This work proposes a method based on a mixed integer nonlinear non-convex programming model to solve the multistage transmission expansion planning (TEP). A meta-heuristic algorithm by the means of differential evolution algorithm (DEA) is employed as an optimization tool. An AC load flow model is used in solving the multistage TEP problem, where accurate and realistic results can be obtained. Furthermore, the work considers the constraints checking and system violation such as real and power generation limits, possible number of lines added, thermal limits and bus voltage limits. The proposed technique is tested on well known and realistic test systems such as the IEEE 24 bus-system and the Colombian 93-bus system. The method has shown hig...
A combinatorial mathematical model in tandem with a metaheuristic technique for solving transmission...
The electric transmission expansion problem involves the timely addition of transmission system comp...
This paper presents a new approach for formulating and solving the transmission expansion planning (...
This work proposes a method based on a mixed integer nonlinear non-convex programming model to solve...
Transmission expansion planning has become a complicated procedure more than it was. The rapid growt...
Solving the Transmission Expansion Planning (TEP) problem using the Alternating Current (AC) network...
Abstract Restructuring and deregulation have exposed the transmission planner to new objectives and ...
Transmission expansion planning (TEP) is a non-convex optimization problem that can be solved via di...
This paper shows a methodology for solving the Transmission Expansion Planning (TEP) problem when Mu...
The transmission expansion planning problem in modern power systems is a large-scale, mixed-integer,...
The transmission expansion planning (TEP) has long term effects on system performance. The effects a...
The transmission expansion planning (TEP) has long term effects on system performance. The effects a...
Abstract. The basic objective of Transmission Expansion Planning (TEP) is to schedule a number of tr...
Initial Solutions (IS) are decisive in meta-heuristics based optimization problems since they impact...
The complexity of current and future electricity networks demands the use of more accurate models to...
A combinatorial mathematical model in tandem with a metaheuristic technique for solving transmission...
The electric transmission expansion problem involves the timely addition of transmission system comp...
This paper presents a new approach for formulating and solving the transmission expansion planning (...
This work proposes a method based on a mixed integer nonlinear non-convex programming model to solve...
Transmission expansion planning has become a complicated procedure more than it was. The rapid growt...
Solving the Transmission Expansion Planning (TEP) problem using the Alternating Current (AC) network...
Abstract Restructuring and deregulation have exposed the transmission planner to new objectives and ...
Transmission expansion planning (TEP) is a non-convex optimization problem that can be solved via di...
This paper shows a methodology for solving the Transmission Expansion Planning (TEP) problem when Mu...
The transmission expansion planning problem in modern power systems is a large-scale, mixed-integer,...
The transmission expansion planning (TEP) has long term effects on system performance. The effects a...
The transmission expansion planning (TEP) has long term effects on system performance. The effects a...
Abstract. The basic objective of Transmission Expansion Planning (TEP) is to schedule a number of tr...
Initial Solutions (IS) are decisive in meta-heuristics based optimization problems since they impact...
The complexity of current and future electricity networks demands the use of more accurate models to...
A combinatorial mathematical model in tandem with a metaheuristic technique for solving transmission...
The electric transmission expansion problem involves the timely addition of transmission system comp...
This paper presents a new approach for formulating and solving the transmission expansion planning (...