eigenvalues and eigenfunctions; flexible AC transmission systems; frequency stability; particle swarm optimisation; phase control; power capacitors; power system control; power system interconnection; power system stability; AGC system; CPLC; FACTS; FOPLC; IPSO algorithm; TCSC; automatic generation control system; classical phase lead-lag controller; eigenvalue analysis; flexible ac transmission system structure; fractional order phase lead-lag controller; frequency stability improvement; governor dead band; improved particle swarm optimization algorithm; integral load frequency controller; interconnected multisource power system; interconnected multisource realistic power system; power system control; thyristor controlled series capacitor; time domain simulations; Damping; Frequency control; Oscillators; Power capacitors; Power system dynamics; Power system stability; Thyristors; FOMCON; Fractional order controller (FOC); Fractional order phase lead-lag controller (FOPLC); TCSC-AGC; classical phase lead-lag controller (CPLC); frequency stability;
机译:使用基于多目标PSO的分层ANFIS控制器-TCSC增强互连多电源系统的动态稳定性
机译:使用基于多目标PSO的分层ANFIS控制器-TCSC增强互连多电源系统的动态稳定性
机译:利用TCSC和SMES机制的多区域多源互联电力系统频率稳定
机译:基于FOPLC的TCSC与AGC协调,提高互联多源电力系统的频率稳定性
机译:基于事实的稳定器,用于增强弱互连电源系统的动态稳定性
机译:PSS和TCSC阻尼控制器协调设计的回溯搜索算法提高了电力系统的稳定性
机译:现实互联多源电力系统aGC中TCsC与TCps和sssC控制器的性能比较
机译:互联系统中水电站的最优前馈功率频率控制