A review of PID control, tuning methods and applications
This article provides a study of modern and classical approaches used for PID tuning and its
applications in various domains. Most of the control systems that are implemented to date …
applications in various domains. Most of the control systems that are implemented to date …
A PID-incorporated latent factorization of tensors approach to dynamically weighted directed network analysis
A large-scale dynamically weighted directed network (DWDN) involving numerous entities
and massive dynamic interaction is an essential data source in many big-data-related …
and massive dynamic interaction is an essential data source in many big-data-related …
Enhancing the conventional controllers for load frequency control of isolated microgrids using proposed multi-objective formulation via artificial rabbits optimization …
Isolated microgrids (IMGs) power remote areas. However, IMG may lower the frequency
stability and increase frequency excursions with low system inertia. Load frequency …
stability and increase frequency excursions with low system inertia. Load frequency …
[HTML][HTML] A novel cascade-loop controller for load frequency control of isolated microgrid via dandelion optimizer
In fast-growing isolated microgrids (IMGs), load frequency control (LFC) ensures optimal
power quality for end users. Stochastic grids, notably with renewable energy resources …
power quality for end users. Stochastic grids, notably with renewable energy resources …
A bi-population cooperative optimization algorithm assisted by an autoencoder for medium-scale expensive problems
This study presents an autoencoder-embedded optimization (AEO) algorithm which involves
a bi-population cooperative strategy for medium-scale expensive problems (MEPs). A huge …
a bi-population cooperative strategy for medium-scale expensive problems (MEPs). A huge …
A state-of-the-art review on recent load frequency control architectures of various power system configurations
S Kumari, PK Pathak - Electric Power Components and Systems, 2024 - Taylor & Francis
Load frequency management (LFM) work has become more difficult due to hybrid power
systems. These power systems are responsible for increased power quality issues …
systems. These power systems are responsible for increased power quality issues …
Enhanced coyote optimizer-based cascaded load frequency controllers in multi-area power systems with renewable
Recently, the renewable energy has been occupied a lot of attention around the world since
it presents cheap and sustainable energy. Consequently, its presence in power systems …
it presents cheap and sustainable energy. Consequently, its presence in power systems …
A chaotic local search-based particle swarm optimizer for large-scale complex wind farm layout optimization
Wind energy has been widely applied in power generation to alleviate climate problems.
The wind turbine layout of a wind farm is a primary factor of impacting power conversion …
The wind turbine layout of a wind farm is a primary factor of impacting power conversion …
State‐observer based IDD controller for concurrent frequency‐voltage control of a hybrid power system with electric vehicle uncertainties
The present paper proposes a novel state‐observer (SO) based integral‐double‐derivative
controller for simultaneous frequency‐voltage control operation of a hybrid power system …
controller for simultaneous frequency‐voltage control operation of a hybrid power system …
A novel multi-objective tuning formula for load frequency controllers in an isolated low-inertia microgrid incorporating PV/wind/FC/BESS
Load frequency control (LFC) is vital for isolated microgrids (IMGs), especially when
uncertain renewable energy sources (RESs) are present. Enhancing LFC schemes relies …
uncertain renewable energy sources (RESs) are present. Enhancing LFC schemes relies …