DE19949011A1 - Camera and display screen unit has detection units in form of individual hollow acquisition bodies and screen unit with correspondingly arranged individual hollow reproduction bodies - Google Patents

Abstract

The camera has an optical unit that forms images on an image plane in which the image is resolved into image elements detected by detection units in the form of hollow acquisition bodies. The screen unit consists of individual hollow reproduction bodies corresponding in number and arrangement to those of the detection units. The unit acquires images with the camera (2) and reproduces them with the display unit (15) after amplification. The camera has an optical unit (3) that forms images on an image plane in which the image is resolved into image elements detected by detection units in the form of hollow acquisition bodies with rotation symmetry about their optical axes normal to the optical plane, a light input and individual light sensitive elements on their inner surfaces. The screen unit consists of individual hollow reproduction bodies corresponding in number and arrangement to those of the detection units with light inputs and light output elements on their inner surfaces whose number and arrangement are directly correlated to those of the light sensitive elements in the acquisition bodies.

Description

The invention relates to a camera and screen unit, with a camera images recorded and with a screen unit, after amplification by means of an amplifier unit, are reproduced, the camera having an optical unit, which maps to an image plane, and wherein in the image plane the image is divided into picture elements solved with a detection unit.

Such arrangements with camera and image units are generally known and are widely used. The playback of pictures taken with a camera or films, however, increasingly high demands are being made, especially since that a spatial reproduction of the captured images is desired to to display captured images realistically and thus spatially.

In the past, the first attempts to represent images spatially were those of holographic recordings. However, these were stationary images, d. H. for snapshots. Films that convey a spatial representation are shown today in so-called 3D cinemas. Such films are with several Filmka meras recorded and the respective image areas are seamlessly joined together, so that the cinema-goer shows a picture scene of 180 ° or more.

The present invention is based on the object of a camera and image create screen unit that the recording and reproduction of spatial images or Filming allows, without changing a point-to-point assignment between  Recording picture and playback picture, with the greatest possible luminosity, and whereby the Screen unit can be built in a desired size.

This problem is solved with a camera and screen unit mentioned at the beginning ten Art, which is characterized in that in the image plane in the area of each Bildele a receiving hollow body is arranged as a detection unit, the one Has rotational symmetry about its optical axis, the optical axis being perpendicular to the Image plane is that each receiving hollow body has a light input opening that is symmetrical to the optical axis that the inner surface of each recording Hollow body with individual, light-sensitive elements is documented that the recording Hollow bodies are all of the same size and shape that the screen unit is made of single NEN playback hollow bodies is constructed, the number of playback hollow bodies and their spatial allocation to each other ent that of the receiving hollow body speaks that each display hollow body has a light exit opening and that each rendering hollow body emitting individual light on its inner surface Elements is occupied, the number and the spatial arrangement of the light outside elements of a display hollow body to that of the photosensitive Directly elements of the recording hollow body assigned to this playback hollow body correlated.

With this arrangement, the recording and reproduction of spatial images is possible. Here, an assignment of the recording point to the playback point is carried out; furthermore, an angular determination of a spatial output image is rendered picture assigned. Because the display screen is broken up by individual display hollow bodies is built, wherein each rendering hollow body corresponds to a recording hollow body or correlated with this, screens can be designed in any size.

Due to the rendering hollow body with the individual arranged on the inner surface NEN, emitting light, the impression of one is created in the area of the screen infinitely expanding space.

Preferably, the individual hollow bodies, i. H. both the recording and the Playback hollow body, formed in the form of round balls, each a central one Have opening. Alternatively, it is possible to make the hollow body rotationally symmetrical  Form bodies whose dimension in the direction of the optical axis is greater than perpendicular right about that. Such an arrangement has the advantage that an overall camera unit is built can be, which can be smaller in diameter.

In contrast, hollow bodies formed by round balls should then be used when a safe and simple manufacture of the camera element necessary is.

A lens should be integrated into the light inlet openings of the hollow receptacles be that evenly distributes the light entering the receiving hollow body. Farther a lens should be integrated into each of the light output openings of the rendering hollow body be grated, each of the light from the respective playback hollow body projected.

In order to correlate the recorded images and the reproduced images firmly with one another, be preferably a playback hollow body is assigned to each recording hollow body. From the same chem reason, the hollow body of each correlated pair should have the same geometric Have shape. If necessary, the shapes of each correlated pair of an image Adapting me-hollow body and a playback hollow body to each other can do this an adaptation device can be provided which allows this adaptation to be carried out electronically Takes paths.

Further details and features of the invention emerge from the following Description of an embodiment with reference to the drawing. The drawing shows:

Fig. 1 shows a schematic structure of a camera and screen unit according to the invention and

Fig. 2 is a schematic representation of recording hollow bodies and assigned th playback hollow bodies of the camera and screen unit.

As FIG. 1 shows, the system according to an embodiment of the invention comprises a camera unit 1 with a camera 2, which comprises an optical unit 3 and a Erfas sungseinheit. 4

The detection unit 4 , as shown schematically in Fig. 2, comprises a large number of individual receiving hollow bodies 5 , which are arranged along a recording plane, indicated by the dash-dotted line 6 , into a two-dimensional field with m columns and n rows . The individual receiving hollow body 5 can be selected in a suitable size; the number is practically arbitrary and is determined by the desired resolution and the size of the recording level.

In the illustration in Fig. 2, the individual receiving hollow bodies 5 balls each with a light input opening 7 , which is provided centered on the respective optical axis 8 of the receiving hollow body 5 , the optical axis 8 each at a right angle to the Level 6 runs. A lens 9 is inserted into each light input opening 7 . In the individual hollow receptacles 5 , which are part of the camera unit 1 , the light waves find their way into the inner space of the hollow body 5 via the lens 9 . Within the respective hollow body 5 , the light waves are picked up by light-sensitive elements 10 , which can be, for example, individual photo elements. These photosensitive elements 10 must be selected so that the inner curvature of the receiving hollow body 5 can be occupied evenly over the entire surface. If an adaptation of such a light-sensitive element 10 to the curvature is not exactly possible, a glass adaptation must be ground.

The signals that are emitted by the light-sensitive elements 10 as a function of the incident light wave or the recorded light intensity in the form of electrical signals are fed in a processing unit 11 connected downstream of the camera unit 1 , then amplified in an amplification unit 12 , and the Amplified signals are optionally geometrically adapted in an adaptation unit 13 if the individual hollow receptacles 5 are not exactly adapted to one another or for further processing due to the circumstances. The signals are then fed via an output unit 14 to a screen unit 15 .

The screen unit 15 is composed of a field of a plurality of display hollow bodies 16 , the field in turn consisting of m columns and n rows of individual display hollow bodies 16 . There is a correlation between a recording hollow body 5 and a reproduction hollow body 16 . Within the re-delivery hollow body 16 , the inner surfaces are covered with light-emitting diodes 17 , which may be punctiform elements. These rendering hollow bodies 16 each have a light exit opening 18 , again arranged in the region of the optical axis 8 , into which a suitable lens 19 is inserted. The individual light-emitting diodes 17 in the return hollow bodies 16 are assigned to the photosensitive elements 10 in the receiving hollow bodies 5 in position and position, so that each signal recorded or generated by a photosensitive element 10 in a receiving hollow body 5 correlates with it LED 17 in the corresponding playback hollow body 16 is performed. Due to the large number of hollow rendering elements 16 , a spatial impression of the reproduced image is created.

Claims (8)

1. Camera and screen unit, with which images are recorded and reproduced with a screen unit, after amplification by means of an amplification unit, are reproduced, the camera having an optical unit that maps to an image plane, and wherein the image in the image plane Detected in picture elements, each with a detection unit, characterized in that a recording hollow body ( 5 ) is arranged in the image plane ( 6 ) in the area of each picture element as the detection unit ( 4 ), which has a rotational symmetry about its optical axis ( 8 ) has, the optical axis ( 8 ) perpendicular to the image plane ( 6 ) that each recording hollow body ( 5 ) has a light input opening ( 7 ) which is symmetrical to the optical axis ( 8 ) that the inner surface of each recording Hollow body ( 5 ) with individual, light-sensitive elements ( 10 ) is that the receiving hollow body ( 5 ) all of the same size and F orm are that the screen unit ( 15 ) from individual NEN playback hollow bodies ( 16 ) is constructed, the number of playback hollow bodies ( 16 ) and their spatial assignment to each other corresponds to that of the recording me hollow bodies ( 5 ) that each playback -Hollow body ( 16 ) has a light exit opening ( 18 ) and that each playback hollow body ( 16 ) on its inner surface with individual light-emitting elements ( 17 ) is occupied, the number and the spatial arrangement of the light-emitting elements ( 17th ) of a How dergabe hollow body (to that of the photosensitive elements of this reproduction hollow body (16) associated receiving hollow body (directly correlated 5) 16). 2. Camera and screen unit according to claim 1, characterized in that the hollow body ( 5 , 16 ) are formed by round balls. 3. camera and screen unit according to claim 1, characterized in that the hollow body ( 5 , 16 ) are formed by rotationally symmetrical body, the dimen solution in the direction of the optical axis ( 8 ) is greater than perpendicular to it. 4. camera and screen unit according to claim 1 or 2, characterized in that in the light input openings ( 7 ) of the receiving hollow body ( 5 ) each have a lens ( 9 ) is integrated, which in the receiving hollow body ( 5 ) light entering equally distributed. 5. camera and screen unit according to claim 1 or 2, characterized in that in the light output openings ( 18 ) of the playback hollow body ( 16 ) each have a lens ( 19 ) is integrated, each of the light from the playback hollow bodies ( 16 ) project out. 6. camera and screen unit according to claim 1, characterized in that each Weil a recording hollow body ( 5 ) and a playback hollow body ( 16 ) form a correlated pair to each other. 7. camera and screen unit according to claim 5, characterized in that the hollow bodies ( 5 , 16 ) of each pair have the same geometric shape. 8. camera and screen unit according to claim 5, characterized in that the geometric shape of each pair is electronically adapted by an adapter ( 13 ).