Multimedia Tools and Applications

, Volume 74, Issue 4, pp 1137–1142 | Cite as

Guest editorial: Content-Based Multimedia Indexing

  • Klaus Schoeffmann
  • Jenny Benois-Pineau
  • Bernard Merialdo
  • Tamás Szirányi
Guest Editorial
  • 818 Downloads

Multimedia indexing systems aim at providing easy, fast and accurate access to large multimedia repositories. Research in Content-Based Multimedia Indexing covers a wide spectrum of topics in content analysis, content description, content adaptation and content retrieval. Various tools and techniques from different fields such as data indexing, machine learning, pattern recognition, image analysis and human computer interaction have contributed to the success of multimedia systems. Although, there has been significant progress in the field, we still face situations when the system show limits in accuracy, generality and scalability. Hence, the goal of this special issue is to bring forward the recent advancements in content-based multimedia indexing.

We received 48 submissions, but only accepted 17 (35.42 %), according to the review process that was very rigorous for this special issue and consisted of several rounds of review. The high number of submissions reflect the importance and timeliness of the research field on content-based multimedia indexing. The selected 17 papers in this special issue are high-class publications and cover a wide range of problems in content indexing of multimedia data.

The first paper “Variability modelling for audio events detection in movies” (DOI 10.1007/s11042-014-2038-7), co-authored by Cédric Penet, Claire-Hélène Demarty, Guillaume Gravier, and Patrick Gros, proposes to model the variability between the soundtracks of Hollywood movies using a factor analysis technique, which is then used to compensate the audio features. For that purpose they use multiple audio words sequences and contextual Bayesian networks.

The second paper is entitled “Combining content with user preferences for non-fiction multimedia recommendation: a study on TED lectures” (DOI 10.1007/s11042-013-1840-y), written by Nikolaos Pappas and Andrei Popescu-Belis. It provides a comparison of keyword-based (TFIDF) and semantic vector space methods (LSI, LDA, RP, and ESA) for personal recommendation of videos from the TED dataset.

The third paper “Large scale classifiers for visual classification tasks” (DOI 10.1007/s11042-014-2049-4), co-authored by Thanh-Nghi Doan, Thanh-Nghi Do, and Francois Poulet, addresses the problem of training fast and accurate visual classifiers on several multi-core computers. They evaluate their method with the 100 largest classes of ImageNet and ILSVRC 2010 and show that their approach, which extends state-of-the-art linear (LIBLINEAR-CDBLOCK) and non-linear classifiers (Power Mean SVM), can save up to 82.01 % memory consumption and is much faster than the original implementation.

The fourth paper is co-authored by Abdelkader Hamadi, Philippe Mulhem, and Georges Quénot, and about “Extended conceptual feedback for semantic multimedia indexing” (DOI 10.1007/s11042-014-1937-y). This paper addresses the problem of detecting a large number of visual concepts in images or video shots. The proposed “conceptual feedback” considers the relations between concepts in order to improve the overall concept detection performance. The authors further propose three extensions of their method and evaluate them in context of the TRECVID 2012 SIN (semantic indexing) task.

The fifth paper is entitled “Classification of Alzheimer’s disease subjects from MRI using hippocampal visual features” (DOI 10.1007/s11042-014-2123-y), co-authored by Olfa Ben Ahmed, Jenny Benois-Pineau, Michèle Allard, Chokri Ben Amar, and Gwénaelle Catheline. Their work is about using visual features from the most involved region (hippocampal area) in Alzheimer’s Disease (AD). They propose a late fusion method to increase precision results (85 % - 87 % accuracy). Magnetic Resonance images taken from 218 subjects were used for their evaluation.

The sixth paper, written by Bahjat Safadi, Nadia Derbas, and Georges Quénot, is about “Descriptor optimization for multimedia indexing and retrieval” (DOI 10.1007/s11042-014-2071-6). This work proposes to combine a PCA-based dimensionality reduction method with pre- and post-PCA non-linear transformations, in order to allow for usage in large-scale systems.

The next paper, “Best practices for learning video concept detectors from social media examples” (DOI 10.1007/s11042-014-2056-5), co-authored by Svetlana Kordumova, Xirong Li, and Cees G. M. Snoek. The authors investigate how to learn video concept detectors from social media sources, such as Flickr and YouTube. For that purpose they investigate three strategies for positive example selection, three strategies for negative example selection, and three learning strategies, and evaluate these methods with the TRECVID 2012 dataset.

Anna Llagostera Casanovas and Andrea Cavallaro present their work on “Audio-visual events for multi-camera synchronization” (DOI 10.1007/s11042-014-1872-y). They propose a multimodal method for automatic synchronization of audio-visual recordings captured from independent cameras, which jointly processes data from audio and video channels to estimate inter-camera delays that are used to temporally align the recordings. Their results show that they can outperform other methods working with audio-only or video-only approaches.

The next paper is about “Learning latent semantic model with visual consistency for image analysis” (DOI 10.1007/s11042-014-1916-3), co-authored by Jian Cheng, Peng Li, Ting Rui, and Hangqing Lu. In this work the authors propose to use both the topic consistency and word consistency in semantic space to adapt the traditional PLSA model to the visual content analysis task.

Ricardo C. Sperandio, Zenilton K. G. Patrocínio Jr., Hugo B. de Paula, and Silvio J. F. Guimaraes present their work about “An efficient access method for multimodal video retrieval” (DOI 10.1007/s11042-014-1917-2). They propose the Slim2-tree, which is an effective and efficient content-based video retrieval technique that allows using multiple modalities within a single index structure. It is capable of using different distance measures and can perform both multimodal and unimodal search.

The next paper is entitled “Lexical speaker identification in TV shows” (DOI 10.1007/s11042-014-1940-3) and written by Anindya Roy, Hervé Bredin, William Hartmann, Viet Bac Le, Claude Barras, and Jean-Luc Gauvain. It investigates the problem of speaker identification in recordings of conversations, debates, discussions, and Q & A sessions (REPERE corpus) by lexical information extraction. More precisely, they study four lexical speaker identification approaches in this paper, including TFIDF, BM25, and LDA-based topic modeling.

A generic framework for semantic video indexing based on visual concepts/contexts detection” (DOI 10.1007/s11042-014-1955-9) is presented by Nizar Elleuch, Anis Ben Ammar, and Adel M. Alimi. The authors present a video indexing scheme consisting of three levels: (1) low-level processing, such as shot boundary detection, (2) semantic models for supervised learning of concepts/contexts, and (3) semantic interpretation of concepts/contexts by exploiting fuzzy knowledge.

Hong-Mei Hou, Xin-Shun Xu, Gang Wang, and Xiao-Lin Wang present their work about “Joint-Rerank: a novel method for image search reranking” (DOI 10.1007/s11042-014-1962-x). Their proposed image reranking framework considers multiple modalities of images through a multigraph, where each image is a node with multimodal attributes (textual and visual cues) and the edges between nodes express both intra-modal and inter-modal similarities of images.

The next work is about “Data-driven approaches for social image and video tagging” (DOI 10.1007/s11042-014-1976-4), and co-authored by Lamberto Ballan, Marco Bertini, Tiberio Uricchio, and Alberto Del Bimbo. In this paper the authors review state-of-the-art approaches to automatic annotation and tag refinement for social images, which address the problem of how to deal with the low quality of the available metadata.

Cong Bai, Jinglin Zhang, Zhi Liu, and Wan-Lei Zhao present a work about “K-Means based histogram using multiresolution feature vectors for color texture database retrieval” (DOI 10.1007/s11042-014-2053-8). More precisely, they propose a k-means based histogram (KBH) using a combination of color and texture features for the field of image retrieval. Their approach uses multiresolution feature vectors generated from coefficients of Discrete Wavelet Transform (DWT). The vector space is partitioned with K-means and finally the KBHs are fused using z-score normalized Chi-Square distance.

The next paper is entitled “Content-based Singer Classification on Compressed Domain Audio Data” (DOI 10.1007/s11042-014-2189-6) and co-authored by Han Tsung Tsai, Siang Yu Huang, Pei-Yun Liu, and Ming De Chen. More specifically, a singer identification approach to automatically identify the singer of an unknown MP3 audio data is proposed in this paper. The approach works in MP3 compressed domain using Mel-Frequency Cepstral Coefficients (MFCC) as feature and Gaussian mixture model (GMM) for describing the distribution of the MFCC vector.

The last paper in this special issue is about “3D model retrieval based on linear prediction coding in cylindrical and spherical projections using SVM-OSS” (DOI 10.1007/s11042-014-2055-6) and co-authored by Vahid Mehrdad and Hossein Ebrahimnezhad. They present a 3D model descriptor based on linear prediction coding (LPC) coefficients to retrieve 3D objects. To improve retrieval performance they employ an SVM-OSS similarity measure to efficiently compare two feature vectors. In the evaluation the method is compared to other current methods.

We would like to thank all authors who submitted their work to this special issue and worked very hard to provide interesting contributions to the field of content-based multimedia indexing. Moreover, we are deeply thankful to the many reviewers who did a great job in performing thorough reviews in several review rounds in a timely manner. We hope the readers will enjoy this special issue.

Copyright information

© Springer Science+Business Media New York 2015

Authors and Affiliations

  • Klaus Schoeffmann
    • 1
  • Jenny Benois-Pineau
    • 2
  • Bernard Merialdo
    • 3
  • Tamás Szirányi
    • 4
  1. 1.Institute of Information TechnologyKlagenfurt UniversityKlagenfurtAustria
  2. 2.LaBRIUniversity of BordeauxBordeauxFrance
  3. 3.EURECOM, Multimedia CommunicationsSophia AntipolisFrance
  4. 4.Distributed Events Analysis Research LaboratoryInstitute for Computer Science and Control (MTA SZTAKI)BudapestHungary

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