دانلود کتاب Sustainable Energy and Technological Advancements: Proceedings of ISSETA 2021 (Advances in Sustainability Science and Technology)

فهرست مطالب :

Committee Members
Preface
List of Reviewers
Contents
About the Editors
1 Impact of Reverse Power Flow Due to High Solar PV Penetration on Distribution Protection System
1 Introduction
2 Impact of High RE Penetration on the Protection System
2.1 Optimal Placement of PV Considering Voltage Stability
2.2 Reverse Power Flow Effects in Protection Coordination
2.3 Impact of Change in Fault Current Level on Protection Coordination
3 Case Study and Test Scenarios
4 Results and Discussion
4.1 Power Flow in 33 Bus System
4.2 Short-Circuit Current on the 33 Bus System
5 Conclusion
References
2 Modeling and Performance Evaluation of MPPT-Based PMSG Wind Energy Conversion System with Boost Converter in MATLAB/Simulink Environment
1 Introduction
2 Wind Energy Conversion System
2.1 Wind Turbine
2.2 Permanent Magnet Synchronous Generator
3 DC–DC Converter
4 Maximum Power Point Tracking
4.1 Hill Climbing Method of MPPT
5 Results and Discussion
References
3 Optimal Scheduling of Grid Connected PV System with Battery Energy Storage
1 Introduction
2 Methodology
2.1 Modified Algorithm for Optimal Scheduling of Grid Connected PV System with BES
2.2 Determination of UI Cost
2.3 Optimal Power Flow Using MATPOWER
3 System Description
3.1 PV System with Battery Energy Storage
3.2 Power Generated by PV Panel
3.3 Frequency Calculation
4 Results and Discussion
5 Conclusions
References
4 Seven-Level Switched-Capacitor-Based Inverter Topology with Reduced Components for Renewable Energy System
1 Introduction
2 Working Pattern of Proposed System
2.1 Circuit Operation Analysis
3 Comparative Analysis of Presented Design and Other Recent Design
4 Simulation Results
5 Conclusion
References
5 Reference Tracking by Designing State Estimation Observer for Generalized Predictive Control of a Single Inductor Dual Output Buck Converter
1 Introduction
2 Generalized Predictive Control
3 Convergence of Control Law
4 Observer Design for State Estimation
5 Numerical Simulation Results
6 Conclusion
References
6 Different Oscillator-Controlled Parallel Three-Phase Inverters in Stand-Alone Microgrid
1 Introduction
2 System Description
3 Control strategies
3.1 Nonlinear Deadzone VOC (NDZVOC)
3.2 Nonlinear Vanderpol VOC (NVPVOC)
4 Results and Discussion
5 Conclusion
References
7 Generalized Hybrid Symmetrical and Asymmetrical Multilevel Inverter Topology with Reduced Number of Switches
1 Introduction
2 Proposed Hybrid Multilevel Inverter Topologies
2.1 For Asymmetrical Nine-Level Inverter Configuration
2.2 For Symmetrical Seven-Level Inverter Topology
3 Control PWM Strategies of the Proposed MLI
4 Comparison Between Proposed MLIs and Traditional MLIs Topologies
5 Results
5.1 For Simulation and Experimental Results
6 Conclusion
References
8 A New Reduced Device Count of Three-Phase Three-Level Switched Capacitor-Based Grid-Connected Inverter with LCL Filter
1 Introduction
2 Operation and Control Strategy of Proposed GCI Topology
2.1 Operation
2.2 Control Strategy
3 Comparative Study
4 Simulation Results
5 Conclusion
References
9 Reduction in Harmonics for PV-Based Reduced Device Count Multilevel Inverter Wıth Genetic Algorithm
1 Introduction
2 Modeling of PV Cell
3 Modeling of Boost Convertors
4 Incremental Conductance Method
5 PV 7L-CHB MLI Topology
6 PV 7L-RDC MLI Topology
7 Calculation of THD Using Optimization Algorithm
8 Genetic Algorithm (GA)
9 Results and Analysis
10 Conclusion
References
10 Design and Implementation of 165 W Current-Fed Push–Pull Converter for Military and Space Applications
1 Introduction
2 Specifications of the Converter
3 Circuit Design and Function
3.1 Pulse Generation Circuits
3.2 MOSFET Selection and Design for Buck Stage
3.3 Inductor Design
3.4 MOSFET Selection and Design for Push–Pull Stage
3.5 Push–Pull Stage Transformer
3.6 MOSFET Selection for Synchronous Rectification Stage
3.7 Overlap Time
4 Experimental Results and Discussions
4.1 Efficiency
4.2 Ripple Voltage
4.3 Line and Load Regulations
4.4 Experimental Waveforms
5 Conclusion
References
11 A New Single-Phase Five-Level Self-balanced and Boosting Grid-Connected Switched Capacitor Inverter with LCL Filter
1 Introduction
2 Operation of Proposed GCI Topology and Control Schemes
3 Comparative Study
4 Simulation Results
5 Conclusion
References
12 Comparative Analysis of Different Control Techniques Implementation in UPQC for Power Quality Improvement
1 Introduction
2 Design of the Proposed System
3 Different Control Approach
3.1 Control Algorithms of Series Part of the UPQC
3.2 Control Algorithms of Shunt Part of the UPQC
4 Simulation Results and Comparative Analysis
4.1 Series Part of UPQC Using UVTG Method
4.2 Shunt Part of UPQC with Different Control Approach
5 Conclusions
References
13 Design and Implementation of a Control for Solar PV Fed Unified Power Quality Conditioner
1 Introduction
2 Configuration of Grid Connected PV-UPQC System
3 Design of Grid-Connected PV-UPQC System
3.1 PV Array Parameters
3.2 DC Link Voltage
3.3 DC Link Capacitor
3.4 Interfacing Inductor for Shunt VSC
3.5 Series Transformer
4 Control Scheme of Grid-Connected PV-UPQC System
4.1 Control of Series VSC
4.2 Control of Shunt VSC
5 Simulation Results
5.1 System Performance During Grid Voltage Sag and Swell
5.2 System Performance During Irradiation Change
5.3 Comparative Performance of MSOGI and SOGI
6 Conclusions
References
14 Power Quality Improvement in Distribution Network Using PV Integrated DSTATCOM
1 Introduction
2 DSTATCOM Principle
2.1 Power Quality Issues
2.2 PV Energy Storage System
2.3 PV Integration with Distributed Generation
2.4 Detailed System Description
2.5 Control Scheme
3 Results and Simulation
4 Conclusion
References
15 Instantaneous Reactive Combined Loss Componenet Power Theory-Based Hybrid Filter for Power Quality Improvement in Distribution System
1 Introduction
2 Description of the Proposed System with Controller
3 Improved Instantanou Reactive Power Theory
4 Simulation Results and Comparative Analysis
4.1 Case 1-Diode Bridge Rrectifier and R-L Load
4.2 Case 2-Diode Bridge Rrectifier and R-L and R Load
4.3 Case 3-Diode Bridge Rrectifier and R and C Load
5 Experimental Validation
6 Conclusions
7 Appendix
References
16 Space Vector Pulse Width Modulation-Based DSTATCOM for Harmonic Compensation
1 Introduction
2 Model Configurations
3 Controller Design
3.1 Mathematical Modeling of Modified Instantaneous Reactive Power Theory (M-IRPT)
4 Controller Design for DSTATCOM Using SV-PWM Technology
5 Simulation Results
6 Experimental Results
7 Conclusion
References
17 PV-Fed DC Link Voltage Control Techniques Implementation in Shunt Active Filter
1 Introduction
2 Proposed System
3 Control Techniques in the Proposed System
3.1 MPPT Algorithm Implementation in PV Source
3.2 PQ Theory Implementation in the Proposed Filter
4 Results and Analysis
5 Conclusions
References
18 Detection and Classification of Transmission Line Faults Using ANN
1 Introduction
2 Proposed System
3 Methodology
4 Artificial Neural Network
4.1 Characteristics
4.2 Backpropagation Algorithm (BPNN)
5 Fault Detection Using ANN
6 Fault Classification Using ANN
7 Result and Implementation
8 Conclusion
References
19 A DWT-RNN-Assisted Intelligent Differential Protection Scheme for Grid-Tied and Islanded DC Microgrid
1 Introduction
2 Fault Detection Method for DC Microgrid
2.1 Model Description
3 Proposed Fault Detection Method
3.1 Fault Analysis
3.2 Current-Differential Protection Scheme
4 Results and Discussions
4.1 Case 1: Validation of System Performance Under Pole-to-Ground Fault Scenarios During Grid-Tied DC Microgrid
4.2 Case 2: Validation of System Performance Under Pole-to-Ground Fault Scenarios During Islanded DC Microgrid
5 Conclusion
References
20 Application of Differential Evolution to Determine Single-Stage Impulse Circuit Parameters
1 Introduction
2 Application of DEOA to Evaluate SSIGC Parameters
3 Results from Proposed Methodology
4 Results Analysis and Validation
5 Conclusion
References
21 Frequency Control of GWO-Optimized Two-Area Microgrid with TIDF-II, I-PD and I-TD
1 Introduction
2 Two-Area Configuration
2.1 Biogas Turbine Generator
2.2 Tidal Power Generator
2.3 Archimedes Wave Energy Conversion Generator
3 Controller Design Methodology
4 GWO Algorithm
5 Result and Discussions
6 Conclusions
References
22 A Review on Control Methods Used in Renewable Energy Source-Fed Induction Motors
1 Introduction
2 Conventional Control Techniques Used in RES-Fed IM
3 Sensorless Control Techniques Used in RES-Fed IM
3.1 Frequency Signal Injection Method
3.2 Model Reference Adaptive System (MRAS)
3.3 Sliding Mode Observer (SMO)
3.4 Extended Kalman Filter (EKF)
3.5 Adaptive Flux Observer (AFO)
3.6 Artificial Neural Network (ANN)
3.7 Fuzzy Logic Control (FLC)
4 Conclusion
References
23 Solar PV-Powered SRM Drive and Its Speed Control and Torque Ripple Minimization
1 Introduction
2 PV Energy
3 Mathematical Modeling of SRM Drive System
4 Control of SRM
5 Overview of Cosine Adapted Modified Whale Optimisation Algorithm
5.1 Bubble Net Strategy of Attacking (Exploitation Phase)
6 Operational Analysis of CamWOA Technique
6.1 Analysis of Functions (p1 ( y )–p7 ( y ))
7 Speed Control and Reducing Torque Ripple of SRM
8 Objective Function Formulation
9 Simulation in Time Domain
10 Conclusion
References
24 A Linear Quadratic Integral Regulator for a Variable Speed Wind Turbine
1 Introduction
2 Basic Structure of Wind Turbine
3 LQIR Design for Wind Turbine
3.1 Mathematical Formulation of Error Dynamics
3.2 Control Dynamics
4 Results and Discussions
4.1 Simulation of Results with Slowly Varying Wind Speed
4.2 Simulation Results of Various Parameters Using LQIR Controller
5 Conclusions
References
25 Output Power Tracking and Oscillation Control of a Doubly Fed Induction Generator-Based Wind Energy Conversion System Using Adaptive Neuro-Fuzzy Algorithm
1 Introduction
2 Description of System with Dynamic Modelling
3 Multiple ANFIS Controller
4 Simulation Results and Discussion
5 Conclusion
References
26 Demand Response Management in a Smart Grid with Multiple Users and Utility Companies
1 Introduction
2 Modeling of the System
3 Utility User Interaction Stackelberg Game
3.1 User Side Analysis
3.2 Utility Side Analysis
3.3 Stackelberg Equilibrium
3.4 Existence and Uniqueness of Stackelberg Equilibrium
4 Distributed Algorithm
5 Results
5.1 Stackelberg Game
5.2 Distributed Algorithm
6 Conclusion
References
27 Combined Environmental and Economic Dispatch in the Presence of Sustainable Sources Using Particle Swarm Optimization with Adaptive Weighted Delay Velocity
1 Introduction
2 Optimal Load Dispatch Problem Formulation
2.1 Problem Formulation for Economic Dispatch (ED)
2.2 Problem Formulation for Emission Dispatch
2.3 Problem Formulation for CEED
3 CEED Using PSO-AWDV Technique
3.1 Formulation of PSO with Adaptive Weighted Delay Velocity
4 Case Studies and Simulation Results
4.1 Ten Thermal Units Without VPE: Case 1
4.2 Ten Thermal Units with VPE: Case 2
4.3 Ten Thermal Units with VPE + Wind Plant: Case 3
4.4 Ten Thermal Units with VPE + Solar Plant: Case 4
4.5 Ten Thermal Units with VPE + Wind + Solar Plant: Case 5
5 Conclusion
References
28 Performance Analysis of Controlled Vehicle-To-Grid Charging in 30 Bus Power System for Electric Vehicle
1 Introduction
1.1 Objective of This Study
2 Modellıng V2G Envıronment
2.1 Modeling of V2G Load
2.2 Newton Raphson Load Flow with 30 Bus System
2.3 Load Flow Analysis by Newton–Raphson Method
3 Daily Load Curve Situation, Parameters, and Charging Limits
3.1 Case Study
3.2 Parking Pattern Throughout the day
3.3 Allowed Charging Levels and V2G Support During Controlled Charging
4 Results and Discussions
5 Conclusion
References
29 Automatic Generation Control for Hybrid Power System in Deregulated Environment
1 Introduction
2 AGC for Hybrid Power System with Three Areas
3 Control Design for AGC System
4 Results and Discussion
5 Conclusion
References
30 Control of Grid-Connected Photovoltaic System Using Enhanced PLL (EPLL) Technique
1 Introduction
2 Proposed System Structure
2.1 PV Array Design
2.2 Boost Converter—DC/DC
2.3 DC Capacitor Voltage
2.4 A.C Inductor
2.5 DC Link Capacitor
2.6 PV Generation with Proposed MPPT
3 Controller Design
3.1 Control of Voltage Source Inverter
3.2 Enhanced Phase-Locked Loop (EPLL) System
3.3 Components Measurement Both Active and Reactive
3.4 Active Power Components of the Grid Current
3.5 Hysteresis Current Control
4 Simulation Results and Comparative Analysis
4.1 Results of Solar PV Module
4.2 Performance with Balanced Resistive (R) Load
4.3 Performance with Balanced Resistive-Inductive (R-L) Load
5 Conclusions
References
31 Voltage- and Current-Based Hysteresis Controller-Fed Series Active Filter to Compensate Voltage Sag Problem
1 Introduction
2 Design of the Proposed Filter
3 Control Techniques
3.1 Case 1—UVTG and Hysteresis Voltage Controller
3.2 Case 2—UVTG and Hysteresis Current Controller
4 Result and Analysis
4.1 UVTG and Hysteresis Voltage Controller
4.2 Case 2—UVTG and Hysteresis Current Controller
5 Conclusions
References
32 Comparative Analysis of Fuzzy Logic and Synchronous Reference Frame Controlled LVRT Capability Enhancement in Wind Energy System Using DVR and STATCOM
1 Introduction
2 Doubly Fed Induction Generators
3 Low-Voltage Ride Through Technique
4 Dynamic Voltage Restorer Control and Operation
5 STATCOM Control and Operation (Static Synchronous Compensator)
6 Fuzzy Logic Controller
7 Synchronous Reference Frame Theory
8 Simulink Results (Comparison Using DVR and Statcom)
9 Conclusion
References
33 Genetic Algorithm-Based Load Frequency Control of a Grid-Connected Microgrid in Presence of Electric Vehicles
1 Introduction
1.1 Contribution
2 System Modellıng
3 Genetic Algorithm
4 Simulation Results and Analysis
4.1 Performance Analysis of PI, PID and GA-PID Controllers Without and with EV Aggregators
4.2 Comparison of the System Performance at Random Load Pattern
4.3 Susceptibility Analysis of the Proposed Controller
5 Conclusıons
Appendix
References
34 Multi-area Load Frequency Control Using a Novel PID-Based Sliding Mode Controller
1 Introduction
2 Proposed Sliding Mode Controller
2.1 Output Feedback Sliding Mode Controller
2.2 Teaching–Learning-Based Optimization (TLBO) Algorithm
2.3 Objective Function
3 Simulation Results
3.1 Performance Analysis
4 Conclusion
Appendix
References
35 An EPO Tuned Cascaded 3DOFPIDN-FFOPID Controller for Frequency Regulation in DGR-FACTs Integrated Power System
1 Introduction
2 Proposed Model
2.1 Three Area System
2.2 Controller Design
2.3 Optimization Technique
3 Simulation Results
4 Conclusion
Appendix
References
36 Modified Particle Swarm Optimized Load Frequency Control of Renewable Energy Sources-Based Integrated Power Systems
1 Introduction
2 Mathematical Modelling
2.1 Thermal Generator Model
2.2 Wind Turbine Model
2.3 Photovoltaic Array Model
2.4 Load Frequency Control of Two Area
2.5 Control Strategy
3 Overview of Modification in Particle Swarm Optimization
4 Results and Observation
5 Conclusion
Appendix
References
37 Load Frequency Control of a Four-Area Interconnected Power System Using JAYA Tuned PID Controller and Derivative Filter
1 Introduction
2 Interconnected System
3 PID Controller
4 PID Controller with Derıvatıve Filter (PIDN)
5 Particle Swarm Optimization
6 JAYA Algorithm
7 Result and Discussion
8 Conclusion
References
38 Model Predictive Control for Load Frequency Regulation in Power Systems Using a Disturbance Observer
1 Introduction
2 The Multi-area Power System Mathematical Model
2.1 Dynamics of ith Area Power System Model
3 NDO-Based Offset-Free MPC
3.1 Nonlinear Disturbance Observer Design
4 Offset-Free Model Predictive control
5 Load Frequency Control Using NDO-Based MPC
6 Results and Dıscussıons
7 Conclusion
References
39 Design and Development of a Novel Reverse Polarity Tester for EV Application
1 Introduction
2 Reverse Polarity Tester
2.1 Necessity of Reverse Polarity Tester
3 Design Procedure
3.1 IGBT Selection
3.2 IGBT Driver Selection
3.3 Importance of Gate Resistors
3.4 Gate Voltage Requirement
3.5 Input Capacitor Selection
3.6 Output Inductor Selection
4 Simulation
4.1 Simulation Results-Ltspice
4.2 Simulation Results-Proteus
5 Conclusion
References
40 Design of an EV Charging System with Improved Performance
1 Introduction
2 Electric Vehicles (EVs)
2.1 Types of EVs
2.2 Charging of EVs
2.3 EVs Connectors
3 Methodology for Designing of EV Charging System
3.1 Battery System Design
3.2 Buck–Boost Converter
3.3 Methodology Used with Cuk Converter
3.4 Methodology Used with Sepic Converter
4 Results and Discussion
5 Conclusion
References
41 Cell Balancing and State of Charge Estimation of Lithium-Ion Cells for Electric Vehicle Applications
1 Introduction
2 Cell Balancing and SoC Estimation
3 Design and Specification
4 Simulation
4.1 Passive Cell Balancing
4.2 Simulation Model for SoC Estimation by Coulomb Counting Technique
4.3 Simulation Results
5 Hardware Setup and Results
6 Conclusion
References
42 Modelling and Analysis of an Electronic Differential-Based Traction Control System for Distributed Drive Electric Vehicle
1 Introduction
2 Design Principle
2.1 Electronic Differential
2.2 Traction Control
2.3 Control Mechanism
3 Torque Allocation Model
4 Model Simulations
5 Results and Discussions
6 Conclusions
References
43 Analysis of Five-Phase Surface PMSM for Application in Electric Vehicles
1 Introduction
2 Phase Sequence in Five-Phase Power Supply
3 Mathematical Model of Five Phase PMSM
4 Simulation Result
5 Conclusion
References
44 A Novel Application of BESO-Based Isolated Micro-grid with Electric Vehicle
1 Introduction
2 Component Modelling
2.1 Solar Tower
2.2 Wind Generating Unit (WGU)
2.3 Aqua Electrolyser (AE)
2.4 Fuel Cell (FC)
2.5 Diesel Generator (DG)
2.6 Flywheel Energy Storage
2.7 Battery Energy Storage
2.8 Electric Vehicle
3 Proposed Descriptive Configuration of Micro-grid
4 Controller Design
5 Algorithm (Bald Eagle Search Optimization)
6 Result and Discussions
7 Sensitivity Analysis
8 Conclusion
References
45 Frequency Control of SPV/Wind/Biogas/Biodiesel-Based Microgrid Using Fuzzy-Aided PID Controllers
1 Introduction
2 Microgrid Modeling
3 Controller Design
4 Salp Swarm Algorithm
5 Objective Function
6 Result and Analysis
6.1 Condition 1
6.2 Condition 2
6.3 Condition 3
6.4 Condition 4
6.5 Condition 5
7 Conclusion
References
46 Planning of Power Loss and Fuel Cost Minimization by Deployment of DERs Using Evolutionary Algorithm
1 Introduction
2 Representation of Fitness Characteristics
2.1 Active and Reactive Power Loss (Size Selection of DERs)
2.2 Fuel Cost (Economic Load Dispatch Problem)
2.3 Constraints
3 Pollination Algorithm for Getting Location and Sizing of DERs
4 Result and Discussion
4.1 Selection of Location and Sizing of Distributed Energy Resources Using Minimum Loss Methodology
4.2 Economic Fuel Cost Analysis Using FPA
4.3 Superiority of FPA with Minimum Loss Methodology
5 Conclusion
References
47 Investigation on Stability of DC Microgrid for Large-scale Electric Vehicle Charging Station Deployment
1 Introduction
2 System Description and Mathematical Modeling
3 Small Signal Stability Analysis
4 Simulation Experiment and Results
5 Conclusion
References
48 Designing of DC Microgrid with Fast Charging Converter and Control for Solar PV, Fuel Cell and Battery-Integrated Charging Station
1 Introduction
2 Microgrid Arrangement
2.1 T-Source Converter
2.2 Solar PV and Fuel Cell
3 Simulation Model
4 Result Analysis
5 Dynamic Response
6 Conclusion
References
49 Location Estimation of Grid Electric Vehicle Aggregator in the Grid System Using Optimization Technique
1 Introduction
2 Location of GEV Aggregation
3 Proposed Optimization Technique
3.1 Genetic Algorithm
3.2 PSO Algorithm
3.3 Implementation of Artificial Bee Colony Algorithm
4 Results and Analysis
5 Conclusions
References
50 Power Management and Control in Microgrid System
1 Introduction
2 System Modeling
3 Proposed Control Algorithm
3.1 Power Management Control
3.2 Grid-interfacing Inverter Control
4 Results and Discussions
4.1 Simulation Results in Grid-connected Mode
4.2 Simulation Results in Islanded Mode
5 Conclusion
References
51 A Survey of Cyber Security in Smart Microgrid
1 Introduction
2 Smart Microgrid Elementary Network Architecture
2.1 System Component or Physical System
2.2 Network Component
3 Smart Microgrid Threat and Vulnerabilities
4 Attackers and Types of Attacks
5 Detection
5.1 Detection of FDIA by Computing Fourier Singular Values (FSV)
5.2 Detection of FDIA Using Blockchain Technology and Hilbert–Huang Transform
5.3 Detection of FDIA Using Deep Learning
5.4 Detection of FDIA Using Cooperative Vulnerability Factor
6 Conclusion
References
52 Data-Driven Event Detection with PMU Data Using a Novel Composite Deep Learning Technique
1 Introduction
2 Related Work
3 Proposed Composite Deep Learning Model
4 Results and Discussion
5 Conclusions
References
53 Prediction of Solar Power Using Linear Regression
1 Introduction
2 System Description
2.1 Solar System Setup
2.2 Evaluation Metrics
3 Linear Regression
3.1 Introduction to Linear Regression
3.2 Scenario
4 Results and Discussion
4.1 Discussion
5 Conclusions
References
54 Fuzzy Logic Controller for HVAC System of Passenger Car for Cooling Application
1 Introduction
2 Mathematical Modeling
2.1 Vehicle Cabin
2.2 Evaporator
2.3 Compressor
2.4 Condenser
2.5 Thermal Expansion Valve
3 Fuzzy Logic Control
3.1 Fuzzification
3.2 Rule Base
3.3 Inference Engine
3.4 Defuzzification
4 Controller Design
5 Simulation/Discussion
6 Conclusion
References
55 Sustainable Farming Using Drone with Seed Dropper
1 Introduction to Unmanned Aerial Vehicle
2 Background
3 Components to Build the Quadcopter
3.1 Frame
3.2 Motor
3.3 Battery
3.4 Arduino UNO Micro Controller
3.5 Electronic Speed Controller (ESC)
3.6 Propellers
3.7 Flight Controller (FC)
3.8 Arduino Pilot
3.9 Transmitter
4 Design of Seed Dropper
4.1 Seed Container
4.2 Gear
4.3 Base Container
5 Design Calculation
5.1 Total Weight Estimation
5.2 Thrust Required ( Fr )
5.3 Power of Motor (P)
5.4 Thrust Generated (Fg)
5.5 Torque Required (Tr)
5.6 Torque Generated (Tg)
5.7 Rotor Loading
5.8 Endurance (t)
6 Result
7 Conclusion
References
56 Power System Parameter Estimation Using Signal Processing Techniques
1 Introduction
2 Proposed Recursive Least Square Algorithm (RLS)
3 Proposed Kalman Filtering (KF) Method
4 Simulation Results and Analysis
5 Conclusions
References
57 Indoor PV-Based Power Management System for Connected Lighting and Shading Control
1 Introduction
2 Experimental and Simulation Approaches
2.1 Connected Lighting and Shading Control
2.2 Power Management System
3 Result Analysis
4 Conclusion and Future Scope
References
58 Doppler Velocity Estimation Employing mHDFT Phase-Locked Loop
1 Introduction
2 System Model
2.1 mHDFT-Based Quadrature Detector
2.2 Moving Averager
2.3 PI Controller
2.4 Sampling Pulse Generator
3 Simulation and Results
3.1 Velocity Estimation
3.2 Noise Performance
4 Conclusion
References
59 Efficiency Optimization of Surface and De-centered PMSM with Silicon Steel and Amorphous Iron Materials for E-rickshaw
1 Introduction
2 Dynamics of E-rickshaw
2.1 Rolling Resistance Force
2.2 Aerodynamic Drag Force
2.3 Climbing Force
2.4 Acceleration Force
3 Design of PMSM
3.1 Main Dimensions of PMSM
3.2 Stator Design
3.3 Rotor Design
3.4 Design Values of PMSM
4 Efficiency Optimization of PMSM with SS and AI Materials
5 Mathematical Modeling of PMSM
6 Conclusion
References
60 Time Series Forecasting Model for Chaotic Fractional-Order Rössler System
1 Introduction
2 Characteristics of Fractional-Order Rössler System
3 Development of Proposed Time Series Forecasting Model
3.1 Training Model
3.2 Proposed Forecasting Model
3.3 Performance Metrics
4 Results and Analysis
4.1 Data Preparation
4.2 In-Sample Prediction Performance
4.3 Out-of-Sample Prediction Performance
5 Conclusion
References
61 Application of Fractional-Order Signal Filtering Techniques for Dead-Time Process Plants
1 Introduction
2 Methodology
2.1 Controller Selection
2.2 Filtering
3 Results and Discussion
3.1 Process Model Selection
3.2 FOPDT Process Model
3.3 SOPDT Process Model
4 Conclusion
References
62 A Variant of Rossler Type-IV Chaotic System with a Line of Equilibria and Coexisting Attractors
1 Introduction
2 Introduction to 4D Chaotic System
3 Complex Dynamic Behaviours of 4D Chaotic System
3.1 Lyapunov Spectrum and Dimension Analysis
3.2 Bifurcation Diagram Analysis
3.3 Analysis of Coexisting Attractors
4 Conclusion and Future Scope
References
63 New Performance Evaluation Metrics for Outlier Detection and Correction
1 Introduction
2 Proposed Performance Evaluation Metrics
3 Numeric Analysis and Validation
4 Conclusion
References
64 Time Series Decomposition Techniques for Renewable Generation Applications
1 Introduction
2 Decomposition-Based Data Correction
2.1 Denoising
2.2 Missing Value Updation
2.3 Outlier Detection and Their Apt Correction
3 Adaptive Decomposition for Renewable Generation Forecasting
3.1 Challenges of Decomposition for Forecasting Application
3.2 Selection of Optimal IMF Set and Compatible Forecasting Model
3.3 Review of Application of Decomposition Methods to Different Time Resolution Data
3.4 Scopes for Improving Forecasting Accuracy
4 Conclusion
References
Author Index