Liang Han scite author profile

Variations of load demands and generations bring multiple uncertainties to power system operation. Under this situation, power flows become increasingly uncertain, especially when significant distributed generations (DGs), such as wind and solar, are integrated into power systems. In this paper, a Complex Affine arithmetic based unbalanced Three-phase Forward-Backward Sweep power flow model (CATFBS) is proposed to study the impacts of uncertainties in unbalanced three-phase distribution systems. An index of Relative Influence of Uncertain Variables on Outcomes (RIUVO) is proposed for quantifying the impacts of individual uncertain factors on power flows and bus voltages.The CATFBS method is tested on the modified IEEE 13-bus system and a modified 292-bus system. Numerical results show that the proposed method outperforms the Monte Carlo method for exploring the impacts of uncertainties on the operation of distribution systems. The proposed CATFBS method can be used by power system operators and planners to effectively monitor and control unbalanced distribution systems under various uncertainties.

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Formation-containment control for second-order multi-agent systems with time-varying delays

Han

Dong

et al. 2016

Neurocomputing

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Distributed sliding mode control for time-varying formation tracking of multi-UAV system with a dynamic leader

Wang

Han

Dong

et al. 2021

Aerospace Science and Technology

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Liang Han

Finite-Time Time-Varying Formation Tracking for High-Order Multiagent Systems With Mismatched Disturbances

Distributed Time-Varying Formation Tracking Analysis and Design for Second-Order Multi-Agent Systems

Uncertainty Tracing of Distributed Generations via Complex Affine Arithmetic Based Unbalanced Three-Phase Power Flow

Formation-containment control for second-order multi-agent systems with time-varying delays

Distributed sliding mode control for time-varying formation tracking of multi-UAV system with a dynamic leader

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