283 Result(s)
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Chapter
Equivalent Circuit Modelling and Analysis
In this chapter, an equivalent circuit model is derived for analysis of the torque-slip characteristics and efficiency of induction machines. This model is not intended for transient dynamic analysis. A more r...
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Chapter
Induction Machine Dynamics Analysis
This chapter presents the root locus of the induction machine model with the associated dam** ratio when the parameters of frequency \(f_s\) ...
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Chapter
Vector Torque Control
This chapter presents the well-known vector control approach to control the ACIM torque accurately and dynamically. Various control strategies as well as their performances are analyzed and discussed in this c...
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Chapter
Rotor Field Oriented Control and Senseless Control
This chapter presents the direct rotor field oriented control. The core of the flux oriented control is the estimation of the relevant ACIM parameters, including the rotor flux, rotor resistance and rotor indu...
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Chapter
Introduction and Preview
The coexistence of multiple-time scales dynamics phenomena and sudden changes in system structure and parameters are frequently encountered in engineering control systems. Generally, these control systems can ...
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Chapter
Control of Linear Systems Case
This chapter investigates the \(H_{\infty }\) H ∞ ...
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Chapter
Synchronization of Complex Networks Case
This chapter gives the \(H_{\infty }\) H ∞ ...
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Chapter
Stabilization of Nonlinear Systems Case
This chapter focuses on the issue of nonlinear semi-Markov singularly perturbed systems (SPSs) using a fuzzy model-based approach. This chapter uses semi-Markov Kernel (SMK) to calculate controller gains by us...
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Chapter
Introduction
Driven by the environmental concerns, it is now commonly acknowledged that conventional fossil fuel-powered vehicles will gradually phase out and be vastly replaced by electrified vehicles. In order to boost t...
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Chapter
H \(_\infty \) Control of Linear Systems Case
This chapter investigates the asynchronous \(H_{\infty }\) H ∞ ...
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Chapter
Finite-Time Control Case
Finite-time boundedness (FTB) describes the boundedness of system states. It required that system states cannot exceed a given threshold during a finite time interval. The existing results on Markov jump singu...
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Chapter
Rotating Frame Modelling and Analysis
In this chapter a reference frame that rotates at the same speed of the rotor flux is applied to setup a model for induction machines. The system behaviour at the rotating frame is more like DC motors, but the...
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Chapter
Scalar Torque Control
This chapter is to illustrate the method that uses the constant Volts Herts (V/F) and the slip speed to control the ACIM torque. It is known as the scalar torque control. This technique can achieve satisfactor...
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Chapter
Flux-Weakening Control
Flux-weakening is essential for high speed electric machine control. Various flux-weakening approaches are analyzed and discussed in this chapter. Also, the I-limit, V-limit, Q-limit,
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Chapter
Concluding Remarks
This chapter summarizes the work in this book, discusses the opportunities and challenges in MPC and AMV control system design, and provides some potential future research directions.
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Chapter
Conclusion and Future Research Directions
With the wide application, multi-agent systems including leader-following systems are getting bigger and bigger, and more and more single agents are involved. On the other hand, with the development of science...
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Chapter and Conference Paper
Intelligent Planning of Battlefield Resources Based on Rules and Capability
In view of the complex battlefield situation, it is of great significance to decompose the resource capability requirements of multiple tasks such as reconnaissance tasks and strike tasks. In order to meet the...
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Chapter and Conference Paper
Influence of Frequency on Transmission Performance of Multi-relay Wireless Power Supply System
Frequency is an important parameter in the wireless power supply system. To explore the effect of frequency on the multi-relay wireless power supply system, the system is analyzed from three aspects: numerical...
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Chapter
AMV Modeling
The study of AMV motion can be split into two groups: (1) Kinematics, which only deals with geometrical aspects of the motion; (2) Dynamics, which analyzes the forces and moments causing the motion. In this ch...
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Chapter
Modelling for Fault Diagnosis
This chapter describes the mathematical model of the system to be monitored, including the nominal model of the system, the model of faults, and the description methods of uncertainties.
