Balancing thread based navigation for targeted video search

Rooij, O. de; Snoek, Cees G. M.; Worring, Marcel

doi:10.1145/1386352.1386414

Cited by 24 publications

(21 citation statements)

References 27 publications

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“…Many browsing tools, with better interaction means than provided by a typical video player, have been presented in the literature (for a detailed review see [29]). While many of them are advanced navigation methods (e.g., [7,8]), extended video players (e.g., [10,14,18]) or enhanced video content visualizations [6], some are highly sophisticated browsing tools (e.g., [1,25,30]). These sophisticated tools provide very specific interfaces and advanced interaction methods, such as combined mouse/keyboard interaction for 3D navigation, table-of-content navigation in videos, navigation trees and spatial interaction (e.g., [12,13,22,23,26,28]).…”

Section: Introductionmentioning

confidence: 99%

The Video Browser Showdown: a live evaluation of interactive video search tools

Schoeffmann

Ahlström

Bailer

et al. 2013

Int J Multimed Info Retr

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The Video Browser Showdown evaluates the performance of exploratory video search tools on a common data set in a common environment and in presence of the audience. The main goal of this competition is to enable researchers in the field of interactive video search to directly compare their tools at work. In this paper we present results from the second Video Browser Showdown (VBS2013) and describe and evaluate the tools of all participating teams in detail. The evaluation results give insights on how exploratory video search tools are used and how they perform in direct compari- son. Moreover, we compare the achieved performance to results from another user study where 16 participants employed a standard video player to complete the same tasks as performed in VBS2013. This comparison shows that the sophisticated tools enable better performance in general but for some tasks common video players provide similar performance and could even outperform the expert tools. Our results highlight the need for further improvement of professional tools for interactive search in videos.

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Section: Introductionmentioning

confidence: 99%

The Video Browser Showdown: a live evaluation of interactive video search tools

Schoeffmann

Ahlström

Bailer

et al. 2013

Int J Multimed Info Retr

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“…Searchers (experts and non-experts) will use more than text queries if available: concepts, visual similarity, temporal browsing, positive and negative relevance feedback. This can be seen clearly in the activities of the VideOlympics 4 and also in work by Christel [2] and by de Rooij et al [4].…”

Section: Ad Hoc Searchmentioning

confidence: 70%

“…This is confirmed by a recent user study [30] involving a number of broadcast professionals; -the feasibility of automatic tagging based on analysis of a shot's visual and aural content, not just on file names or manually assigned tags, even on large amounts of video of interest, is now available to us [23]; -there is a varying but often significant usefulness of text from speech as a basis for video retrieval [25]; -there is significant impact of the human in the semiautomated search process or in the video tagging loop [25]; -there is a feasibility and acceptance of search (interfaces) driven by more than just keyword input but rather also by content-based approaches such as visual concepts, visual similarity, temporal browsing, positive and negative feedback, etc., presented in a variety of designs [4]; -there is an increase in performance of automatic tagging systems using more than one keyframe per shot to represent the shot and the concomitant need for faster processing [21].…”

Section: Bootstrapping Trecvid Output In Digital Video Librariesmentioning

confidence: 99%

Symbiosis between the TRECVid benchmark and video libraries at the Netherlands Institute for Sound and Vision

et al. 2013

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Audiovisual archives are investing in largescale digitisation efforts of their analogue holdings and, in parallel, ingesting an ever-increasing amount of borndigital files in their digital storage facilities. Digitisation opens up new access paradigms and boosted re-use of audiovisual content. Query-log analyses show the shortcomings of manual annotation, therefore archives are complementing these annotations by developing novel search engines that automatically extract information from both audio and the visual tracks. Over the past few years, the TRECVid benchmark has developed a novel relationship with the Netherlands Institute of Sound and Vision (NISV) which goes beyond the NISV just providing data and use cases to TRECVid. Prototype and demonstrator systems developed as part of TRECVid are set to become a key driver in improving the qual-

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“…For example, MediaMill at the University of Amsterdam build rich visualizations of the resultspace (e.g. the Fork-, Cross-and Rotor-Browser) that enable users to easily explore the full depth of often-complex result-sets [6]. The team from the National University of Singapore pushes the boundaries of 'extreme retrieval' by forcing the user to make judgments on a result's relevance within a very limited time window [13].…”

Section: Related Workmentioning

confidence: 99%

User variance and its impact on video retrieval benchmarking

Wilkins

Troncy

Halvey

et al. 2009

Proceedings of the ACM International Conference on Image and Video Retrieval

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In this paper, we describe one of the largest multi-site interactive video retrieval experiments conducted in a laboratory setting. Interactive video retrieval performance is difficult to cross-compare as variables exist across users, interfaces and the underlying retrieval engine. Conducted within the framework of TRECVID 2008, we completed a multi-site, multi-interface experiment. Three institutes participated involving 36 users, 12 each from Dublin City University (DCU, Ireland), University of Glasgow (GU, Scotland) and Centrum Wiskunde & Informatica (CWI, the Netherlands). Three user interfaces were developed which all used the same search service. Using a latin squares arrangement, each user completed 12 topics, leading to 6 TRECVID runs per site, 18 in total. This allowed us to isolate the factors of users and interfaces from retrieval performance. In this paper we present an analysis of both the quantitative and qualitative data generated from this experiment, demonstrating that for interactive video retrieval with "novice" users, performance can vary by up to 300% for the same system using different sets of users, whilst differences in performance of interface variants was in comparison not statistically different. Our results have implications for the manner in which interactive video retrieval experiments using non-expert users are evaluated. The primary focus of this paper is in highlighting that non-expert users generate very large performance fluctuations, which may either mask or create system variability. The discussion of why this happened is not covered by this paper.

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Balancing thread based navigation for targeted video search

Cited by 24 publications

References 27 publications

The Video Browser Showdown: a live evaluation of interactive video search tools

The Video Browser Showdown: a live evaluation of interactive video search tools

Symbiosis between the TRECVid benchmark and video libraries at the Netherlands Institute for Sound and Vision

User variance and its impact on video retrieval benchmarking

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