, in order to achieve a distortion-free image, the line memories must be read out in a time T which is dependent on the parameters of the television signal and the facsimile signal. And indeed will There are basically two cases to be distinguished: Either it becomes b <= B 5 and thus Tzs 4- T. In this case, the part of the facsimile line described with Fernsehzs zs signal ends within aer usable length B of the facsimile line and it makes sense to 5 the rest of the facsimile line with a signal of constant brightness z. B. Knows to describe. But it can also be or> Bs and thus TZ> Tzs. In this case, the usable length B of the facsimile line is insufficient to record the entire television line. The area b - B must then be dispensed with, in that when reading out the line 5 memories at the end of each line the contents of the line memory that were used during the time range is read out, does not get to hardcap recording and instead a signal of constant brightness z. B. White 5 is recorded.

With the data of the European television system as well as the data of the Facsimile of the CCITT group 2 is z. B. w = 203.5 mm, w = 200 mm and #z = 2.71 ms. I. E. it must be on the area 5 b - B = 3.5 mm of each television line on the right Edge of the image 5 can be omitted by reading the line memory at End of each line is the content of the line memory that is read out during Zz = 2.71 ms, was not recorded. In this example, only 1.7% walk each Line lost what's in of Fig. 1 by the double hatched Drawn area 3 is indicated.

In the case of television signals without interlacing, the distinction is omitted in FIG. 3 even and uneven fields and the lines in the depicted Kind one after the other from any television picture period during a facsimile line taken.

It often happens that the single video frame to be recorded as a hard copy is only available as a field, ie with this signal the first and second field raster are identical and only n / 2 lines are evaluated. A video signal with only 2 one field raster comes z. B. as a still image from a video recorder with helical recording. Such a signal can either be treated like a video signal without interlacing, in which case only ns = n / 2 (1-av) lines cuf of the hard copy are occupied by the television signal. In order to achieve a distortion-free image, the width b of the hardcopy television image is then halved and it becomes b = 4/3 1 - av). n / 2. Halved here-3 and through results in an unfavorable small format of the hard copy for many television standards. It is therefore advisable to read and store a specific video line of a specific video field period in the line memory A for the duration of two facsimile lines when creating a hardcopy of a video field, while a previously stored video line is read out twice in succession from the line memory B and is facsimile-frequency this process reverses for line memories A and B every two lines of facsimile. In this way, all lines of the video field are taken over one after the other from specific image periods of the video signal and recorded twice in succession as a facsimile line on the hard copy. The same format is thus achieved on the hard copy as when recording a video frame with two field rasters, ie the height of the television hard copy is the width The procedure described here is also reversible. I. E. A video signal can also be obtained from a facsimile signal, in reverse of the method, for which, however, a video image memory is then required. A part of a template corresponding to the hatched area 2 in FIG. 1 is then made visible as a single video image on a monitor. In the reverse of the previously described method, n lines of the facsimile signal are still temporarily stored in one or more line memories in that they are read in at facsimile frequency and read out at video frequency. The individual lines read at video frequency from the line memories do not immediately follow one another in time, ie they do not form a continuous video signal, but rather they follow one another in a time-discrete manner at the time interval between the facsimile lines. To generate a continuous video signal, the video lines read from the line memories must therefore be read into a video image memory at this time interval. Here, the entire video signal of the individual image is built up from the individual lines, which after time 18 can be read out continuously as a complete video signal for any length of time. If only one field memory is available, in reverse of the method for recording a field, only every second line can be read into the line memory at facsimile frequency and then read out at video frequency.

In this way, the original can be larger than a single image displayed on the monitor.

With the procedures described here it is also possible for reasons the transmission of a video signal of a single image via line memory on the source side convert to a facsimile signal on facsimile transmission lines - e.g. B.

Telephone lines - to be transferred and then via line memory to the valley side and back into a video signal via a video image memory. This enables the transmission of video signals via the global telephone network. Blank page

Claims (17)

METHOD OF CONVERTING A TELEVISION SINGLE IMAGE SIGNAL INTO A FACSIMILE SIGNAL AND REVERSE Claims 1 i Method for converting a television still picture signal into a facsimile signal and vice versa that by time transformation store the video signal in one or more lines (A, B) using at least one control circuit clocked at a facsimile line frequency (7) is converted into a facsimile signal or vice versa. 2. The method according to claim 1 for displaying a television frame (Full image) in size h x w (h = height, w = width) on the hard copy of a facsimile machine, d a d u r c h e k e n n n z e i c h n e t that according to time transformation of the individual TV lines in one or more line memories to achieve distortion-free Figure on the hard copy shows the height of the TV picture shown as h = n (1 R av) and the width is chosen to be b = c n (1 - ay), where n is the number of lines in the TV picture (full picture), av the vertical blanking of the TV picture, c the Aspect ratio of the television picture and R is the vertical resolution of the hard copy in number of lines per unit of length. 3. The method according to claim 1 for displaying a Fernsehholbbildes in size h x b on the hard copy of a facsimile machine, d u r c h g e k e n n z e i c h n e t that after time transformation of the individual television lines in one or more line memories to achieve a distortion-free image on the hard copy the height of the television field shown increases. formed the television field to h = 2 R and the width to b = c n / 2 . ###### is selected. 4. The method according to claim 1 for displaying a television field in size h x b on the hard copy of a facsimile machine, d u r c h g e k e n n z e i c h n e t that after time transformation of the individual television lines in one or more line memories (A, B) to achieve a distortion-free Figure on the hard copy shows the height of the depicted television field at h = n (1 (0 - cv) and the width R is chosen to be b = c (1 - av), with each line of the Fern-R seh Halbbildes is written twice in succession on the hard copy. 5. The method according to claim 1, 2 and 4, d a d u r c h g e k e n n indicates that the time to display a television frame on the Hardcopy ## = n. (1 - ay) F, where F is the line frequency of the facsimile red denotes the number of lines per unit of time and the television picture to be recorded for the time as a still picture (video signal and frame-periodic repetition the same signal content) is made available. 6. The method according to claim 3, d a d u r c h g e -k e n n z e i c n e t, the time to display the television frame on the hard copy whether or not = n 1 -1B 2 F, with the television picture to be recorded being motionless for the time being Image (video signal with frame-periodic repetition of the same signal content) is made available. 7. The method according to claim 1 to 6, d a d u r c h g e k e n n z e i c h n e t that one after the other from certain occurring during the time # @ B Fields and / or full frames of the television image that was motionless during this time Lines are cached in one or more line buffers (A, B), into which they are read in at video frequency and with simultaneous signal adaptation to the Facsimile device can be read out at facsimile frequency, with the write / read speed being tokenized the line memory (A, B) the reading takes place in the time t = (1 - aH) t, where aH represents the horizontal blanking and t represents the duration of the video line, and the readout in time | = Bb T occurs, z z where T is the duration of the entire facsimile line and B represents the length z of the entire facsimile line. 8. The method according to claim 1 to 7, d a d u r c h g e k e n n z e i n e t that the area B - b of a line on the hard copy with a signal constant brightness, e.g. B. White, is described and that with B as Sichtborer 5 Line length for the case b> B on the area b - B of each s s recorded Television line is dispensed with by reading out the line memory at the end of each Line the content of the line memory that was read out during the time range At = b - Tz B. will not be recorded and instead during this time up to A signal of constant holiness at the end of the entire facsimile line, e.g. B. White, recorded will. 9. The method according to claim 1, 2, 3 and 5 to 8, d a -d u r c h it is not indicated that two line memories (A, B) are used, whereby when numbering the facsimile lines within the duration of an odd number Facsimile line in a line memory (A) a certain video line of a certain Video frame period is read in and stored, while from the other line memory (B) a previously stored video line is read out at a facsimile frequency, with during the duration of an even-numbered focsimile line, this process works for the reverses both line memories (A, B), and that in this way all lines of the Video signal successively from certain frame periods of the video signal from the line memories can be taken over and recorded on the hardcopy at facsimile frequency. 10. The method according to claim 1, 2, 5 and 7 to 9, d a -d u r c h notices that when recording a single television picture with Line skip with consecutive numbering of all pending during the recording time Tß Fields of the video signal to be recorded one after the other in the first line memory (A) each only lines from certain odd fields and in the second line memory (B) only lines from certain even-numbered lines Fields are cached. 11. The method according to claim 4 and 5 and 7 and 8 for hard copy presentation of a television field, d a d u r c.h g e -k e n n z e i c h n e t, that two line memories (A, B) may be used, each of which lasts for two lines of facsimile into a line memory (A) a specific video line of a specific video field is read in and stored, while from the other line (B) a previously stored video line is read out twice in succession with facsimile frequency and this process for the line memories (A, B) after every two facsimile lines reverses and that in this way all lines of the video field one after the other taken from certain frame periods of the video signal from the line memories and recorded twice in succession as a facsimile line on the hard copy will. 12. The method according to claim 1 to 10, d a d u r c h g e k e n n z e i c h n e t that the switching of the line memories (A, B) between writing and reading is made by a control circuit (7), which the video picture, video line and Evaluates the facsimile line frequency by placing the facsimile line frequency at the beginning of reading out the respective line memory (A, B) and by means of a counting circuit of the facsimile lines already recorded, the next one in the other line memories (A, B) line to be saved that of a video frame period is extracted during a facsimile line currently being written, with video signals with interlaced alternating during the first duration of a facsimile line an even-numbered line and an odd video field for the next facsimile line duration is used for line evaluation or when recording a video field one video line of a video field for the duration of two facsimile lines It is accepted and each line is read out twice in succession from the line memory and is written to the hard copy twice in succession as a focus line. 13. The method according to claim 1 to 12, d a d u r c h g e k e n n z e i c h n e t that the video signal is stored in digital line memories (A, B) after the signal has previously been digitized in an A / D converter (6) and this signal after leaving the line memory (A, B) in a D / A converter (10) is converted back into an analog signal. 14. The method according to claim 1 to 13, d a d u r c h g e k e n n z e i c h n e t that this is converted into a facsimile signal with the aid of the two line memories (A, B) transformed video signal if necessary before hardcopy recording via a suitable Channel (telephone line) is transmitted. 15. The method according to claim 1 to 14, d a d u r c h g e k e n n z e i c h n e t that out of n lines of a foci signal a video signal is obtained by placing the part b of the lines in a facsimile frequency in an or several line memories are read in and read out at video frequency and at a distance of the facsimile lines resulting video lines to generate a continuous Video signal read into a video image memory and from the area'h x b of the Facsimile original can be read out as a single video image. 16. The method according to claim 15, d a 6 v r c h g e -k e n n z e i c h n e t that when using a video image memory to evaluate a cheaper format only every second facsimile line of the original into a video line is converted. 17. The method according to any one of claims 1 to 16, d a -d u r c h g e k e n n n e i n e t that for the use of the transmission paths of facsimile technology For video signal transmission, a video signal before transmission into a facsimile signol and is converted back into a video signal after the transmission. Description: