Characterization of Connection Assignment of Diagnosable Systems
IEEE Transactions on Computers
Analysis of Digital Systems Using a New Measure of System Diagnosis
IEEE Transactions on Computers
Connection Assignments for Probabilistically Diagnosable Systems
IEEE Transactions on Computers
Some Existence Theorems for Probabilistically Diagnosable Systems
IEEE Transactions on Computers
Diagnosable Systems for Intermittent Faults
IEEE Transactions on Computers
A Theory of Diagnosability of Digital Systems
IEEE Transactions on Computers
An Approach to the Diagnosability Analysis of a System
IEEE Transactions on Computers
An Efficient Fault Diagnosis Algorithm for Symmetric Multiple Processor Architectures
IEEE Transactions on Computers
System Diagnosis and Redundant Tests
IEEE Transactions on Computers
An Analysis Model for Digital System Diagnosis
IEEE Transactions on Computers
System Fault Diagnosis: Closure and Diagnosability with Repair
IEEE Transactions on Computers
System Fault Diagnosis: Masking, Exposure, and Diagnosability Without Repair
IEEE Transactions on Computers
On Models for Diagnosable Systems and Probabilistic Fault Diagnosis
IEEE Transactions on Computers
A fault identification algorithm for ti-diagnosable systems
IEEE Transactions on Computers - The MIT Press scientific computation series
On the Diagnosability of a General Model of System with Three-Valued Test Outcomes
IEEE Transactions on Computers
A New Measure for Hybrid Fault Diagnosability
IEEE Transactions on Computers
A Generalized Theory for System Level Diagnosis
IEEE Transactions on Computers
A generalization of hybrid fault diagnosability
IEEE Transactions on Computers
On System Diagnosability in the Presence of Hybrid Faults
IEEE Transactions on Computers
Greedy Diagnosis of Hybrid Fault Situations
IEEE Transactions on Computers
Greedy Diagnosis as the Basis of an Intermittent-Fault/ Transient-Upset Tolerant System Design
IEEE Transactions on Computers
Online Diagnosis and Recovery: On the Choice and Impact of Tuning Parameters
IEEE Transactions on Dependable and Secure Computing
International Journal of Parallel, Emergent and Distributed Systems
An early fault diagnosis agreement under hybrid fault model
Expert Systems with Applications: An International Journal
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For a new class of fault situations called hybrid fault situations, we consider the fault diagnosing capabilities of systems which for testing/monitoring purposes can be viewed as being composed of independent units. The classical Preparata, Metze, and Chien model (PMC model) is used to specify the various testing assignments among the units. Hybrid fault situations are described as explicitly bounded combinations of permanently and intermittently faulty units. This new concept of a hybrid fault situation includes as special cases the all permanent fault case and the unrestricted intermittent fault case which have both been previously considered with PMC models. A general characterization of the so-called connection assignment of a PMC model is established for a diagnosing capability which is referred to as hybrid fault diagnosability without repair. This diagnosing capability is compatible with the well-known permanent fault diagnosability without repair concept, and the quality of this diagnosing capability is shown to be correct, but sometimes an incomplete diagnosis where the incompleteness is solely a consequence of intermittently faulty units. The characterization for hybrid fault diagnosability without repair is seen to encompass as extreme cases the previously known special characterizations for permanent and unrestricted intermittent diagnosability without repair. Fundamental interrelationships are determined among parameter bounds used to describe the hybrid fault cases which can be diagnosed for a given PMC model.