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Advances in Visual Information Systems

4th International Conference, VISUAL 2000 Lyon, France, November 2–4, 2000 Proceedings

  • Robert Laurini

Part of the Lecture Notes in Computer Science book series (LNCS, volume 1929)

Table of contents

  1. Front Matter
    Pages I-XII
  2. Guest Speaker

  3. Image Information Systems

    1. William I. Grosky, Peter L. Stanchev
      Pages 14-25
    2. Marcel Worring, Arnold Smeulders, Simone Santini
      Pages 26-36
  4. Video Information Systems

    1. Suh-Yin Lee, Shin-Tzer Lee, Duan-Yu Chen
      Pages 37-48
    2. Daniel DeMenthon, Longin Jan Latecki, Azriel Rosenfeld, Marc Vuilleumier Stückelberg
      Pages 49-61
    3. Lalitha Agnihotri, Nevenka Dimitr
      Pages 62-73
    4. Gabriel Tsechpenakis, Yiannis Xirouhakis, Anastasios Delopoulos
      Pages 84-95
    5. Ronan Fablet, Patrick Bouthemy
      Pages 96-107
    6. Yuksel Alp Aslandogan, Clement T. Yu
      Pages 108-119
  5. Guest Speaker

  6. Visual Querying

    1. Shi-Kuo Chang, Gennaro Costagliola, Erland Jungert
      Pages 127-139
    2. Christine Bonhomme, Marie-Aude Aufaure, Claude Trépied
      Pages 140-153
    3. Franck Favetta, Marie-Aude Aufaure-Portier
      Pages 154-165
  7. Color

    1. Constantin Vertan, Nozha Boujemaa
      Pages 178-188
    2. Juan M. Sánchez, Xavier Binefa
      Pages 189-199
    3. Santhana Krishnamachari, Akio Yamada, Mohamed Abdel-Mottaleb, Eiji Kasutani
      Pages 200-211
  8. Shape-Based Retrieval

    1. E. Ardizzone, A. Chella, R. Pirrone
      Pages 212-222
    2. Sadegh Abbasi, Farzin Mokhtarian
      Pages 233-243
  9. Image Databases

    1. Gérald Duffing, Malika SmaÏl
      Pages 244-256
    2. G Caenen, G Frederix, A.A.M Kuijk, E.J Pauwels, B.A.M Schouten
      Pages 257-268
    3. Xenophon Zabulis, Jon Sporring, Stelios C. Orphanoudakis
      Pages 269-278
    4. Zoran Pečenovió, Minh N. Do, Martin Vetterli, Pearl Pu
      Pages 279-289
    5. Lijuan Duan1, Wen Gao, Jiyong Ma
      Pages 290-299
    6. Wolfgang Müller, Henning Müller, Stéphane Marchand-Maillet, Thierry Pun, David McG. Squire, Zoran Pečenović et al.
      Pages 300-311
    7. G. Ciocca, I. Gagliardi, R. Schettini, B. Zonta
      Pages 312-326
  10. Video Indexing

  11. Image Databases

    1. James Z. Wang, Jia Li, Gio Wiederholdy
      Pages 360-371
    2. Eugenio Di Sciascio, Francesco M. Donini, Marina Mongiello
      Pages 372-383
    3. Ringo W. K. Lam, Kent K. T. Cheung, Horace H. S. Ip, Lilian H. Y. Tang, R. Hanka
      Pages 384-395
  12. Image Retrieval

    1. Theo Gevers, Frank Aldershoff, Jan-Mark Geusebroek
      Pages 419-429
  13. Benchmarking

    1. Markus Koskela, Jorma Laaksonen, Sami Laakso, Erkki Oja
      Pages 430-441
    2. C. H. C. Leung, H. H. S. Ip
      Pages 442-456
  14. Posters

    1. Ivan S. Radev, George Paschos, Niki Pissinou, Kia Makki
      Pages 457-466
    2. Remco C. Veltkamp, Michiel Hagedoorn
      Pages 467-476
    3. Zhiyong Wang, Zheru Chi, Dagan Feng, Qing Wang
      Pages 477-487
    4. Kent K. T. Cheung, Ringo W. K. Lam, Horace H. S. Ip, Lilian H. Y. Tang, Rudolf Hanka
      Pages 488-499
    5. Zhong Jin, Irwin King, Xuequn Li
      Pages 521-529
  15. Back Matter
    Pages 541-542

About these proceedings

Introduction

Presently, in our world, visual information dominates. The turn of the millenium marks the age of visual information systems. Enabled by picture sensors of all kinds turning digital, visual information will not only enhance the value of existing information, it will also open up a new horizon of previously untapped information sources. There is a huge demand for visual information access from the consumer. As well, the handling of visual information is boosted by the rapid increase of hardware and Internet capabilities. Advanced technology for visual information systems is more urgently needed than ever before: not only new computational methods to retrieve, index, compress and uncover pictorial information, but also new metaphors to organize user interfaces. Also, new ideas and algorithms are needed which allow access to very large databases of digital pictures and videos. Finally we should not forget new systems with visual interfaces integrating the above components into new types of image, video or multimedia databases and hyperdocuments. All of these technologies will enable the construction of systems that are radically different from conventional information systems. Many novel issues will need to be addressed: query formulation for pictorial information, consistency management thereof, indexing and assessing the quality of these systems. Historically, the expression Visual Information Systems can be understood either as a system for image information or as visual system for any kind information.

Keywords

Animation Augmented Reality Benchmarking Hidden Markov Model Markov Model Multimedia Visual Information classification database filtering image processing image retrieval multimedia information systems visual information systems visualization

Editors and affiliations

  • Robert Laurini
    • 1
  1. 1.Claude Bernard University of LyonVilleurbanne CedexFrance

Bibliographic information

  • DOI https://doi.org/10.1007/3-540-40053-2
  • Copyright Information Springer-Verlag Berlin Heidelberg 2000
  • Publisher Name Springer, Berlin, Heidelberg
  • eBook Packages Springer Book Archive
  • Print ISBN 978-3-540-41177-2
  • Online ISBN 978-3-540-40053-0
  • Series Print ISSN 0302-9743
  • Buy this book on publisher's site