The Dynamic Definition of Creativity
Given the central role of creativity in the future post-information society, a call for a pragmatist approach to the study of creativity is advocated, that brings as a consequence the recognition of the dynamic nature of this phenomenon. At the foundation of the proposed new theoretical framework lies the definition of creativity itself, which is turned from static to dynamic through the introduction of the concept of potential originality and effectiveness. Starting from this central definition, and through the introduction of the auxiliary definitions for focus area, creativity goal, creative agent, creative potential of an agent, creative potential of an environment, creative process, product of a creative process, creativity potential of a process, representation of the product of a creative process, and estimator, we arrive at the definitions of creative achievement and creative inconclusiveness. Although both aspects are key in the creative process, creative inconclusiveness was not part of previous definitions, but it is argued that its role is fundamental for effective education in creativity. The new definitions can be shown to have full backward compatibility with the extant corpus of scientific research in creativity, as well as forward effectiveness in suggesting novel investigation approaches to support the consideration of new theoretical hypotheses.
Galileo Receivers
The scope of this research line is the
development and the prototyping of a mass market receiver for
Galileo. The main challenge of the project is to combine
cutting-edge performance with moderate/low complexity in order to
be compatible with the constraints typical of mass market devices.
As for all positioning systems, the synchronization of the user
terminal with the received signal is of primary importance. This
task is especially challenging for Galileo, which is a spread
spectrum system and employ a particular modulation, referred to as
BOC modulation, to enhance the compatibility with other positioning
systems like GPS. A second objective is the design and performance
evaluation of efficient countermeasures to face the effects of
interferences impacting the Galileo system, encompassing
interference isolation, detection, and mitigation. These techniques
are designed to assist the Galileo operation, and foresee to design
and implement the GIMS (Galileo Interference Management System)
local component that centralizes isolation and detection functions
and delivers the resulting information to the terminals, enabling
effective mitigation techniques.