Such roadmap projects can influence national government and EU strategies as well as those of a variety of commercial, industrial, medical, social and cultural organisations, believes Plexousakis. The interdisciplinary research that they incorporate can stimulate the exploration of new directions and lead to significant breakthroughs.
"ICTs have always profited from cross-fertilisation with other scientific disciplines," he says, pointing out that Beyond-The-Horizon addresses fields ranging from mathematics to biology, from materials science to psychology. "For example, the ongoing miniaturisation of components onto a single processor chip requires further advances in materials and chip design," he says, as well as progress in alternative computing methods such as quantum computing.
Beyond-the-Horizon, an IST project funded under the EU's Future and Emerging Technologies (FET) initiative, aimed in particular to identify ideas for research that may be high-risk in terms of the ratio between expenditure and reward, but at the same time could offer great potential for radical innovation and a long-term payoff. In this way, the project has gone much further than many ICT research roadmaps, which may just identify issues where 'no known solutions' are available.
The project sought to identify such issues through a series of workshops and broad consultation with the relevant research communities. It split its work into six themes, each of which represents the efforts of a specific group of researchers across Europe. The themes are:
"The idea was to address certain ICT research areas where no roadmaps have yet been drafted," says Plexousakis. "We hope that in early 2007, the proposed new areas for research under the coming Seventh Framework Programme will be influenced by our results."
Plexousakis emphasises that the most significant finding to come out of Beyond-The-Horizon is the importance of interdisciplinary research. "The need for interdisciplinary research if we are to make progress is far greater than we imagined at the beginning of the project. All the different groups of researchers have to contribute to a research area if any real breakthrough is to be achieved."
He picks out as example the growing synergy between research in the biosciences and ICT. "Suppose you are working on nanoscale devices for implantation in the human body – devices that will communicate at the cell level. This is not a subject for engineers alone, nor for doctors or biologists, but for experts in the all the disciplines working together."
Using this example, Plexousakis points to the current status of European research in such areas. "With built-in systems that interface between computers and biological systems using nanotechnology, we cannot at present match the lead held by semiconductor and nanotech industries in Asia and the US."
"However," he continues, "where we can demonstrate excellence is in the actual interface between biological and computer systems in nanoscale technology – where the EU is ahead in some areas. We need to maintain this lead."
A summary of the findings is available in a booklet entitled 'Anticipating Future and Emerging Information Society Technologies'. The full report will be published online.
Professor Dimitris Plexousakis
Institute of Computer Science (ICS)
Foundation for Research and Technology - Hellas (FORTH)
Source: Based on information from Beyond-The-Horizon
Last reviewed: By John M. Grohol, Psy.D. on 21 Feb 2009
Published on PsychCentral.com. All rights reserved.