Video browsing interfaces and applications: a review

We present a comprehensive review of the state of the art in video browsing and retrieval systems, with special emphasis on interfaces and applications. There has been a significant increase in activity (e.g., storage, retrieval, and sharing) employing video data in the past decade, both for personal and professional use. The ever-growing amount of video content available for human consumption and the inherent characteristics of video data—which, if presented in its raw format, is rather unwieldy and costly—have become driving forces for the development of more effective solutions to present video contents and allow rich user interaction. As a result, there are many contemporary research efforts toward developing better video browsing solutions, which we summarize. We review more than 40 different video browsing and retrieval interfaces and classify them into three groups: applications that use video-player-like interaction, video retrieval applications, and browsing solutions based on video surrogates. For each category, we present a summary of existing work, highlight the technical aspects of each solution, and compare them against each other

eStorys: A visual storyboard system supporting back-channel communication for emergencies

This is the post-print version of the final paper published in Journal of Visual Languages & Computing. The published article is available from the link below. Changes resulting from the publishing process, such as peer review, editing, corrections, structural formatting, and other quality control mechanisms may not be reflected in this document. Changes may have been made to this work since it was submitted for publication. Copyright @ 2010 Elsevier B.V.In this paper we present a new web mashup system for helping people and professionals to retrieve information about emergencies and disasters. Today, the use of the web during emergencies, is confirmed by the employment of systems like Flickr, Twitter or Facebook as demonstrated in the cases of Hurricane Katrina, the July 7, 2005 London bombings, and the April 16, 2007 shootings at Virginia Polytechnic University. Many pieces of information are currently available on the web that can be useful for emergency purposes and range from messages on forums and blogs to georeferenced photos. We present here a system that, by mixing information available on the web, is able to help both people and emergency professionals in rapidly obtaining data on emergency situations by using multiple web channels. In this paper we introduce a visual system, providing a combination of tools that demonstrated to be effective in such emergency situations, such as spatio/temporal search features, recommendation and filtering tools, and storyboards. We demonstrated the efficacy of our system by means of an analytic evaluation (comparing it with others available on the web), an usability evaluation made by expert users (students adequately trained) and an experimental evaluation with 34 participants.Spanish Ministry of Science and Innovation and Universidad Carlos III de Madrid and Banco Santander

CHORUS Deliverable 4.4: Report of the 2nd CHORUS Conference

The Second CHORUS Conference and third Yahoo! Research Workshop on the Future of Web Search was held during April 4-5, 2008, in Granvalira, Andorra to discuss future directions in multi-medial information access and other specialised topics in the near future of retrieval. Attendance was at capacity, with 97 participants from 11 countries and 3 continents

Evaluating access mechanisms for multimodal representations of lifelogs

Lifelogging, the automatic and ambient capture of daily life activities into a digital archive called a lifelog, is an increasingly popular activity with a wide range of applications areas including medical (memory support), behavioural science (analysis of quality of life), work- related (auto-recording of tasks) and more. In this paper we focus on lifelogging where there is sometimes a need to re-find something from one’s past, recent or distant, from the lifelog. To be effective, a lifelog should be accessible across a variety of access devices. In the work reported here we create eight lifelogging interfaces and evaluate their effectiveness on three access devices; laptop, smartphone and e-book reader,for a searching task. Based on tests with 16 users, we identify which of the eight interfaces are most effective for each access device in a known-item search task through the lifelog, for both the lifelog owner, and for other searchers. Our results are important in suggesting ways in which personal lifelogs can be most effectively used and accessed

Rapid prototyping and fast user trial of multimedia broadcast and cellular services

This paper presents the results of fast user trial of multimedia services that are enabled when a mobile terminal has access to converged services over digital broadcast and mobile telecommunications networks. It first describes the motivations behind developing this system and describes the service scenarios that benefit most from it. It then provides an overview of the service components of the test case scenario. Finally, it presents the results of fast user trials on end users of the services that were developed. This work was conducted as part of the EU-funded CISMUNDUS project

Gesture-based Personal Archive Browsing in a Lean-back Environment

As personal digital archives of multimedia data become more ubiquitous, the challenge of supporting multimodal access to such archives becomes an important research topic. In this paper we present and positively evaluate a gesture-based interface to a personal media archive which operates on a living room TV using a Wiimote. We illustrate that Wiimote interaction can outperform a point-and-click interaction as reported in a user study. In addition, a set of guidelines is presented for organising and interacting with large personal media archives in the enjoyment oriented (lean-back) environment of the living room

Mobile and web tools for participative learning

Dissertação apresentada na Faculdade de Ciências e Tecnologia da Universidade Nova de Lisboa, para a obtenção do grau de Mestre em Engenharia InformáticaThe combination of different media formats has been a crucial aspect on teaching and learning processes. The recent developments of multimedia technologies over the Internet and using mobile devices can improve the communication between professors and students, and allow students to study anywhere and anytime, allowing each student progress at its own pace. The usage of these new platforms and the increase of multimedia sharing applied to educational environments allow a more participative learning, and make the study of interfaces a relevant aspect of existing multimedia learning systems. The work done in this dissertation explores interfaces and tools for participative learning,using multimedia educational systems over Internet broadband and mobile devices. In this work, aWeb-based learning system was developed, which enables to store, transmit, search and share the contents of courses captured in video and its extension to support Tablet PCs. The Web system, developed as part of the VideoStore project, explores video interfaces and video annotations, which encourage the participative work. The usage of Tablet PCs, through the mEmLearn project, has the aim to encourage the participative work, allowing the students to augment the course materials and to share them with other students or instructors

Balancing automation and user control in a home video editing system

The context of this PhD project is the area of multimedia content management, in particular interaction with home videos. Nowadays, more and more home videos are produced, shared and edited. Home videos are captured by amateur users, mainly to document their lives. People frequently edit home videos, to select and keep the best parts of their visual memories and to add to them a touch of personal creativity. However, most users find the current products for video editing timeconsuming and sometimes too technical and difficult. One reason of the large amount of time required for editing is the slow accessibility caused by the temporal dimension of videos: a video needs to be played back in order to be watched or edited. Another reason of the limitation of current video editing tools is that they are modelled too much on professional video editing systems, including technical details like frame-by-frame browsing. This thesis aims at making home video editing more efficient and easier for the non-technical, amateur user. To accomplish this goal, an approach was taken characterized by two main guidelines. We designed a semi-automatic tool, and we adopted a user-centered approach. To gain insights on user behaviours and needs related to home video editing, we designed an Internet-based survey, which was answered by 180 home video users. The results of the survey revealed the facts that video editing is done frequently and is seen as a very time-consuming activity. We also found that users with low experience with PCs often consider video editing programs too complex. Although nearly all commercial editing tools are designed for a PC, many of our respondents said to be interested in doing video editing on a TV. We created a novel concept, Edit While Watching, designed to be user-friendly. It requires only a TV set and a remote control, instead of a PC. The video that the user inputs to the system is automatically analyzed and structured in small video segments. The editing operations happen on the basis of these video segments: the user is not aware anymore of the single video frames. After the input video has been analyzed and structured, a first edited version is automatically prepared. Successively, Edit While Watching allows the user to modify and enrich the automatically edited video while watching it. When the user is satisfied, the video can be saved to a DVD or to another storage medium. We performed two iterations of system implementation and use testing to refine our concept. After the first iteration, we discovered that two requirements were insufficiently addressed: to have an overview of the video and to precisely control which video content to keep or to discard. The second version of EditWhileWatching was designed to address these points. It allows the user to visualize the video at three levels of detail: the different chapters (or scenes) of the video, the shots inside one chapter, and the timeline representation of a single shot. Also, the second version allows the users to edit the video at different levels of automation. For example, the user can choose an event in the video (e.g. a child playing with a toy) and just ask the system to automatically include more content related to it. Alternatively, if the user wants more control, he or she can precisely select which content to add to the video. We evaluated the second version of our tool by inviting nine users to edit their own home videos with it. The users judged Edit While Watching as an easy to use and fast application. However, some of them missed the possibility of enriching the video with transitions, music, text and pictures. Our test showed that the requirements of overview on the video and control in the selection of the edited material are better addressed than in the first version. Moreover, the participants were able to select which video portions to keep or to discard in a time close to the playback time of the video. The second version of Edit While Watching exploits different levels of automation. In some editing functions the user only gives an indication about editing a clip, and the system automatically decides the start and end points of the part of the video to be cut. However, there are also editing functions in which the user has complete control on the start and end points of a cut. We wanted to investigate how to balance automation and user control to optimize the perceived ease of use, the perceived control, the objective editing efficiency and the mental effort. To this aim, we implemented three types of editing functions, each type representing a different balance between automation and user control. To compare these three levels, we invited 25 users to perform pre-defined tasks with the three function types. The results showed that the type of functions with the highest level of automation performed worse than the two other types, according to both subjective and objective measurements. The other two types of functions were equally liked. However, some users clearly preferred the functions that allowed faster editing while others preferred the functions that gave full control and a more complete overview. In conclusion, on the basis of this research some design guidelines can be offered for building an easy and efficient video editing application. Such application should automatically structure the video, eliminate the detail about single frames, support a scalable video overview, implement a rich set of editing functionalities, and should be preferably TV-based