AbstractSensor selection and optimization is one of the important parts in design for testability. To address the problems that the traditional sensor optimization selection model does not take the requirements of prognostics and health management especially fault prognostics for testability into account and does not consider the impacts of sensor actual attributes on fault detectability, a novel sensor optimization selection model is proposed. Firstly, a universal architecture for sensor selection and optimization is provided. Secondly, a new testability index named fault predictable rate is defined to describe fault prognostics requirements for testability. Thirdly, a sensor selection and optimization model for prognostics and health mana...
A systematic framework is presented for optimum sensor selection for control and fault tolerance sub...
Automatic fault diagnostic schemes rely on various types of sensors (e.g., temperature, pressure, vi...
We address the following sensor selection problem. We assume that a dynamic system possesses a certa...
AbstractSensor selection and optimization is one of the important parts in design for testability. T...
Finding the cheapest, or smallest, set of sensors such that a specified level of diagnosis performan...
International audienceDiagnosis is the reasoning leading to the identification of the cause of a pro...
In a world of rapidly changing technologies, reliance on complex engineered systems has become subst...
Sensor data-based test selection optimization is the basis for designing a test work, which ensures ...
The reliable detection of faults located in the control loop of safety critical systems is an import...
In the modern world, systems such as aircraft systems are becoming increasingly complex, often consi...
The performance of electronic vehicle PHM relies not only on the diagnostic and prognostic algorithm...
Click on the DOI link to access the article (may not be free).Significant technological advances in ...
Resulting from the short production cycle and rapid design technology development, traditional progn...
Fault detection and isolation (FDI) is crucial to identifying problems that can occur in complex sys...
An appropriately designed sensor network is crucial for the success of any fault diagnostic strategy...
A systematic framework is presented for optimum sensor selection for control and fault tolerance sub...
Automatic fault diagnostic schemes rely on various types of sensors (e.g., temperature, pressure, vi...
We address the following sensor selection problem. We assume that a dynamic system possesses a certa...
AbstractSensor selection and optimization is one of the important parts in design for testability. T...
Finding the cheapest, or smallest, set of sensors such that a specified level of diagnosis performan...
International audienceDiagnosis is the reasoning leading to the identification of the cause of a pro...
In a world of rapidly changing technologies, reliance on complex engineered systems has become subst...
Sensor data-based test selection optimization is the basis for designing a test work, which ensures ...
The reliable detection of faults located in the control loop of safety critical systems is an import...
In the modern world, systems such as aircraft systems are becoming increasingly complex, often consi...
The performance of electronic vehicle PHM relies not only on the diagnostic and prognostic algorithm...
Click on the DOI link to access the article (may not be free).Significant technological advances in ...
Resulting from the short production cycle and rapid design technology development, traditional progn...
Fault detection and isolation (FDI) is crucial to identifying problems that can occur in complex sys...
An appropriately designed sensor network is crucial for the success of any fault diagnostic strategy...
A systematic framework is presented for optimum sensor selection for control and fault tolerance sub...
Automatic fault diagnostic schemes rely on various types of sensors (e.g., temperature, pressure, vi...
We address the following sensor selection problem. We assume that a dynamic system possesses a certa...