The formulation of market equilibrium problems as mixed complementarity problems (MCP) permits integration of bottom-up programming models of the energy system into top-down general equilibrium models of the overall economy. Despite the coherence and logical appeal of the integrated MCP approach, implementation cost and dimensionality both impose limitations on its practical application. A complementarity representation involves both primal and dual relationships, often doubling the number of equations and the scope for error. When an underlying optimization model of the energy system includes upper and lower bounds on many decision variables the MCP formulation may suffer in robustness and efficiency. While bounds can be included in the MC...
The objective of this study is to formulate an optimum multi-level energy plan that can resolve the ...
Energy systems planning models identify least-cost strategies for expansion and operation of energy ...
Today, issues such as climate change and increased competition for scarce resources puts pressure on...
The formulation of market equilibrium problems as mixed complementarity problems (MCP) permits integ...
We motivate the formulation of market equilibria as a mixed complementarity problem (MCP) in order t...
In this paper, we illustrate the use of a hybrid large-scale computable general equilibrium (CGE) mo...
This paper compares hard-linked and integrated approaches of hybrid top-down and bottom-up models in...
"9-112-77."Bibliography: leaves 21-22.Supported in part by the U.S. Army Research Office (Durham) un...
Complementarity problems are recognized to be a general computational method for solving economic eq...
Integrated technological-economic modeling platform for energy and climate policy analysis / Patríci...
A number of energy planning models have been proposed for combining econometric submodels which fore...
Two general approaches have been used for the integrated assessment of energy demand and supply: the...
Responding to the alarming climate change consequences, many countries are paying significant attent...
Abstract and PDF report are also available on the MIT Joint Program on the Science and Policy of Glo...
Energy markets are complex networks of producers, exporters, traders and consumerscharacterized by d...
The objective of this study is to formulate an optimum multi-level energy plan that can resolve the ...
Energy systems planning models identify least-cost strategies for expansion and operation of energy ...
Today, issues such as climate change and increased competition for scarce resources puts pressure on...
The formulation of market equilibrium problems as mixed complementarity problems (MCP) permits integ...
We motivate the formulation of market equilibria as a mixed complementarity problem (MCP) in order t...
In this paper, we illustrate the use of a hybrid large-scale computable general equilibrium (CGE) mo...
This paper compares hard-linked and integrated approaches of hybrid top-down and bottom-up models in...
"9-112-77."Bibliography: leaves 21-22.Supported in part by the U.S. Army Research Office (Durham) un...
Complementarity problems are recognized to be a general computational method for solving economic eq...
Integrated technological-economic modeling platform for energy and climate policy analysis / Patríci...
A number of energy planning models have been proposed for combining econometric submodels which fore...
Two general approaches have been used for the integrated assessment of energy demand and supply: the...
Responding to the alarming climate change consequences, many countries are paying significant attent...
Abstract and PDF report are also available on the MIT Joint Program on the Science and Policy of Glo...
Energy markets are complex networks of producers, exporters, traders and consumerscharacterized by d...
The objective of this study is to formulate an optimum multi-level energy plan that can resolve the ...
Energy systems planning models identify least-cost strategies for expansion and operation of energy ...
Today, issues such as climate change and increased competition for scarce resources puts pressure on...