This project will explore the application of multilayer artificial neural networks (anns) in predicting the likelihood that a given sender in a multi-tenant email system will be identified as a spammer at some time t.
Research on the physical basics for a multi kw. Solid-state laser with high energy and good beam quality; study process principles, design prototype and scale results to maximum average power for processing.
Remote-controlled, automatic measuring & sampling system for the determination of contaminants/assessment of substances influencing the o2 balance: heavy metals/organic micropollutants/nutrients, chlorophyll, etc.
Development and experimental production of measurement standards for laser beam and optics characterization. technology and instrumentation for on-line and off-line beam and optics monitoring.
Improvement of efficiency/power output of hydropower plants by better designing runner/turbine/draft tube combination to reduce "flow blockage" and instabilities. A key area is pressure recovery between turbine and tail water channel.
Novel methodologies for preforming and manufacturing thermo- plastic composite columns will be developed. Case study structures will be designed to comply with recent european passive safety standards and fabricated to prove the process
Increasing green electricity production and the optimal use of primary sources of energy by improving the availability, flexibility and maintainability of hydro turbines, storage pumps and pump turbines.
Cutpro virtual machining system of mal inc. Will be incorporated into industrial cam systems via moduleworks libraries. The integrated system will combine tool path generation and process optimization in one package, to quickly test and optimize tool paths prior to costly physical production trials
Development of a universal inductive charging and docking station for e-bikes. The integrated system can be used by both off-the-shelf share and private e-bikes and caters for future trends of increased use of 'social e-bikes'
The project involves development of a numerical method to simulate the placement of fabric or fiber strands on the same plane, so that the latter, in a future step, the fiber will marry the three-dimensional shape