Complementarity Modeling in Energy Markets: International Series in Operations Research & Management Science, cartea 180
Autor Steven A. Gabriel, Antonio J. Conejo, J. David Fuller, Benjamin F. Hobbs, Carlos Ruizen Limba Engleză Hardback – 20 iul 2012
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Specificații
ISBN-13: 9781441961228
ISBN-10: 1441961224
Pagini: 656
Ilustrații: XXVI, 630 p.
Dimensiuni: 155 x 235 x 43 mm
Greutate: 1.14 kg
Ediția:2012
Editura: Springer
Colecția Springer
Seria International Series in Operations Research & Management Science
Locul publicării:New York, NY, United States
ISBN-10: 1441961224
Pagini: 656
Ilustrații: XXVI, 630 p.
Dimensiuni: 155 x 235 x 43 mm
Greutate: 1.14 kg
Ediția:2012
Editura: Springer
Colecția Springer
Seria International Series in Operations Research & Management Science
Locul publicării:New York, NY, United States
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Public țintă
ResearchCuprins
Introduction and Motivation.- Optimality and Complementarity.- Some Microeconomic Principles.- Equilibria and Complementarity Problems.- Variational Inequality Problems.- Optimization Problems Constrained by Optimization Problems.- Equilibrium Problems with Equilibrium Constraints.- Algorithm for LCPs, NCPs, and VIs.- Some Advanced Algorithms for VI Decomposition, MPCCs and EPECs.- Natural Gas Market Modeling.- Electricity and Environmental Markets.- Multicommodity Equilibrium Models: Accounting for Demand-Side Linkages.
Recenzii
From the reviews:
“This book is to address the topic of complementarity modeling to make these modeling approaches widely accessible to a larger audience. … I strongly recommend it for energy practitioners and researchers in energy market modeling … . I am convinced that they are a fruitful and challenging area of research, which will serve as a guide to real-world applications. Therefore, I strongly recommend this book to all modelers in energy systems and markets.” (Dominik Mӧst, Interfaces, Vol. 43 (6), November-December, 2013)
“This monograph represents the first comprehensive overview of electricity, environmental, and natural gas market models through the use of complementarity techniques. … it provides a wonderful set of examples that are crucial in conveying the material. … this monograph represents an indispensable and enduring resource for any serious researcher in energy markets.” (Uday V. Shanbhag, Mathematical Reviews, October, 2013)
“This book is to address the topic of complementarity modeling to make these modeling approaches widely accessible to a larger audience. … I strongly recommend it for energy practitioners and researchers in energy market modeling … . I am convinced that they are a fruitful and challenging area of research, which will serve as a guide to real-world applications. Therefore, I strongly recommend this book to all modelers in energy systems and markets.” (Dominik Mӧst, Interfaces, Vol. 43 (6), November-December, 2013)
“This monograph represents the first comprehensive overview of electricity, environmental, and natural gas market models through the use of complementarity techniques. … it provides a wonderful set of examples that are crucial in conveying the material. … this monograph represents an indispensable and enduring resource for any serious researcher in energy markets.” (Uday V. Shanbhag, Mathematical Reviews, October, 2013)
Notă biografică
Steven A. Gabriel received his M.A. and Ph.D. degrees in Mathematical Sciences from Johns Hopkins University in 1989 and 1992, respectively, and his M.S. in Operations Research from Stanford University in 1984. He is currently Associate Professor, Civil Systems Program, Department of Civil and Environmental Engineering, University of Maryland.
Antonio J. Conejo received the M.S. degree from Massachusetts Institute of Technology, Cambridge, MA, in 1987 and the Ph.D. degree from the Royal Institute of Technology, Stockholm, Sweden, in 1990. He is currently Professor of Electrical Engineering at the Universidad de Castilla – La Mancha, Ciudad Real, Spain.
J. David Fuller received his Ph.D. in Interdisciplinary Studies from the University of British Columbia in 1980. His research interests focus on Energy Economics and Operations Research; Mathematical Programming Models of Economic Equilibrium with Applications to Energy Markets Forecasting and Electricity Market Design; and Decomposition of Linear, Nonlinear and Equilibrium Programs. He is currently a Professor of Management Sciences, in the Faculty of Engineering at the University of Waterloo, in Waterloo, Ontario, Canada.
Benjamin F. Hobbs received his Ph.D. in Environmental Systems Engineering from Cornell University in 1983; his MS in Resource Management and Policy from Syracuse University in 1978, and his BS in Mathematics and Environmental Sciences from North Dakota State University in 1976. He has served as Chair of the JHU President’s Climate Change Task Force since 2008.
Carlos Ruiz is currently a Ph.D. candidate under Dr. Conejo at the University de Castilla.
Antonio J. Conejo received the M.S. degree from Massachusetts Institute of Technology, Cambridge, MA, in 1987 and the Ph.D. degree from the Royal Institute of Technology, Stockholm, Sweden, in 1990. He is currently Professor of Electrical Engineering at the Universidad de Castilla – La Mancha, Ciudad Real, Spain.
J. David Fuller received his Ph.D. in Interdisciplinary Studies from the University of British Columbia in 1980. His research interests focus on Energy Economics and Operations Research; Mathematical Programming Models of Economic Equilibrium with Applications to Energy Markets Forecasting and Electricity Market Design; and Decomposition of Linear, Nonlinear and Equilibrium Programs. He is currently a Professor of Management Sciences, in the Faculty of Engineering at the University of Waterloo, in Waterloo, Ontario, Canada.
Benjamin F. Hobbs received his Ph.D. in Environmental Systems Engineering from Cornell University in 1983; his MS in Resource Management and Policy from Syracuse University in 1978, and his BS in Mathematics and Environmental Sciences from North Dakota State University in 1976. He has served as Chair of the JHU President’s Climate Change Task Force since 2008.
Carlos Ruiz is currently a Ph.D. candidate under Dr. Conejo at the University de Castilla.
Textul de pe ultima copertă
This addition to the ISOR series introduces complementarity models in a straightforward and approachable manner and uses them to carry out an in-depth analysis of energy markets, including formulation issues and solution techniques. In a nutshell, complementarity models generalize:
a. optimization problems via their Karush-Kuhn-Tucker conditions
b. non-cooperative games in which each player may be solving a separate but related optimization problem with potentially overall system constraints (e.g., market-clearing conditions)
c. economic and engineering problems that aren’t specifically derived from optimization problems (e.g., spatial price equilibria)
d. problems in which both primal and dual variables (prices) appear in the original formulation (e.g., The National Energy Modeling System (NEMS) or its precursor, PIES).
As such, complementarity models are a very general and flexible modeling format.
A natural question is why concentrate on energy markets for this complementarity approach? As it turns out, energy or other markets that have game theoretic aspects are best modeled by complementarity problems. The reason is that the traditional perfect competition approach no longer applies due to deregulation and restructuring of these markets and thus the corresponding optimization problems may no longer hold. Also, in some instances it is important in the original model formulation to involve both primal variables (e.g., production) as well as dual variables (e.g., market prices) for public and private sector energy planning. Traditional optimization problems can not directly handle this mixing of primal and dual variables but complementarity models can and this makes them all that more effective for decision-makers.
a. optimization problems via their Karush-Kuhn-Tucker conditions
b. non-cooperative games in which each player may be solving a separate but related optimization problem with potentially overall system constraints (e.g., market-clearing conditions)
c. economic and engineering problems that aren’t specifically derived from optimization problems (e.g., spatial price equilibria)
d. problems in which both primal and dual variables (prices) appear in the original formulation (e.g., The National Energy Modeling System (NEMS) or its precursor, PIES).
As such, complementarity models are a very general and flexible modeling format.
A natural question is why concentrate on energy markets for this complementarity approach? As it turns out, energy or other markets that have game theoretic aspects are best modeled by complementarity problems. The reason is that the traditional perfect competition approach no longer applies due to deregulation and restructuring of these markets and thus the corresponding optimization problems may no longer hold. Also, in some instances it is important in the original model formulation to involve both primal variables (e.g., production) as well as dual variables (e.g., market prices) for public and private sector energy planning. Traditional optimization problems can not directly handle this mixing of primal and dual variables but complementarity models can and this makes them all that more effective for decision-makers.
Caracteristici
A very "readable" expository approach appropriated for students, researchers and practitioners First book to specifically apply complementarity models to energy markets Gabriel and Conejo are two huge leaders in the field