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OBJECTIVES ACCOMPLISHED IN THIS PROJECT

O1.      Setting up the interdisciplinary laboratory for stochastic analysis of hysteresis systems

O2.      Developing methods for the stochastic analysis of systems with hysteresis

O3.      Developing international and national research collaborations

O4.      Characterization of the alternative solutions to the data storage technology

O5.      Developing the laboratory for the stochastic analysis of hysteretic systems

O6.      Description of noise effects in photonic devices

O7.      Integrating project research in EU research networks

O8.     The identification of noise benefits in hysteretic systems

O9.      Description of noise influence on the behavior of shape memory alloys

O10.  Description of the role of noise in the neuron activity

O11.  Stimulation of student interest in the research activities related to the project topics

O12.  Formation of human resources capable of development of the research project in this area at the European standards

O13. Attraction of complementary resources for funding the project research directions after the termination of this grant

 

ACTIVITIES PERFORMED  IN THIS PROJECT

A1.       Equipments acquisition and arrangements of space and laboratory

A2.       Integration of the existent research resources

A3.       Elaboration of the scalar and vector models for the stochastic analysis of hysteresis

A4.       Elaboration of the stochastic models for studying temperature effects on the behavior of magnetic nanostructures with application in hard-disk-drives and magnetic random access memories

A5.       Application of the previously developed models to the analysis of new data recording and storage techniques

A6.       Analyses and design of photonic devices with hysteresis

A7.       Analysis of noise benefits in hysteretic systems

A8.        Analysis of shape-memory alloys and applications

A9.        Design and perform the experiments on spectral analysis of hysteretic systems

A10.    Implementation and evaluation of stochastic models for neuron activity

A11.  Analyses of the role of noise in the neuron activity

A12.  Providing facilities for students in order to involve them in this project area

A13.  Organization of a multi-disciplinary student scientific group

A14.  Organization of working meeting for establishing national cooperation in the project area

A15.  Participation to international workshops and conferences

A16.  International research visits and collaborations

A17.  Development of close relations with local and regional socio-economical environment

A18.  Elaboration and submission of projects for the continuation of the research directions developed under this projects

A19.  Presentations at the national and international conferences

A20.  Elaboration and submission of scientific papers

A21.  Elaboration of themes for license and master theses related to the project topics

A22.  Advising graduate theses in this area of research

A23.  Integration of research results in master and doctoral programs curricula

A24.  Elaboration and submission of a book on the project domain

A25.  Development of the project web-site

A26.  Synthesis of obtained results