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1/7/99 Virtual Viewpoint Reality Virtual Viewpoint Reality NTT: Visit 1/7/99.

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Presentation on theme: "1/7/99 Virtual Viewpoint Reality Virtual Viewpoint Reality NTT: Visit 1/7/99."— Presentation transcript:

1 1/7/99 Virtual Viewpoint Reality Virtual Viewpoint Reality NTT: Visit 1/7/99

2 1/7/99 Virtual Viewpoint Reality Overview of VVR Meeting Motivation from MIT...Motivation from MIT... Discuss current and related workDiscuss current and related work –Video Activity Monitoring and Recognition –3D Modeling –Demonstrations Related NTT EffortsRelated NTT Efforts Discussion of collaborationDiscussion of collaboration Future workFuture work LunchLunch

3 1/7/99 Virtual Viewpoint Reality Motivating Scenario Construct a system that will allow a user to observe any viewpoint of a sporting event.Construct a system that will allow a user to observe any viewpoint of a sporting event. –From behind the goal –Along the path of the ball –As a participating player Provide high level commentary/statisticsProvide high level commentary/statistics –Analyze plays –Flag goals/fouls/offsides/strikes

4 1/7/99 Virtual Viewpoint Reality Given a number of fixed cameras… Can we simulate any other?

5 1/7/99 Virtual Viewpoint Reality A Virtual Reality Spectator Environment Build an exciting, fun, high-profile systemBuild an exciting, fun, high-profile system –Sports: Soccer, Hockey, Tennis, Basketball –Drama, Dance, Ballet Leverage MIT technology in:Leverage MIT technology in: –Vision/Video Analysis Tracking, Calibration, Action RecognitionTracking, Calibration, Action Recognition Image/Video DatabasesImage/Video Databases –Graphics Build a system that provides data available nowhere else…Build a system that provides data available nowhere else… –Record/Study Human movements and actions –Motion Capture / Motion Generation

6 1/7/99 Virtual Viewpoint Reality Factor 1: Window of Opportunity 20-50 cameras in a stadium20-50 cameras in a stadium –Soon there will be many more HDTV is digitalHDTV is digital –Flexible, very high bandwidth transmissions Future Televisions will be ComputersFuture Televisions will be Computers –Plenty of extra computation available –3D Graphics hardware will be integrated Economics of sportsEconomics of sports –Dollar investments by broadcasters is huge (Billions) Computation is getting cheaperComputation is getting cheaper

7 1/7/99 Virtual Viewpoint Reality Factor 2: Research CalibrationCalibration –How to automatically calibrate 100 moving cameras? TrackingTracking –How to detect and represent 30 moving entities? ResolutionResolution –Assuming moveable/zoomable cameras: How to direct cameras towards the important events? Action UnderstandingAction Understanding –Can we automatically detect significant events - fouls, goals, defensive/offensive plays? –Can we direct the user towards points of interest? –Can we learn from user feedback?

8 1/7/99 Virtual Viewpoint Reality Factor 3: Research Learning / StatisticsLearning / Statistics –Estimating the shape of complex objects like human beings is hard. How can we effectively use prior models? –Can we develop statistical models for human motions? For the actions of an entire team?For the actions of an entire team? GraphicsGraphics –What are the most efficient/effective representations for the immersive video stream? –What is the best scheme for rendering it? –How to combine conflicting information into a single graphical image?

9 1/7/99 Virtual Viewpoint Reality Factor 4: Enabling Other Applications Cyberware RoomCyberware Room –A room that records the shape of everything in it. –Every action and motion. Provide Unprecedented InformationProvide Unprecedented Information –Study human motion Build a model to synthesize motions (Movies)Build a model to synthesize motions (Movies) –Study sports activities Provide constructive feedbackProvide constructive feedback –Study ballet and dance Critique?Critique? –Study drama and acting

10 1/7/99 Virtual Viewpoint Reality Factor 5: NTT Interest and Involvement NTT has expertise:NTT has expertise: –Networking and information transmission –Computer Vision –Human Interfaces We would like your feedback here!We would like your feedback here!

11 1/7/99 Virtual Viewpoint Reality Overview of VVR Meeting Motivation from MIT...Motivation from MIT... Discuss current and related work (MIT)Discuss current and related work (MIT) –Video Activity Monitoring and Recognition –3D Modeling –Demonstrations Related NTT EffortsRelated NTT Efforts Discussion of collaborationDiscussion of collaboration Future workFuture work LunchLunch

12 1/7/99 Virtual Viewpoint Reality Progress on 3D Reconstruction Simple intersection of silhouettesSimple intersection of silhouettes –Efficient but limited. Tomographic reconstructionTomographic reconstruction –Based on medical reconstructions. Probabilistic Voxel Analysis (Poxels)Probabilistic Voxel Analysis (Poxels) –Handles transparency.

13 1/7/99 Virtual Viewpoint Reality Simple Technical Approach 1 Integration/Calibration of Multiple Cameras1 Integration/Calibration of Multiple Cameras 2: Segmentation of Actors from Field2: Segmentation of Actors from Field –Yields silhouettes -> FRUSTA 3: Build Coarse 3D Models3: Build Coarse 3D Models –Intersection of FRUSTA 4: Refine Coarse 3D Models4: Refine Coarse 3D Models –Wide baseline stereo

14 1/7/99 Virtual Viewpoint Reality Idea in 2D

15 1/7/99 Virtual Viewpoint Reality Idea in 2D: Segment

16 1/7/99 Virtual Viewpoint Reality Idea in 2D: Segment

17 1/7/99 Virtual Viewpoint Reality Idea in 2D: Intersection

18 1/7/99 Virtual Viewpoint Reality Coarse Shape

19 1/7/99 Virtual Viewpoint Reality Real Data: Tweety Data acquired on a turntableData acquired on a turntable –180 views are available… not all are used.

20 1/7/99 Virtual Viewpoint Reality Intersection of Frusta Intersection of 18 frustaIntersection of 18 frusta –Computations are very fast perhaps real-timeperhaps real-time

21 1/7/99 Virtual Viewpoint Reality Agreement provides additional information

22 1/7/99 Virtual Viewpoint Reality Tomographic Reconstruction Motivated by medical imagingMotivated by medical imaging –CT - Computed Tomography –Measurements are line integrals in a volume –Reconstruction is by back-projection & deconvolution

23 1/7/99 Virtual Viewpoint Reality Acquiring Multiple Images (2D)

24 1/7/99 Virtual Viewpoint Reality Backprojecting Rays

25 1/7/99 Virtual Viewpoint Reality Back-projection of image intensities

26 1/7/99 Virtual Viewpoint Reality Volume Render... Captures shape very wellCaptures shape very well Intensities are not perfectIntensities are not perfect

27 1/7/99 Virtual Viewpoint Reality Confidence Iterative refinement: 1 Confidence measurement

28 1/7/99 Virtual Viewpoint Reality Normalize along ray to obtain estimate probability that voxel is visible from camera Iterative refinement: 2 Constraint Application

29 1/7/99 Virtual Viewpoint Reality Iterative refinement: 3 Constraint Application Distance from sensor PDF

30 1/7/99 Virtual Viewpoint Reality Compute oriented differential cumulative density function: dCDF = CDF - PDF CDF is computed by integration of PDF along line of sight. Iterative refinement: 4 Estimation Distance from sensor PDF dCDF CDF

31 1/7/99 Virtual Viewpoint Reality Iterative refinement: 5 Estimation Distance from sensor dCDF The inverse dCDF, idCDF = 1 - dCDF is an estimate of how much information each camera has about each voxel. idCDF

32 1/7/99 Virtual Viewpoint Reality Iterative refinement: 6 Distance from sensor idCDF Visibility of voxel from camera inverse differential cumulative distribution function

33 1/7/99 Virtual Viewpoint Reality The idCDF is used to update confidences, given expectation of occlusion disagreement expected due to occlusion Iterative refinement: 7 Estimation Distance from sensor Importance of mismatch

34 1/7/99 Virtual Viewpoint Reality Or given the expectation of transparency Aggravated disagreement due to expected transparency Iterative refinement: 8 Estimation Distance from sensor Importance of mismatch

35 1/7/99 Virtual Viewpoint Reality MeasureConstrain Iterative refinement 9 Estimate

36 1/7/99 Virtual Viewpoint Reality Results…

37 1/7/99 Virtual Viewpoint Reality Overview of VVR Meeting Motivation from MIT...Motivation from MIT... Discuss current and related work (MIT)Discuss current and related work (MIT) –Video Activity Monitoring and Recognition –3D Modeling –Demonstrations Related NTT EffortsRelated NTT Efforts Discussion of collaborationDiscussion of collaboration Future workFuture work LunchLunch

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