Mr. ReemaSaed

Department of Networking Faculty of Information Technology

Full name

Mr. Reema Alshaybani Alsuweee Saed

َQualifications

Master degree

Academic Rank

Assistant Lecturer

Biography

Reema Saed is one of the staff members at the department of 3 faculty of 18. He is working as a since 2013-05-26. He teaches several subjects in his major and has several puplications in the field of his interest.

Contact Information

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Publications

Performance Evaluation of Multimedia Streaming Applications in MPLS Networks Using OPNET

This paper describes the place of MPLS in current state-of-the-art networking as a quality of service means through performing performance analysis of VoIP and video conferencing applications by comparing the effect of different protocols (OSPF, IS-IS, EIRGP) and the effect of various queuing techniques (PQ, WFQ, MWRR) in order to find the good combination of MPLS, routing, and queuing type that provides efficient suitable quality of service levels. The obtained results illustrate a competent combination of MPLS with queuing discipline, and routing could be achieved for each application, such as MPLS and EIGRP with WFQ queuing is an efficient arrangement for video conferencing application
Azeddien M. Sllame, Reema A. Saad, Mariam Abojella Msaad(5-2021)
Publisher's website


A Simulation based analysis study for DDoS attacks on Computer Networks

A denial of service attacks are usually employed to interrupt the system's activity by getting a large number of fake requests, which leads to slowing down and stopping information system or network operations. This paper outlines the basic principles of DDoS attacks, explains how DDoS attack works. The paper presents an experimental using OPNET simulation tool in which traffic from three different applications VoIP, FTP, and HTTP is used to make the practical model with a firewall shield to model and simulate DDoS over Internet. However, three scenarios have been developed to illustrate different aspects of the DDoS over networks. The results clearly demonstrate how firewalls can be configured to mitigate DDoS attacks
Azeddien M. Sllame, Reema A. Saed, Mariam Abojella Msaad(5-2021)
Publisher's website