Digital gamma correction system for low, medium and high intensity video signals, with linear and non-linear correction
First Claim
1. An image capture and display apparatus with variable digital gamma correction, comprising:
- an image sensor configured to transform an incident light intensity from an input image signal into electrical signals;
a signal processor connected to receive said electrical signals from said image sensor and to output processed electrical signals;
a digital gamma correction device connected to receive said processed electrical signals from said signal processor;
said digital gamma correction device configured to receive linear correction to low intensity levels of said processed electrical signals to produce low intensity level gamma corrected signals;
said digital gamma correction device configured to apply linear correction to high intensity levels of said processed electrical signals to produce high intensity level gamma corrected signals;
said digital gamma correction device configured to apply adjustable non-linear correction to medium intensity levels of said processed electrical signals to produce medium intensity level gamma corrected signals;
a display monitor configured to transform said low intensity, said high intensity, and said medium intensity level gamma corrected signals from said digital gamma correction device;
said display monitor configured to transform said low, said high, and said medium intensity level gamma corrected signals into a visual display of said input image signal.
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Accused Products
Abstract
An image capture and display system contains a three-stage digital gamma correction circuit. Three equations are used to determine the gamma correction characteristics for low intensity, medium intensity, and high intensity signal levels, respectively. Linear correction is used for low and high intensity levels, and an adjustable non-linear correction is used for medium levels. The resultant effects of the combined correction characteristics are to increase the effective Signal-to-Noise ratio for low level signals, enhance the gray level differentiation for high level signals, and heighten the contrast control for medium level signals. In addition, the contrast control is effective throughout the entire range of signal intensity levels. The image capture and display system provides a high quality visual display, with a simple, economical hardware implementation of the inventive gamma correction circuit. The resultant small size and low cost of the inventive circuit make it particularly advantageous for camcorders, still cameras, handy scanners, and other image capture devices.
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Citations
14 Claims
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1. An image capture and display apparatus with variable digital gamma correction, comprising:
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an image sensor configured to transform an incident light intensity from an input image signal into electrical signals; a signal processor connected to receive said electrical signals from said image sensor and to output processed electrical signals; a digital gamma correction device connected to receive said processed electrical signals from said signal processor; said digital gamma correction device configured to receive linear correction to low intensity levels of said processed electrical signals to produce low intensity level gamma corrected signals; said digital gamma correction device configured to apply linear correction to high intensity levels of said processed electrical signals to produce high intensity level gamma corrected signals; said digital gamma correction device configured to apply adjustable non-linear correction to medium intensity levels of said processed electrical signals to produce medium intensity level gamma corrected signals; a display monitor configured to transform said low intensity, said high intensity, and said medium intensity level gamma corrected signals from said digital gamma correction device; said display monitor configured to transform said low, said high, and said medium intensity level gamma corrected signals into a visual display of said input image signal. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A method of capturing and displaying an image, comprising the steps of:
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transforming incident light from an input image signal into electrical signals; gamma correcting said electrical signals to apply a linear correction to low intensity levels of said electrical signals to produce low intensity level gamma corrected signals; gamma correcting said electrical signals to apply a linear correction to high intensity levels of said electrical signals to produce high intensity level gamma corrected signals; gamma correcting said electrical signals to apply an adjustable non-linear correction to medium intensity levels of said electrical signals to produce medium intensity level gamma corrected signals; and transforming said low intensity, said high intensity, and said medium intensity level gamma corrected signals into a visual display of said input image signal. - View Dependent Claims (9, 10, 11, 12)
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13. A method for gamma correcting an electrical signal, comprising the steps of:
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(a) receiving the electrical signal having low, medium, and high intensity level ranges; (b) receiving the low intensity level signal and applying a linear gamma correction to said low intensity level signal;
(c) receiving the medium intensity level signal and applying a non-linear gamma correction to said medium intensity level signal;(d) receiving the high intensity level signal and applying a linear gamma correction to said high intensity level signal; and (e) outputting low, medium and high intensity level gamma corrected electrical signals.
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14. A circuit for gamma correcting electrical signals having a low, a medium, and a high intensity range, corresponding to an image to be displayed, comprising:
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(a) a first means for receiving the low intensity range electrical signals and for applying a linear gamma correction to said low intensity range signals; (b) a second means for receiving the medium intensity range electrical signals and for applying a non-linear gamma correction to said medium intensity range signals; (c) a third means for receiving the high intensity range signals and for applying a linear gamma correction to said high intensity range signals; and (d) an output means for outputting low, medium and high intensity range gamma corrected electrical signals.
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Specification