Patent number 8602554 is assigned to
The following quote was obtained by the news editors from the background information supplied by the inventors: "Star tracking telescopes have long been used in spacecraft for determining the location of a spacecraft by reference to imaged stars. A typical tracking system includes a star tracking telescope and can be controlled, moved, and rotated so at to keep the boresight axis pointing at a tracked star so as to keep an image of the star along boresight in a center of a field of view. The field of view may also include images of nearby stars. Images of nearby stars can further enhance on-board positioning systems to determine when the tracked star is the desired star for tracking. Images of the nearby stars can be used to determine a star pattern and hence function as a reference pattern of a cluster of stars where one of the stars within the cluster is to be tracked. Once the desired tracking star has been located and the telescope is moved to maintain tracking of that tracked star, images of the nearby stars may still disadvantageously remain within the field of view.
"An image of nearby stars, within the field of view, passes through front-end filters and lenses in a peripheral portion of the front-end filters and lenses while an image of the tracked star enters through the center of the front-end filters or lenses as a tracked star that is tracked. When tracking a tracked star, it is desirable to maintain a high signal to noise ratio especially where the image of the tracked star is a faint image. However, off-axis nearby star images as well as sunlight can disadvantageously inject signal noise into the telescope.
"Various prior means have been used to minimize unwanted nearby star and sun tracker noise. Existing tracking telescopes have used elongated cylindrical tubular shades with internal baffling to reduce the amount of off-axis noise. The longer the elongated cylindrical tubular baffled shade, the more that off-axis image noise is reduced. Such shades have been further modified with a shade extension also having a mating tubular cross section but cut so that the shade extension function provides increased shading from above noise images with no shading from below noise shading so as to provide a nonlinear off-axis shading profile. In both cases, the prior shades disadvantageously extended the over all physical length of the telescopes that are intended to fits within a predetermined and dimensionally limited existing spacecraft tracking system. The baffling of the prior shades also have various baffle angles so as to vary the amount of off-axis noise reaching the back end optical sensors. The various baffle angles have a limited angular design, and hence, disadvantageously have a limited amount of noise rejection.
"In the photography art, shades have also long been used to limit the amount of off-axis glare from affecting the quality of photographic pictures. Some lenses have been equipped with attenuating lenses to reduce the amount of light received in high glare environments. However, such a shade also decreases the amount of light, and hence, decreases the image quality of the desired image to be photographed. This is similar to common sunglasses where it is desirable to reduce glare from all directions, including on-axis images. Cameras have used concentric lenses and filters where a center portion of the lens is clear and an outer portion is matted so as to fuzz without attenuation the periphery of the resulting photographic image so as to provide an artistic styled photograph where the center portion remains clear.
"Handheld binoculars and telescopes have also been equipped with shades to reduce off-axis glares for improved image quality. Handheld binoculars and telescopes have been equipped with opaque filters to reduce image brightness across the entire field of view. Generally, handheld binoculars and telescopes do not use attenuating filters as these optical devices seek, in the main, to magnify a distal object.
"Some optical filters and lenses have used fixed or variably sized shutters and sized irises to restrict the field of view, as is well known. In the case of costume eyeglasses, such as those used by children at play, a center portion of a lens is an open aperture while the remaining portion of the lens completely blocks image reception. In other types of costume eyeglasses, young adults have used decorative lenses where ornamental flakes are bonded to the lenses to provide a provocative appearance where the flakes obscure peripheral vision. Many people, especially the aged, have problems with night glare and have used sunglasses while driving a night. However, sunglasses dim on-axis vision that reduces visual acuity along an intended line-of-sight increasing the problems of poor night perception. Star tracking telescopes, and common handheld optical apparatus, such as handheld cameras, binoculars, eyeglasses, and telescopes suffer from the problem of injecting bright off-axis noise into the image quality of on-axis images or suffer from the problem of blocking needed peripheral vision and image reception. These and other disadvantages are solved or reduced using the invention."
In addition to the background information obtained for this patent, VerticalNews journalists also obtained the inventors' summary information for this patent: "An object of the invention is to provide an optical system attenuating peripheral images.
"Another object of the invention is to provide an optical tracking system using a telescope for attenuating peripheral images.
"Yet another object of the invention is to provide optical systems using peripheral image attenuating lenses and filters that can be easily manufactured.
"Still another object of the invention is to provide optical systems having peripheral image attenuating lenses and filters having identical radial image attenuation in a peripheral portion of the lenses and filters.
"A further object of the invention is to provide optical systems having peripheral image attenuating lenses and filters having nonidentical radial image attenuation in a peripheral portion of the lenses and filters.
"Yet a further object of the invention is to provide eyeglasses for reducing nighttime glare for improved nighttime driving.
"Still a further object of the invention is to provide cameras for reducing photographic glare for improved photographic quality.
"The present invention is directed to optical systems having front-end lenses or filters that peripherally attenuate incoming off-axis images so as to preserve the fidelity of on-axis images in the center of a field of view while retraining a portion of the off-axis image. Peripheral off-axis images are attenuated so as to preserve the fidelity of forward vision and on-axis image reception while also receiving attenuated peripheral off-axis images. The purpose is to avoid distortion and maintain high image fidelity of the forward centered region of the field of view while diminishing by attenuation moderately undesirable off-axis images that are not completely blocked so as to preserve some peripheral vision in the periphery of the field of view. This center preservation and periphery attenuation has several applications and can be realized by various manufacturing methods.
"The invention is characterized in three aspects. A first aspect is primarily a direct application for minimizing star tracker noise. In the preferred form, the first aspect adapts a gradient optical filter to a conventional star tracker telescope. A second aspect of the invention is directed to various manufacturing processes or making differing types of periphery attenuated front-end lenses and filters. A third aspect of the invention is the application of periphery attenuating lenses and filters to common commercial optical apparatuses such as eyeglasses and cameras.
"In the first aspect, an image tracking system, such as a star tracking system, uses a star tracker telescope. The star tracking telescope tracks a foreign body by moving an optical boresight axis that remains in alignment and in the direction of that tracked body where the tracking system uses periphery attenuating filters or lenses. In the preferred form, a star tracker telescope is pointed directly toward a tracked star for providing a high intensity and unattenuated image of that tracked star. The tracked star image passes through the center of a front-end filter for receiving a high fidelity image of that tracked star so as to maintain maximum signal strength for star tracking. Off-axis star images are received through the periphery of the front-end filter. The off-axis images are attenuated in signal strength so that the off-axis star images can still be seen but without substantial glare interference to the tracked star image, so that, reference to the off-axis star can be maintained without degrading the image of the on-axis star image that is tracked for improved star-tracking performance. The proposed filtering is preferably by gradient or uniform filtering that has zero attenuation in the center clear portion of the filter but has equicircumferential radial attenuation in a periphery portion of the filter where the amount of attenuation has identical attenuation profiles along any identical radially extending line from the center and through the periphery portion of the filter.
"In the second aspect of the invention, the periphery attenuating filters or lenses have nonidentical attenuation profiles along any identical radially extending line from the center through the periphery portion of the lenses or filters. In an exemplar form, the periphery portion is coated with a solid reflecting coating for blocking all transmissions through selected portions of the periphery portion. The coating is configured during manufacture in the shape of triangular wedges equiangularly disposed in the periphery portion. The wedges radially extend from the outer circumference and point towards the center of the filter that still retains a center clear transmissive portion providing an inner portion of transparency and an outer portion of reflection. These reflecting triangular wedges provide effective gradient attenuation but can be easily realized through manufacture of solid reflective coatings.
"In the third aspect of the invention, the periphery attenuating filters or lenses are applied to nontracking optical systems, such as common eyeglasses and photographic cameras, generally having the purpose of reducing periphery glare. In the case of eyeglasses, the lenses of the eyeglasses have a periphery attenuating portion so as to reduce periphery glare that may, for example, be distracting for nighttime automobile drivers, yet preserve enough of the periphery visions for visual perception similar to sunglass intensity attenuation. These sunglasses preserve the forward center view for maintaining full forward vision acuity for improved safety during driving by reducing the common affliction of night blindness and while reducing glare. In the case of photographic cameras, the attenuating periphery portion of a front-end filter or lenses prevents side lighting from producing glare that adversely affects the image quality in the center of the field of view from improved accurate and artistic photography.
"The periphery attenuation front-end filters and lenses can be used to enhance image tracking, human visual perception, and photographic quality. These and other advantages will become more apparent from the following detailed description of the preferred embodiment."
URL and more information on this patent, see: Lau, Kenneth H.;
Keywords for this news article include: Spacecraft,
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