WO1999066717A1 - Transmission device for transmitting image contents in a concealed manner - Google Patents

Abstract

The invention relates to a method for generating and transmitting an entire image having additional image parts which can not be seen at the moment they are viewed. The method comprises the following steps; generating the additional image parts in a second optical spectral range which lies outside a visible optical spectral range; detecting the entire image in the visible optical spectral range and in the second optical spectral range; generating an image content signal from the entire image, and; displaying the entire image according to the image content signal in the visible optical spectral region, whereby the additional image parts are transformed in the visible optical spectral region.

Description

"Transfer device for the hidden transfer of image content"

description

The invention relates to a method for generating and transmitting an overall image, as described in claim 1.

In conventional methods for generating and transmitting images, an image to be transmitted with essentially unchanged spatial, spectral or Wavelength and intensity information of the image is transmitted so that the image subsequently displayed after the transmission is as similar as possible to the "actual" image, i.e. the image shown corresponds as completely as possible to an image that a viewer perceives without technical aids when looking directly at the "actual" image.

It is an object of the invention to provide a method for generating and transmitting an overall image with additional image parts that are not visible when viewed directly.

The object is achieved by a method with the features specified in claim 1. Preferred embodiments are the subject of the subclaims.

The method according to the invention for generating and transmitting an overall image with additional image parts that are not visible when viewed directly comprises the steps of - generating the additional image parts in a second optical spectral range that lies outside of a visible optical spectral range, detecting the overall image in the visible and the second optical spectral range, generating an image content signal from the overall image, Displaying the overall image in accordance with the image content signal in the visible optical spectral range, the additional image parts being transformed into the visible optical spectral range.

Accordingly, the additional image parts are for direct viewing, i.e. viewing without the aid of technical aids, because they are generated in a second optical spectral range that lies outside the optical spectral range visible to the human eye (wavelength range of approx. 400 nm-700 nm). The overall image, which contains the additional image parts, is detected with a detection device in a spectral range or spectral ranges, which includes both the visible or parts of the visible spectral range and the second optical spectral range. The image content signal generated from this detected overall image essentially contains all image information of the overall image, in particular spatial,

Wavelength and intensity information. The overall image can thus be displayed on the basis of the image content signal in the visible optical spectral range if the detected additional image parts are transformed into the visible optical spectral range in this or one of the preceding steps, i.e. when a wavelength transformation takes place from the second optical spectral range to the visible optical spectral range.

The second optical spectral range is preferably the infrared and / or the ultraviolet spectral range, that is to say one or both spectral ranges adjacent to the visible optical spectral range. In these adjacent spectral ranges, numerous detection devices for detecting the overall image with the additional image parts often still have a sufficiently high sensitivity to light so that conventional detection devices can be used for the method according to the invention.

The additional image parts with an active or light-generating display device by generating light or electromagnetic are advantageous Radiation generated in the second spectral range.

The active display device preferably comprises light-emitting diodes (LED) and / or laser diodes, which are arranged in particular in a matrix-like manner and can be activated along the contours of additional image parts. Such light-emitting diodes can in particular be conventional infrared LEDs based on III-V or II-VI semiconductor diodes. If larger image intensities of the additional image parts are necessary, the use of laser diodes can be advantageous. In particular, semiconductor laser diodes with quantum well or multi-quantum well structures from the group of III-V semiconductor heterostructure systems can also be used, for example

Gallium arsenide and / or indium gallium arsenide are used which have high output powers and high spatial coherence in the infrared spectral range. A possibly small sensitivity of certain detection devices for the detection of the overall image can thus be countered effectively.

According to a further preferred embodiment, the active display device is a display board or a display treadmill, which are suitable for generating time-changing and / or static additional image parts. With such an active display device, in addition to animations or

Additional static image parts can also be shown in the films, which can be specifically changed or generated by activating the active display device.

According to a further preferred embodiment, the additional

Image parts in the second spectral range are also generated by electromagnetic radiation impinging on a passive display device. This incident electromagnetic radiation can subsequently be reflected by and / or absorbed and re-emitted by the passive display device, the wavelength of the incident electromagnetic radiation not necessarily having to be equal to the wavelength of the re-emitted electromagnetic radiation. An infrared or ultraviolet dye can preferably be used to generate the additional image parts with the passive display device. In particular, such a dye can be designed such that it has a large and as uniform as possible absorption coefficient in the visible spectral range, but a small one in the infrared or ultraviolet spectral range

Has absorption coefficients, i.e. there has a large reflection coefficient in the infrared or ultraviolet spectral range. Electromagnetic radiation impinging on the passive display device is absorbed or reflected in a wavelength-selective manner by such an infrared or ultraviolet dye, the absorption in the visible spectral range and the

Reflection in the second optical spectral range are large.

According to a further preferred embodiment, a dye that fluoresces in the infrared spectral range is used to generate the additional image parts with the passive display device. Impinging electromagnetic radiation or light, particularly in the visible spectral range, can stimulate such a fluorescent dye to fluoresce. An average wavelength of the fluorescent light emitted by the passive display device is greater than an average wavelength of the incident light and, with a suitable choice of the fluorescent dye, can be in the infrared spectral range.

According to a further preferred embodiment, the passive display device comprises a reflector which generates the additional image parts by reflecting light or electromagnetic radiation from an infrared radiation source. In addition to infrared lamps, infrared lasers can also be used as infrared radiation sources. The light of the infrared radiation source reflected by the reflector is thus in the infrared spectral range. The spatial information or image information of the additional image parts can be done either by targeted absorption and / or transmission of the incident light onto or through the passive display device with the reflector, so that only certain incident light rays are reflected by the reflector or the infrared radiation source is generated and is already projecting a suitable image onto the reflector without absorption or transmission for generating the additional image parts in the passive display device.

The reflector preferably consists of a matt or slightly roughened metal plate and the infrared radiation source consists of an infrared laser with a beam deflection device for scanning or deflecting an infrared laser beam. Here, the infrared laser beam impinging on the matted metal plate can be scanned in such a way that the additional image parts are generated by reflection of this infrared laser beam impinging on it. The repetition rate of the scanning process can be selected so that the scanning process follows the

Step of detection in the overall image shown is no longer perceived by the human eye.

According to a further preferred embodiment, one that works in the second optical spectral range is used to generate the additional image parts

Projection system used, which can be similar in function to a conventional slide projector. In particular, an infrared radiation source can be used, which with the aid of imaging optics can image a document illuminated in front of it on a desired projection medium in the infrared spectral range. The projection medium can in particular be a sports field or a tennis net, but also a projection screen specially provided for this purpose. The basic structure of the original can be similar to that of a conventional slide, whereby it has surface areas with low and large transmission coefficients in the infrared spectral range, which are arranged according to the additional image parts. The projection medium used for this advantageously has a high reflectivity in the infrared spectral range. The spatial radiation characteristic of the projection medium can either be isotropic or diffuse or have a preferred radiation direction that is specifically adjusted to the spatial position of a detection device. In the latter case, beam bundling into predetermined ones

Solid angle a higher intensity of the additional image parts detected by the detection device can be achieved. A CCD camera (charged-coupled device camera) which is sensitive in these spectral ranges is preferably used for the detection of the overall image in the visible and the second optical spectra range. Such CCD cameras contain a CCD chip conventionally made from single-crystalline silicon, which converts incident light into electrical signals.

The upper sensitivity limit wavelength, i.e. The maximum detectable wavelength of such a CCD chip essentially depends on the effective band gap of the semiconductor used and is approximately 1 100 nm for silicon. Numerous conventional CCD chips are therefore still sensitive to light in the infrared spectral range and can be used for the inventive method

Find use.

A television system is preferably used to transmit and display the overall picture. This can in particular consist of at least one television camera, a transmitting and processing device and at least one

TV exist.

Advantageously, in the step of generating the image content signal from the overall image, the additional image contents can either be taken into account or not taken into account, i.e. the image content signal can optionally

, Contain or not contain wavelength and intensity information of the additional image parts. This opens up the possibility, depending on the content of the additional parts of the picture, to show or hide them in the overall picture shown. If the additional image parts contain, for example, advertising information, this can be used to select whether or not this advertising information should be included in the overall image shown. Such a choice can be particularly advantageous in view of the controversial tobacco and alcohol advertising at international level, for example in motor racing.

The invention is described below by way of example with reference to the single figure. It shows: Figure 1 embodiments of the inventive method for generating and transmitting advertising information from a tennis event.

The method according to the invention can advantageously be used for the transmission of sporting events, for example a tennis tournament. Figure 1 shows a tennis court 1 0 with tennis net 1 2 and tennis players 14. The spectator stands 1 6 surrounding the tennis court 10 are limited to the tennis court 1 0 by gangs 1 8.

The additional parts of the image that are not visible when viewed directly can be generated on these bands 1 8 and on the tennis net 1 2. For this purpose, an infrared dye, for example, can be applied in a predetermined manner to the tennis net 1 2 before transmission and game start, the geometry of the color application of the infrared dye being one

Letter train and / or a graphic image on the tennis net 1 2 corresponds and represents advertising information. In order to ensure sufficient radiation intensity of the additional image part generated, the tennis network 1 2 can optionally be illuminated with radiation sources (not shown) in the infrared spectral range during the transmission. The bands 1 8 are designed as active display devices with matrix-like arranged infrared light-emitting diodes (IR LEDs), so that additional additional image parts can be generated on these by activating the infrared light-emitting diodes along the contours and surfaces of the geometries of the further additional image parts to be generated. In addition to advertising information, these additional image parts can also include the

Include tennis event related information.

The spectators in the bleachers 1 6 and the tennis players 14 on the tennis court 1 2 do not perceive the additional image parts generated on the tennis net 1 2 and the bands 1 8, since they lie in the infrared spectral range which is not visible to the human eye, which is one Influencing or disturbing the spectators and tennis players is excluded by these additional parts of the picture. The overall picture consisting of the playing field environment, spectator stands 1 6, gangs 1 8 and tennis court 10 with tennis net 1 2 and tennis players 14 is detected with the aid of a CCD television camera 20, with the additional picture parts also being recorded. The camera signal output by the CCD television camera 20, which can already correspond to an image content signal of the overall image, is transmitted to one or more image processing devices 22 by electrical or optical data lines 21 and / or by electromagnetic radio transmission. In the embodiment shown, the image content signal is generated from the camera signal supplied to the image processing devices 22. Contributions of the detected additional image parts can optionally be taken into account or not taken into account when generating the image content signal of the overall image. A transformation of spectral information of the additional image parts from the infrared into the visible spectral range takes place, for example, in the image processing devices 22, wherein the spectral information of the additional image parts can also be assigned to a plurality of wavelength information of the visible spectral range in a predetermined or predeterminable manner.

The image content signal of the overall image thus generated is transmitted to a television set 24 to display the overall image. Depending on the control or parameter settings of the image processing devices 22, the additional image contents are displayed by the television set 24 in the visible spectral range or are omitted if they were not taken into account when generating the image content signal. According to FIG. 1, the television viewer thus takes, for example, a letter train generated on the illustrated band 1 8 '

26 "XYZ-ABC-EFG-KLM" as well as on the tennis net 1 2 'shown a further generated letter 28 "A B C" true.

Reference list

10. Tennis court

1 2. Tennis net 12 '. shown tennis net

14. Tennis player

16. Grandstands

18.Gangs

18 '. shown bands

20. CCD television camera

21. Data line

22. Image processing equipment

24. TV set

26. Letter train

28th letter train

Claims

"Transfer device for the hidden transfer of image content" claims

1 . Method for generating and transmitting an overall image with additional parts of the image which are not visible when viewed directly, comprising the steps of

Generating the additional image parts in a second optical spectral range which lies outside a visible optical spectral range,

Detection of the overall image in the visible and the second optical spectral range,

Generating an image content signal from the overall image, displaying the overall image according to the image content signal in the visible optical spectral range, the additional image parts being transformed into the visible optical spectral range.

2. The method of claim 1, wherein the second optical spectral range is the infrared and / or the ultraviolet spectral range.

3. The method of claim 1 or 2, wherein the additional image parts are generated with an active display device by generating light in the second spectral range.

4. The method according to claim 3, wherein the active display device comprises light emitting diodes (LED) and / or laser diodes, which are arranged in particular in a matrix-like manner and can be activated along the contours of additional image parts.

5. The method of claim 3 or 4, wherein the active display device is a display board or display treadmill, which are suitable for generating temporally changing and / or static additional image parts.

6. The method according to claim 1 or 2, wherein the additional image parts in the second spectral range are generated by incident on a passive display device electromagnetic radiation.

7. The method according to claim 6, wherein an infrared or ultraviolet dye is used to generate the additional image parts with the passive display device.

8. The method according to claim 6 or 7, wherein a dye fluorescent in the infrared spectral range is used to generate the additional image parts with the passive display device.

9. The method of claim 6, wherein the passive display device comprises a reflector that generates the additional image parts by reflecting light from an infrared radiation source.

10. The method of claim 9, wherein the reflector is a matted metal plate.

1 1. The method of claim 9 or 1 0, wherein the infrared radiation source is an infrared laser beam deflection means for scanning a Infrarotla ^¬ serstrahls.

12. The method according to claim 1 or 2, wherein the additional image parts are generated on a projection medium by an optical image of a template, which is illuminated with an infrared radiation source.

1 3. The method according to one or more of the preceding claims, wherein for detecting the overall image in the visible and the second optical spectral range, a CCD camera sensitive in these spectral ranges is used.

14. The method according to one or more of the preceding claims, wherein a television system is used to transmit and display the overall picture.

5. The method according to one or more of the preceding claims, wherein in the step of generating the image content signal from the overall image, the additional image contents can either be taken into account or not taken into account.