A two-stage stochastic program is formulated for day-ahead commitment of thermal generating units to minimize total expected cost considering uncertainties in the day-ahead load and the availability of variable generation resources. Commitments of thermal units in the stochastic reliability unit commitment are viewed as first-stage decisions, and dispatch is relegated to the second stage. It is challenging to solve such a stochastic program if many scenarios are incorporated. A heuristic scenario reduction method termed forward selection in recourse clusters (FSRC), which selects scenarios based on their cost and reliability impacts, is presented to alleviate the computational burden. In instances down-sampled from data for an Independent S...
This thesis presents a scenario-reduction technique to solve stochastic security- constrained unit c...
We present a parallel implementation of Lagrangian relaxation for solving stochastic unit commitment...
Reliable power production is critical to theprofitability of electricity utilities. Power generators...
Uncertainties in the day-ahead forecasts for load and wind energy availability are considered in a r...
© 2016 IEEE. In power systems rife with uncertainty, stochastic unit commitment (SUC) models may be ...
relaxation for solving stochastic unit commitment subject to uncertainty in renewable power supply a...
Abstract—A number of scenario reduction techniques have been proposed to make possible the practical...
Probabilistic wind power scenarios constitute a crucial input for stochastic day-ahead unit commitme...
Climate change is a fact, a crisis threatening every country, economy and human. Toprevent this cris...
A challenging aspect of applying stochastic programming in a dynamic setting is to construct a set o...
In this second portion of a two-part analysis of a scalable computa- tional approach to stochastic u...
Unit commitment decisions made in the day-ahead market and during subsequent reliability assessments...
Stochastic programming is employed regularly to solve energy planning problems with uncertainties in...
Probabilistic wind power scenarios constitute a crucial input for stochastic day-ahead unit commitme...
Abstract: Given increasing penetration of variable generation units, there is significant interest ...
This thesis presents a scenario-reduction technique to solve stochastic security- constrained unit c...
We present a parallel implementation of Lagrangian relaxation for solving stochastic unit commitment...
Reliable power production is critical to theprofitability of electricity utilities. Power generators...
Uncertainties in the day-ahead forecasts for load and wind energy availability are considered in a r...
© 2016 IEEE. In power systems rife with uncertainty, stochastic unit commitment (SUC) models may be ...
relaxation for solving stochastic unit commitment subject to uncertainty in renewable power supply a...
Abstract—A number of scenario reduction techniques have been proposed to make possible the practical...
Probabilistic wind power scenarios constitute a crucial input for stochastic day-ahead unit commitme...
Climate change is a fact, a crisis threatening every country, economy and human. Toprevent this cris...
A challenging aspect of applying stochastic programming in a dynamic setting is to construct a set o...
In this second portion of a two-part analysis of a scalable computa- tional approach to stochastic u...
Unit commitment decisions made in the day-ahead market and during subsequent reliability assessments...
Stochastic programming is employed regularly to solve energy planning problems with uncertainties in...
Probabilistic wind power scenarios constitute a crucial input for stochastic day-ahead unit commitme...
Abstract: Given increasing penetration of variable generation units, there is significant interest ...
This thesis presents a scenario-reduction technique to solve stochastic security- constrained unit c...
We present a parallel implementation of Lagrangian relaxation for solving stochastic unit commitment...
Reliable power production is critical to theprofitability of electricity utilities. Power generators...