DE1937202A1 - TV system for three-dimensional pictures - Google Patents

Description

Mitsubishi Think! Kabuahiki Kaisha, Tokyo, Japan

Television system for three-dimensional images

The invention relates to a television system for production purposes of a three-dimensional picture structure

The · visual * perception of distance and Rauntief «can be achieved through binocular · Fer» 1 lax *, of which the atereoscopic photographer! sees “taken by two lenses separated by a certain distance from each other, eo ai the impression of a three-dimensional image. The strength of this impression is determined by the mutual position of the two lenses, so that if the viewer moves across or perpendicular to the plane of the photographs, this visual impression is not changed. An actual three-dimensional reproduction has never been achieved in this way. This also applies to television systems ₍

109808/0843

which work with the stereoscopic effect described above * Examples, a picture tube can be assigned to a plurality of cylindrical lenses, which lie in a plane parallel to the front of the tube and whose cylinder axes run perpendicular to the horizontal lines of the grid on the front of the picture tube. The viewer can then see two separate images on the same screen. The process has, however that not only the visual impression does not change for the viewer at any movements relative to the image on the picture tube the Naohteil, but that even the stereoscope! See effect could disappear when · τ viewer ά not both Eyes ^ along the vertical axis of the front of the picture tube or on one side of it.

The invention has therefore set itself the task of creating a television system for generating an actual three-dimensional image impression, so that when the viewer changed its position in relation to the screen «another previously unrecognizable side of the respective scene slohable or that he will win a whole new Blldelnruok * Through the invention thus becomes a realistic television system Reproduction of the image an · »object or a scene reached *

. According to the invention, this is a » - Finally reached TV station and pick-up tube * Through The pick-up tube transforms the object to be transmitted into an electrical signal, while the television station processes and transmits the electrical signal. The attachment is characterized by a first multi-eye focusing optics opposite the object to be recorded by a second multi-eyed * focusing optics, dl «with the first Optics is connected in series, whereby ·! the «council · and the second optics have a common focal plane, and through a third Mehräuglg · Fokusateru & gaoptik * dl · the second Optics is opposite and on the focal plane «in optical Image generated / recorded when the pickup tube *

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Every focusing optic can be integrated into a multi-eye lens system or a perforated plate with a multitude of rows and Have columns arranged n & del-sized holes.

It is advantageous if an optical diffusion lamella or an optical amplifier is arranged between the first and second lens systems or the corresponding perforated plates will.

The picture tube is sweokaäßiger catfish with a multi-eyed Equipped with a lens system that is optically connected to the picture tube, · ο because its focal plane coincides with the picture display surface of the tube.

A characteristic ·· feature of the invention is the realistic reproduction of an object in any position by means of the recording, transmission and reproduction of the image.

Furthermore, with the arrangement according to the invention, it is possible three-dimensional · Record and play back images of any objects or scenes. without the need for any lenses normally used in photography

For a more detailed explanation of the invention, reference is made to the following description of the drawing. BS seigern

the Fig. Fa * Ib, 2a and 2b representations of the principle of Invention,

3a and 3b visual representations of the stereoscopic television system according to the invention,

the Fig. k "in eehematisohe part & nsloht of a modified embodiment and

FIG. 5 shows a representation corresponding to FIG. k of a further Attsführungfora.

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BATH ORIGINAL

In Fig ι 1a the process of recording an object with the device according to the invention is shown, while Fig * 1b shows the image reproduction of the imaged object that can be achieved therewith. In FIG. 1 a, an object to be recorded is "focused in light-sensitive medium 1U, a photographic dry plate or the like" by means of a multi-eyed lens system which is arranged in a dark room not shown, so that the medium 14 is only the light passing through the lens system 12 is exposed * The lens system 12 consists of a large number of small »plano-convex lens elements, which are arranged closely next to each other in columns and rows on a plane * Like the arrows in. Flg. 1 wiQon is that from a point A of the object 10, for example outgoing Lieht by iodine lens element of the lens system 12 so that lh on the photosensitive medium images obtained »corresponding in number and arrangement of the lens elements of the lens system 12th The exposed medium is developed and appropriately reversed to obtain a positive plate. The positive plate is then returned to its original position, which is indicated by reference number 16 in FIG. 1b.

The object 10 is no longer present in FIG. 1b. The positive flat at point 16 now becomes white light that comes from the rear, i.e. the side facing away from the lens system. That of the many on the record Outgoing light from recorded images runs in the opposite direction wio when recording, so that one is at the Place where the object 10 was previously »receives the same image again. For example, the light that comes from the picture goes out, the position agrees with the Lag · A of the object 10 in a Lag · A * focused, in which position A was originally on object 10. That. originating from other points of the recorded images Light is mapped onto the equal · V ·! ·· at the corresponding points. This means that the real image of the object 10 is created in the same lag as originally from

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the object 10 was taken * The real image is shown in Fig. 1b is provided with the reference number 18. If one looks at the resulting image 18 from the front, where the eye of the Viewer outside the Llnsensyaterae 12 and the picture is located, the viewer sees an image that is convex and concave in relation to the object 10 * as it was seen by the lens system 12 · is reversed * Bs thus becomes a looked at strange picture

Fig. 2 shows a first way of eliminating this

in Fig. 2a
Disadvantage. It can be seen how a correct positive plate is obtained from the positive plate 16 according to Fig. 1b, and Fig. 2b shows the process of reproducing the image of the object recorded on the correct positive plate.

The lens system 12 shown in FIG. 2a has a positive plate as shown in Fig. Ib bit a smooth lens system 20 » which is arranged parallel to it, with the arched Face each other. A light sensitive Medium 22, like medium ill, is on an image plane of the lens system 20 · This exposes the photosensitive medium to white light transmitted through the positive plate 16 and the linden systems 12 and 20 goes like by the arrows in Fig *. 2a is shown · The exposed Medium is developed and aur fratie & ung a corrected positive plate reversed in a known way *

The positive plate obtained in this way is placed in a position 2 ^ (FIG. 2b) or on the image plane of the lens system 20. When the corrected positive plate 2k old white light is illuminated from the side opposite the lens system 20, the light is emitted from the lens system 20 as if it emanated from the object 10 in its original position (cf. the description in FIG. 1). The viewer's eye 28 thus sees an imaginary image at the point at which the object 10 was originally located. Since the viewer the

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Light rays of the object looks like this? all whether this is actually in the place of the imaginary image is the viewed image in concavity and convexity is not reversed, with the result that the viewer is the same Sees an image that he would see * if the object were at this point «That means that the viewer actually gains a three-dimensional impression · The The invention is thus based on the principles outlined at the beginning.

In Fig. 3 there is shown an embodiment of the stereoscopic television system of the invention * Fig. 3a tilts the transmitter the television system and Fig. 3b shows the associated receiver. A first and a second »multi-eyed lens system 30, 32, which match the construction of the lens system 12 according to FIG. 1 a, are arranged one behind the other, while a translucent optical diffusion lamella 34 between the flat sides of the two lens systems. The first and second lens systems 30, 32 have a third multi-eyed lens system 36, which is also in a common focal plane in the construction with the lens system already described 12 matches, is opposite the second lens system 32, with the curved surfaces of the two systems facing each other.

The third lens system 36 is optically connected to a receiving tube 38, for example a vidicon, with a light-sensitive layer h0 on the front side. The output of the receptacle · stirr · 38 is electrically connected to «in» m television transmitter kz of conventional design with a television antenna kk *

During the operation of the system, the light from the first lens system 30 of the optical diffusion lamella Jk is focused by the diffuse, starting from an object or an object (not shown in FIG. 3a) The light then emerges from the lens system 32 and

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falls on the third lens system 36 "The last-mentioned lens system 36 serves to" generate an optical image on the light-sensitive layer kO of the receiving tube 33 * Thus the lens system 32 serves to "reproduce the optical image generated by the lens system 30" and 32 cooperate with the lens system 36 in order to carry out the two processes, as "they have already been described in connection with FIGS. 1a and 2a" pulled apart.

The pickup tube 38 converts the optical image on the light-sensitive 8ohicht k0 into an electrical signal which is further processed by the transmitter k2 in a known manner. The processed signal is then broadcast via the television antenna kk

FIG. 3b shows the recording of the television signal of the TV antenna kk by means of a receiving antenna k6 and its further processing on a television receiver k8 conventional design · The output of the television receiver k arrives at a picture tube 50 of known design and produces on its screen 52 an optical image with corresponds to that on the light-sensitive layer kO of the pick-up tube 38

At the front of the picture tube 50 is for receiving a multi-eye lens system $ h mounted "which is similar in size and shape to the third mehrftugigen lens system 36 on the sender side * The focal plane · of the lens system 5h is located on the screen 52 of the Stir 50 · In addition, should the mutual The assignment between the lens system 5k and the screen 52 coincide as precisely as possible with that between the third lens system 36 and the light-sensitive lens system of the receiving tube 38.

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A viewer sees with his "eye 5" (Pig. 3b) through the lens system 54 on the receiving tube 50 for the imaginary image of the object or the sweetness · just as if these actually located in the place of the imaginary image wouldβ

It should be pointed out that the recording clock should scan the right side opposite the picture tube on the left, and "from the Grxmn®" veil the light that emerges from each lens element of the erate ω Linaom system 32 travels along such a path "that ee a real image in a position which is symmetrical to the " e ± n & m object opposite the diffusion lamella 3" so that an image is obtained with the left side seen from the right *

In FIG. K , a modification is shown in which an optical amplifier 60 replaces the optical diffusion lamella 3k shown in FIG Using the optical amplifier 60, the optical sensitivity of the television transmitter to the optical diffusion lamella 3k can be increased considerably *

The arrangement shown in Fig. 5 differs from derk those according to Fig. 3 only in that the multi-eyed Lens system replaced by a perforated plate, whose needle-sized Holes are arranged in the same way as in the aie-eyed one Lens system. The basic principle of the invention, the ready la connection with the multi-eyed lens system described is just as applicable to the perforated plate »

Thus, the invention creates a remote location, which makes it possible to generate real three-dimensional images. Its distinguishing features are completely different from those of existing stereoscopic television systems, which work on the principle of stereoscopy. before

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ßAD ORIGINAL

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In the efflnduag & gem & iSea system, an · * object® · is placed on the coated lens systems or hole plates g «» rb®it «tj without using the torriohtu & g, which is normally referred to as liana« where see the three-dimensional riad print results in _t as if the object were actually in the same place. To carry out the invention, it is necessary that the electronic circuits of television transmitters and receivers be compared to conventional television receivers. work with high frequencies »This is necessary due to the high drawing frequency of the images on the pickup tube.

The principle of the invention can be implemented in various other embodiments. For example, instead of the optical diffuser "" !! "34" in a suitable optical element "toeiigieleweise" iss. Eptisohes fiber bundle, the multi-eyed lenses easy "teiae 30 uad, 32 optically interconnecting. Depending naoh Wuneek the optisohe diffusion plate 3h or ά · ν © ptisohe amplifier 60 au "h can be.

Claims (3)

Claims 1 »TV system» ur generation of three-dimensional images » characterized by a television transmitter old facing a first multi-eyed »an object to be recorded ·· the focusing optics» old a second multi-eyed focusing optic »which is arranged behind the first focusing *« »optics» whereby both focusing optics have a common focal plane »old a third multi-eyed» ά & τ approach focusing optics compared to the existing focusing optics; » old a pick-up tube for the image created on the focal plane of the third focusing optics »old a device for generating electrical signals and old a transmitting device for processing and sending the electric signal delivered to the pick-up tube ·. 2. Creation after Aaepruca 1 »dadurefe gekennselehnett that as Focusing optics an eye-eye line system is provided 3 »Annex aaeh Claims 1« dftdureb gekeanseiehnet * amä a opt! see Bif £ a * ieneia "ei!" svi see the first ttnd the FoScusei * 3fisagiioptik arranged 1st k. System according to Aaspstaeh 1 * dsjäursh gekennseiehnet «« Sat an op ti s rather amplifier swieehen a $ r »tb% q & and the« wide 1st « 3. Annex "after Actspruolt, 1" dadureh gekenaseiehnet "that ei a optically guiding sleaeat di «first focussing optics alt d »JF xweitß yekaesierunf * © p * ik rerbiradet« Plant a & ea Aasprneli f, dftdureJs gekeaaseieliiiett that the Fokuseieruageopliai a Lee & p & atte has »la der a« Vielsaal Ton atdtijreöo »Ι * β * &# 7 & i * Beiliea and f pal ten arranged let - 10 - 109808/6843 7 «System according to claim 1» characterized in that a Ferasehempfäager da © vo »F _e rns © ä.soad © r emitted signal onaijsiote that» la »BildrSiara the © ptis @ ss image, & xxt ledcrgafeefläeiäQ «r3 @ tigt» \ md that © is; Lir?, 2s »ö £ 5yste! 3 dar fen so an ^ eorda ^ t isi ;, alt ύ @ τ Bildwißdefga'befläeli © the ³ picture 1 ηηά 7 »that» ine Tiert® Leobpiatt · g®g © ^ lfe®rd »r surface of the picture crack ·· aageordßet 1st and that Loelipl & tt® It ?, & 9 & SoastruktioiS d®s» third equals. - 11 - 109808/0843 u ■ Blank page