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Martin  Christen,  Stephan  Nebiker
FHNW  – University  of Applied  Sciences and Arts  Northwestern Switzerland
Institute ...
• Virtual  Globe using WebGL
• Open  Source  Project  started in  
April  2011
• Based on  C++  version started
in  2005
•...
2  October  2015Institute  of  Geomatics  Engineering 3
Demo http://world.openwebglobe.org
2  October  2015Institute  of  Geomatics  Engineering
Streaming  3D-­Geometry  Tiles
MapData  ©  OpenStreetMap  contributo...
2  October  2015Institute  of  Geomatics  Engineering 5
Streaming  Example:  3D  Geometry  using  OSM  and  “BOI”  (worldw...
2  October  2015Institute  of  Geomatics  Engineering 6
Streaming  Example:  Osnabrück (local   streaming)
Created  by  Ge...
2  October  2015Institute  of  Geomatics  Engineering 7
Some  Problems  I  have  with  (Web-­Based)  Virtual  Globes
• Unf...
2  October  2015Institute  of  Geomatics  Engineering 8
Bringing  together  2D  Maps  and  3D  Globes
Concept:   Prerender...
2  October  2015Institute  of  Geomatics  Engineering 9
Display  in  the  Webbrowser as  “2D  Map”
MTh Markus  Jung,  2014
2  October  2015Institute  of  Geomatics  Engineering 10
Display  in  the  Webbrowser as  Panorama
MTh Markus  Jung,  2014
2  October  2015Institute  of  Geomatics  Engineering 11
High  Resolution  Geometry  doesn’t  matter:  Same  download/rend...
2  October  2015Institute  of  Geomatics  Engineering 12
The  3dmaps.ch  Project:  Bringing  it  all  together!
3DPS  (3D ...
2  October  2015Institute  of  Geomatics  Engineering 13
Viewer  API
map3d.js   Library
var map = new map3d.map("mapcanvas...
2  October  2015Institute  of  Geomatics  Engineering 14
Different  prerenderings for  different  pitch/view  direction
Ev...
2  October  2015Institute  of  Geomatics  Engineering 15
Why  a  teapot  if  we  have  (open)  Geo  Data  ?!!
Use  case  1...
2  October  2015Institute  of  Geomatics  Engineering 16
Use  case  2:  The  Roman  city  of  Augusta  Raurica
A  digital ...
2  October  2015Institute  of  Geomatics  Engineering 17
The  3D  Model
About  4000  geospatial  objects  (buildings,  roa...
2  October  2015Institute  of  Geomatics  Engineering 18
Prerendering the  Model:  Color  Map,  Normal  Map,  Id-­Map,  De...
2  October  2015Institute  of  Geomatics  Engineering 19
3D  View  in  the  (mobile)  webbrowser with  dynamic  Lighting
2  October  2015Institute  of  Geomatics  Engineering 20
The  Viewer
• The  viewer  basically  uses  the  same  concepts  ...
2  October  2015Institute  of  Geomatics  Engineering 21
Outlook  (1)
• Implement  more  effects  and  lighting  models,  ...
2  October  2015Institute  of  Geomatics  Engineering 22
Outlook  (2)
More  Rendering  Effects,  for  example  Screen  Spa...
2  October  2015Institute  of  Geomatics  Engineering 23
Outlook  (3)
• “isometric  maps”  will  be  one  of  many  featur...
2  October  2015Institute  of  Geomatics  Engineering 24
Conclusion
• Using  Image  Provisioning  (“isometric  maps”)  we ...
2  October  2015Institute  of  Geomatics  Engineering 25
Questions
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Visualisation of Complex 3D City Models on Mobile Webbrowsers Using Cloud-based Image Provisioning

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Talk at Geospatial Week 2015 in La Grande Motte (near Montpellier), France. The paper is available at: http://www.isprs-ann-photogramm-remote-sens-spatial-inf-sci.net/II-3-W5/517/2015/isprsannals-II-3-W5-517-2015.pdf

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Visualisation of Complex 3D City Models on Mobile Webbrowsers Using Cloud-based Image Provisioning

  1. 1. Martin  Christen,  Stephan  Nebiker FHNW  – University  of Applied  Sciences and Arts  Northwestern Switzerland Institute  of Geomatics Engineering martin.christen@fhnw.ch @MartinChristen Visualisation  of  Complex  3D  City  Models  on  Mobile   Webbrowsers Using  Cloud-­based   Image  Provisioning
  2. 2. • Virtual  Globe using WebGL • Open  Source  Project  started in   April  2011 • Based on  C++  version started in  2005 • JavaScript  Library  for rapid   development of web-­based geospatial 3D  applications 22  October  2015 2 Previous Work Institute  of  Geomatics  Engineering
  3. 3. 2  October  2015Institute  of  Geomatics  Engineering 3 Demo http://world.openwebglobe.org
  4. 4. 2  October  2015Institute  of  Geomatics  Engineering Streaming  3D-­Geometry  Tiles MapData  ©  OpenStreetMap  contributors 4 BTh Hürbi/Daetwyler,  MTh Lucas  Oertli,  2013
  5. 5. 2  October  2015Institute  of  Geomatics  Engineering 5 Streaming  Example:  3D  Geometry  using  OSM  and  “BOI”  (worldwide   streaming) MTh Lucas  Oertli,  2013
  6. 6. 2  October  2015Institute  of  Geomatics  Engineering 6 Streaming  Example:  Osnabrück (local   streaming) Created  by  Geoplex with  Plexmap,  based  on  OpenWebGlobe
  7. 7. 2  October  2015Institute  of  Geomatics  Engineering 7 Some  Problems  I  have  with  (Web-­Based)  Virtual  Globes • Unfortunately,  WebGL compatibility  is  still  an  issue…  a  “fallback”  is  required • Most  people  still  prefer  2D  Maps • Navigation  in  3D  is  too  complicated  for  many  users… • In  the  “Geo-­World”,  3D  Models  are  usually  not  built  by  3D  game  designers: • Often  there  are  “too  many”  &  “too  big”  textures  per  object • Different  details  per  3D-­object • Remember  “Google  3D  Warehouse” • Level  of  Detail:  Generalization  in  2D  is  accepted,    but  not  in  3D! • Limited  number  of  people  actually  do  have  data  of  the  whole  world… • Most  virtual  globe  based  applications  I  know  are  limited  to  a  certain  region/country/… • Too  slow  (bandwidth/3D  rendering)  on  mobile  devices • Too  power  consuming  on  mobile  devices
  8. 8. 2  October  2015Institute  of  Geomatics  Engineering 8 Bringing  together  2D  Maps  and  3D  Globes Concept:   Prerender a  3D  Scene   using  a  high  quality  offline  3D  renderer   using  an   orthographic   projection   and  create  “2D”  image   tiles.   Constant,   minimal  bandwidth   regardless   of  the  complexity   of  the   3D  city  model MTh Markus  Jung,  2014 (Similar  approaches  were  already  done  by  Döllner et  al.  and  also  go  back  to  some  concepts  by  Sutherland)
  9. 9. 2  October  2015Institute  of  Geomatics  Engineering 9 Display  in  the  Webbrowser as  “2D  Map” MTh Markus  Jung,  2014
  10. 10. 2  October  2015Institute  of  Geomatics  Engineering 10 Display  in  the  Webbrowser as  Panorama MTh Markus  Jung,  2014
  11. 11. 2  October  2015Institute  of  Geomatics  Engineering 11 High  Resolution  Geometry  doesn’t  matter:  Same  download/render  speed MTh Markus  Jung,  2014
  12. 12. 2  October  2015Institute  of  Geomatics  Engineering 12 The  3dmaps.ch  Project:  Bringing  it  all  together! 3DPS  (3D  Portrayal  Service)
  13. 13. 2  October  2015Institute  of  Geomatics  Engineering 13 Viewer  API map3d.js   Library var map = new map3d.map("mapcanvas"); var layer = new map3d.imageLayer([ "http://t1.3dmaps.ch/tiles/teatime", "http://t2.3dmaps.ch/tiles/teatime", "http://t3.3dmaps.ch/tiles/teatime", "http://t4.3dmaps.ch/tiles/teatime"]) }); layer.addTo(map); var teapot_marker = new map3d.marker("Green Teapot", [0,0,0]); teapot_marker.addTo(map); var cube_maker = new map3d.marker("Green Cube", [80.5, 11.5, 10.5]); cube_maker.addTo(map);
  14. 14. 2  October  2015Institute  of  Geomatics  Engineering 14 Different  prerenderings for  different  pitch/view  direction Every  Prerendering needs  storage,  but  with  todays  cloud  storage  pricing  this  is  not  really  an  issue  anymore!  
  15. 15. 2  October  2015Institute  of  Geomatics  Engineering 15 Why  a  teapot  if  we  have  (open)  Geo  Data  ?!! Use  case  1:  Rotterdam  Dataset 90  CityGML files  with  a  total   size  of  2.72  GB 26'474   textures   with  a  size  of  1024x1024,   an  uncompressed   total   data  volume   of  around   77  GB Orthophoto uncompressed   430  GB
  16. 16. 2  October  2015Institute  of  Geomatics  Engineering 16 Use  case  2:  The  Roman  city  of  Augusta  Raurica A  digital  reconstruction  of  the  historical  Roman  City  of  Augusta  Raurica,  created  at   the  institute  of  Geomatics Engineering at  the  FHNW.  3D-­Printed  to  create  a  bronze   model.  
  17. 17. 2  October  2015Institute  of  Geomatics  Engineering 17 The  3D  Model About  4000  geospatial  objects  (buildings,  roads,  vegetation  features,  terrain,  …)   at  three  levels  of  detail.   3D  Geometry:  172  MB Textures:  350  MB  
  18. 18. 2  October  2015Institute  of  Geomatics  Engineering 18 Prerendering the  Model:  Color  Map,  Normal  Map,  Id-­Map,  Depth  Map Dynamic   Lighting Normal   Map:   for  Object  Identification:   Highlighting,   special  effects,   … Depth   Map:   for  3D  Position,   special  effects,   …  
  19. 19. 2  October  2015Institute  of  Geomatics  Engineering 19 3D  View  in  the  (mobile)  webbrowser with  dynamic  Lighting
  20. 20. 2  October  2015Institute  of  Geomatics  Engineering 20 The  Viewer • The  viewer  basically  uses  the  same  concepts  as  a  “2D  Map  Viewer” • map3d.js  supports  WebGL There  is  also  a  pure  canvas  version  available  as  fallback • Operations  like  “highlighting”  are  highly  customizable.  Basically  it  is  an  image   processing  operation  which  runs  on  the  GPU  (WebGL Version).  If  there  is  no   WebGL available,  the  operation  is  done  using  JavaScript.
  21. 21. 2  October  2015Institute  of  Geomatics  Engineering 21 Outlook  (1) • Implement  more  effects  and  lighting  models,   dynamic  snow/water/etc.  using  depth  map  &  normal  map • Layer  management  (include  point  clouds,  mix  different  layers  using  depth   map • Add  realtime content  (“mix  real  3D  Object”)  using  depth-­map • Release  map3d.js  as  Open  Source  (not  before  2016)
  22. 22. 2  October  2015Institute  of  Geomatics  Engineering 22 Outlook  (2) More  Rendering  Effects,  for  example  Screen  Space  Ambient  Occlusion  (SSAO) BTh,  Daniel  Rettenmund 2015
  23. 23. 2  October  2015Institute  of  Geomatics  Engineering 23 Outlook  (3) • “isometric  maps”  will  be  one  of  many  features  of  OpenWebGlobe 2 • “isometric  maps”  will  be  the  default  3D  Viewer  in  OpenWebGlobe 2 • Switch  to  “real  3D”  anytime • State  is  saved:   • The  best  matching  viewpoint   is  selected  when  switching • If  you  highlight  an  object  in  “isometric  mode”,  it  will  be  highlighted   in   “Real  3D”  mode  too.
  24. 24. 2  October  2015Institute  of  Geomatics  Engineering 24 Conclusion • Using  Image  Provisioning  (“isometric  maps”)  we  have  a  “3D  Streaming”  with   constant  speed,  no  matter  how  complex  the  geometry/textures  are. • It  runs  on  nearly  every  mobile  phone  with  a  webbrowser • Thanks  to  cloud  storage,  we  can  have  near  unlimited  number  of  views  with   different  “look-­at-­angles” • Navigation  is  really  easy! Everyone  who  can  handle  2D  maps  can  handle  isometric  3D  Maps  (pan  &   zoom) • If  WebGL is  available  it  uses  WebGL Otherwise:  fallback  to  HTML5  Canvas. • No  limitation  in  numbers  of  users  (viewers)  at  the  same  time
  25. 25. 2  October  2015Institute  of  Geomatics  Engineering 25 Questions

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