FR2557983A1 - Method and system for the formation and projection of images giving an impression of relief - Google Patents

Abstract

This system is characterised in that it comprises, for taking the picture, an objective 1 comprising in succession, on an optical axis, a first entrance lens 2, of substantially plano-convex shape, then a solid optical sphere 3 made from transparent material, then a lens assembly 4 equivalent to a divergent lens and, for the projection, a receiver of the image constituted by a transparent hemisphere 12 and a Fresnel lens 13 disposed in the diametral plane of the hemisphere 12 and of the same diameter as the latter.

Description

 The present invention relates to a method and a system for forming and projecting images giving an impression of relief.

 Various processes are already known which make it possible to produce images in relief and among these we can cite holography and stereoscopy. If these methods give good results, they nevertheless have the drawback of requiring, for their implementation, the use of relatively sophisticated equipment and which is consequently of a very high cost price.

 The present invention aims to remedy these drawbacks by providing a method and a system for forming and projecting images of a particularly simple design and at low cost, while making it possible to obtain relief images of 'excellent quality.

 To this end, this method of forming and projecting images giving an impression of relief is characterized in that, when taking a picture, a curved image of the space observed on the surface of a surface is formed. solid sphere in transparent material, this curved image is transformed into an intermediate planar image with circular outline which is recorded on a photosensitive or magnetic support or directly transmitted, and, during projection, the intermediate planar image with circular outline is projected onto the diametral plane face of a transparent hemisphere so as to recreate, on the anterior hemispherical surface thereof, a curved image corresponding to the space observed.

 The method according to the invention can be implemented concretely, that is to say by using real physical spheres and lenses, or even by electronic means for calculating the images formed successively making it possible to finally reconstruct an image in relief similar to that created on the hemisphere constituting the receiver.

 The subject of the invention is also a system for forming and projecting images giving an impression of relief, characterized in that it comprises, for shooting, an objective successively comprising, on an optical axis, a first lens of entry, of substantially plano-convex shape, then a solid optical sphere, made of transparent material, having a radius of curvature greater than that of the convex surface of the first entry lens, this optical sphere being arranged close to the face exit plane of the first input lens, then a set of lenses equivalent to a divergent lens aperture substantially of the same order of magnitude as that of the optical sphere and arranged at the exit of the optical sphere, and, for the projection, an image receptor consisting of a transparent half-sphere in the diametral plane from which the image obtained from the objective is reconstructed, and a Fresnel lens arranged in the diametric plane tral of the hemisphere and of the same diameter as this one.

 The image obtained by means of the objective of the system according to the invention can be recorded in the form of a slide or of cinematographic film. It can also be formed on a photosensitive target of a video camera in order to be recorded on a magnetic tape or to be transmitted by a television network. On the reception side, in the case of an image recorded on a photosensitive medium (slide or cinematographic film), a slide projector or ordinary film projector.

In the case of a transmission by television or a recording on magnetic tape, the image reproduced on the screen and which has a circular outline, is transformed into an image in relief when viewed through the optical receiver formed of the transparent hemisphere and the Fresnel lens.

An embodiment of the present invention will be described below, by way of non-limiting example, with reference to the attached drawing in which
Figure 1 is a block diagram illustrating the principle of the method and the system for forming and projecting relief images according to the invention.

 Figure 2 is an axial sectional view, on a larger scale, of an embodiment of the shooting objective of the system according to the invention.

 Figure 3 is an axial sectional view of a receiver used in conjunction with a slide or film projector.

 The method and the system for forming and projecting images giving the impression of relief according to the invention implement, on the side of the shooting, a lens 1 which comprises a first planconvex input lens 2 whose convex ace 2a is turned outwards, in the direction of the space whose relief image is to be formed. Behind this first input lens 2 is disposed a sphere 3 of optical glass with a radius of curvature greater than the radius of curvature of the convex face 2a of the input lens 2. In fact the diameter of the optical sphere 3 is , preferably, substantially equal to the interpupillary distance, that is to say that it is close to 89 mm. The input lens 2, the axial position of which, relative to the optical sphere 3, can be adjusted, constitutes an image generator in this sphere 3 at the same time as an input diaphragm for the objective. The distance separating the planar exit face of the entry lens 2 from the optical sphere 3 is relatively small, of the order of 1 to 9 mm.

 The modification of the axial position of the input lens 2 relative to the optical sphere 3 makes it possible to vary the angle of view. The further this input lens 2 is moved away from the optical sphere 8, that is to say the more it is shifted to the left in the drawing, the more the angle of field is reduced. On the contrary, the closer the input lens 2 is to the optical sphere 8, the more the angle of view is increased and the image formed is full and complete.

 The image of the portion of space located in front of the objective is formed, by being inverted, on the posterior hemispherical surface of the optical sphere 3, that is to say the right hemisphere in the drawing, this image being marked by a reinforced line.

 Behind the optical sphere 3 is arranged a set of lenses 4 which is equivalent to a single slightly diverging lens. This set of lenses 4 has the function of straightening the optical path of the light beam emerging from the optical sphere 3. In the nonlimiting embodiment shown in the drawing, this set of lenses consists of a first diverging lens 5 plano-concave associated with a second plano-convex converging lens 6 whose left convex face 6a has a greater radius of curvature than that of the right concave exit face 5a of the plano-concave lens 5. The plano-convex converging lens 6 can be axially adjustable by translational movement.

 The lens assembly 4 ensures a progressive rectification of the image first formed on the concave face 5a of the plano-concave lens 5, then on the planar exit face 6b of the plano-convex lens 6.

 The circular image which is formed on the planar exit face of the plano-concave lens 6 is then projected either on a photosensitive support to form a slide 7 or an image of a cinematographic film 8. It can also be projected on the photosensitive target 9 of a video camera 10 for magnetic recording or direct transmission by a television system.

On the projection side, the image provided by objective 1 is projected, by means of a projection device 11, onto a hemispherical receiver 12. More particularly, the image is projected into the diametrical plane of the hemispherical receiver 12, diametral plane in which there is a Fresnel lens 13. The receiver 12 consists of a transparent semi-sphere of small thickness made of optical glass or organic material or it can be formed from a so-uple material inflated. In the case
a small image, such as a slide
observed through a viewer, the half-sphere transpa
annuity 12 may however be full.

The projection device 11 can be a project
conventional tor used for slide show
tives or cinematographic films. In this case a screen
translucent plane 14 (figure 3), circular in shape, is
arranged parallel to and in the vicinity of the lens
Diametral fresnel 13, in front of this lens considering the path of the light beam.

The observer who happened to be located in front of the
hemispherical surface of receptor 12 can see on this
surface a high quality relief image.

Claims (7)

 1.- A method of forming and projecting images giving an impression of relief, characterized in that, when shooting, a curved image of the space observed on the surface of a solid sphere made of transparent material is formed. , this curved image is transformed into an intermediate planar image with circular outline which is recorded on a photosensitive or magnetic support or directly transmitted, and, during projection, the intermediate planar image with circular outline is projected onto the diametral planar face of a transparent half-sphere so as to recreate, on the anterior hemispherical surface thereof, a curved image corresponding to the space observed.  2.- System for forming and projecting images giving an impression of relief, characterized in that it comprises, for shooting, an objective (1) successively comprising, on an optical axis, a first input lens (2), - of substantially plano-convex shape, then a solid optical sphere (3), in transparent material, having a radius of curvature greater than that of the convex surface of the first input lens (2), this sphere optic (3) being arranged near the planar exit face of the first input lens (2), then a set of lenses (4) equivalent to a divergent lens of opening substantially of the same order of magnitude as that of the optical sphere (3) and arranged at the exit of this optical sphere, and, for projection, an image receptor constituted by a transparent half-sphere (12) in the diametrical plane from which the image obtained is reconstituted from the objective, and a Fresnel lens (13) arranged in the diametral plane of the hemisphere (12) and of the same diameter as the latter.  3.- System according to claim 2caractérisé in that the optical sphere (3) preferably has a diameter substantially equal to the interpupillary distance, that is to say of the order of 89 millimeters.  4.- System according to any one of claims 2 and 3 characterized in that means are provided for varying the axial position of the first input lens (2) relative to the optical sphere (3).  5.- System according to any one of claims 2 to 4 characterized in that the lens assembly (4) is constituted by a first diverging lens (5) concave plane associated with a second converging lens (6) plane- convex whose convex face (6a) has a radius of curvature greater than that of the concave exit face (Sa) of the plano-concave lens (5) towards which it is turned  6.- System according to claim 5 characterized in that the plano-convex converging lens (6) is axially adjustable by displacement in translation.  7.- System according to any one of claims 2 to 6 characterized in that a translucent plane screen (14), of circular shape, is arranged parallel to and in the vicinity of the diametral Fresnel lens (13), in front of this lens by considering the path of the light beam.