Design and Implementation of Rule-based Expert System for Fault Management
It has been defined that the “network is the system".
This implies providing levels of service, reliability, predictability and
availability that are commensurate with or better than those that
individual computers provide today. To provide this requires
integrated network management for interconnected networks of
heterogeneous devices covering both the local campus. In this paper
we are addressing a framework to effectively deal with this issue. It
consists of components and interactions between them which are
required to perform the service fault management. A real-world
scenario is used to derive the requirements which have been applied
to the component identification. An analysis of existing frameworks
and approaches with respect to their applicability to the framework is
also carried out.
[1] Prem Viswanathan, Automated Network Fault Management, Master
Thesis, CSHCN M.S. 96-3 (ISR M.S. 96-14), University of Maryland
<http://www.isr.umd.edu>
[2] Riley.G..CLIPS, A Tool for Building Expert Systems.
<http://www.ghg.net/clips/WhatIsCLIPS.html#ExpertSystems>
[3] Laura Maria Daniele Towards a Rule-based Approach for Context-
Aware Applications
<http://awareness.freeband.nl>
[1] Prem Viswanathan, Automated Network Fault Management, Master
Thesis, CSHCN M.S. 96-3 (ISR M.S. 96-14), University of Maryland
<http://www.isr.umd.edu>
[2] Riley.G..CLIPS, A Tool for Building Expert Systems.
<http://www.ghg.net/clips/WhatIsCLIPS.html#ExpertSystems>
[3] Laura Maria Daniele Towards a Rule-based Approach for Context-
Aware Applications
<http://awareness.freeband.nl>
@article{"International Journal of Information, Control and Computer Sciences:63910", author = "Su Myat Marlar Soe and May Paing Paing Zaw", title = "Design and Implementation of Rule-based Expert System for Fault Management", abstract = "It has been defined that the “network is the system".
This implies providing levels of service, reliability, predictability and
availability that are commensurate with or better than those that
individual computers provide today. To provide this requires
integrated network management for interconnected networks of
heterogeneous devices covering both the local campus. In this paper
we are addressing a framework to effectively deal with this issue. It
consists of components and interactions between them which are
required to perform the service fault management. A real-world
scenario is used to derive the requirements which have been applied
to the component identification. An analysis of existing frameworks
and approaches with respect to their applicability to the framework is
also carried out.", keywords = "To diagnose the possible network faults by using thepredetermined rules.", volume = "2", number = "12", pages = "4270-6", }