1. EFFICIENT 3D WEB CONTENT DELIVERY
WITH KHRONOS AND MPEG TECHNOLOGIES

2. AGENDA
Introduction
REST 3D
Graphics Library Transmission Format
Open 3D Graphics Compression
Conclusions
2 | EFFICIENT 3D WEB CONTENT DELIVERY | NOVEMBER 19, 2013
MPEG

3. Introduction

4. INTRODUCTION – CONTENT IS KING
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5. rest3d
remi.arnaud@amd.com

6. CONTENT CREATION
Physics
Animations
Audio
Images
3D model
6 | EFFICIENT 3D WEB CONTENT DELIVERY | NOVEMBER 19, 2013
Script
3Dapp
…

7. WEB CONTENT PUBLICATION
html
Script
images
Animations
Images
Web
app
css
3Dapp
3D model
js
Physics
Audio
…
7 | EFFICIENT 3D WEB CONTENT DELIVERY | NOVEMBER 19, 2013
3D
assets
WebGL
json
bin (dds, typedarray)

8. WEB CONTENT PUBLICATION
html
Script
images
Animations
Images
Web
3Dapp
app
3D model
css
js
Physics
Audio
…
8 | EFFICIENT 3D WEB CONTENT DELIVERY | NOVEMBER 19, 2013
3D
assets
http
CDN
Cache
Authentication
Web
Browser

9. Rest3d … to the rescue
 http://en.wikipedia.org/wiki/Representational_state_transfer
The REST architectural style was developed by W3C Technical Architecture Group (TAG) in parallel with HTTP 1.1,
based on the existing design of HTTP 1.0. The World Wide Web represents the largest implementation of a system
conforming to the REST architectural style
 www.rest3d.com
 https://groups.google.com/forum/#!forum/3d-rest
discuss the principles of a shared RESTful http API dedicated to 3D media
 https://github.com/amd/rest3d/
AMD open-source experimental implementation
Client:
- Workstation style UI in the web browser
- COLLADA and glTF javascript parser
- WebGL renderer
Server:
- node.js http server, server cache, database proxy
- XML native database, Xquery processing
9 | EFFICIENT 3D WEB CONTENT DELIVERY | NOVEMBER 19, 2013

10. fbx
Database
Queries
Upload/download
Processing
COLLADA
Assets
Databank
CLOUD (rest3d) PIPELINE
Conversion (glTF)
Compression
Cloud
Image conversion
Modeler
Editor
rest3d
rest3d
Desktop
Web App
rest3d
Turbulenz
Three.js
Cesium
Browser
…WebGL…
Or web app
Max
Maya
Blender
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Desktop

11. Demo

12. fabricerobinet@me.com

13. graphics library Transmission Format
 COLLADA WG initiative (Khronos)
‒ work-in-progress, not yet a ratified specification
‒ specification and implementation (converter) work at the same time
‒ runtime asset format for GL based APIs
 Principles
‒ Streamline rendering: size, speed and ease of implementation
‒ Offload processing from runtime
‒ Built on top of GL Based APIs and Typed Arrays
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14. graphics library Transmission Format
 glTF & Open3DGC Integration
‒ First cut, Open3DGC glTF extension is a work-in-progress
‒ geometry: POSITION, NORMAL, multiple sets of TEXCOORD, COLOR and generic attributes
‒ animations: TRS (Translation, Rotation, Scale)
‒ skinning: weights and bone indices
 Demo example: Virtual City (www.3drt.com)
geometry
animation
total
raw: 5469 kb
gzip: 1612 kb
COLLADA
glTF
680 kb
1297 kb
raw: 1977 kb
gzip: 878 kb
glTF Open3DGCbinary
198 kb
297 kb
raw: 496 kb
gzip: 429 kb
glTF Open3DGC- ascii
355 kb
533 kb
raw: 888 kb
gzip: 390 kb
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15. Demo

16. MPEG
Open3DGC
Khaled.Mammou@amd.com

17. OPEN-3DGC: WHAT IS IT?
 Efficient Implementation of MPEG 3D Graphics Codecs
‒ Encoders in C++ for fast server side compression
‒ Decoders in javascript and C++ to target mobile and web applications
‒ Available under MIT license https://github.com/amd/rest3d/tree/master/server/o3dgc
 Codecs
‒ 3D meshes with multiple attributes
‒ Geometry (e.g., positions, normals, texture coordinates…)
‒ Skinning (e.g., animation weights and joint IDs)
‒ Animations
‒ Bone-based animations
‒ Morphing (coming soon)
17 | EFFICIENT 3D WEB CONTENT DELIVERY | NOVEMBER 19, 2013
MPEG

18. OPEN-3DGC: HOW EFFICIENT IS IT?
 Compression Efficiency
400
‒ Gzip (default level=6)
‒ OpenCTM (default settings)
‒ Open3DGC and Webgl-loader
Size (MBytes)
‒ Positions on 14 bits
‒ Normals and texCoords on 10 bits
300
Gzip
OpenCTM
200
Webgl-loader + Gzip
Open3DGC-ASCII + Gzip
Open3DGC-Binary
100
0
CAD
(3748 models)
3D Scanned
(78 models)
MPEG dataset
(1211 models)
Open3DGC is 5x-9x more efficient than Gzip, 1.3x-2.4x more efficient than OpenCTM and
1.2x-1.5x more efficient than webgl-loader
18 | EFFICIENT 3D WEB CONTENT DELIVERY | NOVEMBER 19, 2013

19. OPEN 3DGC: HOW FAST IS IT?
 Javascript Decoding Speed
‒ Desktop machine
‒
‒
‒
‒
‒ Samsung Galaxy S4
‒ Android 4.2.2
‒ Chrome
Desktop decoding
time (ms)
Smart phone decoding
time (ms)
“Hand”
100K
130
1045
54K
85
768
“Octopus”
‒ Smart phone
Number of
triangles
“Dilo”
Windows® 64-bit
AMD Phenom™ II X4 B95 CPU @ 3.0GHz
8GB RAM
Chrome
34K
65
457
Decoding speed will become even more critical with dense 3D meshes
generated by 3D digitization technologies (e.g., 3D scanners)
19 | EFFICIENT 3D WEB CONTENT DELIVERY | NOVEMBER 19, 2013

20. OPEN-3DGC: WHAT’S UNDER THE HOOD?
 3D Mesh Compression
‒ Indexed Face Set
‒ Geometry: positions
‒ Connectivity: list of triangles
Requires 192 bits per vertex!
‒ Redundancy
‒
‒
‒
‒
Indexes repeated multiple times
No need to preserve triangles and vertices order
No need for 32-bit precision for positions/attributes
Neighbour vertices exhibit high geometry correlations
Lossy geometry compression and lossless connectivity
encoding reduce the stream size to 10-20 bpv
20 | EFFICIENT 3D WEB CONTENT DELIVERY | NOVEMBER 19, 2013
V7
Geometry
Connectivity
X1, Y1, Z1
X2, Y2, Z2
X3, Y3, Z3
X4, Y4, Z4
X5, Y5, Z5
X6, Y6, Z6
X7, Y7, Z7
1, 3, 7
1, 7, 6
1, 6, 2
1, 2, 4
1, 4, 5
Reordered
geometry
Reordered
Connectivity
X3, Y3, Z3
X7, Y7, Z7
X6, Y6, Z6
X2, Y2, Z2
1
X4, Y4, Z4
2
X5, Y5, Z5
3
X1, Y1, Z1
4
7, 5, 6
7, 4, 5
7, 3, 4
7, 1, 2
7, 2, 3
5
6
7
V3
V6
V5
V1
V4
V2

21. OPEN-3DGC: WHAT’S UNDER THE HOOD?
 3D Mesh Compression
‒ Algorithm based on TFAN codec *Mammou’09+
‒ Triangular meshes with attributes
‒ Arbitrary topologies (e.g., manifold or not, open/closed, oriented or not, arbitrary genus, holes…)
‒ MPEG-SC3DMC (Scalable Complexity 3D Mesh Coding) published in 2010
Encoder
Connectivity
TFAN-based Connectivity
Encoding
Arithmetic
or ASCII
Encoding
Geometry
21 | EFFICIENT 3D WEB CONTENT DELIVERY | NOVEMBER 19, 2013
Uniform
Quantization
Compressed
stream
Prediction
*Mammou’09+ K. Mammou, T. Zaharia, F. Prêteux, “TFAN: A low complexity 3D mesh compression algorithm”
Computer Animation and Virtual Worlds, Vol. 20(2-3), pp. 343–354, 2009

22. OPEN-3DGC: WHAT’S UNDER THE HOOD?
 3D Mesh Compression
‒ Algorithm based on TFAN codec *Mammou’09+
‒ Triangular meshes with attributes
‒ Arbitrary topologies (e.g., manifold or not, open, closed, holes…)
‒ MPEG-SC3DMC (Scalable Complexity 3D Mesh Coding) published in 2010
Encoder
Connectivity
TFAN-based Connectivity
Encoding
Arithmetic
or ASCII
Encoding
Geometry
22 | EFFICIENT 3D WEB CONTENT DELIVERY | NOVEMBER 19, 2013
Uniform
Quantization
Compressed
stream
Prediction
*Mammou’09+ K. Mammou, T. Zaharia, F. Prêteux, “TFAN: A low complexity 3D mesh compression algorithm”
Computer Animation and Virtual Worlds, Vol. 20(2-3), pp. 343–354, 2009

23. OPEN-3DGC: WHAT’S UNDER THE HOOD?
 3D Mesh Compression
‒ Uniform quantization
‒ Map real numbers to integers
‒ Maximum quantization error
Uniform quantization reduces the
number of bits per vertex for positions
from 96 bpv to 24 bpv
q=4
q=6
23 | EFFICIENT 3D WEB CONTENT DELIVERY | NOVEMBER 19, 2013
q=8
q=10
Original

24. OPEN-3DGC: WHAT’S UNDER THE HOOD?
 3D Mesh Compression
‒ Algorithm based on TFAN codec *Mammou’09+
‒ Triangular meshes with attributes
‒ Arbitrary topologies (e.g., manifold or not, open, closed, holes…)
‒ MPEG-SC3DMC (Scalable Complexity 3D Mesh Coding) published in 2010
Encoder
Connectivity
TFAN-based Connectivity
Encoding
Arithmetic
or ASCII
Encoding
Geometry
24 | EFFICIENT 3D WEB CONTENT DELIVERY | NOVEMBER 19, 2013
Uniform
Quantization
Compressed
stream
Prediction
*Mammou’09+ K. Mammou, T. Zaharia, F. Prêteux, “TFAN: A low complexity 3D mesh compression algorithm”
Computer Animation and Virtual Worlds, Vol. 20(2-3), pp. 343–354, 2009

25. OPEN-3DGC: WHAT’S UNDER THE HOOD?
 3D Mesh Compression Algorithm
‒ Geometry prediction
‒ Exploit connectivity information
‒ Differential and “parallelogram” prediction
P’
B’
Unprocessed region
A
P
B
C
Processed region
25 | EFFICIENT 3D WEB CONTENT DELIVERY | NOVEMBER 19, 2013

26. OPEN-3DGC: WHAT’S UNDER THE HOOD?
 3D Mesh Compression Algorithm
‒ Geometry prediction
‒ Exploit connectivity information
‒ Differential and “parallelogram” prediction
‒ Adaptively choose the best predictor
Geometry prediction reduces the
number of bits per vertex for positions
from 24 bpv to 10.3 bpv
P’
B’
Unprocessed region
A
P
B
C
Processed region
26 | EFFICIENT 3D WEB CONTENT DELIVERY | NOVEMBER 19, 2013

27. OPEN-3DGC: WHAT’S UNDER THE HOOD?
 3D Mesh Compression
‒ Algorithm based on TFAN codec *Mammou’09+
‒ Triangular meshes with attributes
‒ Arbitrary topologies (e.g., manifold or not, open, closed, holes…)
‒ MPEG-SC3DMC (Scalable Complexity 3D Mesh Coding) published in 2010
Encoder
Connectivity
TFAN-based Connectivity
Encoding
Arithmetic
or ASCII
Encoding
Geometry
27 | EFFICIENT 3D WEB CONTENT DELIVERY | NOVEMBER 19, 2013
Uniform
Quantization
Compressed
stream
Prediction
*Mammou’09+ K. Mammou, T. Zaharia, F. Prêteux, “TFAN: A low complexity 3D mesh compression algorithm”
Computer Animation and Virtual Worlds, Vol. 20(2-3), pp. 343–354, 2009

28. OPEN-3DGC: WHAT’S UNDER THE HOOD?
 3D Mesh Compression Algorithm
‒ Triangle FAN
‒
‒
‒
‒
Each two successive triangles share a common edge
All triangles share a common vertex (i.e., center of the TFAN)
All the triangles have the same orientation
Described by enumerating the vertices in their traversal order
Implicitly encodes adjacency information
(1,3,7,6,2,4,5)
7 indices instead of 15 for IFS
28 | EFFICIENT 3D WEB CONTENT DELIVERY | NOVEMBER 19, 2013

29. OPEN-3DGC: WHAT’S UNDER THE HOOD?
 3D Mesh Compression Algorithm
‒ TFAN-based connectivity compression
‒ Decompose the mesh into a set of TFANs
‒ Traverse the vertices from neighbour to neighbour
‒ Rename vertices according to the traversal order
‒ For each vertex, group its incident non-visited triangles into TFANs
V5 V’4
V7 V’7
V3 V’10
V6
V’3
V’6 V9
V10 V’8
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V4
V’2
V8 V’9
V2 V’5
V1 V’1

30. OPEN-3DGC: WHAT’S UNDER THE HOOD?
 3D Mesh Compression Algorithm
‒ TFAN-based connectivity compression
‒ Decompose the mesh into a set of TFANs
‒ Traverse the vertices from neighbour to neighbour
‒ Rename vertices according to the traversal order
‒ For each vertex, group its incident non-visited triangles into TFANs
‒ Encode TFANs
‒ Distinguish 10 topological configurations
‒ Use local indices instead of absolute ones
30 | EFFICIENT 3D WEB CONTENT DELIVERY | NOVEMBER 19, 2013

31. OPEN-3DGC: WHAT’S UNDER THE HOOD?
 3D Mesh Compression Algorithm
‒ TFAN-based connectivity compression
‒ Decompose the mesh into a set of TFANs
‒ Traverse the vertices from neighbour to neighbour
‒ Rename vertices according to the traversal order
‒ For each vertex, group its incident non-visited triangles into TFANs
‒ Encode TFANs
‒ Distinguish 10 topological configurations
‒ Use local indices instead of absolute ones
‒ Entropy encoding
‒ Exploit statistical redundancy
100%
TFAN-based connectivity compression
reduces the number of bits per vertex for
connectivity from 96 bpv to 3.1 bpv
Frequency
80%
60%
40%
20%
0%
1
2
3
4
5
6
TFAN configurations
31 | EFFICIENT 3D WEB CONTENT DELIVERY | NOVEMBER 19, 2013
7
8
9
10

32. Conclusions

33. CONCLUSIONS
 Content delivery is becoming crucial for Web and mobile 3D applications
 Rest3D paves the way toward a unified standard to negotiate and exchange 3D data
 glTF provides a efficient out-of-the-box 3D content delivery solution
 Open3DGC leverages MPEG codecs to offer a complete set of 3D graphics compression technologies
33 | EFFICIENT 3D WEB CONTENT DELIVERY | NOVEMBER 19, 2013

34. DISCLAIMER & ATTRIBUTION
The information presented in this document is for informational purposes only and may contain technical inaccuracies, omissions and typographical errors.
The information contained herein is subject to change and may be rendered inaccurate for many reasons, including but not limited to product and roadmap
changes, component and motherboard version changes, new model and/or product releases, product differences between differing manufacturers, software
changes, BIOS flashes, firmware upgrades, or the like. AMD assumes no obligation to update or otherwise correct or revise this information. However, AMD
reserves the right to revise this information and to make changes from time to time to the content hereof without obligation of AMD to notify any person of
such revisions or changes.
AMD MAKES NO REPRESENTATIONS OR WARRANTIES WITH RESPECT TO THE CONTENTS HEREOF AND ASSUMES NO RESPONSIBILITY FOR ANY
INACCURACIES, ERRORS OR OMISSIONS THAT MAY APPEAR IN THIS INFORMATION.
AMD SPECIFICALLY DISCLAIMS ANY IMPLIED WARRANTIES OF MERCHANTABILITY OR FITNESS FOR ANY PARTICULAR PURPOSE. IN NO EVENT WILL AMD BE
LIABLE TO ANY PERSON FOR ANY DIRECT, INDIRECT, SPECIAL OR OTHER CONSEQUENTIAL DAMAGES ARISING FROM THE USE OF ANY INFORMATION
CONTAINED HEREIN, EVEN IF AMD IS EXPRESSLY ADVISED OF THE POSSIBILITY OF SUCH DAMAGES.
Windows is a trademark of Microsoft Corp.
ATTRIBUTION
© 2013 Advanced Micro Devices, Inc. All rights reserved. AMD, the AMD Arrow logo and combinations thereof are trademarks of Advanced Micro Devices,
Inc. in the United States and/or other jurisdictions. Other names are for informational purposes only and may be trademarks of their respective owners.
34 | EFFICIENT 3D WEB CONTENT DELIVERY | NOVEMBER 19, 2013

35. Backup slides

36. OPEN-3DGC: WHAT’S UNDER THE HOOD?
 3D Mesh Compression Algorithm
Encoding Example
36 | EFFICIENT 3D WEB CONTENT DELIVERY | NOVEMBER 19, 2013

37. OPEN-3DGC: WHAT’S UNDER THE HOOD?
 3D Mesh Compression Algorithm
‒ Encoding example
Bitstream
10
37 | EFFICIENT 3D WEB CONTENT DELIVERY | NOVEMBER 19, 2013
Vertex
re-ordering
Neighbors
list

38. OPEN-3DGC: WHAT’S UNDER THE HOOD?
 3D Mesh Compression Algorithm
Vertex
re-ordering
Neighbors
list
V1 → V1
‒ Encoding example
{}
C1
C6
C2
C7
C3
C8
C4
C9
C5
C10
Bitstream
10 1,(7,1)
38 | EFFICIENT 3D WEB CONTENT DELIVERY | NOVEMBER 19, 2013

39. OPEN-3DGC: WHAT’S UNDER THE HOOD?
 3D Mesh Compression Algorithm
Vertex
re-ordering
Neighbors
list
V1 → V1
V6 → V2
‒ Encoding example
{V4}
C1
C6
C2
C7
C3
C8
C4
C9
C5
C10
V4 → V3
Bitstream
10 1,(7,1) 2,(4,1)
39 | EFFICIENT 3D WEB CONTENT DELIVERY | NOVEMBER 19, 2013

40. OPEN-3DGC: WHAT’S UNDER THE HOOD?
 3D Mesh Compression Algorithm
Vertex
re-ordering
Neighbors
list
V1 → V1
V6 → V2
‒ Encoding example
{V4, V5}
C1
C6
C2
C7
C3
C8
C4
C9
C5
C10
V4 → V3
V5 → V4
Bitstream
10 1,(7,1) 2,(4,1),(7,2)
40 | EFFICIENT 3D WEB CONTENT DELIVERY | NOVEMBER 19, 2013

41. OPEN-3DGC: WHAT’S UNDER THE HOOD?
 3D Mesh Compression Algorithm
Vertex
re-ordering
Neighbors
list
V1 → V1
V6 → V2
‒ Encoding example
{V5, V2, V9, V7}
C1
C6
C2
C7
C3
C8
C4
C9
C5
C10
V4 → V3
V5 → V4
V2 → V5
V9 → V6
V7 → V7
Bitstream
10 1,(7,1) 2,(4,1),(7,2) 0
41 | EFFICIENT 3D WEB CONTENT DELIVERY | NOVEMBER 19, 2013

42. OPEN-3DGC: WHAT’S UNDER THE HOOD?
 3D Mesh Compression Algorithm
Vertex
re-ordering
Neighbors
list
V1 → V1
V6 → V2
‒ Encoding example
{}
C1
C6
C2
C7
C3
C8
C4
C9
C5
C10
V4 → V3
V5 → V4
V2 → V5
V9 → V6
V7 → V7
Bitstream
10 1,(7,1) 2,(4,1),(7,2) 0 0
42 | EFFICIENT 3D WEB CONTENT DELIVERY | NOVEMBER 19, 2013

43. OPEN-3DGC: WHAT’S UNDER THE HOOD?
 3D Mesh Compression Algorithm
Vertex
re-ordering
Neighbors
list
V1 → V1
V6 → V2
‒ Encoding example
{V9}
C1
C6
C2
C7
C3
C8
C4
C9
C5
C10
V4 → V3
V5 → V4
V2 → V5
V9 → V6
V7 → V7
Bitstream
10 1,(7,1) 2,(4,1),(7,2) 0 0 1,(4, 1)
43 | EFFICIENT 3D WEB CONTENT DELIVERY | NOVEMBER 19, 2013

44. OPEN-3DGC: WHAT’S UNDER THE HOOD?
 3D Mesh Compression Algorithm
Vertex
re-ordering
Neighbors
list
V1 → V1
V6 → V2
‒ Encoding example
{V7,V10}
C1
C6
C2
C7
C3
C8
C4
C9
C5
C10
V4 → V3
V5 → V4
V2 → V5
V9 → V6
V7 → V7
V10 → V8
Bitstream
10 1,(7,1) 2,(4,1),(7,2) 0 0 1,(4, 1)
2,(6,2)
44 | EFFICIENT 3D WEB CONTENT DELIVERY | NOVEMBER 19, 2013

45. OPEN-3DGC: WHAT’S UNDER THE HOOD?
 3D Mesh Compression Algorithm
‒ Encoding example
Vertex
re-ordering
Neighbors
list
C6
C2
C7
C3
C8
C4
C9
C5
V1 → V1
V6 → V2
C1
C10
{V7,V10,V8}
V4 → V3
V5 → V4
V2 → V5
V9 → V6
V7 → V7
V10 → V8
Bitstream
10 1,(7,1) 2,(4,1),(7,2) 0 0 1,(4, 1)
V8 → V9
2,(6,2),(4,1)
45 | EFFICIENT 3D WEB CONTENT DELIVERY | NOVEMBER 19, 2013

46. OPEN-3DGC: WHAT’S UNDER THE HOOD?
 3D Mesh Compression Algorithm
Vertex
re-ordering
Neighbors
list
V1 → V1
V6 → V2
‒ Encoding example
{V3}
C1
C6
C2
C7
C3
C8
C4
C9
C5
C10
V4 → V3
V5 → V4
V2 → V5
V9 → V6
V7 → V7
V10 → V8
Bitstream
10 1,(7,1) 2,(4,1),(7,2) 0 0 1,(4, 1)
V8 → V9
V3 → V10
2,(6,2),(4,1) 0
46 | EFFICIENT 3D WEB CONTENT DELIVERY | NOVEMBER 19, 2013

47. OPEN-3DGC: WHAT’S UNDER THE HOOD?
 3D Mesh Compression Algorithm
Vertex
re-ordering
Neighbors
list
V1 → V1
V6 → V2
‒ Encoding example
{V8}
C1
C6
C2
C7
C3
C8
C4
C9
C5
C10
V4 → V3
V5 → V4
V2 → V5
V9 → V6
V7 → V7
V10 → V8
Bitstream
10 1,(7,1) 2,(4,1),(7,2) 0 0 1,(4, 1)
V8 → V9
V3 → V10
2,(6,2),(4,1) 0 0
47 | EFFICIENT 3D WEB CONTENT DELIVERY | NOVEMBER 19, 2013

48. OPEN-3DGC: WHAT’S UNDER THE HOOD?
 3D Mesh Compression Algorithm
Decoding Example
48 | EFFICIENT 3D WEB CONTENT DELIVERY | NOVEMBER 19, 2013

49. OPEN-3DGC: WHAT’S UNDER THE HOOD?
 3D Mesh Compression Algorithm
‒ Decoding example
Neighbors
list
C1
C6
C2
C7
C3
C8
C4
C9
C5
C10
{}
Bitstream
10 1,(7,1) 2,(4,1),(7,2) 0 0 1,(4, 1)
2,(6,2),(4,1) 0 0 0 0
49 | EFFICIENT 3D WEB CONTENT DELIVERY | NOVEMBER 19, 2013

50. OPEN-3DGC: WHAT’S UNDER THE HOOD?
 3D Mesh Compression Algorithm
‒ Decoding example
Neighbors
list
C1
C6
C2
C7
C3
C8
C4
C9
C5
C10
{V3}
Bitstream
10 1,(7,1) 2,(4,1),(7,2) 0 0 1,(4, 1)
2,(6,2),(4,1) 0 0 0 0
50 | EFFICIENT 3D WEB CONTENT DELIVERY | NOVEMBER 19, 2013

51. OPEN-3DGC: WHAT’S UNDER THE HOOD?
 3D Mesh Compression Algorithm
‒ Decoding example
Neighbors
list
C1
C6
C2
C7
C3
C8
C4
C9
C5
C10
{V3, V4}
Bitstream
10 1,(7,1) 2,(4,1),(7,2) 0 0 1,(4, 1)
2,(6,2),(4,1) 0 0 0 0
51 | EFFICIENT 3D WEB CONTENT DELIVERY | NOVEMBER 19, 2013

52. OPEN-3DGC: WHAT’S UNDER THE HOOD?
 3D Mesh Compression Algorithm
‒ Decoding example
Neighbors
list
C1
C6
C2
C7
C3
C8
C4
C9
C5
C10
{V4}
Bitstream
10 1,(7,1) 2,(4,1),(7,2) 0 0 1,(4, 1)
2,(6,2),(4,1) 0 0 0 0
52 | EFFICIENT 3D WEB CONTENT DELIVERY | NOVEMBER 19, 2013

53. OPEN-3DGC: WHAT’S UNDER THE HOOD?
 3D Mesh Compression Algorithm
‒ Decoding example
Neighbors
list
C1
C6
C2
C7
C3
C8
C4
C9
C5
C10
{}
Bitstream
10 1,(7,1) 2,(4,1),(7,2) 0 0 1,(4, 1)
2,(6,2),(4,1) 0 0 0 0
53 | EFFICIENT 3D WEB CONTENT DELIVERY | NOVEMBER 19, 2013

54. OPEN-3DGC: WHAT’S UNDER THE HOOD?
 3D Mesh Compression Algorithm
‒ Decoding example
Neighbors
list
C1
C6
C2
C7
C3
C8
C4
C9
C5
C10
{V6}
Bitstream
10 1,(7,1) 2,(4,1),(7,2) 0 0 1,(4, 1)
2,(6,2),(4,1) 0 0 0 0
54 | EFFICIENT 3D WEB CONTENT DELIVERY | NOVEMBER 19, 2013

55. OPEN-3DGC: WHAT’S UNDER THE HOOD?
 3D Mesh Compression Algorithm
‒ Decoding example
Neighbors
list
C1
C6
C2
C7
C3
C8
C4
C9
C5
C10
{V7, V8}
Bitstream
10 1,(7,1) 2,(4,1),(7,2) 0 0 1,(4, 1)
2,(6,2),(4,1) 0 0 0 0
55 | EFFICIENT 3D WEB CONTENT DELIVERY | NOVEMBER 19, 2013

56. OPEN-3DGC: WHAT’S UNDER THE HOOD?
 3D Mesh Compression Algorithm
‒ Decoding example
Neighbors
list
C1
C6
C2
C7
C3
C8
C4
C9
C5
C10
{V7, V8, V9}
Bitstream
10 1,(7,1) 2,(4,1),(7,2) 0 0 1,(4, 1)
2,(6,2),(4,1) 0 0 0 0
56 | EFFICIENT 3D WEB CONTENT DELIVERY | NOVEMBER 19, 2013

57. OPEN-3DGC: WHAT’S UNDER THE HOOD?
 3D Mesh Compression Algorithm
‒ Decoding example
Neighbors
list
C1
C6
C2
C7
C3
C8
C4
C9
C5
C10
{V9}
Bitstream
10 1,(7,1) 2,(4,1),(7,2) 0 0 1,(4, 1)
2,(6,2),(4,1) 0 0 0 0
57 | EFFICIENT 3D WEB CONTENT DELIVERY | NOVEMBER 19, 2013

58. OPEN-3DGC: WHAT’S UNDER THE HOOD?
 3D Mesh Compression Algorithm
‒ Decoding example
Neighbors
list
C1
C6
C2
C7
C3
C8
C4
C9
C5
C10
{V10}
Bitstream
10 1,(7,1) 2,(4,1),(7,2) 0 0 1,(4, 1)
2,(6,2),(4,1) 0 0 0 0
58 | EFFICIENT 3D WEB CONTENT DELIVERY | NOVEMBER 19, 2013

59. OPEN-3DGC: WHAT’S UNDER THE HOOD?
 3D Mesh Compression Algorithm
‒ Decoding example
Neighbors
list
C1
C6
C2
C7
C3
C8
C4
C9
C5
C10
{}
Bitstream
10 1,(7,1) 2,(4,1),(7,2) 0 0 1,(4, 1)
2,(6,2),(4,1) 0 0 0 0
59 | EFFICIENT 3D WEB CONTENT DELIVERY | NOVEMBER 19, 2013

60. OPEN-3DGC: WHAT’S UNDER THE HOOD?
 3D Mesh Compression Algorithm
‒ Decoding example
Neighbors
list
C1
C6
C2
C7
C3
C8
C4
C9
C5
C10
{}
Bitstream
10 1,(7,1) 2,(4,1),(7,2) 0 0 1,(4, 1)
2,(6,2),(4,1) 0 0 0 0
60 | EFFICIENT 3D WEB CONTENT DELIVERY | NOVEMBER 19, 2013