The book introduces novel algorithms for designing fault-tolerant control (FTC) systems using the behavioral system theoretic approach, and presents a demonstration of successful novel FTC mechanisms on several benchmark examples. The authors also discuss a new transient management scheme, which is an essential requirement for the implementation of active FTC systems, and two data-driven methodologies that are broadly classified as active FTC systems: the projection-based approach and the online-redesign approach. These algorithms do not require much a priori information about the plant in real-time, and in addition this novel implementation of active FTC systems circumvents various weaknesses induced by using a diagnostic module in real-time. The book provides graduate students taking masters and doctoral courses in mathematics, control, and electrical engineering an excellent stepping-stone for their research. It also appeals to practitioners interested to apply innovative fail-safecontrol techniques.
Focuses on fault-tolerant control (FTC) systems from the behavioral system theoretic perspective
Presents a successful demonstration of novel FTC mechanisms on benchmark examples
Develops a sophisticated FTC tool for wind turbine systems and proposes two data-driven approaches without using an explicit fault diagnosis module
Tushar Jain
Aircraft Landing System Behavioral Theory Bumpless Transfer Mechanism Data-driven Mechanism Fault-tolerant Control Wind Turbine System