Version 3.4 (R2009b) Robust Control Toolbox Software :: Robust Control Toolbox Release Notes (Robust Control Toolbox™)

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Contents

Index

• Getting Started

• Product Description

Key Features

Product Requirements

• Modeling Uncertainty

Example: ACC Benchmark Problem

• Worst-Case Performance

Example: ACC Two-Cart Benchmark Problem

• Synthesis of Robust MIMO Controllers

Example: Designing a Controller with LOOPSYN

• Model Reduction and Approximation

Example: NASA HiMAT Controller Order Reduction

LMI Solvers

Extends Control System Toolbox Capabilities

About the Authors

Bibliography

• Tradeoff Between Performance and Robustness

Norms and Singular Values

• Typical Loop Shapes, S and T Design

Singular Values

Guaranteed Gain/Phase Margins in MIMO Systems

• Using LOOPSYN to Do H-Infinity Loop Shaping

Example: NASA HiMAT Loop Shaping

Design Specifications

MATLAB Commands for a LOOPSYN Design

• Using MIXSYN for H-Infinity Loop Shaping

Example: NASA HiMAT Design Using MIXSYN

Loop-Shaping Commands

• Introduction

Hankel Singular Values

• Overview of Model Reduction Techniques

Approximating Plant Models - Additive Error Methods

Approximating Plant Models - Multiplicative Error Method

• Using Modal Algorithms

Rigid Body Dynamics

Reducing Large-Scale Models

Using Normalized Coprime Factor Methods

Bibliography

• Uncertainty Modeling

Creating Uncertain Models of Dynamic Systems

Creating Uncertain Parameters

Quantifying Unmodeled Dynamics

Robustness Analysis

• Multiinput, Multioutput Robustness Analysis

Adding Independent Input Uncertainty toEachChannel

Closed-Loop Robustness Analysis

Nominal Stability Margins

Robustness of Stability Model Uncertainty

Worst-Case Gain Analysis

Summary of Robustness Analysis Tools

• Interpretation of H-Infinity Norm

Norms of Signals and Systems

Using Weighted Norms to Characterize Performance

• H-Infinity Performance

Performance as Generalized Disturbance Rejection

Robustness in the H-Infinity Framework

Functions for Control Design

• Application of H-Infinity and Mu to Active Suspension Control

Quarter Car Suspension Model

Linear H-Infinity Controller Design

H-Infinity Control Design 1

H-Infinity Control Design 2

Control Design via Mu Synthesis

Bibliography

• Tuning Fixed-Structure Control Systems

What is a Fixed-Structure Control System?

Choosing an Approach to Fixed Control Structure Tuning

Difference Between Fixed-Structure Tuning and Traditional H-Infinity Synthesis

• Tuning a Control System with looptune

How looptune Sees Your Control System

Setting Up Your Control System in MATLAB

Setting Up Your Control System in Simulink

Performance and Robustness Specifications

Tune a MIMO Control System for a Specified Bandwidth

Tune a Two-Loop Control System to Meet Specific Design Requirements

Tune a MIMO Control System in Simulink

• H-Infinity Tuning with hinfstruct

What is hinfstruct?

Structured H-Infinity Synthesis Workflow

Formulating Design Requirements as H-Infinity Constraints

Building a Tunable Closed-Loop Model

Tuning the Controller Parameters

Interpreting the Outputs of hinfstruct

Validating the Controller Design

Application Examples

• Supported Blocks for Tuning in Simulink

Tuning Unsupported Blocks

Speed Up Tuning with Parallel Computing Toolbox Software

Bibliography

• User's Guide

• Blocks

• Functions

Examples

• Release Notes

Summary by Version

Version 4.1 (R2012a) Robust Control Toolbox Software

Version 4.0 (R2011b) Robust Control Toolbox Software

Version 3.6 (R2011a) Robust Control Toolbox Software

Version 3.5 (R2010b) Robust Control Toolbox Software

Version 3.4.1 (R2010a) Robust Control Toolbox Software

Version 3.4 (R2009b) Robust Control Toolbox Software

Version 3.3.3 (R2009a) Robust Control Toolbox Software

Version 3.3.2 (R2008b) Robust Control Toolbox Software

Version 3.3.1 (R2008a) Robust Control Toolbox Software

Version 3.3 (R2007b) Robust Control Toolbox Software

Version 3.2 (R2007a) Robust Control Toolbox Software

Version 3.1.1 (R2006b) Robust Control Toolbox Software

Version 3.1 (R2006a) Robust Control Toolbox Software

Version 3.0.2 (R14SP3) Robust Control Toolbox Software

Version 3.0.1 (R14SP2) Robust Control Toolbox Software

Compatibility Summary for Robust Control Toolbox Software

Version 3.4 (R2009b) Robust Control Toolbox Software

This table summarizes what's new in Version 3.4 (R2009b):

New Features and Changes	Version Compatibility Considerations	Fixed Bugs and Known Problems
Yes Details below	Yes Summary	Bug Reports Includes fixes

New features and changes introduced in this version are described here:

New Option to Improve Robust Performance by Accounting for Real Uncertain Parameters

You can now improve robust performance by accounting for real uncertain parameters when designing controllers using µ-synthesis. The user-defined options you use in the dksyn command now includes a new option MixedMU. Set this option to 'on' to account for real uncertain parameters in your system. For more information, see the dkitopt, and dksyn reference pages.

New Command to Linearize Simulink Models with Uncertainty

If you have Simulink Control Design software installed, you can take model uncertainty into account when linearizing a Simulink model. You can then use the resulting uncertain linearized model (uss object) to perform linear analysis and robust control design.

If your model already contains Uncertain State Space blocks, use the new ulinearize command to obtain an uss model. If you want to account for uncertainty in your linear analysis without using Uncertain State Space blocks, you can specify individual Simulink blocks to linearize to an uncertain variable. For more information, see "Computing Uncertain State-Space Models from Simulink Models" in the Robust Control Toolbox User's Guide.

New Interface for Simulating Effects of Uncertainty in Simulink Models

This version of the product provides a new interface to simulate the effects of uncertainty in Simulink models. The interface includes the following:

Uncertain State Space block to specify uncertain system in Simulink. You should replace USS System blocks in your existing models with the Uncertain State Space block. To do so, run the slupdate command on your models.
ufind command to extract all uncertain variables from a Simulink model.
usample command to generate random values of these uncertain variables.

For more information on simulating the effects of uncertainty using the new interface, see "Simulating Effects of Uncertainty" in the Robust Control Toolbox User's Guide.

New Command to Model Multiple LTI Responses as One Uncertain System

This version of the product includes a new ucover command that lets you model a family of LTI responses as one uncertain system. For more information, see the ucover reference page.

New and Updated Demos

The following new and updated demos illustrate use of the new features:

"Control of Spring-Mass-Damper Using Mixed mu-Synthesis" shows use of the new MixedMU option and dksyn command for mixed-mu synthesis.
"Linearization of Simulink Models with Uncertainty" shows how to compute uncertain state-space models using ulinearize and Simulink Control Design software.
"Robustness Analysis in Simulink" uses the new interface for simulating effects of uncertainty in Simulink models.
"Simultaneous Stabilization Using Robust Control" and "Modeling a Family of Responses as an Uncertain System" show use of the ucover command.
"First-Cut Robust Design" shows use of the usample, ucover and dksyn commands.

To access the demos, type

demo('toolbox','robust control')

Functions, Properties and Blocks Being Removed

Function, Property or Block Name	What Happens When You Use Function or Property?	Use This Instead	Compatibility Considerations
`usiminfo`	Still runs	`ufind`	See New Interface for Simulating Effects of Uncertainty in Simulink Models.
`usimfill`	Still runs	`ufind`	See New Interface for Simulating Effects of Uncertainty in Simulink Models.
`usimsamp`	Still runs	`usample`	See New Interface for Simulating Effects of Uncertainty in Simulink Models.
USS System block	Still runs	Uncertain State Space block	See New Interface for Simulating Effects of Uncertainty in Simulink Models.
`ltiarray2uss`	Still runs	ucover	See New Command to Model Multiple LTI Responses as One Uncertain System.

Version 3.4.1 (R2010a) Robust Control Toolbox Software

Version 3.3.3 (R2009a) Robust Control Toolbox Software

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