In order to prevent machine malfunctions and to determine the machine operating state, it is necessary to use correct measurements from actual system inputs and outputs. This requires the use of techniques for the detection and isolation of sensor faults. In this paper an approach based on analytical redundancy which uses dynamic observers is suggested to solve the sensor fault detection and isolation problem for a single-shaft industrial gas turbine. The proposed technique requires the generation of classical residual functions obtained with di.erent observer con.gurations. The diagnosis is performed by checking uctuations of these residuals caused by faults
In this paper a model-based procedure exploiting analytical redundancy for the detection and isol...
In this paper, a model-based procedure exploiting analytical redundancy for the detection and isolat...
An application of a procedure using a neural network for the detection and isolation of faults model...
In order to prevent machine malfunctions and to determine the machine operating state, it is necessa...
ABSTRACT This paper presents a methodology of sensor diagnosis which appears to be particularly suit...
This paper addresses a model-based procedure exploiting analytical redundancy for the detection and ...
In this paper a model-based procedure exploitinganalytical redundancy for the detection and isolatio...
An application of a procedure using a neural network for the detection and isolation of faults model...
In this paper an application of a procedure using a neural network for the detection and isolation o...
In this study a model-based procedure exploiting analytical redundancy for the detection and isolat...
In this paper a model-based procedure exploiting analytical redundancy for the detection and isol...
In this paper, a model-based procedure exploiting analytical redundancy for the detection and isolat...
This study investigates application of analytical sensor redundancy to improve reliability of gas t...
In this study a model-based procedure exploiting analytical redundancy for the detection and isolat...
This paper presents a model-based procedure for the detection and isolation of faults in an indus...
In this paper a model-based procedure exploiting analytical redundancy for the detection and isol...
In this paper, a model-based procedure exploiting analytical redundancy for the detection and isolat...
An application of a procedure using a neural network for the detection and isolation of faults model...
In order to prevent machine malfunctions and to determine the machine operating state, it is necessa...
ABSTRACT This paper presents a methodology of sensor diagnosis which appears to be particularly suit...
This paper addresses a model-based procedure exploiting analytical redundancy for the detection and ...
In this paper a model-based procedure exploitinganalytical redundancy for the detection and isolatio...
An application of a procedure using a neural network for the detection and isolation of faults model...
In this paper an application of a procedure using a neural network for the detection and isolation o...
In this study a model-based procedure exploiting analytical redundancy for the detection and isolat...
In this paper a model-based procedure exploiting analytical redundancy for the detection and isol...
In this paper, a model-based procedure exploiting analytical redundancy for the detection and isolat...
This study investigates application of analytical sensor redundancy to improve reliability of gas t...
In this study a model-based procedure exploiting analytical redundancy for the detection and isolat...
This paper presents a model-based procedure for the detection and isolation of faults in an indus...
In this paper a model-based procedure exploiting analytical redundancy for the detection and isol...
In this paper, a model-based procedure exploiting analytical redundancy for the detection and isolat...
An application of a procedure using a neural network for the detection and isolation of faults model...