Your search keyword '"Famularo, Domenico"' showing total 107 results

101. A linear parameter varying fault detection and isolation method for internal combustion spark ignition engines.

Author

Casavola, Alessandro, Famularo, Domenico, and Gagliardi, Gianfranco

Subjects

*FAULT tolerance (Engineering), *SPARK ignition engines, *SYSTEMS design, *LINEAR statistical models, *PARAMETERS (Statistics)

Abstract

SUMMARY In this paper, we propose a fault detection and isolation filter design method for internal combustion spark ignition engines. Starting from a detailed nonlinear mean-value mathematical description of the engine, a novel linear parameter varying (LPV) model approximation is derived on the basis of a judicious convex interpolation of a family of linearized models. A filter structure consisting of a bank of LPV observers is considered, each of them in charge of detecting a particular class of faults and exhibiting low sensitivity to all other faults and exogenous inputs. The resulting diagnostic filter is parameter-dependent in that a set of measurable engine variables is used online to suitably modify the filter gain so as to better take care of system nonlinearities. The quality of the LPV model approximation of the engine and the diagnostic capabilities of the fault detection and isolation architecture are demonstrated by a series of extensive numerical simulations. Copyright © 2013 John Wiley & Sons, Ltd. [ABSTRACT FROM AUTHOR]

Published

2014

102. Robust nonlinear feedback design via quantifier elimination theory

Author

Dorato, Peter, primary, Famularo, Domenico, additional, Abdallah, Chaouki T., additional, and Yang, Wey, additional

Published

1999

103. Robust Nonlinear Feedback Design via Quantifier Elimination Theory

Author

Dorato, Peter, primary, Yang, Wei, additional, and Famularo, Domenico, additional

Published

1997

104. A fault detection and isolation filter design method for Markov jump linear parameter-varying systems.

Author

Gagliardi, Gianfranco, Casavola, Alessandro, and Famularo, Domenico

Published

2012

105. A predictive control strategy for norm-bounded LPV discrete-time systems with bounded rates of parameter change.

Author

Casavola, Alessandro, Famularo, Domenico, and Franzè, Giuseppe

Published

2008

106. A Polynomial Approach to ℓ1Optimal Control Problems

Author

Casavola, Alessandro and Famularo, Domenico

Abstract

In this paper, the scalar multi-block ℓ1-optimal control problem is considered. It is shown that it can be converted via polynomial equation techniques to an infinite dimensional linear programming (LP) problem. Finite dimensional sub/super approximations can be determined by considering two sequences of modified finite dimensional linear programming problems derived directly from the YJBK parameterization by exploiting the underlying algebraic structure. This approach induces the application of a consistent truncation strategy that leads to a redundancy-free constraint formulation and, as a consequence, to linear programming problems less affected by degeneracy. Further, more insight on the algebraic structure of the problem and on the achievement of exact rational solutions is provided, allowing the development of a simple and conceptually attractive theory.

Published

2000

107. A Hybrid Real-Time Command Governor Supervisory Scheme for Constrained Control Systems

Author

Giuseppe Franze, Domenico Famularo, Massimiliano Mattei, Angelo Furfaro, Famularo, D., Franze, G., Furfaro, A., Mattei, M., Famularo, Domenico, Franze, Giuseppe, Furfaro, Angelo, and Mattei, Massimiliano

Subjects

Scheme (programming language), Engineering, Decentralized control, business.industry, Constraint (computer-aided design), Automotive industry, Stability (learning theory), supervisory control, ComputerApplications_COMPUTERSINOTHERSYSTEMS, Control engineering, quadratic programming, Supervisory control, Control and Systems Engineering, Control system, real-time system, Electrical and Electronic Engineering, Governor, Aerospace, business, computer, predictive control, computer.programming_language

Abstract

In this paper, we develop a hybrid supervisory control architecture in a real-time environment for constrained control systems. The strategy is based on Command Governor (CG) ideas that are here specialized to consider both time-varying set-points and constraints. The significance of the method mainly lies on its capability to avoid constraints violation and loss of stability regardless of any configuration change occurrence in the plant/constraint structure by replacing the current CG with a new on-line computed unit. A real-time scheme is an extremely appealing choice because of its numerous engineering applications: automobile industry, defense and aerospace, chemical and nuclear plant applications, multimedia/telecommunications, and so on. Experimental results on a laboratory four-tank test-bed and simulations on a Cessna 182 aircraft model show the effectiveness of the proposed strategy. © 1993-2012 IEEE

Published

2015