011 - biomachina.org · 2011. 1. 26. · title: microsoft powerpoint - 011.ppt author: willy...
TRANSCRIPT
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Image Basics & Acquisition
For students of HI 5323 “Image Processing”
Willy Wriggers, Ph.D.School of Health Information Sciences
http://biomachina.org/courses/processing/01.html
T H E U N I V E R S I T Y of T E X A S
H E A L T H S C I E N C E C E N T E R A T H O U S T O N
S C H O O L of H E A L T H I N F O R M A T I O N S C I E N C E S
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Overview
If in doubt look at web site: http://biomachina.org/courses/processing
Programming assignments• C++• Qt• Unix or Windows
Math background•Ideally: At least one quantitative discipline (physics, chemistry, mathematics, computer science) with solid background in geometry(ideally vector calculus) .•Alternative assignments possible in individual cases.
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What are Signals?
• Signal: a function carrying information• Examples:
– Audio– Radio/Television– Images
Eric Mortenson 2001
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Types of Signals: Dimensions
• Temporal signal: function of time
– f(t): voice, music, nerve impulses, radar
• Spatial signal: function of two (or three) spatial dimensions
– f(x, y): images (grayscale, color, multi-spectral)
– f(x, y, z): medical scans (CT, MRI, PET)
• Spatio-temporal signal: 2/3-D space, 1-D time
– f(x, y, t): video/movies
Eric Mortenson 2001
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Why Signals?
• Communications:– Modems/Networks/Wireless– Audio
• Images:– Restoration/Cleanup– Enhancement– Storage/Retrieval/Searching– Manipulation
Eric Mortenson 2001
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Why Digital?
• Perfect storage, transmission, and reproduction• Easier to manipulate (than analog):
– Analog signals manipulated by circuits– Digital signals manipulated by computer
Eric Mortenson 2001
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Why Now?
• Memory is cheap• Disk storage is plentiful• Bandwidth increasing
Eric Mortenson 2001
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Digital Image Processing
Subclass of signal processing dealing with pictures.
• Signal Function conveying information.
– Audio, Radio/Television, etc.
• Image Signal with (at least) 2 spatial dimensions.
– A representation, resemblance, likeness, etc.
• Digital perfect storage, transmission, reproduction
– General-purpose manipulation.
– Low cost memory and disk space
– Bandwidth increasingEric Mortenson 2001
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Elements of Digital Image Processing
• Computer To process images
• Input equipment Image digitizer
• Output equipment Image display device
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Kinds of Images & Processes
• Nonoptical generated form other optical images
• Higher dimensional in three or more dimensions
• Nonstandard sampling domain of image is sampled by a scheme
• Nonstandard quantization quantizing levels are not equally spaced
Eric Mortenson 2001
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What You Will Learn
• Level (brightness) operations• Algebraic and logical operations• Geometric transformations• Filtering (both spatial and frequency-based)• Sampling, Restoration, Denoising• 3D Reconstruction• Color processing• Compression• Pattern Recognition
Eric Mortenson 2001
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Applications
• Multimedia (just look at the web)
• Image Editing and Manipulation (Photoshop)
• Medical Imaging (CT, MRI, EM)
• Compression (PNG, JPEG)
• Document Processing (OCR)
• Image Libraries (restoration/cleanup, storage, retrieval)
• Many More
Eric Mortenson 2001
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CT
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MRI
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EM / Single Particle Imaging
© J. Frank
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Relation to Other Fields• Image Processing: Transform an image into another
representation (image), often as a step to achieving some goal
Image Description
Image Processing
Computer Vision
Computer Graphics
Scene Manipulation
• Computer Vision: Create a description of the imaged scene
• Computer Graphics: Create an image of the described scene
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Imaging System
Acquisition & Digitization• Camera• Scanner
Digital Processing• Computer• Storage
Output / Display
• Monitor• Printer
Eric Mortenson 2001
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Any Questions?
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Signals and Functions
• Signal: a function carrying information
• Functions have domains and ranges:
Domain:(t)
(x,y)(x,y,t)(x,y,z)
(x,y,z,t)
Range:sound (air pressure)
graylevel (light intensity)color (RGB, HSL)
LANDSAT (7 bands)
ν=Θ)(f
Eric Mortenson 2001
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What do the Range Values Mean?
• May be visible light:– Intensity (gray-level)
– Color (RGB)
• May be quantities we can not sense:– Radio waves (e.g., doppler radar)
– Magnetic resonance
– Range images
– Ultrasound
– X-rays (e.g., CT)
Eric Mortenson 2001
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Domains & Ranges• Analog: continuous domain and range• Digital: discrete domain and range• Converting from continuous to discrete:
– Domains: selection of discrete points is called sampling– Ranges: selection of discrete values is called quantization
Domain Sampling
Ran
geQ
uant
izat
ion
Eric Mortenson 2001
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Sampling or Quantization?
• Dots per inch
• Black and white images
• Frames per second
• 44.1 KHz audio
• 16-bit audio
• 24-bit color
Eric Mortenson 2001
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Sampling vs. Quantization• Sampling described using terms such as:
– Rate
– Frequency
– Spacing
– Density
• Quantization is referred to as:
– # of discrete values
– # of bits per sample/pixel
Eric Mortenson 2001
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Resolution• Ability to discern detail – both domain & range.
• Not simply the number of samples/pixels.
• Determined by the averaging or spreading of information when sampled or reconstructed.
Eric Mortenson 2001
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Acquisition Devices
• Aperture – “size” of sampling area.
• Scanning – ordered sampling of signal/image.
• Sensor – measures quantity of sample.
• Quantizer – converts continuous to discrete.
• Output storage medium – saves quantized samples.
Compare: pinhole w/film & CCD cameras
Eric Mortenson 2001
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Acquisition Devices
• Aperture – “size” of sampling area.
• Scanning – ordered sampling of signal/image.
• Sensor – measures quantity of sample.
• Quantizer – converts continuous to discrete.
• Output storage medium – saves quantized samples.
Eric Mortenson 2001
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Apertures
• Point measurements are impossible• Have to make measurements using a (weighted) average over
some aperture:– Time window– Spatial area– Etc.
• Size determines resolution:– Smaller better resolution– Larger worse resolution
Eric Mortenson 2001
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Apertures
• Lenses allow physically larger aperture with effectively smallerone
Sensor
Lens
EffectiveAperture
PhysicalAperture
Eric Mortenson 2001
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Sensor
• Converts physical property (e.g., light/photons) to chemical and/or electrical response.
• Examples:
– Film: silver halide crystals
– Eyes: photoreceptors (rods, cones)
– Digital camera: charge-coupled device (CCD)
Eric Mortenson 2001
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Capture Images
• Focus the optics correctly to capture images
– Camera for macroscopic scenes: distance measure technology:
High frequency sound, infrared light
– Camera for microscopy application
• Detect the quality of image sharpness
– Hardware
– Software
Eric Mortenson 2001
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Noise• Unavoidable/undesirable fluctuation from “correct” value:
– The nemesis of signal and image processing
• Usually random: modeled as a statistical distribution– Mean (µ) at the “correct” value.– Measured sample varies from µ according to distribution (σ).
• Signal-to-Noise Ratio (SNR) = :– Measures how “noise free” the acquired signal is.
µσ
Eric Mortenson 2001
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Signal to Noise Ratio
A) Signal to noise ratio 1:1B) Signal to noise ratio 1:3C) Signal to noise ratio 1:7D) Image c after spatial smoothing
Signal-to-noise ratio of averaged image improves as the square root of the number of frames summed
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Sources of Noise• Quantum: discrete nature of light (photons)
– Poisson distributed: – SNR increases with more light:
• Turn up light source• Larger aperture• Collect longer
• “Background” (Thermal) : a.k.a. “Dark” current– Thermal electrons indistinguishable from photoelectrons.– Builds up over time.– Decreases with:
• Cooler environment• Shorter collection time
µ=σ
Eric Mortenson 2001
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Sources of Noise (cont.)• Sensor In homogeneity: every sensor is unique
– Dark current levels vary from element to element.– Long exposures produce fixed patterns:
• Can be subtracted out.
• Circuitry: (prior to converting to digital)– Electromagnetic interference from other circuits.– Shifting charge from well to well (CCD):
• Some photoelectrons lost: (charge-transfer efficiency < 1)
– “Dead” pixels.
Eric Mortenson 2001
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Noise vs. Resolution• Smaller Aperture:
– Higher resolution– Less area fewer photons more noise
• Larger Aperture:– Lower resolution– More area more photons less noise
• Lens– Larger physical (photon collection) area.– Smaller effective (resolution) aperture.
Eric Mortenson 2001
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Noise vs. Resolution• Example 1: Camera settings
– F-stop: aperture– Shutter speed: collection time
• Example 2: Film crystals– Larger : lower resolution but faster (short exposure)– Smaller: higher resolution but slower (long exposure)
Eric Mortenson 2001
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High Resolution Imaging• High numbers array sensors
• Great display depth
• High number of gray levels
Tradeoff
– Cooling the camera to reduce electronic
– Slower image acquisition and digitization
Eric Mortenson 2001
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Ideal Sensor Response• Multiplying input by a constant value multiplies the output by the
same constant:f(ax) = a f(x)
• Adding two inputs causes corresponding outputs to add:
f(x + y) = f(x) + f(y)• Linearity:
f(ax + by) = a f(x) + b f(y)
Eric Mortenson 2001
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Typical Sensor Response• Every sensor has an effective dynamic range.
• Most “approximately linear” devices are linear over some range:– Low (< toe): flat (nonzero) response – Middle: linear response (effective dynamic range)– High (> shoulder): saturation and blooming
• Example: H & D curve for film.
Toe
Shoulder
Linear
respo
nse
Eric Mortenson 2001
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Gain and OffsetGain = proportionality of output to input.
Offset (Bias) = constant addition to output.
y-intercept = offset
slope = gain
input
outp
ut
Eric Mortenson 2001
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Other Sensor Problems• Blooming: Photoelectrons “overflow” from one sensor well to
neighboring (electrically connected) wells.
Eric Mortenson 2001
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Modulation Transfer Function• A way of measuring resolution:
– Instead of line-pairs, uses sine waves• Measure the contrast of the response as a function of frequency:
Eric Mortenson 2001 Frequency (f)
MTF
fl
1.0
Frequency oflimiting resolution
0.1
cont
rast
(mod
ulat
ion)
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Color Imaging
• RGB et al.
• e.g. pseudo-color display
Color composites made from SEM electron and X-ray
images
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Color Space
Conversion from RGB to YIQ/YUV (no information loss)
B = 1.000Y – 1.106I + 1.703QQ = 0.211R – 0.523G + 0.312B
G = 1.000Y – 0.272I – 0.647QI = 0.596R – 0.274G - 0.322B
R = 1.000Y + 0.956I + 0.621QY = 0.299R + 0.587G + 0.114B
Interconversion of RGB and YIQ color scales
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Resources and Further Reading
Textbooks:Kenneth R. Castleman, Digital Image Processing, Chapter 1, 2John C. Russ, The Image Processing Handbook, Chapter 1
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Reading Assignment
Textbooks:Kenneth R. Castleman, Digital Image Processing, Chapter 3, 4, 5John C. Russ, The Image Processing Handbook, Chapter 3, 4
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Figure and Text Credits
Text and figures for this lecture were adapted in part from the following source by permission:
http://web.engr.oregonstate.edu/~enm/cs519© 2003 School of Electrical Engineering and Computer Science, Oregon State University, Dearborn Hall, Corvallis, Oregon, 97331