In this paper, we employ the finite state machine (FSM) model for networks to investigate fault identification using passive testing. First, we introduce the concept of passive testing. Then, we introduce the FSM model with necessary assumptions and justification. We introduce the fault model and the fault detection algorithm using passive testing. Extending this result, we develop the theorems and algorithms for fault identification. An example is given illustrating our approach. Then, extensions to our approach are introduced to achieve better fault identification. We then illustrate our technique through a simulation of a practical X.25 example. Finally future extensions and potential trends are discussed. Keywords: Passive Testing, Faul...
When testing from finite state machines, a failure observed in the implementation under test (IUT) i...
grantor: University of TorontoA framework for on-line passive fault diagnosis in discrete-...
Due to the growing complexity of embedded systems and their requirements in reliability and real-tim...
In this paper, we employ the finite state machine (FSM) model for networks to investigate fault iden...
In this paper, we employ the Communicating finite state machine (CFSM) model for networks to invest...
In this paper, we employ the Communicating finite state machine (CFSM) model for networks to investi...
In this paper, we employ the Communicating finite state machine (CFSM) model for networks to inves...
Fault detection is a fundamental part of passive testing which determines whether a system under tes...
Passive fault detection is a fundamental part of passive testing which determines whether a system u...
Passive testing is a process of detecting faults in a system under test by passively observing its i...
Failure diagnosis in large and complex systems such as a communication network is a critical task. A...
Passive testing has proved to be a powerful technique for protocol system fault detection by observi...
Abstract. Passive testing has proved to be a powerful technique for protocol system fault detection ...
Passive monitoring or testing of complex systems and net-works running in the field can provide valu...
If a test does not produce the expected output, the incorrect output may have been caused by an earl...
When testing from finite state machines, a failure observed in the implementation under test (IUT) i...
grantor: University of TorontoA framework for on-line passive fault diagnosis in discrete-...
Due to the growing complexity of embedded systems and their requirements in reliability and real-tim...
In this paper, we employ the finite state machine (FSM) model for networks to investigate fault iden...
In this paper, we employ the Communicating finite state machine (CFSM) model for networks to invest...
In this paper, we employ the Communicating finite state machine (CFSM) model for networks to investi...
In this paper, we employ the Communicating finite state machine (CFSM) model for networks to inves...
Fault detection is a fundamental part of passive testing which determines whether a system under tes...
Passive fault detection is a fundamental part of passive testing which determines whether a system u...
Passive testing is a process of detecting faults in a system under test by passively observing its i...
Failure diagnosis in large and complex systems such as a communication network is a critical task. A...
Passive testing has proved to be a powerful technique for protocol system fault detection by observi...
Abstract. Passive testing has proved to be a powerful technique for protocol system fault detection ...
Passive monitoring or testing of complex systems and net-works running in the field can provide valu...
If a test does not produce the expected output, the incorrect output may have been caused by an earl...
When testing from finite state machines, a failure observed in the implementation under test (IUT) i...
grantor: University of TorontoA framework for on-line passive fault diagnosis in discrete-...
Due to the growing complexity of embedded systems and their requirements in reliability and real-tim...
Add to ORKG