The problem of distributed diagnosis in the presence of dynamic failures and repairs is considered. To address this problem, the notion of bounded correctness is defined. Bounded correctness is made up of three properties: bounded diagnostic latency, which ensures that information about state changes of nodes in the system reaches working nodes with a bounded delay, bounded start-up time, which guarantees that working nodes determine valid states for every other node in the system within bounded time after their recovery, and accuracy, which ensures that no spurious events are recorded by working nodes. It is shown that, in order to achieve bounded correctness, the rate at which nodes fail and are repaired must be limited. This requirement ...
This thesis introduces the new Distributed Network Reachability (DNR) algorithm, a distributed syste...
Failures in computing systems are unavoidable. Therefore, it is important to detect and diagnose fai...
Distributed Systems are becoming very popular day-by-day due to their applications in various fields...
The occurrence of faults is a common feature in most networks and addressing this issue is an import...
Fault diagnosis in Mobile Ad-hoc Networks (MANETs) is very challenging task. Diagnosis algorithm sho...
During the past few years distributed systems have been the focus of considerable research in comput...
A general framework for the design and analysis of distributed fault-tolerant systems is proposed in...
Mobile Ad-Hoc Networks (MANETs) are set of mobile nodes that communicates wirelessly without a centr...
Graduation date: 1984Local computer networks are being installed in\ud diverse application areas. Ma...
We propose a simple structure which provides optimal system-level fault diagnosis. Each unit of a sy...
We develop a widely applicable algorithm to solve the fault diagnosis problem in certain distributed...
We introduce the application of a distributed system-level fault diagnosis algorithm for detecting a...
Distributed systems ranging from small local area networks to large wide area networks like the Inte...
In this paper, we address the problem of efficient diagnosis in real-time systems capable of on-line...
In this paper, a methodology for distributed fault diagnosis is proposed. The algorithm p...
This thesis introduces the new Distributed Network Reachability (DNR) algorithm, a distributed syste...
Failures in computing systems are unavoidable. Therefore, it is important to detect and diagnose fai...
Distributed Systems are becoming very popular day-by-day due to their applications in various fields...
The occurrence of faults is a common feature in most networks and addressing this issue is an import...
Fault diagnosis in Mobile Ad-hoc Networks (MANETs) is very challenging task. Diagnosis algorithm sho...
During the past few years distributed systems have been the focus of considerable research in comput...
A general framework for the design and analysis of distributed fault-tolerant systems is proposed in...
Mobile Ad-Hoc Networks (MANETs) are set of mobile nodes that communicates wirelessly without a centr...
Graduation date: 1984Local computer networks are being installed in\ud diverse application areas. Ma...
We propose a simple structure which provides optimal system-level fault diagnosis. Each unit of a sy...
We develop a widely applicable algorithm to solve the fault diagnosis problem in certain distributed...
We introduce the application of a distributed system-level fault diagnosis algorithm for detecting a...
Distributed systems ranging from small local area networks to large wide area networks like the Inte...
In this paper, we address the problem of efficient diagnosis in real-time systems capable of on-line...
In this paper, a methodology for distributed fault diagnosis is proposed. The algorithm p...
This thesis introduces the new Distributed Network Reachability (DNR) algorithm, a distributed syste...
Failures in computing systems are unavoidable. Therefore, it is important to detect and diagnose fai...
Distributed Systems are becoming very popular day-by-day due to their applications in various fields...