Dynamic management of systems development is a precondition for the realization of sustainable system development. This approach allows for the usage of systems theory methods that take into consideration the interaction of decisions made over time and space. A characteristic feature of this kind of method is that the process of sophisticated object development over time is examined for optimal decision selection. This requires the application of modelling methods that represent properties of the developing objects, high speed calculation methods for the estimation of technical and economic…mehr
Dynamic management of systems development is a precondition for the realization of sustainable system development. This approach allows for the usage of systems theory methods that take into consideration the interaction of decisions made over time and space. A characteristic feature of this kind of method is that the process of sophisticated object development over time is examined for optimal decision selection. This requires the application of modelling methods that represent properties of the developing objects, high speed calculation methods for the estimation of technical and economic characteristics, as well as effective optimization methods. Dynamic Management of Sustainable Development presents a concise summary of the authors' research in the area of dynamic methods analysis of technical systems development. Along with systematic illustration of mathematical methods, considerable attention is drawn to practical realization and applications. Dynamic Management of Sustainable Development will be helpful for scientists involved in the mathematical modelling of large technical systems development and for engineers working in the area of large technical systems planning.
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Autorenporträt
Zigurds Krishans (Dr.habil.sc.ing.) is Full Professor and Leading Researcher of the Institute of Physical Energetics, and Head of the Laboratory of Power Systems Mathematical Modelling. He is also Vice-President of the Baltic Association of Electric Power System Researchers, Chairman of the Inspection Committee of National Organization of Automatic Control of Latvia (LANO), and a member of the Scientific Council of the Institute of Physical Energetics. He is an editorial board member of the Latvian Journal of Physics and Technical Sciences and the International Journal of Russian Academy of Sciences ¿Economy of Ural Region¿. Anna Mutule (Dr.sc.ing.) is Leading Researcher of the Institute of Physical Energetics, Laboratory of Power Systems Mathematical Modelling, and Associate Professor at Riga Technical University. She is a member of the Baltic Association of Electric Power System Researchers and of the Board of Latvian Electrical Power Society (LEEA), as well as an Expert of the Latvian Council of Science. Yuri Merkuryev (Dr.habil.sc.ing.) is Full Professor of the Institute of Information Technology of Riga Technical University and Head of the Department of Modelling and Simulation. He is President of the Latvian Simulation Society, Director of Latvian Centre of the McLeod Institute of Simulation Science, a board member of the Federation of European Simulation Societies, EUROSIM, Chartered IT Professional Fellow of British Computer Society and a senior member of the Society for Modeling and Simulation International (SCS). He is also Associate Editor of Simulation: Transactions of The Society for Modeling and Simulation International and an editorial board member of the International Journal of SIMULATION & Process Modelling. Irina Oleinikova (Dr.sc.ing.) is Leading Researcher of the Institute of Physical Energetics, Laboratory of Power Systems Mathematical Modelling and Associate Professor of Riga Technical University. She is also a member of the Baltic Association of Electric Power System Researchers, Expert of the Latvian Council of Science and a board member of the Latvian Electrical Power Society (LEEA).
Inhaltsangabe
1. Problem Statement.- 2. Mathematical Basics of LTS Sustainable Development Dynamic Management.- 3. Modelling LTS D-process.- 4. LTS D-process Dynamic Optimization on All D-states.- 5. Optimal Initial States (OIS) Method.- 6. Optimal Initial States Searching Methods.- 7. LTS Sustainable Development Management Approximate Methods.- 8. Information Technology for Sustainable Development of Electric Power Systems.- 9. The Database.- 10. Software System for Sustainable Development Management.
1. Problem Statement.- 2. Mathematical Basics of LTS Sustainable Development Dynamic Management.- 3. Modelling LTS D-process.- 4. LTS D-process Dynamic Optimization on All D-states.- 5. Optimal Initial States (OIS) Method.- 6. Optimal Initial States Searching Methods.- 7. LTS Sustainable Development Management Approximate Methods.- 8. Information Technology for Sustainable Development of Electric Power Systems.- 9. The Database.- 10. Software System for Sustainable Development Management.
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