| Preface | p. xiii |
| Introduction | p. 1 |
| Introduction | p. 1 |
| Filtering problems | p. 3 |
| Preliminaries | p. 9 |
| A list of symbols | p. 9 |
| A list of acronyms | p. 10 |
| Matrices, linear spaces, and linear operators | p. 11 |
| Norms of deterministic signals | p. 16 |
| Norms of stochastic signals | p. 18 |
| Norms of linear time- or shift-invariant systems | p. 19 |
| A special coordinate basis (SCB) of linear multivariable systems | p. 27 |
| Introduction | p. 27 |
| SCB | p. 27 |
| Observability (detectability) and controllability (stabilizablity) | p. 33 |
| Left- and right-invertibility | p. 34 |
| Finite zero structure | p. 35 |
| Infinite zero structure | p. 42 |
| Geometric subspaces | p. 43 |
| Miscellaneous properties of the SCB | p. 48 |
| Additional compact forms of the SCB | p. 50 |
| Algebraic Riccati equations and matrix inequalities | p. 53 |
| Continuous-time algebraic Riccati equations | p. 54 |
| Definition of a CARE and its subclasses | p. 55 |
| The Hamiltonian matrix | p. 59 |
| Stabilizing and semi-stabilizing solutions of a CARE | p. 61 |
| Positive semi-definite and positive definite solutions | p. 80 |
| Continuity properties | p. 89 |
| Algorithms for the computation of stabilizing solutions | p. 91 |
| Algorithms for the computation of semi-stabilizing solutions | p. 97 |
| Standard and generalized discrete-time algebraic Riccati equations | p. 98 |
| Definitions | p. 99 |
| Basic structure of a GDARE | p. 103 |
| Solutions of a DARE and deflating subspaces | p. 105 |
| Connections between a DARE and its associated CARE | p. 111 |
| Properties, existence, and computation of various types of solutions of a DARE | p. 117 |
| Continuity properties of the H2 DARE | p. 130 |
| Connections between a GDARE and its associated DARE | p. 131 |
| Properties, existence, and computation of various types of solutions of a GDARE | p. 137 |
| Continuity properties of the H2 GDARE | p. 139 |
| Continuous-time linear matrix inequalities | p. 140 |
| Connections between a CLMI and its associated CARE | p. 145 |
| Properties, existence, and computation of various types of solutions of a CLMI | p. 152 |
| Continuity properties of CLMIs | p. 154 |
| Discrete-time linear matrix inequalities | p. 156 |
| Connections between a DLMI and its associated DARE | p. 164 |
| Properties, existence, and computation of various types of solutions of a DLMI | p. 170 |
| Continuity properties of the DLMI | p. 172 |
| Continuous-time quadratic matrix inequalities | p. 173 |
| Connection between a CQMI and its associated CARE | p. 176 |
| Linear matrix equations | p. 180 |
| Reduction to the case that H has full normal rank | p. 185 |
| Matrix pencils and generalized eigenvalue problems | p. 188 |
| Exact disturbance decoupling via state and full information feedback | p. 191 |
| Introduction | p. 191 |
| Problem formulation | p. 191 |
| Solvability conditions for EDD | p. 197 |
| Static state feedback laws and associated fixed modes and fixed decoupling zeros | p. 198 |
| EDD algorithm-left-invertible case | p. 200 |
| EDD algorithm-non-left-invertible case | p. 206 |
| An algorithm for EDD with pole placement | p. 213 |
| Dynamic state feedback laws and associated fixed modes and fixed decoupling zeros | p. 215 |
| sub is left-invertible | p. 215 |
| sub is not left-invertible | p. 219 |
| Static and dynamic full information feedback laws and associated fixed modes and fixed decoupling zeros | p. 221 |
| Proofs of Theorems 5.11 and 5.25 | p. 223 |
| Proof of Theorem 5.11 | p. 223 |
| Proof of Theorem 5.25 | p. 225 |
| Almost disturbance decoupling via state and full information feedback | p. 229 |
| Introduction | p. 229 |
| Problem formulation | p. 230 |
| Solvability conditions for ADD | p. 234 |
| Solvability conditions for ADD-continuous time | p. 234 |
| Solvability conditions for ADD-discrete time | p. 236 |
| More on ADD finite asymptotic fixed modes | p. 237 |
| H2 ADD-design | p. 239 |
| Computation of s2+ and designing sequences of static H2 ADD controllers-continuous time | p. 239 |
| Computation of s2+ and designing sequences of static H2 ADD controllers-discrete time | p. 252 |
| H∞ ADD-design | p. 258 |
| Computation of s2+∞ and designing sequences of static H∞ ADD controllers-continuous time | p. 258 |
| Computation of s2+∞ and designing sequences of static H∞ ADD controllers-discrete time | p. 278 |
| Exact input-decoupling filters | p. 293 |
| Introduction | p. 293 |
| Preliminaries | p. 294 |
| Statement of EID filtering problem and its solvability conditions | p. 295 |
| Uniqueness of EID filters in the sense of transfer function matrix | p. 300 |
| Design of EID filters | p. 301 |
| Strictly proper EID filters of CSS architecture | p. 302 |
| Proper EID filters of CSS architecture | p. 308 |
| Reduced-order EID filters of CSS architecture | p. 329 |
| Fixed modes of EID filters with arbitrary architecture | p. 339 |
| Duality between filtering and control | p. 341 |
| Almost input-decoupled filtering under white noise input | p. 347 |
| Introduction | p. 347 |
| Preliminaries | p. 348 |
| Statement of AID filtering problem and its solvability conditions | p. 349 |
| Existence conditions-continuous-time case | p. 351 |
| Existence conditions-discrete-time case | p. 354 |
| Design of a family of H2 AID filters of CSS architecture | p. 356 |
| A family of full-order strictly proper H2 AID filters-CSS architecture | p. 357 |
| A family of full-order proper H2 AID filters-CSS architecture | p. 361 |
| A family of reduced-order proper H2 AID filters-CSS architecture | p. 374 |
| Almost input-decoupled filtering without statistical assumptions on input | p. 383 |
| Introduction | p. 383 |
| Preliminaries | p. 383 |
| Statement of AID filtering problem and its solvability conditions | p. 384 |
| Existence conditions for H∞ AID filters-continuous-time case | p. 386 |
| Existence conditions for H∞ AID filters-discrete-time case | p. 391 |
| Design of a family of H∞ AID filters of CSS architecture | p. 394 |
| A family of full-order strictly proper H∞ AID filters-CSS architecture | p. 395 |
| A family of full-order proper H∞ AID filters-CSS architecture | p. 398 |
| A family of reduced-order proper H∞ AID filters-CSS architecture | p. 409 |
| Optimally (suboptimally) input-decoupling filtering under white noise input-H2 filtering | p. 417 |
| Introduction | p. 417 |
| Preliminaries | p. 418 |
| OID and SOID filtering problems with white noise input | p. 419 |
| Connection between H2 OID (H2 SOID) and EID (H2 AID) filtering problems-continuous-time case | p. 422 |
| Computation of *sp and *p - continuous-time case | p. 430 |
| Relationship between *sp and *p and the structural properties of | p. 431 |
| Existence of H2 OID and SOID filters-continuous-time case | p. 437 |
| Connection between H2 OID (H2 SOID) and EID (H2 AID) filtering problems-discrete-time case | p. 439 |
| Computation of *sp and *p -discrete-time case | p. 447 |
| Relationship between *sp and *p and the structural properties of | p. 448 |
| Existence of H2 OID and SOID filters-discrete-time case | p. 452 |
| Uniqueness of H2 OID filters | p. 455 |
| Uniqueness of the transfer matrix of H2 OID error dynamics | p. 456 |
| Design of H2 OID filters-continuous-time case | p. 457 |
| Strictly proper H2 OID filters of CSS architecture | p. 457 |
| Proper H2 OID filters of CSS architecture | p. 467 |
| Reduced-order H2 OID filters of CSS architecture | p. 478 |
| Design of H2 SOID filters-continuous-time case | p. 487 |
| Strictly proper H2 SOID filters of CSS architecture | p. 488 |
| Proper H2 SOID filters of CSS architecture | p. 490 |
| Reduced-order H2 SOID filters of CSS architecture | p. 494 |
| Design of H2 OID filters-discrete-time case | p. 499 |
| Strictly proper H2 OID filters of CSS architecture | p. 499 |
| Proper H2 OID filters of CSS architecture | p. 509 |
| Reduced-order H2 OID filters of CSS architecture | p. 521 |
| Design of H2 SOID filters-discrete-time case | p. 531 |
| Strictly proper H2 SOID filters of CSS architecture | p. 531 |
| Proper H2 SOID filters of CSS architecture | p. 533 |
| Reduced-order H2 SOID filters of CSS architecture | p. 537 |
| Fixed modes of H2 OID filters with arbitrary architecture | p. 542 |
| Performance measure for unbiasedness of filters with CSS architecture | p. 543 |
| Strictly proper filter of CSS architecture | p. 543 |
| Proper filter of CSS architecture | p. 545 |
| Reduced-order filter of CSS architecture | p. 547 |
| Optimally (suboptimally) input-decoupled filtering without statistical information on the input-H∞ filtering | p. 551 |
| Introduction | p. 551 |
| Preliminaries | p. 552 |
| OID and SOID filtering problems without statistical information on the input | p. 553 |
| Computation of *sp and *p | p. 557 |
| Explicit computation of *sp and *p -continuous-time systems | p. 557 |
| Numerical computation of *sp and *p -continuous-time systems | p. 562 |
| Explicit computation of *sp and *p -discrete-time systems | p. 567 |
| Numerical computation of *sp and *p -discrete-time systems | p. 573 |
| Design of -level H∞ SOID filters-continuous-time systems | p. 577 |
| Regular -level H∞ SOID filters | p. 577 |
| Singular -level H∞ SOID filters-the system characterized by (A, B, C, D) has no invariant zeros on the imaginary axis | p. 599 |
| Singular -level H∞ SOID filters-the system characterized by (A, B, C, D) has invariant zeros on the imaginary axis | p. 608 |
| Design of -level H∞ SOID filters-discrete-time systems | p. 610 |
| Regular -level H∞ SOID filters | p. 610 |
| Singular -level H∞ SOID filters-the system characterized by (A, B, C, D) has no invariant zeros on the unit circle | p. 631 |
| Singular -level H∞ SOID filters-the system characterized by (A, B, C, D) has invariant zeros on the unit circle | p. 639 |
| Generalized H2 suboptimally input-decoupled filtering | p. 641 |
| Introduction | p. 641 |
| Preliminaries | p. 642 |
| Problem statements | p. 644 |
| Performance, existence, and uniqueness conditions, design, and fixed modes | p. 647 |
| Dependence of performance, existence, and uniqueness conditions and fixed modes on the input u2 | p. 653 |
| Dependency of performance on the input u2 | p. 654 |
| Dependency of the solvability conditions on the input u2 | p. 655 |
| Dependency of the fixed modes on the input u2 | p. 657 |
| Performance limitations due to structural properties of a system | p. 660 |
| Dependence of performance on structural properties of the given system | p. 660 |
| Performance issues of generalized unbiased filtering | p. 661 |
| Impact of the structural properties of on <$>tilde J^{ast g}<$> | p. 664 |
| Generalized EID filtering problem | p. 667 |
| Generalized H2 AID filtering problem | p. 668 |
| Generalized H∞ suboptimally input-decoupled filtering | p. 671 |
| Introduction | p. 671 |
| Preliminaries | p. 671 |
| -level generalized H∞ SOID filtering problem statement | p. 673 |
| Computation of *g,sp and *g,p and the design of -level generalized H∞ SOID filters | p. 675 |
| Dependence of performance on the input u2 | p. 678 |
| Performance limitations due to structural properties of a system | p. 680 |
| Generalized H∞ AID filtering problem | p. 686 |
| Fault detection, isolation, and estimation-exact or almost fault estimation | p. 689 |
| Introduction | p. 689 |
| Problem formulation | p. 690 |
| Solvability conditions and design of residual generator | p. 693 |
| Discussion | p. 694 |
| Fault detection, isolation, and estimation-optimal fault estimation | p. 697 |
| Introduction | p. 697 |
| Problem statements | p. 700 |
| H2 and H∞ deconvolution | p. 704 |
| Solvability conditions and design | p. 709 |
| Index | p. 713 |
| References | p. 717 |
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