image enhancement
DESCRIPTION
Introduction to image enhancementTRANSCRIPT
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IMAGE ENHANCEMENT
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Introduction Noise model & its types Filtering
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Introduction
The principal goal of restoration techniques is to improve an image in some predefined sense.
Image restoration – objective process, attempts to recover image using priori knowledge of degradation phenomenon & applying the inverse process in order to recover the original image.
Image enhancement – Subjective process, consist of a collection of techniques that seek to improve the visual appearance of an image or to convert the image to a form better suited for analysis by a human or a machine. In an image enhancement system, there is no conscious effort to improve the fidelity of a reproduced image with regard to some ideal form of the image, as is done in image restoration.
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Introduction
The relevant features for the examination task are enhanced
The irrelevant features for the examination task are removed/reduced
Specific to image enhancement:
- input = digital image (grey scale or color)
- output = digital image (grey scale or color)
Examples of image enhancement operations:
noise removal;
geometric distortion correction;
edge enhancement;
contrast enhancement;
image zooming;
image subtraction;
pseudo-coloring. Classification of image
enhancement operations: Based on the type of the
algorithms: grey scale transformations; spatial operations; transform domain processing; pseudo-coloring
Based on the class of applications – as in the examples above.
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Noise
It is defined to be any degradation in the image , caused by external disturbance.
Sources- from a noisy sensor or channel transmission errors.
Pixels that are in error often appear visually to be markedly different from their neighbors.
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Noise models
Based on the statistical behavior of the intensity values in the noise component.
1. Gaussian Noise modelII. Rayleigh Noise modelIII.Erlang Noise modelIV.Exponential Noise modelV. Uniform Noise modelVI. Impluse Noise model
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Noise Models
Gaussian noise model Rayleigh noise model
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Noise model
Erlang Noise Exponential Noise
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Noise model
Uniform noise Impulse noise
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Types of noise
Photo electronicphoton noisethermal noise
Impulsesalt noisepepper noisesalt and pepper noiseline drop
Structuredperiodic, stationaryperiodic, nonstationaryaperiodicdetector stripingdetector banding
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Structured Noise
Periodic, nonstationary
•noise parameters (amplitude, frequency, phase) vary across the image.
•Intermittent interference between electronic components.
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Structured noise
Periodic, stationary
Noise has fixed amplitude, frequency and phase .
Commonly caused by interference between electronic components.
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Structured noise
Aperiodic
JPEG noise
ADPCM (Adaptive Pulse Code Modulation) noise
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Structured noise
Detector Striping
Calibration differences among individual scanning detectors
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Filtering
It refers to accepting or rejecting certain frequency components
Different types of filters. We are going to see about the following.
Band reject filters Bandpass filters Notch filters
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Periodic noise
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Periodic Noise Reduction by Freq. Periodic Noise Reduction by Freq. Domain Filtering Domain Filtering
Periodic noise
can be reduced by
setting frequency
components
corresponding to
noise to zero.
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Band Reject FiltersBand Reject Filters
Removing periodic noise form an image Removing periodic noise form an image involves removing a particular range of involves removing a particular range of frequencies from that imagefrequencies from that image
Band rejectBand reject filters can be used for this filters can be used for this purposepurpose
Use to eliminate frequency components in some bands
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Band Pass Filter
It performs the opposite operation of a band reject filter.
It generally removes too much image detail.
It is useful in isolating the effects of an image.
It helped to isolate the noise pattern.
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Notch filter
A notch filter rejects (or passes) frequencies in predefined neighborhoods about a certain frequency.
The shape of notch areas should be arbitrary.
It appears in symmetric pairs about the origin.