Fuzzy neural network based voltage stability evaluation of power systems with SVC
Applied Soft Computing
Loadability margin calculation of power system with SVC using artificial neural network
Engineering Applications of Artificial Intelligence
Optimal dispatch & congestion management using facts devices in deregulated systems
ICAI'05/MCBC'05/AMTA'05/MCBE'05 Proceedings of the 6th WSEAS international conference on Automation & information, and 6th WSEAS international conference on mathematics and computers in biology and chemistry, and 6th WSEAS international conference on acoustics and music: theory and applications, and 6th WSEAS international conference on Mathematics and computers in business and economics
Study of power system stability using thyristor controlled - interphase power controlle
ACMOS'05 Proceedings of the 7th WSEAS international conference on Automatic control, modeling and simulation
An advanced FMRL controller for FACTS devices to enhance dynamic performance of power systems
International Journal of Automation and Computing
Design of artificial neuron controller for STATCOM in dSPACE environment
Applied Soft Computing
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The operation and components of the flexible AC transmission system (FACTS) are described. FACTS, designed to overcome the limitations of the present mechanically controlled AC power transmission systems, uses reliable, high-speed power electronic controllers. Its benefits are examined. These include greater control of power, so that it flows on the prescribed transmission routes; secure loading of transmission lines to levels nearer their thermal limits; greater ability to transfer power between controlled areas, so that the generation reserve margin may be reduced; prevention of cascading outages by limiting the effects of faults and equipment failure; and damping of power system oscillations