Difference between revisions of "X3D and HTML5 Summary"

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Status:  these are draft slides for the [[X3D and HTML5]] effort that will be provided to the  
 
Status:  these are draft slides for the [[X3D and HTML5]] effort that will be provided to the  
 
[http://www.w3.org/2009/11/TPAC Technical Plenary Week (TPAC) 2009].
 
[http://www.w3.org/2009/11/TPAC Technical Plenary Week (TPAC) 2009].
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* Family of X3D Specifications;
 
* Family of X3D Specifications;
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* Relationships between scene graphs, APIs and render layers;
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* Relationships between scene graphs, APIs and render layers
 
** Scene graphs are high-level declarative models about how geometry is constructed, colored and animated; these can be expressed as an XML tree
 
** Scene graphs are high-level declarative models about how geometry is constructed, colored and animated; these can be expressed as an XML tree
 
** APIs are mid-level libraries for programmers to create imperative source code about geometry and animation (various proprietary codebases, perhaps [http://en.wikipedia.org/wiki/WebGL WebGL] or [http://code.google.com/apis/o3d O3D])
 
** APIs are mid-level libraries for programmers to create imperative source code about geometry and animation (various proprietary codebases, perhaps [http://en.wikipedia.org/wiki/WebGL WebGL] or [http://code.google.com/apis/o3d O3D])
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* Similarities between MathML, SVG, and X3D;
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* Similarities between MathML, SVG, and X3D
 
** MathML describes mathematical expressions and then renders a presentation of them
 
** MathML describes mathematical expressions and then renders a presentation of them
 
** Scalable Vector Graphics (SVG) describes and presents renderings of 2D shapes, with optional animation and interaction
 
** Scalable Vector Graphics (SVG) describes and presents renderings of 2D shapes, with optional animation and interaction

Revision as of 16:42, 13 October 2009

Status: these are draft slides for the X3D and HTML5 effort that will be provided to the Technical Plenary Week (TPAC) 2009.


  • Family of X3D Specifications;
    • X3D Abstract Specification describes basic functionality
    • Three file formats are available: XML (.x3d), ClassicVRML (x3dv), and Compressed Binary Encoding (.x3db)
    • High-performance Application Programming Interfaces (APIs) are defined for Ecmascript (Javascript) and Java


  • X3D Strengths
    • Non-profit Web3D Consortium maintains and extends X3D via working groups
    • Set of International Standards certified over 12-year period by multiple national bodies in ISO
    • Multiple implementations are available (open and commercial source)
    • Numerous resources available online, including specifications themselves
    • Third-generation 3D graphics language that extends predecessor Virtual Reality Modeling Language (VRML97)
    • Long-time W3C member and contributor



  • Relationships between scene graphs, APIs and render layers
    • Scene graphs are high-level declarative models about how geometry is constructed, colored and animated; these can be expressed as an XML tree
    • APIs are mid-level libraries for programmers to create imperative source code about geometry and animation (various proprietary codebases, perhaps WebGL or O3D)
    • Render layers are low-level software libraries that expose the functionality of graphics hardware (e.g. OpenGL and DirectX)
    • Numerous other 3D technologies exist at each of the other layers, often in the form of codebases
    • The X3D Specifications include both declarative models and strongly typed APIs


  • Similarities between MathML, SVG, and X3D
    • MathML describes mathematical expressions and then renders a presentation of them
    • Scalable Vector Graphics (SVG) describes and presents renderings of 2D shapes, with optional animation and interaction
    • Extensible 3D (X3D) describes and presents renderings of 3D shapes, with optional animation and interaction
    • All three languages are formally specified and have well-developed XML encodings
    • Authors want to use these languages for multimedia content in HTML pages


  • X3D scene graph APIs
    • X3D Scene Access Interface (SAI) provides a consistent standardized high-performance API
    • X3D SAI has Ecmascript and Java bindings, other programming languages can be added
    • X3D SAI is functionally equivalent and has same expressive power as file formats
    • Document Object Model (DOM) is also legal (X3D is XML after all) but infrequently used because of low performance


  • Simple X3D and HTML5 examples
    • X3D scene as external reference (Anchor link)
    • X3D embedded in object tag
    • HTML5 with embedded X3D as mixed-namespace document
    • Forthcoming InstantReality X3DOM javascript demo: html5+x3d with event passing connections
    • (Can we structure our non-scripted examples to correspond to MathML and SVG examples?)


  • Action items for X3D and HTML5
    • Ensure proper X3D references in HTML5 specifications - what happened?
    • Continue to document correct integration and best practices for X3D and HTML5
    • Continue to watch the relationship between HTML5 and XHTML