Liquid-CAD Object Modeler A Physics-Based Modeling Utility
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Transcript of Liquid-CAD Object Modeler A Physics-Based Modeling Utility
Page 1Page 1
Liquid-CAD Object ModelerA Physics-Based Modeling Utility
Charlie O. Darney1,
Alex Kates2,
Shaw Levin3,
John M. Connor4,
______________________________________
Kurt W. Swanson5,
Kenneth A. Brakke6,
David E. Breen7
1Drexel University, [email protected] 2Drexel University, [email protected]
3Drexel University, [email protected] University, [email protected]
5Drexel University, [email protected] 6Susquehanna University, [email protected]
7Drexel University, [email protected]
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Presentation Overview
• Team Introduction• Project Overview• Requirements• Development Methodology• Social Impact
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Who We Are
• Charlie Darney (Team Leader)• Alex Kates• John Connor• Shaw Levin
• David Breen (Academic Advisor - Drexel)
• Kurt Swanson (SME – Drexel)• Ken Brakke (SME – Susquehanna)
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Project Overview
• Graphical User Interface for creating liquid-based models
• Complex geometric objects– Solid phase
• Already covered by CAD
– Liquid phase• New functionality
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Project Overview
• Physics-Based Modeler performs surface evolution
• Integration to VX software
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Requirements
• Developed as an add-on module for VX CAD
• Functionality accessed via a new toolbar
• VX CAD is used to specify the base geometry of an object and define boundary conditions
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Requirements
• Toolbar contains the following functionality:– New
• Opens up a new window to allow the user to define specifications and generation procedure
– Run• Starts and displays the
evolution process
– Stop• Halts the evolution
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Requirements
• Toolbar contains the following functionality:– Rewind
• Steps backwards through the evolution process
– Export• Saves the progress of the
evolution into a selected format
– Restore• Returns the evolved liquid
object to the normal VX CAD workspace.
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Development Methodology
Agile
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Development Methodology
• Version Control
• Continuous Integration
• Issue Tracking
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Development Methodology
• SVN
• Hudson
• Trac
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Development Methodology
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Social Impact
•Model generated in standard CAD system
•PBM included as utility used to model more complex, biological forms
•Improves user experiencereduces need for in depth-knowledge
•Broad range of uses
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Social Impact
•Personalization
•Speed
•Improved Results
Life Sciences
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Social Impact
•Faster development of curved facades
•Opens design possibilities to broader range of creators
Architecture
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Social Impact
•Current joints are pin and cylindrical.
•New system allows for replication of human joints.
•More lifelike and versatile.
Robotics
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Social Impact
•Modeling of virus and protein structure
•These surfaces are natural products of PBM
Micro-Biological
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Social Impact
•Competition / Implementation
•Many companies for CAD software and for PBM.
•PBM companies are very industry specific.
•CAD companies provide platform for introduction.
•VX first, then broader market
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Thank you,
Questions?
Questions