Brief characteristic of Analytical synthetic modelling
Analytical synthetic modelling (ASM) is a modelling technique using the systemic and logical approach. It corresponds with a effective and analytical problem solving ant is based on cognitive nature of human thinking. It is connected with methods of project network analysis.
The general model of analytical synthetic structure is represented on Fig. 1.
Fig. 1. The genaral structure of analytical synthetic structure. (a - Investigated area of reality, investigated phenomenon,
Bk - Analytical lay out within the framework of corresponding knowledge level, bk - Result of analysis: essential attributes and features of investigated phenomenon, Ck - Qualification of abstraction essences within the framework of corresponding knowledge level, ck - Result of abstraction: partial concepts, partial knowledge, various relationship etc, Dk - Synthetic finding of dependences among the results of abstraction within the framework of corresponding knowledge level, dk - Result of synthesis: principle, law, dependence, continuity etc., Ek - Intellectual reconstruction of investigated phenomenon/ investigated area of reality, e - Result of intellectual reconstruction: analytical-synthetic structure of conceptual knowledge system.)
ASM was used for modelling of modelling of book content, structure of physics, chemistry, statistics dimension of scientific research. ASM was also used for hybrid model systems and structures of mathematical integration, Capital Asset Pricing Model (CAPM – model of portfolio investments) and choice of optimal portfolio. These models are semistatic and semiprocess models (part of model represents the static object and part represents process).
ASM was upgraded to the process modelling. This technique was presented in Proceedind of International Conference on Service Operations and Logistics, and Informatics (SOLI '07), Philadelphia, PE, USA, 2007.
Main references
PROCHAZKA, P., ZASKODNY, P., TARABEK, P. (2007) Optimalization of the systemic evidence of returnable packaging transport - analytical - synthetic model. International Conference on Service Operations and Logistics, and Informatics (SOLI '07). August 27 - August 29, 2007, Philadelphia, Pennsylvania, USA.
PROCHAZKA, P. Optimalization of the systemic evidence of returnable packaging transport - analytical-synthetic model. In monograph: "Educational and didactic communications", 2007, Didakitis, Bratislava, p. 128-136. ISBN 978-80-89160-46-4.
PROCHAZKA, P., ZASKODNY, P. Analytical-synthetic model of mathematic integration. In monograph: "Educational and didactic communications", 2007, Didakitis, Bratislava, p. 97-105. ISBN 978-80-89160-46-4.
SKRABANKOVA, J., PROCHAZKA, P. Analytical - synthetic model of chemistry. In monograph: "Educational and didactic communications", 2007, Didakitis, Bratislava, p. 112-120. ISBN 978-80-89160-46-4.
PROCHAZKA, P., ZASKODNY, P. Analytical-synthetic models of problem solving. In monograph: "Educational and didactic communications-applications", 2008, Didaktis, Bratislava. ISBN 978-80-89160-46-4.
ZASKODNY, P. Physics for radiological workers. J. Appl. Biomed. 2003, Vol. 1, no. 1, pp. 41 - 48. ISSN 1214-0287.
PAULIN, R. Structural model of CAPM and choice of optimal portfolio. In monograph: "Educational and didactic communications", 2007, Didakitis, Bratislava, p. 128-136. ISBN 978-80-89160-46-4.
POSPISIL, P. Structural model of APT and choice of optimal portfolio. In monograph: "Educational and didactic communications", 2007, Didakitis, Bratislava, p. 128-136. ISBN 978-80-89160-46-4.