Will support further development of abatement strategies within europe by providing an improved scientific basis for the quantification of source-receptor relationships for photo-oxidants and acidifying substances.
Development of optimal complex technology for intensive cleaning of soil contaminated by oil pollutants, based on the separation of migrating fraction of oil through the use of biosurfactant/biodegradation of non-migrating fraction.
Develop software tools for digital acquisition, archiving, interactive delivery of endangered cultural heritage database entries, managing internet-integrated multimedia database and electronic copyright trading environment.
New, ecologically friendly and effective lignin-based soil conditioners for the prevention and control of forest soil erosion and related application technology will be developed.
The aim is to mathematically model technological processes in order to promote reconstruction of heating equipment in papermills and thus increase waste paper remaking capacity.
Development of an internet-based online access to information on cultural heritage preserved in baltic state museums.
Development of algorithms for the evaluation of ischemic stroke volume from images of human brain computed tomography slices. This will be implemented in a computer aided medical diagnostic tool that can be used on personal computers.
Creation of a leading edge universal lossless image compression technology with outstanding price and performance characteristics.
Design of a small-sized mobile satellite laser ranging system (slr) with a high capability to track fast-moving low earth orbiting satellites including the zenith zone. The main innovation is the pilot project of the semi-automated slr.
To develop a knowledge-based expert evaluation management system for effective clean ups (on the basis of oil and oil product spillages). Evaluation of potential environmental damage, effective technologies and available technical resources for cleaning up damages.