Patent ID: 8337399
Filing Date: 2012-12-25
Classification: A61B,G02B,H04N

Abstract:
1. An endo scope apparatus comprising: an imaging controller that makes an optical image to be captured so that an amount of optical information to be captured per a certain area size for an enlarged observation area is greater than that for a normal observation area, the enlarged observation area being a part of an area defined in an observation area of which an optical image should be generated, the normal observation area being the observation area excluding the enlarged observation area; a receiver that receives the optical information as a pixel signal, the pixel signal being an electric signal; an image generator that generates a normal image signal corresponding to a normal image on the basis of the pixel signals captured within the normal observation area and a part of the pixel signals captured within the enlarged observation area, the image generator generating an enlarged image signal corresponding to an enlarged image on the basis of the pixel signals captured within the enlarged observation area, the normal image and the enlarged image being images of the normal and enlarged observation areas, respectively, a scanning endo scope that has first and second channels and an actuator, the first channel transmitting illumination light and making the illumination light incident on the observation area, the second channel transmitting the optical information at locations illuminated by the illumination light incident from the first channel, the actuator moving the first channel so that the observation area is scanned with the illumination light incident from the first channel; and a photoelectric converter that captures the optical information transmitted by the second channel and generates the pixel signal according to an amount of light corresponding to the optical information, the imaging controller controlling the actuator to move the first channel along a spiral course, and the photoelectric converter to generate the pixel signals at locations illuminated by the illumination light during scanning, and the receiver receiving the pixel signals from the photoelectric converter, wherein the imaging controller controls at least one of the actuator and the photoelectric converter so that the product of a first angular velocity, a first distance and a first cycle, for the enlarged observation area is greater than the product of the first angular velocity, the first distance and the first cycle, for the normal observation area, the first channel being moved along the spiral course at the first angular velocity, the first distance being a distance between a point of the first channel on the spiral course and the center of the spiral course, the photoelectric converter generating the pixel signals in the first cycle.