Abstract: The present invention relates to novel Amido-Substituted Heterocycle Compounds of Formula (I): and pharmaceutically acceptable salts thereof, wherein R1, R2, R3, R4, R7, and R8 are as defined herein. The present invention also relates to compositions comprising at least one Amido-Substituted Heterocycle Compound, and methods of using the Amido-Substituted Heterocycle Compounds for treating or preventing a herpesvirus infection in a patient.

Abstract: An example embodiment of the present invention may include an apparatus that captures 3D images having a lens barrel, including a lens disposed at a first end of the lens barrel, an image capture element at the second end of the lens barrel, and a refracting lens positioned along the optical axis of the lens barrel. The image capture device may have an adjustable active region, the adjustable active region being a region capable of capturing an image that is smaller than the total image capture area of the image capture element. The image capture element may capture images continuously at a predetermined frame rate. The image capture element may change the adjustable active region and the set of positioning elements may be adapted to continuous change the position of the refracting lens among a series of predetermined positions at a rate corresponding to the predetermined frame rate.

Abstract: An embodiment of the present invention may include an apparatus that captures 3D images having a lens barrel. The lens barrel may include a lens disposed at the first end of the lens barrel, an image capture element at the second end of the lens barrel, and a pair of refracting lenses positioned along the optical axis of the lens barrel. The first and second refracting lenses may be mounted to a first set and second set of positioning elements. The image capture element may capture images continuously at a predetermined frame rate, and the first and second set of positioning elements may continuously change the position of the first and second refracting lenses among a series of predetermined correlated positions based on the predetermined frame rate.

Abstract: An example embodiment may include a system and method for correcting luminance disturbances in an imaging device. The example method can detect a luminance level disturbance in the output of an imager and provide a signal to a digital signal processor (DSP) that a luminance disturbance was detected, before the DSP begins processing the output of the imager. The DSP can then correct or adjust the resulting output to compensate for the luminance disturbance.

Abstract: An example embodiment of the present invention may include an apparatus that captures 3D images having a lens barrel, including a lens disposed at a first end of the lens barrel, an image capture element at the second end of the lens barrel, and a refracting lens positioned along the optical axis of the lens barrel. The image capture device may have an adjustable active region, the adjustable active region being a region capable of capturing an image that is smaller than the total image capture area of the image capture element. The image capture element may capture images continuously at a predetermined frame rate. The image capture element may change the adjustable active region and the set of positioning elements may be adapted to continuous change the position of the refracting lens among a series of predetermined positions at a rate corresponding to the predetermined frame rate.

Abstract: An embodiment of the present invention may include an apparatus that captures 3D images having a lens barrel. The lens barrel may include a lens disposed at the first end of the lens barrel, an image capture element at the second end of the lens barrel, and a pair of refracting lenses positioned along the optical axis of the lens barrel. The first and second refracting lenses may be mounted to a first set and second set of positioning elements. The image capture element may capture images continuously at a predetermined frame rate, and the first and second set of positioning elements may continuously change the position of the first and second refracting lenses among a series of predetermined correlated positions based on the predetermined frame rate.

Abstract: An example embodiment may include a system and method for correcting luminance disturbances in an imaging device. The example method can detect a luminance level disturbance in the output of an imager and provide a signal to a digital signal processor (DSP) that a luminance disturbance was detected, before the DSP begins processing the output of the imager. The DSP can then correct or adjust the resulting output to compensate for the luminance disturbance.