consistent presentation of images r. horn, research scientist ([email protected])...
TRANSCRIPT
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Consistent Presentation of Consistent Presentation of ImagesImages
R. Horn, Research Scientist R. Horn, Research Scientist (([email protected]@agfa.com))
G. Claeys, Technology Manager G. Claeys, Technology Manager (([email protected]@agfa.com))
Agfa HealthcareAgfa Healthcare
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The Grayscale Image Presentation The Grayscale Image Presentation Problem: Problem:
The appearance of grayscale images displayed on different types of softcopy display devices or printed on different types of hardcopy output devices has often been inconsistent.
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Optimal image viewing parameters (e.g. window/ level) Optimal image viewing parameters (e.g. window/ level) selected on one device appear different when displayed selected on one device appear different when displayed on a different deviceon a different device
Device capabilities/ characteristics vary - the same Device capabilities/ characteristics vary - the same number of gray levels cannot be rendered or perceived number of gray levels cannot be rendered or perceived on different deviceson different devices
Displayed images look different from printed imagesDisplayed images look different from printed images ……otherother
The Grayscale Consistency Problem: The Grayscale Consistency Problem:
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Problems of InconsistencyProblems of Inconsistency
mass visible mass invisible
•VOI chosen on one display device
•Rendered on another with different display
•Mass expected to be seen is no longer seen
Slide Provided by David Clunie, Quintiles Intelligent Imaging
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Problems of InconsistencyProblems of Inconsistency
0.5
1.5
1.0
3.0
•Not all display levelsare perceivable on alldevices
Slide Provided by David Clunie, Quintiles Intelligent Imaging
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Problems of InconsistencyProblems of Inconsistency
Digital Modality Laser Printer
•Printed images don’t looklike displayed images
Slide Provided by David Clunie, Quintiles Intelligent Imaging
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Causes of InconsistencyCauses of Inconsistency
Gamut of deviceGamut of device– Minimum/maximum luminance/densityMinimum/maximum luminance/density
Characteristic curveCharacteristic curve– Mapping digital input to luminance/densityMapping digital input to luminance/density– ShapeShape– LinearityLinearity
Ambient light or illuminationAmbient light or illumination
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Solution of the problemSolution of the problem
Device independent reference space Device independent reference space – Same for hardcopy + softcopy devicesSame for hardcopy + softcopy devices
Perceptual linear reference spacePerceptual linear reference space– Equal distances in reference space are Equal distances in reference space are
perceived by human visual system as equal perceived by human visual system as equal distancesdistances
– Unit : JND (Just Noticable Difference)Unit : JND (Just Noticable Difference)
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Device calibrationDevice calibration
Compensates the non-linearity of display deviceCompensates the non-linearity of display device– Establish linear relation between Establish linear relation between
» Input Digital Driving Level (DDL) andInput Digital Driving Level (DDL) and
» Output Luminance (softcopy) or OD (hardcopy)Output Luminance (softcopy) or OD (hardcopy)
– Inverse of characteristic curveInverse of characteristic curve
Characteristic curve Characteristic curve – Characteristic curve = inherent device characteristicCharacteristic curve = inherent device characteristic
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Monitor Characteristic CurveMonitor Characteristic Curve
Monitor Characteristic Curve
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0.1
10
100
0 50 100 150 200 250 300Digital Driving Level
Ambient Light
Slide Provided by David Clunie, Quintiles Intelligent Imaging
Luminance
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Printer Calibration Tools Printer Calibration Tools (Densitometer)(Densitometer)
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Display Calibration Tools Display Calibration Tools (Photometer)(Photometer)
Slide Provided by Jerry Gaskill, Image Smiths Inc.
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Perceptual Linearization :Perceptual Linearization :
Compensates the contrast sensitivity of Compensates the contrast sensitivity of human visual system human visual system
Grayscale Standard Display Function Grayscale Standard Display Function – Input: Just Noticeable Differences (JNDs)Input: Just Noticeable Differences (JNDs)– Output: absolute luminanceOutput: absolute luminance– Barten’s modelBarten’s model– Described in DICOM Part 14Described in DICOM Part 14
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Grayscale Standard Display FunctionGrayscale Standard Display Function
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.1
1
10
100
1000
0 200 400 600 800 1000
Grayscale Standard Display Function
JND Index
Same number of Just Noticeable Difference == Same perceived contrast
Despite different changein absolute luminance
Slide Provided by David Clunie, Quintiles Intelligent Imaging
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Perceptual linear device Perceptual linear device
Apply Apply – Grayscale Standard Display function : Grayscale Standard Display function :
» JND -> Luminance (or OD)JND -> Luminance (or OD)
– Inverse characteristic curveInverse characteristic curve» Luminance (or OD) -> DDLLuminance (or OD) -> DDL
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Perceptual linear device - LUTPerceptual linear device - LUT
Mapping P-Values to Input of Characteristic Curve (DDL’s)
0
50
100
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300
0 50 100 150 200 250 300
P-Values
DD
L
Slide Provided by David Clunie, Quintiles Intelligent Imaging
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DICOM & Consistent Presentation of DICOM & Consistent Presentation of ImagesImages
DICOM Image Transformation Model, DICOM Image Transformation Model, including Presentation Look Up Tableincluding Presentation Look Up Table
Grayscale Softcopy Presentation StateGrayscale Softcopy Presentation State
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Trans formation
VOI LUT(Subtrac t ion)
Mas kModality
LUT
Trans formation
Annotat ion
Image
Trans format ion
Shutter Spat ia lTrans format ion
Annotat ion
Disp. Area
Presentation LUT
Presentation LUT
Transformation
Window/Levelor VOI LUT
Rescale Slope/Interceptor Modality LUT
OriginalImage
DisplayP-Values
Grayscale Transformations
Shutter, Annotation and Spatial Transformations
DICOM Grayscale Image DICOM Grayscale Image Transformation ModelTransformation Model
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Grayscale Softcopy Presentation StateGrayscale Softcopy Presentation State
Describes the Grayscale Image Transformation Model Describes the Grayscale Image Transformation Model
GSPS links to one or more images (Series, filters); stored GSPS links to one or more images (Series, filters); stored using same Study Instance UID (same Storage SOP using same Study Instance UID (same Storage SOP Class!)Class!)
Uses regular Storage services (C-STORE); uses Uses regular Storage services (C-STORE); uses Query/Retrieve servicesQuery/Retrieve services
GSPS SOP Instances are immutable: changes require a GSPS SOP Instances are immutable: changes require a new SOP Instance UIDnew SOP Instance UID
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Example: A Radiologist “Flips” Example: A Radiologist “Flips” Chest XRAY Image on Softcopy DisplayChest XRAY Image on Softcopy Display
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Suspected
area
Example Continued: Radiologist Magnifies Example Continued: Radiologist Magnifies Chest XRAY Image, Pans to Upper Right Chest XRAY Image, Pans to Upper Right Hand Quadrant and Adds an AnnotationHand Quadrant and Adds an Annotation
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Referring Physician:Radiologist:
Suspected
area
Example Continued: Referring Physician Example Continued: Referring Physician Views the Original Image…Views the Original Image…
Radiologist Should Store the Viewing Parameters Using GSPS!Radiologist Should Store the Viewing Parameters Using GSPS!
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IEIE ModuleModule UsageUsage
PatientPatient PatientPatient MM
StudyStudy General StudyGeneral Study MM
Patient StudyPatient Study UU
SeriesSeries General SeriesGeneral Series MM
Presentation SeriesPresentation Series MM
EquipmentEquipment General EquipmentGeneral Equipment MM
PresentationPresentation Presentation StatePresentation State MM
Modality LUTModality LUT C - Required if to be appliedC - Required if to be applied
MaskMask C - Required if multi-frame and to be appliedC - Required if multi-frame and to be applied
VOI LUTVOI LUT C - Required if to be appliedC - Required if to be applied
Softcopy Presentation LUTSoftcopy Presentation LUT MM
Graphic AnnotationGraphic Annotation C - Required if to be appliedC - Required if to be applied
Spatial TransformationSpatial Transformation C - Required if rotation, flipping or magnification are to be appliedC - Required if rotation, flipping or magnification are to be applied
Displayed AreaDisplayed Area MM
Display ShutterDisplay Shutter C - Required if to be applied and the Bitmap Display Shutter Module is notC - Required if to be applied and the Bitmap Display Shutter Module is notpresentpresent
Bitmap Display ShutterBitmap Display Shutter C - Required if to be applied and the Display Shutter Module is not presentC - Required if to be applied and the Display Shutter Module is not present
Overlay PlaneOverlay Plane C - Required if to be applied or the BM C - Required if to be applied or the BM Displ. Shutter Module is presentDispl. Shutter Module is present
Overlay/Curve ActivationOverlay/Curve Activation C- Required if image contains curve or overlay which is to be displayedC- Required if image contains curve or overlay which is to be displayed
Graphic LayerGraphic Layer C - Required if Graphic Annotation or Overlays or Curves are to be appliedC - Required if Graphic Annotation or Overlays or Curves are to be applied
SOP CommonSOP Common MM
GSPS Module Table:GSPS Module Table:
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What about color ?What about color ?
Consistency is harder to achieveConsistency is harder to achieve– Gamut of devices much more variableGamut of devices much more variable– Greater influence of psychovisual effectsGreater influence of psychovisual effects
Extensive standards efforts e.g. ICCExtensive standards efforts e.g. ICC DICOM recently defined color presentation DICOM recently defined color presentation
in a manner very similar to grayscale.in a manner very similar to grayscale.– Many display and print devices already have Many display and print devices already have
ICC profiles, but few medical imaging devices ICC profiles, but few medical imaging devices support color presentation state.support color presentation state.
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Color Presentation StateColor Presentation State
Final Text in June 2005, Supplement 100Final Text in June 2005, Supplement 100 Color Presentation StateColor Presentation State
– Based on ICC Color ProfilesBased on ICC Color Profiles– Provides consistent color for color imagesProvides consistent color for color images
Also defined consistent color mechanisms Also defined consistent color mechanisms for other objects using color, by defining a for other objects using color, by defining a relationship to ICC profiles.relationship to ICC profiles.
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ConclusionsConclusions
Consistent Presentation is Provided byConsistent Presentation is Provided by– Device calibration, using GSDF and characteristic Device calibration, using GSDF and characteristic
curvecurve
– Use of Presentation LUT for Grayscale PrintUse of Presentation LUT for Grayscale Print
– Use GSPS SOP Instances to capture the presentation of Use GSPS SOP Instances to capture the presentation of softcopy images.softcopy images.
Devices that claim conformance to the IHE Devices that claim conformance to the IHE Consistent Presentation of Grayscale Images Consistent Presentation of Grayscale Images provide these functions.provide these functions.
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Thank YouThank You