A Consumer-Centric Open Innovation Framework for Food and Packaging Manufacturing

This article has been archived following written permission from IGI Global.Closed innovation approaches have been employed for many years in the food industry. But, this sector recently perceives its end-user to be wary of radically new products and changes in consumption patterns. However, new product development involves not only the product itself but also the entire manufacturing and distribution network. In this paper, we present a new ICT based framework that embraces open innovation to place customers in the product development loop but at the same time assesses and eventually coordinates the entire manufacturing and supply chain. The aim is to design new food products that consumers will buy and at the same time ensure that these products will reach the consumer in time and at adequate quantity. On the product development side, our framework enables new food products that offer an integrated sensory experience of food and packaging, which encompass customization, healthy eating, and sustainability

Usability dimensions in collaborative GIS

Collaborative GIS requires careful consideration of the Human-Computer Interaction (HCI) and Usability aspects, given the variety of users that are expected to use these systems, and the need to ensure that users will find the system effective, efficient, and enjoyable. The chapter explains the link between collaborative GIS and usability engineering/HCI studies. The integration of usability considerations into collaborative GIS is demonstrated in two case studies of Web-based GIS implementation. In the first, the process of digitising an area on Web-based GIS is improved to enhance the user's experience, and to allow interaction over narrowband Internet connections. In the second, server-side rendering of 3D scenes allows users who are not equipped with powerful computers to request sophisticated visualisation without the need to download complex software. The chapter concludes by emphasising the need to understand the users' context and conditions within any collaborative GIS project. © 2006, Idea Group Inc

Complete LibTech 2013 Print Program

PDF of the complete print program from the 2013 Library Technology Conferenc

Toward alive art

Electronics is about to change the idea of art and drastically so. We know this is going to happen - we can feel it. Much less clear to most of us are the hows, whens and whys of the change. In this paper, we will attempt to analyze the mechanisms and dynamics of the coming cultural revolution, focusing on the «artistic space» where the revolution is taking place, on the interactions between the artistic act and the space in which the act takes place and on the way in which the act modifies the space and the space the act. We briefly discuss the new category of «electronic artists». We then highlight what we see as the logical process connecting the past, the present and our uncertain future. We examine the relationship between art and previous technologies, pointing to the evolutionary, as well as the revolutionary impact of new means of expression. Against this background we propose a definition for what we call «Alive Art», going on to develop a tentative profile of the performers (the «Alivers»). In the last section, we describe two examples of Alive Artworks, pointing out the central role of what we call the "Alive Art Effect" in which we can perceive relative independence of creation from the artist and thus it may seem that unique creative role of artist is not always immediate and directly induced by his/her activity. We actually, emphasized that artist's activities may result in unpredictable processes more or less free of the artist's will

The emergence of French statistics. How mathematics entered the world of statistics in France during the 1920s

This paper concerns the emergence of modern mathematical statistics in France after the First World War. Emile Borel's achievements are presented, and especially his creation of two institutions where mathematical statistics was developed: the {\it Statistical Institute of Paris University}, (ISUP) in 1922 and above all the {\it Henri Poincar\'e Institute} (IHP) in 1928. At the IHP, a new journal {\it Annales de l'Institut Henri Poincar\'e} was created in 1931. We discuss the first papers in that journal dealing with mathematical statistics