Optical: systems and elements – Stereoscopic – With right and left channel discriminator
Reexamination Certificate
2001-03-29
2003-09-23
Chang, Audrey (Department: 2872)
Optical: systems and elements
Stereoscopic
With right and left channel discriminator
C359S462000, C359S465000, C348S049000, C348S056000, C348S057000
Reexamination Certificate
active
06624935
ABSTRACT:
FIELD OF THE INVENTION
The present invention relates to a video imaging system which produces left-eye and right-eye stereo images using a single lens system, and more particularly to such a system which allows for the centering of the left-eye and right-eye views with respect to the lens system in order to produce optimal image quality.
BACKGROUND OF THE INVENTION
Video imaging systems which produce left-eye and right-eye stereo images using a single lens system are well known. Such systems have long been used for a myriad of applications, including in cameras, video or photographic lenses, microscopes, telescopes, endoscopes and borescopes, in order to provide a three-dimensional image of an object of interest, while requiring a single, radially compact lens system. However, although the prior art is highly developed, certain deficiencies in this general area exist.
U.S. Pat. No. 5,222,477 to Lia discloses a stereo imaging and viewing system which employs a miniature camera assembly in which are disposed a CCD imager or equivalent, a wide-angle focusing lens assembly with an effective aperture on the order of about f/2 or wider, and an aperture plate interposed in the optical path of the camera and adjacent the lens assembly. The aperture plate has left and right pupils therein situated on opposite sides of the optic axis of the lens assembly. The pupils are separated from one another by a predetermined pupil distance that is somewhat smaller than the lens diameter. The left image passes through the left pupil and is focused through a corresponding portion of the lens assembly onto the image plane of the imager and a right image passes through the right pupil and is focused by a corresponding portion of the lens assembly onto the image plane of the imager. A selective mechanism, such as alternate shutters or distinct color filters, separates the left and right views of the target sequentially. Left and right views are then presented to a display device for viewing the left and right views stereoscopically.
U.S. Pat. No. 5,471,237 to Shipp discloses a stereoscopic video camera system which includes a single objective lens system mounted at the distal end of a surgical endoscope. An electronic shutter is disposed within the optical path between the lens and a video camera/sensor. The shutter has left and right optical zones which are switched between opaque and light transmissive states in response to a drive signal which is synchronized both with the camera/sensor and with stereoscopic viewing glasses having switchable left and right viewing lenses.
U.S. Pat. No. 5,828,487 to Greening discloses a stereoscopic viewing system which includes, an opaque leaf positioned between the two dimensional lens system and a camera in a single image path. The opaque leaf is movable laterally in the single image path from a left position to a right position to provide a left image perspective and a right image perspective of the image path to the camera. A switching device moves the opaque leaf between the two positions and retains the leaf stationary in each position for a sufficient time for the camera to view each image perspective. A synchronizing system alternates the left image perspective and the right image perspective from the imaging system with a stereoscopic viewing device so that a viewer sees only the left image perspective with one eye and only the right image perspective with the other eye.
U.S. Pat. No. 5,914,810 to Watts discloses a stereoscopic imaging arrangement which includes an optical device having an objective lens and a distal lens located remotely from, but in the optical path of, the objective lens, and a stereoscopic imaging device arranged to receive light from the distal lens and form an image on a photosensitive image plane. The stereoscopic imaging device includes shutter means arranged to selectively occlude light exiting from left and right regions of the distal lens to form right and left images on the image plane. The device also includes means for combining the right and left images to form a stereoscopic representation of the field of view of the distal lens. The image may be displayed on a monitor and viewed stereoscopically with switching spectacles.
U.S. Pat. No. 5,964,696 to Mihalca discloses a stereoscopic imaging device which attaches; to an instrument, such as an endoscope or a borescope, which is characterized by an exit pupil in the vicinity of its proximal region. The imaging device includes a dual aperture plate and an optical switch that are disposed within a housing that attaches to the proximal region of the instrument. The dual aperture plate defines right and left spaced-apart apertures respectively disposed at symmetric locations substantially in the plane of the exit pupil of the instrument. The optical switch alternately blocks light received from the instrument and passing through the right and left optical channels so that a stereoscopic view can be generated.
While each of the above-referenced prior art patents discloses a system which produces left-eye and right-eye stereo images using a single lens system, all of the prior art systems suffer from at least one common disadvantage. In any stereoscopic system, the presentation of balanced left-eye and right-eye images to viewers is critical to prevent viewer eyestrain. That is, the two images must precisely match in clarity, sharpness, color, brightness, etc. In order to accomplish this in single-axis stereoscopic cameras, the device that separates the light rays into left-eye and right-eye images must be precisely centered on the optical axis of the lens system. This causes a number of problems in known designs.
In designs such as those disclosed in U.S. Pat. No. 5,222,477 to Lia, U.S. Pat. No. 5,471,237 to Shipp, U.S. Pat. No. 5,828,487 to Greening, and U.S. Pat. No. 5,914,810 to Watts in which the device that separates the light rays into left-eye and right-eye images is incorporated into the instrument (e.g., the endoscope) itself, precisely centering the image separating device on the optical axis of the lens system requires exacting manufacturing standards and precise tolerances, which are both costly and difficult to achieve. Moreover, even if such a precise centering is achieved during manufacture, repeated use and repeated sterilization of the device may quickly cause the components of the system to shift, bend, expand, contract or the like, even the slight occurrence of which will likely cause the image separating device to no longer be precisely centered on the optical axis of the lens system, which in turn will cause the image produced by the system to degrade.
With respect to designs such as those disclosed in U.S. Pat. No. 5,964,696 to Mihalca in which the device that separates the light rays into left-eye and right-eye images is incorporated in a stereoscopic imaging system which attaches to an instrument (e.g., endoscope), the above-described problems are exacerbated. In addition to the problems associated with the requirement of exacting manufacturing standards and precise tolerances and the problems caused by repeated use, such systems also suffer from the disadvantage of requiring the user (typically a doctor in the case of an endoscope) to precisely align the instrument (which includes the lens system) with the stereoscopic imaging system (which includes the image separating device) in order to precisely center the image separating device on the optical axis of the lens system. Such may be extremely difficult, if not impossible, for the user to achieve. Moreover, such prior art designs cannot be used with instruments having variable aperture positions, as there is no way to center the image separating device on the optical axis of the lens system.
What is desired, therefore, is a stereoscopic imaging system which produces left-eye and right-eye stereo images using a single lens system, which does not require exacting manufacturing standards and precise tolerances, which can accommodate shifting, bending, expanding, contracting or the like of system components wi
Anhalt Thomas J.
Chatenever David
Mattsson-Boze Daniel
Weissman Michael
Chang Audrey
Karl Store Imaging, Inc.
St. Onge Steward Johnston & Reens LLC
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