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Dynamic Management of Sustainable Development Methods for Large Technical Systems

✍ Scribed by SpringerLink (Online service); Krishans, Zigurds.; Merkuryev, Yuri.; Mutule, Anna.; Oleinikova, Irina

Publisher
Springer London
Year
2011
Tongue
English
Leaves
186
Edition
1st ed. 2011
Category
Library
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✦ Synopsis

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.

✦ Table of Contents

9.2…Database Structure and Relevant Operations......Page 2
5.2…Recursive Equation for Optimal Initial State Method......Page 4
10.1.6 Switchgears Reliability......Page 7
Acknowledgements......Page 8
10.2.2 Block Technical Economic Analysis of Plans Assigned by User: Calculation Results and Its Output File......Page 12
Abbreviations......Page 13
List of Figures......Page 20
List of Tables......Page 25
Cover......Page 1
Dynamic Management of Sustainable Development......Page 3
Preface......Page 5
References......Page 10
List of Terms and Methods......Page 14
10.1.5 Analysis of Operational State with Outages......Page 6
References......Page 11
10.3.3 Sub-block Dynamic Optimization......Page 17
10.3.7 Sub-block Risk Analysis......Page 23
Contents......Page 9
10.3.1 Functions of Optimization Complex, Optimization Methods and External Links......Page 16
References......Page 15
10.3.6 Optimization Results and Decision Making Under Information Uncertainty Conditions......Page 22
List of Figures......Page 21
List of Tables......Page 26
Abstract......Page 28
1.2…Criteria of LTS Sustainable Development Management......Page 30
1.3…Development Optimization Principles under Uncertainty Conditions......Page 32
1.4…Problem of Optimal D-Plan Selection......Page 35
References......Page 37
2.1…Principal Concepts......Page 38
2.2…Graphical Model of Development Process......Page 42
2.3…Mathematical Formulation of Development Process Optimization Task......Page 45
2.4…Algorithmization Aspects of Development Management Process......Page 47
References......Page 51
Abstract......Page 52
3.2…Modeling Methods of LTS D-State in Development Optimization Process......Page 54
3.3…Formation Methods of LTS D-Process......Page 59
Reference......Page 61
Abstract......Page 62
4.2…Algorithm Programming Aspects......Page 65
4.3…System D-Process......Page 67
References......Page 71
5.1…Dynamic Programming Application for LTS Sustainable Development Management......Page 72
5.2…Recursive Equation for Optimal Initial State Method......Page 75
5.3…Algorithmization Principles of OIS Method......Page 79
References......Page 82
Abstract......Page 84
6.2…System Development Constraint States Set Searching Method......Page 90
6.3…Constraint Set Searching Algorithms......Page 97
6.4…Maximal Effect Method......Page 100
Reference......Page 106
Abstract......Page 107
7.2.1 Optimal Initial States Set Limitation Method......Page 108
7.2.2 Limitation Method of Optimal Initial States Searching Process......Page 109
7.3.1 Direct and Iteration Methods......Page 113
7.3.2 Dynamic Optimization Tasks Formalized Dispersing Method......Page 115
7.4…Optimization Method in Adaptation Period......Page 119
8.1…Information Technology Functions and Tasks to be Solved......Page 123
8.2…Basic Principles of System Optimization......Page 127
8.3…Information Technology Structure and Main Module Functions......Page 130
8.4.1 Functioning Model of Electric Power Plants......Page 131
8.4.2 Transmission Network Functioning Model......Page 135
References......Page 138
9.1…Information Flow amongst Database and Software System for Management of Sustainable Development......Page 140
9.2…Database Structure and Relevant Operations......Page 141
9.3…Block Parameter Catalogues: The Significance and Structure......Page 144
9.5…Object Input......Page 145
9.6…Block Task: The Significance and Structure......Page 147
References......Page 154
10.1.1 Significance of Block Technical Analysis in Sustainable Development Management Software System......Page 155
10.1.2 Flows, Voltages, Loads and Operational State Summary Indicators (Power Balance, Number of Overloaded Lines)......Page 157
10.1.3 Calculation of State with Changed Power Balance Generation System......Page 159
10.1.5 Analysis of Operational State with Outages......Page 160
10.1.5.1 Analysis at Annual Criteria Level......Page 161
10.1.7 330, 110 kV Network Reliability......Page 162
10.2.1 Structure of Complex, Components Function......Page 163
10.2.2 Block Technical Economic Analysis of Plans Assigned by User: Calculation Results and Its Output File......Page 166
10.2.3 Block Plans Sensitivity Analysis......Page 168
10.3.1 Functions of Optimization Complex, Optimization Methods and External Links......Page 170
10.3.2 Structure of Optimization Block......Page 171
10.3.4 Sub-block Quasidynamic Optimization......Page 176
10.3.7 Sub-block Risk Analysis......Page 177
Conclusion......Page 182
Index......Page 184

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