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Query by Image and Video Content: The QBIC System M. Flickner et al. IEEE Computer Special Issue on Content-Based Retrieval Vol. 28, No. 9, September 1995.

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Presentation on theme: "Query by Image and Video Content: The QBIC System M. Flickner et al. IEEE Computer Special Issue on Content-Based Retrieval Vol. 28, No. 9, September 1995."— Presentation transcript:

1 Query by Image and Video Content: The QBIC System M. Flickner et al. IEEE Computer Special Issue on Content-Based Retrieval Vol. 28, No. 9, September 1995 Presenter: William Conner

2 Outline Overview Motivation Design Indexing Representative frames Related Work Critique Demo

3 QBIC System that supports content-based image and video retrieval –Flexible query interface –Results ranked based on similarity Introduced into commercial products –IBM’s Ultimedia Manager –IBM’s DB2 Image Extenders

4 Motivation Many previous image and video retrieval approaches were limited –Only supported queries over meta-data rather than content File identifiers Keywords that are input manually Other text associated with image (e.g., caption) Yahoo.com and Google.com image search support queries by keyword, size, coloration, file type, and domain

5 Query Methods Example images Sketches and drawings User-selected color and texture patterns Camera and object motion

6 System Architecture Database Feature Extraction Query Interface Matching Engine Ranked Results Image ObjectsVideo Objects Filter/Index User

7 R-Trees Region tree is a multidimensional index –Like a B-tree for multiple dimensions –R*-tree is a variant that re-inserts entries upon overflow rather than splitting nodes Can be used to index low-dimensional features such as average color and texture High-dimensional features can be reduced to a lower number of dimensions

8 R-Trees 2-D example with only two levels (next slide) –Want query to find to points P1 and P2 Tree root is a bounding rectangle Child nodes are also bounding rectangles –Overlap is allowed at same tree level –All regions overlapping with query region must be searched Possible to have several levels and several dimensions

9 R-Trees A B C P1 P2 ROOT

10 R-Frames Representative frames –Allow image retrieval techniques to help with video retrieval –Video broken up into clips called shots –R-frame is representative of shot –Also, basic unit of video query result Useful for browsing Choice –Particular frame from shot First, last, or middle –Synthesized by creating mosaic of all frames in a shot

11 Related Work MIT Photobook –Content-based image retrieval system –Library of matching algorithms e.g., Euclidean distance, histograms, wavelet tree distances –Interactive learning agent to help determine user’s intent IBM’s Garlic Project –Managing large-scale multimedia systems –Fagin’s algorithms for merging ranked query results i.e., Top-k query processing over several multimedia subsystems

12 Photobook Query: find images most similar to image in the upper left

13 Critique Pros –Flexible query interface for content-based retrieval –Reuses image retrieval techniques for video retrieval –Actually used in commercial products Cons –Not enough details e.g., More elaboration on how query plans are developed considering fast filtering and indexing –No performance evaluation Should include measurements of accuracy and delay

14 Demo Russian museum’s online digital collection uses QBIC engine –Supports color and layout search –The State Hermitage MuseumThe State Hermitage Museum


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