Abstract :
A unified modeling framework for end-to-end performance evaluation in a network management system is presented. A network management application, e.g., alarm surveillance, can be mostly accomplished by several processes distributed over a network. In order to predict the completion time for such an application, components, whether software or hardware, incurring a delay must be identified. A proposed model, which is referred to as the end-to-end performance model, specifies: (1) components which incur a significant delay in a management application, (2) their characteristics, and (3) their interactions. In determining the major delay components, management application processing, protocol processing, transmission delay, and protocol conversion, are incorporated. A particular modeling procedure is explained using a SONET (synchronous optical network) management network
Keywords :
delays; optical links; telecommunication network management; SONET; delay components; distributed network management systems; end-to-end performance evaluation; management application processing; protocol conversion; protocol processing; synchronous optical network; transmission delay; unified modeling framework; Application software; Delay effects; Environmental management; Hardware; Information management; Mathematical model; Power system modeling; Routing protocols; Surveillance; Telecommunication network management;
