Amit L Ahire, Alun Evans, Josep Blat Interactive Technologies Group, Universitat Pompeu Fabra, Barcelona, Spain.

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Presentation transcript:

Amit L Ahire, Alun Evans, Josep Blat Interactive Technologies Group, Universitat Pompeu Fabra, Barcelona, Spain

Real Time Animation Conclusion Overview  Evans et al. [2014] - 3D Graphics On The Web : A Survey  But there was no section on Animation, Why?  Because there is not much work done on Animation on the web. Why?  That’s the motivation!!

Real Time Animation Conclusion Overview  Computer Animation is rendering sequence of images.  Interactive, Simulations, Entertainment – Movies and CGI.  Blend shapes, Skeleton rig, Face rig – Bones & transformation  Real time rendering – Problems and Challenges associated with it.  Stating specific challenges for web- based animation.  Survey the state of the art.  Current approaches and possible future trends.

Real Time Animation Conclusion Introduction  For Real Time Rendering – Any object should contain  Surface representation of object  Mechanism for generation and fetching of object properties.  Animation of Static Or Rigid Objects :  Animation of Deformable Objects :

Real Time Animation Conclusion Introduction  For successful animation :  Sufficient control points.  Interpolation or extrapolation techniques.  Offline animation - carried out by accessing key frames of the objects or by using some sort of physical based animation.  Main bottle necks for Web Based / Real Time Animation :  Animation file size and transmission over network.  Techniques to reduce transmission size and  Need to apply efficient compression algorithm and Level Of Detail techniques.

Conclusion Introduction Overview  Transmission Of Data  Compression and Preprocessing  Rendering

Real Time Animation : Compression Rendering  Transmission of 3D data – usually a two step process  Object structure is sent to the client.  Handling and processing of data at the client end.  Lots of compression and transmission technique for static 3D object.  Which “can be” extended to animation files.  But there is lack of uniformity among various techniques and technological standards on the web.

Real Time Animation : Compression Rendering  Transmission Of data uses basic protocols such as TDP and UDP.  Basic problem associated with these protocols :  Latency  Accuracy  Bandwidth  Nowadays mobile devices are equipped with so much processing power : Problem depends on network bandwidth and how the transmission is structured.

Real Time Animation : Compression Rendering  Important - data is transmitted in structured manner.  Generally methods :  Decimate and employ a spatial structure  Split the 3D object and transmit in structured manner.  The exact method depends on the requirement.  There is a need for schema-less, encoding agnostic, structured format.

Real Time Animation : Compression Rendering  Textual Representation & Binary Transmission – JSON and XML.  Image Based  Sequential Image Geometry (SIG) - Quantization & Progressive Loading  Domain Based : OpenCTM; WebGL-Loader etc.

Real Time Animation : Compression Rendering  Web is in need of a binary transmission format for 3D data.  Domain specific solution.  Standard compression algorithm.  Key aspects would be:  Reduce number of requests to the server.  Caching strategies  Websockets  Gobbetti et al [2012] proposed a images based mesh description format – Build a tight atlas map of the mesh geometry. Extracted from : LIMPER, M., THÖNER, M., BEHR, J., AND ELLNER, D.W – “SRC - a stream able format for generalized web-based 3D data transmission.”

Conclusion Introduction Overview  Transmission Of Data  Compression and Preprocessing  Rendering

Real Time Animation : Transmission Of Data Rendering  Every mesh and its animation data is defined by 1) Geometry; 2) Connectivity; And 3) Texture/Colour data.  Different types of Compression :  Single Rate Compression  Progressive Compression

Real Time Animation : Transmission Of Data Rendering  During decoding the connectivity of geometry is reconstructed incrementally from the transmission stream.  Advantage - Minimal wait time.  LOD : Reduction of quality and detail of the mesh in interactive applications.  Mesh & Animation LOD : Representation of Object based on their distance from the camera  Deformation Sensitive Decimation (DSD) by Mohr and Gleicher [2003]  Pilgrim et al.[2006] - Progressive Skinning.  Mukai and Kuriyama [2007] introduce the idea of motion level of detail using an LOD control.

Real Time Animation : Transmission Of Data Rendering  Improving quality of level of detail is more important than being clever & gaining a few extra bits.  Wen et al. [2014] presents similarity aware 3D model reduction method. Which uses a Lightweight Scene Graph (LSG) – doesn’t require any decompression at the client end.  Compression and Preprocessing needs to rely on simple and effective algorithm.

Conclusion Introduction Overview  Transmission Of Data  Compression and Preprocessing  Rendering

Real Time Animation : Transmission Of Data Compression  WebGL (Imperative Approach) uses HTML5 canvas and JavaScript to expose the low level OpenGL ES 2.0 Implementation.  Large Memory footprint  DOM onProgress event : Used to use time based event, Better to have a trigger based on event.  Current limitations is with the specification of the API. Indexed 16 bit array : Not anymore. Texture : Extensions

Real Time Animation : Transmission Of Data Compression  A coarse representation is rendered on the screen after the minimal transmission.  As more data and information is downloaded, the compressed animation is refined. Mostly these refinement methods can be classified into  Connectivity updating.  Geometry updating.  Reduce state changes - mesh data in a single image (either a texture atlas or map)

Real Time Animation : Transmission Of Data Compression  Parallelism of JavaScript :  JavaScript is single-threaded.  WebWorkers.  Leverage the power of GPU – Using WebCL and River Trail.  WebGL 2.0 : Specification approaching release. Equivalent to OpenGL ES 3.0 Occlusion Query; Transform Feedback; Multiple Render Targets. Stein et al [2014] uses some of these features visualize medical data on the web.  Texture Compression.

Real Time Animation Introduction Overview  Very little work is done on bringing animation on the web.  Open challenges -  Proper transmission format for animation data.  Protecting intellectual data post transmission.  Currently lots of research being done on rendering on the web.

Thank You! Questions?