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High-Performance Distributed Multimedia Computing

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Title: User Transparent Multimedia Grid Computing Author: frank Last modified by: frank Created Date: 10/4/2005 9:57:29 AM Document presentation format – PowerPoint PPT presentation

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Title: High-Performance Distributed Multimedia Computing

1
High-Performance Distributed Multimedia Computing

Frank Seinstra, Jan-Mark Geusebroek

MultimediaN (BSIK Project)
Intelligent Systems Lab AmsterdamInformatics
InstituteUniversity of Amsterdam
2
MultimediaN and DAS-3
3
MultimediaN and high-performance computing
Van Essen et al. Science 255, 1999.
4
A Real Problem, part 1

News Broadcast - September 21, 2005 (see
video1.wmv)

Police investigating over 80.000 (!) CCTV
recordings
First match found no earlier than 2.5 months
after July 7 attacks

5
Image/Video Content Analysis

Lots of research benchmark evaluations
PASCAL-VOC (10,000 images), TRECVID (200 hours
of video)

A Problem of scale
At least 30-50 hours of processing time per hour
of video!
BeeldGeluid gt 20.000 hours of TV broadcasts per
year
NASA gt over 850 Gb of hyper-spectral image data
per day
London Underground gt over 120.000 years of
processing !!!

6
High Performance Computing

Solution
Very, very large scale parallel and distributed
computing
New Problem
Very, very complicated software

Solution tool to make parallel distributed
computing transparent to user
User
Wide-Area Grid Systems
7
Parallel-Horus Features (1)

Sequential programming

Parallel-Horus
Sequential API
Parallelizable Patterns
Seinstra et al., Parallel Computing,
28(7-8)967-993, August 2002
8
Parallel-Horus Features (2)

Lazy Parallelization

Seinstra et al., IEEE Trans. Par. Dist. Syst.,
15(10)865-877, October 2004
9
Extensions for Distributed Computing

Wide-Area Multimedia Services

Parallel Horus Client
Parallel Horus Server
Parallel Horus Servers
Parallel Horus Servers
Parallel Horus Client

User transparency?
Abstractions techniques?
Grid connectivity problems?

10
A Real Problem, part 2
LambdaRAM ??
may be time-critical!
11
Color-Based Object Recognition (1)

Our Solution
Place retina over input image
Each of 37 retinal areas serves as a receptive
field
For each receptive field
Obtain set of local histograms, invariant to
shading / lighting
Estimate Weibull parameters ß and ? for each
histogram
Hence scene description by set of 37x4x3 444
parameters

Geusebroek, British Machine Vision Conference,
2006.
12
Color-Based Object Recognition (2)

Learning phase
Set of 444 parameters is stored in database
So learning from 1 example, under single visual
setting

a hedgehog

Recognition phase
Validation by showing objects under at least 50
different conditions
Lighting direction
Lighting color
Viewing position

13
Amsterdam Library of Object Images (ALOI)

In laboratory setting
300 objects correctly recognized under all (!)
visual conditions
700 remaining objects missed under extreme
conditions only

Geusebroek et al., Int. J. Comput. Vis..
61(1)103-112, January 2005
14
Example Object Recognition
See also http//www.science.uva.nl/fjseins/aibo.
html
15
Example Object Recognition
(see video2.wmv)
Demonstrated live (a.o.) at ECCV 2006, June 8-11,
2006, Graz, Austria
16
Performance / Speedup on DAS-2
Single cluster, client side speedup
Four clusters, client side speedup

Recognition on single machine /- 30 seconds
Using multiple clusters up to 10 frames per
second
Insightful even distant clusters can be used
effectively for close to real-time recognition

17
Results applicability