Keyphrases
Industrial Processes
100%
Control Signal
100%
Controller Parameters
100%
Proportional Integral
100%
Proportional Integral Controller
100%
Tuning Methods
100%
Micro-cogeneration System
100%
Controller
66%
Non-dominated Sorting Genetic Algorithm (NSGA-II)
66%
Time Weight
66%
Tuning Rules
66%
Slowly Varying
66%
Integral Time
66%
System Modeling
33%
Actuator
33%
Control Effort
33%
Cooling Water
33%
Efficient Energy
33%
Control Theory
33%
Programmable Logic Controller
33%
Control Problem
33%
Damping Ratio
33%
MATLAB Simulink
33%
Pareto Optimal Solution
33%
Proton Exchange Membrane Fuel Cell (PEMFC)
33%
Control System Design
33%
Safe Control
33%
System Response
33%
Cell-based
33%
Optimization Procedure
33%
Clean Energy Sources
33%
Iterative Optimization
33%
Sudden Change
33%
Controller Tuning
33%
Absolute Error
33%
Temperature Control System
33%
Trade-off Solutions
33%
Reliable Control
33%
Hydrogen Production Process
33%
Thermal Capacity
33%
Production Process Model
33%
Wear Effect
33%
Evolutionary multi-objective Optimization
33%
Analytical Tuning
33%
Control Practices
33%
Critically Damped
33%
Industrial Control
33%
Non-oscillatory
33%
Oscillatory Systems
33%
Hydrogen Production Unit
33%
Flow Rate Control
33%
Output Response
33%
Digital Control
33%
Diverse Solutions
33%
Wear-and-Tear
33%
Overall System
33%
Tear Effect
33%
Fast Change
33%
Damped Response
33%
Engineering
Controller Parameter
100%
Cogeneration System
100%
Integral Controller
100%
Control Signal
100%
Non-Dominated Sorting Genetic Algorithm II
66%
Flow Rate
33%
Simulation Result
33%
Great Importance
33%
Genetic Algorithm
33%
Energy Source
33%
Multiobjective Optimization
33%
Pareto Optimal Solution
33%
Lifecycle
33%
Damping Ratio ζ
33%
Model Parameter
33%
Control System Design
33%
System Response
33%
Clean Energy
33%
Optimisation Procedure
33%
Parameter Set
33%
Absolute Error
33%
Oscillatory
33%
Controller Tuning
33%
Rate Control
33%
Hydrogen Production
33%
Hydrogen Production Process
33%
Proton-Exchange Membrane Fuel Cells
33%
Industrial Control
33%
Thermal Capacity
33%
Optimality
33%
Production Unit
33%
Digital Control
33%
Output Response
33%
Flow Velocity
33%