WO2011048278A1 - Stereoscopic vision by wearing a polarized glass - Google Patents

Abstract

Said sensory reactivity of a raised pattern is natural and only needs to be revealed by means of comparison. Accordingly, a single polarized glass lens over an eye enables reading and the attention of the brain to be heightened. The second eye, either the right or left, in this case, depends on the person and his or her visual acuity; however the dominant eye generally takes precedence. The dominant eye corresponds to said physiological state aimed at the eyes, which is established naturally for each individual. Contact lenses having one polarized contact lens enable the same effect as the addition of a polarized glass, avoiding more cumbersome eyeglasses from being worn. The present method consists in putting an apparatus into place which relates to direct vision, thereby increasing the sensory perception of the various trains of light waves, by means of installing at least one polarized glass, or a contact lens over one eye, which suffices to further arouse the attention of the brain. The polarization can be produced by means of a chromatic treatment of the various tints applied to the glass or lens, which sort the differences in wavelength, thereby meeting the requirements of strengthening and selecting the light rays, without the disadvantages of polarization which, with some likewise polarized screens, provide very dark vision.

Description

 VISION IN RELIEF BY PORT OF GLASS POLARIZED

In normal vision, the three dimensions are natural by the distance of objects. In image reproduction, a single plane carries all the objects and the three dimensional vision is lost, the evasions of the natural perspective are absent. A hyper definition is needed on the image reproduction, but the relief is not at the rendezvous. Several optical compensation systems exist, including the wearing of glasses, or colored and polarized glasses. These use cases are made for the vision of relief films. Multi-projections by multiple projectors also exist. We are in the case of image reproduction. The present patent application is a novelty by the simplification of implementation, which can be used also in direct vision, in the street, in the case of aircraft control, or in the automobile, thus allowing to have, in difficult conditions of fog or nightfall, a correct vision and more realistic on the accentuated relief, or become visible again. Indeed, special conditions sometimes suppress the perspective of vision, when the air is saturated with moisture, for example. This is the case of airmen who land on aircraft carriers where the distinction of bridge and water is impossible. For people with poor vision, or wearing glasses, correction is highly appreciated. We go beyond the scope of image reproduction and actually implement a useful correction of the direct vision, according to the conditions of visibilities, or climatic, or altered personal physiology. Thus proposed, we correct all the visions whatever the image reproduction, in the cinema, in television, or externally of the direct vision of natural way. The conditions of vision are realized by different operators who are the two eyes, the brain, and the objects seen. So there are four essential factors, not to mention corrective glasses for those who need them. The set of systems makes it possible to measure and identify the leaking through both eyes, which inform the optic nerves. The light information, which is electromagnetic radiation, light waves of different colors are wave trains identified by categories in phase or out of phase, which allows the sensitivity and perception of distances reinforced. The damping of the information determines the optical distances where the fugitives end up getting confused, the relief is lost. In the first case, we do not consider the colors or their effects, but we highlight a hyper selection of wave trains that we reveal by using a polarized lens for one of the two eyes. The brain, once revealed this information will automatically change its scanning speed, ie, the resolution of vision by one eye, will be more precise as if there was attention stronger more precise, as when one puts a more dense intention. This sensory reactivity is natural and only needs to be highlighted by comparison. As a result, a single polarized glass lens on one eye can read and raise the brain's attention. The second eye, indifferently right or left, and in this case, it depends on the person and his visual acuity, the port on the directing eye is needed in general. The directing eye corresponds to this physiological state of the intention of the gaze which is established naturally, according to each individual. Contact lenses with a polarized contact lens allow the same effect as adding a polarized lens, thus avoiding the wearing of more bulky glasses. The present method is to provide a device for direct vision, which increases the sensory perception of different lightwave trains, by at least placing a polarized lens, or a contact lens on an eye which is enough to excite the attention of the brain. Indeed, the phase differences read are different between the free eye and the eye receiving polarized light. There are, indeed, for the same image several types of information additional to the normal direct vision of the two eyes. It is therefore a contribution of hyper-visual sensitivity captured by one of the two eyes that is brought to the brain, thus, a scan of information of the more important light which increases the definition of perception, its reading and its interpretation. If one uses a polarized lens for each eye, according to the relative angle used, one increases the effects but one loses the quality of the colors, however the general vision is altered but the effect of the distances is maintained. The brain only measures and observes the differential values, but one must not fall into the excesses, unless technical necessities or uses are required. With a single polarizing lens, it is a contribution of information while keeping the natural global vision of direct reference. For the pairs of glasses, and by logic concern of aesthetics, the other glass is neutral, without any optical modification. The polarization can be done by a chromatic treatment of different shades applied on the glass or the lens which sort the differences in wavelength, which fulfills the conditions to strengthen and select the light rays, without the disadvantages of polarization which with some screens also polarized, gives a very dark vision. The apparatus, FIG. 1, as a nonlimiting example of embodiment of the method, is a pair of spectacles (1) provided with a completely transparent glass (2) without any correction, and the other lens (3) is polarized, but as transparent as possible, without coloration. The glasses may also undergo color filtering treatments, such as sunglasses and / or adopt eye-sighting specific correctives adapted by its view. It is obvious that the polarized lens is rather directed to the directing eye, which, in general, does not generate fatigue.

Claims

 - Method for increasing the vision of the relief by at least one polarized lens for one of the two eyes, an eye for capturing and supplying the information to the brain, which receives additional differential information from the overall information, in order to obtain relief vision in image reproduction, as well as in unaltered or enhanced natural vision condition.

 2 ° - Apparatus which is a pair of glasses of which only one glass brings a very fine polarization of the perceived image, in order to increase to strengthen the vision in relief in difficult conditions of visibility such as fog or in condition of the reproduction image; the other glass, for aesthetic reasons, remains neutral, without any optical modification.

 3 ° - Apparatus according to claim 2, which is characterized in that the glass is a contact lens, flexible or rigid, applied directly to the eye.

4 ° - Apparatus according to claim 2, characterized in that the polarization can be done by a color treatment of different shades that sort the differences in wavelengths, which meets the conditions to strengthen and select the light rays .

 5 ° - Apparatus according to claim 2 or 3 or 4 or 2 and 3 and 4, characterized by a treatment for filtering colors, such as sunglasses, for example.