The aim of this work is to solve the unit commitment (UC) problem in power systems by calculating minimum production cost for the power generation and finding the best distribution of the generation among the units (units scheduling) using binary grey wolf optimizer based on particle swarm optimization (BGWOPSO) algorithm. The minimum production cost calculating is based on using the quadratic programming method and represents the global solution that must be arriving by the BGWOPSO algorithm then appearing units status (on or off). The suggested method was applied on “39 bus IEEE test systems”, the simulation results show the effectiveness of the suggested method over other algorithms in terms of minimizing of production cost and suggestin...
This paper presents a heuristic approach to generate initial feasible solutions for the Unit Commitm...
Unit commitment problem (UCP) is classified as a mixed-integer, large combinatorial, high-dimensiona...
Due to the continuous increase of the population and the perpetual progress of industry, the energy ...
The aim of this work is to solve the unit commitment (UC) problem in power systems by calculating mi...
Abstract:- A solution to unit commitment using binary particle swarm optimization (BPSO) is presente...
This paper presents a Hybrid Particle Swarm Optimization (HPSO) to solve the Unit Commitment (UC) pr...
This paper presents a new approach via hybrid particle swarm optimization (HPSO) scheme to solve the...
Unit Commitment (UC) is a nonlinear mixed integer-programming problem. UC used to minimize the opera...
The unit commitment (UC) problem is a critical task in power system operation process. The units rea...
Abstract — Existing unit commitment methods have the problem of stopping at local optimum and slow c...
With the growing demand for electricity, the inability of governments to provide the necessary resou...
This paper proposes a solution to effectively determine Unit Commitment and generation cost using th...
Unit commitment(UC) is one of the essential activities in power systems planning and operation that ...
Solving the Unit Commitment problem (UCP) optimizes the combination of production units operations a...
Unit Commitment problem is an important optimizing task in power systems for daily operational plann...
This paper presents a heuristic approach to generate initial feasible solutions for the Unit Commitm...
Unit commitment problem (UCP) is classified as a mixed-integer, large combinatorial, high-dimensiona...
Due to the continuous increase of the population and the perpetual progress of industry, the energy ...
The aim of this work is to solve the unit commitment (UC) problem in power systems by calculating mi...
Abstract:- A solution to unit commitment using binary particle swarm optimization (BPSO) is presente...
This paper presents a Hybrid Particle Swarm Optimization (HPSO) to solve the Unit Commitment (UC) pr...
This paper presents a new approach via hybrid particle swarm optimization (HPSO) scheme to solve the...
Unit Commitment (UC) is a nonlinear mixed integer-programming problem. UC used to minimize the opera...
The unit commitment (UC) problem is a critical task in power system operation process. The units rea...
Abstract — Existing unit commitment methods have the problem of stopping at local optimum and slow c...
With the growing demand for electricity, the inability of governments to provide the necessary resou...
This paper proposes a solution to effectively determine Unit Commitment and generation cost using th...
Unit commitment(UC) is one of the essential activities in power systems planning and operation that ...
Solving the Unit Commitment problem (UCP) optimizes the combination of production units operations a...
Unit Commitment problem is an important optimizing task in power systems for daily operational plann...
This paper presents a heuristic approach to generate initial feasible solutions for the Unit Commitm...
Unit commitment problem (UCP) is classified as a mixed-integer, large combinatorial, high-dimensiona...
Due to the continuous increase of the population and the perpetual progress of industry, the energy ...