CAVASS contributors

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Transcript of CAVASS contributors

(a Computer Assisted Visualization and Analysis Software System)

Using CAVASS as the Basis for Imaging Applications

George Greveraab, Jayaram Udupab, Dewey Odhnerb

aComputer Science DepartmentSaint Joseph’s University

bMedical Image Processing Group (MIPG), Department of RadiologyUniversity of Pennsylvania

CAVASS contributors

• Xinjian Chen• George Grevera• Tad Iwanaga• Tingching Kao• Shipra Mishra

• Dewey Odhner• Andre Souza• Jayaram Udupa• Xiaofen Zheng• Ying Zhuge

Overview

• Introduction• User interface• Key features• Parallelism• Getting Started with CAVASS• Concluding remarks

INTRODUCTION TO CAVASS

What is CAVASS?

• A CAVA Software System

• What is CAVA?– Computer Assisted Visualization and Analysis

• So CAVASS is a Computer Assisted Visualization and Analysis Software System

3D CAVA software systems (MIPG)

DISPLAY mini computer + frame buffer 1980DISPLAY82 mini computer + frame buffer 19823D83 GE CT/T 8800 19833D98 GE CT/T 9800 19863DPC PC-based 19893DVIEWNIX Unix, X-Windows 1993

CAVASS platform independent, wxWidgets 2009

What is CAVASS?

• CAVASS is the next generation of 3DVIEWNIX.• 3DVIEWNIX

– development started in 1987– released in 1993– development dates back to the ’70s– free binaries– runs on Unix and subsequently Linux– 60 person years of effort– distributed to 100s of sites– basis for over 15 specialized packages/apps

Why CAVASS?

Significant, more recent developments

1. PC platform matures.– price spirals downward– performance increases dramatically– supplant Unix as the scientific workstation of choice

2. Network bandwidth greatly increases.3. Useable parallel processing standards are defined and

become freely available.4. Toolkits such as VTK and ITK become freely available.5. GUI concept matures and platform independent

libraries are developed.

CAVASS features*• Image processing - for enhancing information about and

defining an object system

• Visualization - for viewing and comprehending an object system

• Manipulation - for altering an object system (virtual surgery)

• Analysis - for quantifying information about an object system

*Especially for large, multidimensional (at least 3D), possibly multimodality, data sets.

CAVA user groups

UG1 – CAVA basic researchers/technology developers

UG2 – CAVA application developers

UG3 – Users of CAVA methods in clinical research

CAVASS is not aimed at:

UG4 – Clinical end users in patient care

Key CAVASS features

• Built upon our experience with 3DVIEWNIX.• Leverages the existing 3DVIEWNIX software

base and user interface.• Port to Windows and Mac OS with continued

support for Unix and Linux.• Implement parallel algorithms for time

consuming operations.• Support for stereo rendering.• Interface to ITK.

CAVASS USER INTERFACE

Portable graphics user interface

• Based on wxWidgets (wxwidgets.org)

– one C++ API for all OS’s

– maintains native look-and-feel

– free, open source, multiplatform

– portable support for mutex, threads, copy-paste, drag-and-drop, print, etc.

• Standard-style menu bar.• Window size can be changed.• Support for multiple windows.• Copy window contents to clipboard.• Print window contents.

User interface features

Standardized user interface

• Control area– appears towards bottom– can be resized or even removed– buttons appear towards the right and are

relatively standardized; other controls (such as sliders) appear towards the left as necessary

Standardized user interface

• Bar at bottom contains status and mouse button information.

KEY CAVASS FUNCTIONALITY

Overview of CAVASS functionality

P o r tD a ta T oo ls Im ag eP ro ce ssing V is ua lize M an ip u la te A na ly ze

C A V A S S

Data interface

Input Im port

Export SaveScreen

PortData T oo ls Im ag eP ro ce ssing V isua lize M an ip u la te A na lyze

CAVASS

Support for standard image formats such as DICOM, VTK, Matlab, STL (Stereo Lithography), TIFF, and JPEG.

CAVASS also supports the extended DICOM format that was proposed and supported by 3DVIEWNIX.

Tools

P o rtD a ta

T utorials T asks

Recipes IT K Filters

Show Screen

T ools Im ag eP ro ce ssing V isua lize M an ip u la te A na lyze

CAVASS

Interface to ITK

• ITK– Extensive C++ image processing library.– Provides no user interface.

• CAVASS – ITK interface– Optionally provide ITK with a user interface.– Added code to ITK to enable it to read and write

CAVASS files.

Interface to ITK

• CAVASS – ITK interface

– Completely table driven.

– Steps:• Display a slice• Allow user to set parameters.• Run ITK program.• Read and display result.

Interface to ITK:median filter

Interface with ITK:Canny edge detection

Image processing:live wire & interpolation

P o rtD a ta T oo ls

VOI Interpolate

Filter Segment

Classify Algebra

Register

SceneOperations

SurfaceNorm al M ergeStructures

ToStructure ToScene

StructureOperations

Im ageProcessing V isua lize M an ip u la te A na lyze

CAVASS

Visualize:slice/cine & surface rendering

P o r tD a ta T oo ls Im ag eP ro ce ssing

M ontage Cycle

Reslice O verlay

S lice

V iew M easure

CreateMovie

Surface

View M easure

CreateMovie

Volume

Visualize M an ip u la te A na ly ze

CAVASS

Manipulate

P o rtD a ta T oo ls Im ag eP ro ce ssing V isua lize

SelectSlice M easure

Reflect Cut

Separate M ove

CreateMovie

M anipulate A na ly ze

CAVASS

Event handling for visualization and manipulation

• wxWidgets supports and implements the Windows-style event callback mechanism.– Very efficient and fine for most user interaction.

• X-Windows supports and implements the event queue mechanism.– Most flexible for intensive user interaction w/

possible delays due to computation time (e.g., rendering).

Event handling for visualization and manipulation

• We implemented an X-Windows style event queue w/in CAVASS using only the wxWidgets callback mechanism:1. Create a separate thread of execution that responds to

events in an event queue (of our own creation); performs compute intensive tasks; runs at a lower priority.

2. The main thread continues to respond to events via the callback mechanism; “intelligently” queues the events for execution by the other thread; runs at a higher priority.

Analyze

P o r tD a ta T oo ls Im ag eP ro ce ssing V isua lize M an ip u la te

DensityProfile ROI

Scene

Register Static Kinematics

Structure

Analyze

CAVASS

PARALLELISM

Parallelism

• MPI (Message Passing Interface)– free (for both Windows, Linux, and Unix)– part of base Linux install– COW (cluster of workstations model)– leverages existing hardware/computers– optional, inexpensive network upgrade– easily expandable

• OpenMP (Open specification for Multi Processing)– requires purchase of specialized compilers– “multi-threaded, shared memory parallelism” model– requires purchase of expensive multiprocessor systems

• Divide the input image into chunks and assign each chunk to a processor.

• A chunk represents data contained in a contiguous set of slices, either image or object structure data.

Parallelization of operations in CAVASS

Parallelization of operations in CAVASS

• CAVA operations can be divided into the following three groups.– Type 1: Operation chunk-by-chunk, each chunk accessed

only once.• Ex: slice interpolation.

– Type 2: As in Type 1, but significant further operation needed to combine results.

• Ex: 3D rendering.

– Type 3: Operation chunk-by-chunk, but each chunk may have to be accessed more than once.

• Ex: graph traversal.

• CAVASS parallelizes all three groups of operations when necessary.

GETTING STARTED WITH CAVASS

Getting started with CAVASS

• As a user:– Tutorials– Tasks and Recipes

• As a programmer:– cvs code repository– doxygen code documentation– Data C++ classes– Example module

Data C++ classes1. CavassData

– Given the name of a data file, CavassData will read in the entire data set.2. ChunkData

– Given the name of a data file, ChunkData will read in a set of contiguous slices (a chunk).

– When slices are accessed w/in the cached chunk, no additional reads are necessary.

– When a slice is accessed outside of the current chunk, a chunk containing the new slice is read.

– Subclass of CavassData.3. SliceData

– Given the name of a data file, SliceData will read in a single slice of data.– A different slice can be read at any time.– Subclass of CavassData.

Doxygen documentation example

Example module

• C++ code that consists of ExampleFrame (a subclass of MainFrame) and ExampleCanvas (a subclass of MainCanvas).

CONCLUDING REMARKS

Concluding remarks

• User interface

• Key features (image processing, visualization, manipulation, and analysis)

• Parallelism

• Getting Started with CAVASS

CAVASS contributors

• Xinjian Chen• George Grevera• Tad Iwanaga• Tingching Kao• Shipra Mishra

• Dewey Odhner• Andre Souza• Jayaram Udupa• Xiaofen Zheng• Ying Zhuge

Thanks for your attention!

• Information about CAVASS is available from www.mipg.upenn.edu/~cavass.

• The authors gratefully acknowledge NIH grant number R01-EB004395 for support of this work.