A survey of comics research in computer science

Graphical novels such as comics and mangas are well known all over the world. The digital transition started to change the way people are reading comics, more and more on smartphones and tablets and less and less on paper. In the recent years, a wide variety of research about comics has been proposed and might change the way comics are created, distributed and read in future years. Early work focuses on low level document image analysis: indeed comic books are complex, they contains text, drawings, balloon, panels, onomatopoeia, etc. Different fields of computer science covered research about user interaction and content generation such as multimedia, artificial intelligence, human-computer interaction, etc. with different sets of values. We propose in this paper to review the previous research about comics in computer science, to state what have been done and to give some insights about the main outlooks

Responding to the vision of the information society: first steps towards a national virtual university.

Executive Summary 1. There is confusion, both in academic circles and the public more generally, about the definition of a virtual university. Hence in considering such an option, it is worth looking more fundamentally at the contexts for higher education, and the functions of a National Virtual University equipped to meet the needs of the 21st Century. 2. The increase in the use of ICT has caused a radical increase in demand for higher education globally, and increased access to higher education via the use of ICT. New suppliers in the form of private and corporate universities, now compete with universities in their home countries, and increasingly, overseas. 3. Although demands for higher education are growing rapidly, analysis of the new and changing demands on universities at local, national and international levels, within an increasingly global knowledge market, indicates that the role of a National Virtual University will be much broader than that of an existing university. Moreover, a NVU will need to successfully compete in an environment which is growing in competitiveness and complexity as corporate universities start to operate, but will have to do so with greater efficiency and lower funding. 4. The socio-economic environment in Finland is characterised by an internationally high (and growing) involvement with information and communication technologies in all spheres of life. Within this fast developing Information Society, there is a high need for increasing skills levels and retraining, especially with respect to ICT. However, like elsewhere in Europe, the use of technology for collaborative teaching in Universities and for promoting joint research with industry, is comparatively underexploited, although the existing higher education platform, provides a useful structure which could adapt to, and benefit from, the establishment of a National Virtual University. 5. The rationale for incorporating the use of new technologies in higher education by building a National Virtual University is well-established. Such a development would require a quantum leap in the design and development of a new learning method. However, in addition to educational benefits, the NVU would aid the creation of a knowledge based economy, the promotion of social cohesion, the protection of the existing Finnish university system, and the preservation of national language and culture. 6. The experience of previous virtual university ventures in the USA demonstrates that collaborative ventures, based on existing providers and reliant on reengineering of existing teaching and learning practices, are unlikely to be successful, even where they are well financed. A National Virtual University can be constructed with varying degrees of functionality, but where it covers all ranges of university activities (teaching, research and technology transfer), and is well-linked to the local community, the cost of development will be high but the returns on expenditure will be greatest. 7. A project of this size, complexity, cost and importance will only succeed in maximising its potential as a collaborative venture, if it involves all stakeholder groups in discussing its form, as consensus on the form of the NVU will be critical in ensuring the success of its implementation

Computer-Assisted Interpreting Tools (CAI) and options for automation with Automatic Speech Recognition

In recent years, several studies have indicated interpreters resist adopting new technologies. Yet, such technologies have enabled the development of several tools to help those professionals. In this paper, using bibliographical and documental research, we briefly analyse the tools cited by several authors to identify which ones remain up to date and available on the market. Following that, we present concepts about automation, and observe the usage of automatic speech recognition (ASR), while analysing its potential benefits and the current level of maturity of such an approach, especially regarding Computer-Assisted Interpreting (CAI) tools. The goal of this paper is to present the community of interpreters and researchers with a view of the state of the art in technology for interpreting as well as some future perspectives for this area

Moving Image Preservation and Cultural Capital

This article examines the changing landscape of moving image archiving in the wake of recent developments in online video sharing services such as YouTube and Google Video. The most crucial change to moving image archives may not be in regard to the collections themselves, but rather the social order that sustains cultural institutions in their role as the creators and sustainers of objectified cultural capital. In the future, moving image stewardship may no longer be the exclusive province of institutions such as archives and libraries, and may soon be accomplished in part through the work of other interested individuals and organizations as they contribute to and define collections. The technologies being built and tested in the current Internet environment offer a new model for the reimagined moving image archive, which foregrounds the user in the process of creating the archive and strongly encourages the appropriation of moving images for new works. This new archetype, which in theory functions on democratic principles, considers moving images???along with most other types of cultural heritage material???to be building blocks of creative acts or public speech acts. One might argue that the latter represents a new model for creating an archive; this new democratic archive documents and facilitates social discourse.published or submitted for publicatio

Ten Quick Tips for Using a Raspberry Pi

Much of biology (and, indeed, all of science) is becoming increasingly computational. We tend to think of this in regards to algorithmic approaches and software tools, as well as increased computing power. There has also been a shift towards slicker, packaged solutions--which mirrors everyday life, from smart phones to smart homes. As a result, it's all too easy to be detached from the fundamental elements that power these changes, and to see solutions as "black boxes". The major goal of this piece is to use the example of the Raspberry Pi--a small, general-purpose computer--as the central component in a highly developed ecosystem that brings together elements like external hardware, sensors and controllers, state-of-the-art programming practices, and basic electronics and physics, all in an approachable and useful way. External devices and inputs are easily connected to the Pi, and it can, in turn, control attached devices very simply. So whether you want to use it to manage laboratory equipment, sample the environment, teach bioinformatics, control your home security or make a model lunar lander, it's all built from the same basic principles. To quote Richard Feynman, "What I cannot create, I do not understand".Comment: 12 pages, 2 figure