Electronic endoscope system
First Claim
1. An electronic endoscope system, comprising:
- a light source unit that alternately emits normal-light and excitation-light at field intervals;
a video-scope that has an image sensor, normal color image-pixel signals that are obtained while the normal-light is emitted and auto-fluorescent image-pixel signals that are obtained while the excitation-light is emitted both being alternately read from said image sensor;
a signal processor that simultaneously generates, subsequent to the normal color image-pixels signals and auto-fluorescent image-pixels signals being read, normal color image signals on the basis of the normal color image-pixels signals, auto-fluorescent image signals on the basis of the auto-fluorescent image-pixel signals, and diagnosis color image signals on the basis of the normal color image signals and the auto-fluorescent image signals;
a display processor that processes the normal color image signals, the auto-fluorescent image signals, and the diagnosis color image signals so as to simultaneously and separately display a normal color movie-image, an auto-fluorescent movie-image, and a diagnosis color movie-image that is a colored image for distinguishing a lesion from other portions of the body,wherein the signal processor performs writing and reading of normal color image signals to and from a first memory at field intervals, and performs writing and reading of auto-fluorescent image signals to and from a second memory at field intervals, so that the signal processor alternately writes the normal color image signals and the auto-fluorescent image signals, and wherein the signal processor transmits normal color image signals to a diagnosis color image signal processor that generates the diagnosis color images signals when reading the auto-fluorescent image signals from the second memory, whereas the signal processor transmits auto-fluorescent image signals to the diagnosis color image signal processor when reading the normal color image signals from the first memory,wherein said first memory and second memory respectively store the normal color image signals and the auto-fluorescent image signals, andwherein said signal processor has first and second switches that connect with said display processor, and first and second contacts that are provided, respectively, for transmitting the normal color image signals and the auto-fluorescent image signals, said first switch alternately connecting with said first memory and said first contact at the field interval, said second switch alternately connecting with said second memory and said second contact at the field interval, said first switch connecting with said first contact while said second switch connects with said second memory, and said second switch connecting with said second contact while said first switch connects with said first memory.
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Accused Products
Abstract
An electronic endoscope system according to the present invention has a video-scope that has an image sensor, and a light source unit that is capable of selectively emitting normal-light and excitation-light. The electronic endoscope system further has a signal processor and a display processor. The signal processor generates normal color image signals, which corresponds to the normal color image, on the basis of the normal image-pixel signals. Similarly, the signal processor generates auto-fluorescent image signals corresponding to the auto-fluorescent image on the basis of the auto-fluorescent image-pixel signals, and generates diagnosis color image signals corresponding to the diagnosis color image on the basis of the normal color image signals and the auto-fluorescent image signals. The display processor processes the normal color image signals, the auto-fluorescent image signals, and the diagnosis color image signals so as simultaneously to display a normal color movie-image, an auto-fluorescent movie-image, and a diagnosis color movie-image.
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Citations
14 Claims
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1. An electronic endoscope system, comprising:
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a light source unit that alternately emits normal-light and excitation-light at field intervals; a video-scope that has an image sensor, normal color image-pixel signals that are obtained while the normal-light is emitted and auto-fluorescent image-pixel signals that are obtained while the excitation-light is emitted both being alternately read from said image sensor; a signal processor that simultaneously generates, subsequent to the normal color image-pixels signals and auto-fluorescent image-pixels signals being read, normal color image signals on the basis of the normal color image-pixels signals, auto-fluorescent image signals on the basis of the auto-fluorescent image-pixel signals, and diagnosis color image signals on the basis of the normal color image signals and the auto-fluorescent image signals; a display processor that processes the normal color image signals, the auto-fluorescent image signals, and the diagnosis color image signals so as to simultaneously and separately display a normal color movie-image, an auto-fluorescent movie-image, and a diagnosis color movie-image that is a colored image for distinguishing a lesion from other portions of the body, wherein the signal processor performs writing and reading of normal color image signals to and from a first memory at field intervals, and performs writing and reading of auto-fluorescent image signals to and from a second memory at field intervals, so that the signal processor alternately writes the normal color image signals and the auto-fluorescent image signals, and wherein the signal processor transmits normal color image signals to a diagnosis color image signal processor that generates the diagnosis color images signals when reading the auto-fluorescent image signals from the second memory, whereas the signal processor transmits auto-fluorescent image signals to the diagnosis color image signal processor when reading the normal color image signals from the first memory, wherein said first memory and second memory respectively store the normal color image signals and the auto-fluorescent image signals, and wherein said signal processor has first and second switches that connect with said display processor, and first and second contacts that are provided, respectively, for transmitting the normal color image signals and the auto-fluorescent image signals, said first switch alternately connecting with said first memory and said first contact at the field interval, said second switch alternately connecting with said second memory and said second contact at the field interval, said first switch connecting with said first contact while said second switch connects with said second memory, and said second switch connecting with said second contact while said first switch connects with said first memory. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A video-processor that is connected to a video-scope with an image sensor, comprising:
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a light source unit that alternately emits normal-light and excitation-light at field intervals, normal color image-pixel signals that are obtained while the normal-light is emitted and auto-fluorescent image-pixel signals that are obtained while the excitation-light is emitted, both being alternately read from said image sensor; a signal processor that simultaneously generates, subsequent to the normal color image-pixels signals and auto-fluorescent image-pixels signals being read, normal color image signals on the basis of the normal color image-pixel signals, auto-fluorescent image signals on the basis of the auto-fluorescent image-pixel signals, and diagnosis color image signals on the basis of the normal color image signals and the auto-fluorescent image signals; a display processor that processes the normal color image signals, the auto-fluorescent image signals, and the diagnosis color image signals so as to simultaneously and separately display a normal color movie-image, an auto-fluorescent movie-image, and a diagnosis color movie-image that is a colored image for distinguishing a lesion from other portions of the body, wherein the signal processor performs writing and reading of normal color image signals to and from a first memory at field intervals, and performs writing and reading of auto-fluorescent image signals to and from a second memory at field intervals, so that the signal processor alternately writes the normal color image signals and the auto-fluorescent image signals, and wherein the signal processor transmits normal color image signals to a diagnosis color image signal processor that generates the diagnosis color image signals when reading the auto-fluorescent image signals from the second memory, whereas the signal processor transmits auto-fluorescent image signals to the diagnosis color image signal processor when reading the normal color image signals from the first memory, wherein said memory and second memory respectively store the normal color image signals and the auto-fluorescent image signals, and wherein said signal processor has first and second switches that connect with said display processor, and first and second contacts that are provided, respectively, for transmitting the normal color image signals and the auto-fluorescent image signals, said first switch alternately connecting with said first memory and said first contact at the field interval, said second switch alternately connecting with said second memory and said second contact at the field interval, said first switch connecting with said first contact while said second switch connects with said second memory, and said second switch connecting with said second contact while said first switch connects with said first memory. - View Dependent Claims (10)
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11. An apparatus for displaying an observed image captured by a video-scope with an image sensor following normal-light and excitation-light being alternately emitted from a light source unit at field intervals, and normal color image-pixel signals that are obtained while the normal-light is emitted and auto-fluorescent image-pixel signals that are obtained while the excitation-light is emitted, both being alternately read from said image sensor, said apparatus comprising:
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a signal processor that simultaneously generates, subsequent to the normal color image-pixel signals and auto-fluorescent image-pixel signals being read, normal color image signals on the basis of the normal color image-pixel signals, auto-fluorescent image signals on the basis of the auto-fluorescent image-pixel signals, and diagnosis color image signals on the basis of the normal color image signals and the auto-fluorescent image signals; a display processor that processes the normal color image signals, the auto-fluorescent image signals, and the diagnosis color image signals so as to simultaneously and separately display a normal color movie-image, an auto-fluorescent movie-image, and a diagnosis color movie-image that is a colored image for distinguishing a lesion from other portions of the body, wherein the signal processor performs writing and reading of the normal color image signals to and from a first memory at field intervals, and performs writing and reading of auto-fluorescent image signals to and from a second memory at field intervals, so that the signal processor alternately writes the normal color image signals and the auto-fluorescent image signals, and wherein the signal processor transmits normal color image signals to a diagnosis color image signal processor that generates the diagnosis color image signals when reading the auto-fluorescent image signals from the second memory, whereas the signal processor transmits auto-fluorescent image signals to the diagnosis color image signal processor when reading the normal color image signals from the first memory, wherein said first memory and second memory respectively store the normal color image signals and the auto-fluorescent image signals, and wherein said signal processor has first and second switches that connect with said display processor, and first and second contacts that are provided, respectively, for transmitting the normal color image signals and the auto-fluorescent image signals, said first switch alternately connecting with said first memory and said first contact at the field interval, said second switch alternately connecting with said second memory and said second contact at the field interval, said first switch connecting with said first contact while said second switch connects with said second memory, and said second switch connecting with said second contact while said first switch connects with said first memory. - View Dependent Claims (12)
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13. A method for displaying an observed image captured by a video-scope with an image sensor following normal-light and excitation-light being alternately emitted from a light source unit at field intervals, and normal color image-pixel signals that are obtained while the normal-light is emitted and auto-fluorescent image-pixel signals that are obtained while the excitation-light is emitted both being alternately read from said image sensor, said method comprising:
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generating, using a signal processor, normal color image signals on the basis of the normal color image-pixel signals and subsequent to the normal color image-pixel signals and auto-fluorescent image-pixels signals being read; generating, using the signal processor and simultaneous with generating the normal color image signals, auto-fluorescent image signals, on the basis of the auto-fluorescent image-pixel signals and subsequent to the normal color image-pixel signals and auto-fluorescent image-pixel signals being read; generating, using the signal processor and simultaneous with generating the normal color image signals and auto-fluorescent image signals, diagnosis color image signals, on the basis of the normal color image signals and the auto-fluorescent image signals and subsequent to the normal color image-pixel signals and auto-fluorescent image-pixel signals being read; processing the normal color image signals, the auto-fluorescent image signals, and the diagnosis color image signals so as to simultaneously and separately display a normal color movie-image, an auto-fluorescent movie-image, and a diagnosis color movie-image that is a colored image for distinguishing a lesion from other portions of the body, performing, using the signal processor, writing and reading of normal color image signals to and from a first memory at field intervals, and performing writing and reading of auto-fluorescent image signals to and from a second memory at field intervals, so that the signal processor alternately writes the normal color image signals and the auto-fluorescent image signals, transmitting, from the signal processor, normal color image signals to a diagnosis color image signal processor that generates the diagnosis color image signals when reading the auto-fluorescent image signals from the second memory, and transmitting, from the signal processor, auto-fluorescent image signals to the diagnosis color image signal processor when reading the normal color image signals from the first memory, wherein said first memory and second memory respectively store the normal color image signals and the auto-fluorescent image signals, and wherein said signal processor has first and second switches that connect with said display processor, and first and second contacts that are provided, respectively, for transmitting the normal color image signals and the auto-fluorescent image signals, said first switch alternately connecting with said first memory and said first contact at the field interval, said second switch alternately connecting with said second memory and said second contact at the field interval, said first switch connecting with said first contact while said second switch connects with said second memory, and said second switch connecting with said second contact while said first switch connects with said first memory. - View Dependent Claims (14)
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Specification