In Chapter 1 the idea of multi UAVs formation anomaly detection is proposed there, and its relations with system identification, advanced control theory are also introduced. After formulating the problem of multi UAVs formation anomaly detection as one system identification problem, then two spe cases are considered about its linear or nonlinear form respectively. From the detailed description on null
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Chapter 1 Basic Knowledge for Multi UAVs Formation Anomaly Detection
1.1 Introduction
1.2 Bias Compensated Estimation in Multi UAVs Formation Anomaly Detection
1.2.1 Model Description
1.2.2 Anomaly Detection with Unbiased Estimation
1.2.3 Anomaly Detection with Biased Estimation
1.2.4 Simulation Example
1.3 Combining Recursive Projection and Dynamic Programming Technique in Multi UAVs Formation Anomaly Detection
1.3.1 System Description
I.3.2 Projection Algorithm with Dead Zone
1.3.3 Dynamic Programming Techniques in Anomaly Detection
1.4 Summary
Chapter 2 Synthesis Identification Analysis for Multi UAVs Formation Anomaly Detection and Its Extension
2.1 Introduction
2.2 Synthesis Analysis for Multi UAVs Formation Anomaly Detection
2.2.1 Multi UAVs Formation Anomaly Detection
2.2.2 Bias Compensated Approach for White Noise
2.2.3 An Analytic Center Approach for Bounded Noise
2.2.4 Simulation Example
2.3 An Improved Ellipsoid Optimization Algorithm in Subspace Predictive Control
2.3.1 Problem Formulation
2.3.2 Derivations of Output Predictors
2.3.3 Improved Ellipsoid Optimization Algorithm
2.3.4 Simulation Example
2.4 Summary
Chapter 3 Optimal Input Design for Multi UAVs Formation Anomaly Detection and Its Extension
3.1 Introduction
3.2 Optimal Input Deign for Multi UAVs Formation Anomaly Detection
3.2.1 Problem Description
3.2.2 Optimal Input Design for Statistical Noise
3.2.3 Conclusion
3.3 Optimal Input Design for Internal Model Control
3.3.1 Internal Model Structure
3.3.2 Equivalence between Internal Model Control and Feedback Control
3.3.3 Some Asymptotic Results in Closed Loop System
3.3.4 Optimal Closed Loop Input Signal Design
3.3.5 Simulation Example
3.4 Summary
Chapter 4 Detection and Identification for Multi UAVs Formation Flutter Model Parameters
4.1 Introduction
4.2 Combing Instrumental Variable and Variance Matching
4.2.1 Stochastic Model for Aircraft Flutter Test
4.2.2 Analysis Process
4.2.3 Instrumental Variable Variance Method
4.2.4 Asymptotic Analysis
4.2.5 Simulation Examples
4.3 Set Membership Identification
4.3.1 System Description
4.3.2 Analysis Process
4.3.3 Set Membership Identification
4.3.4 Simulation Example
4.4 Summary
Chapter 5 Target Tracking for Multi UAVs Formation Cooperative Detection
5.1 Introduction
5.2 Application of Ellipsoidal Approximation
5.2 .] Ground Target Positioning System
5.2.2 Unscented Kalman Filter Algorithm for Target Tracking Process
5.2.3 Building Ellipsoidal Approximation
5.2.4 Further Analysis on Alternative Forms
5.2.5 Simulation Example
5.3 Summary
Chapter 6 Some Extensions in Robust Model Predictive Control Based on Interval Predictor Estimation
6.1 Introduction
6.2 Basic Priori Knowledge
6.3 Some Preliminaries about State Space Equation and Interval Predictor
6.4 Interval Predictor
6.4.1 Construction of Interval Predictor
6.4.2 Explicit Form for Interval Predictor
6.5 Robust Model Predictive Control Based on Interval Predictor
6.6 Solving Min-max Optimization
6.6.1 Analysis Process
6.6.2 Gradient Projection Method
6.6.3 Simulation Examples
6.7 Summary
Chapter 7 Conclusions and Outlook
7.1 Conclusions
7.2 Outlook
References