Folorunso O.

Work place: Computer Science Department, University of Agriculture, Abeokuta, Nigeria

E-mail: folorunsolusegun@yahoo.com

Website:

Research Interests: Human-Computer Interaction, Computer systems and computational processes, Computer Architecture and Organization, Image Compression, Image Manipulation, Image Processing

Biography

Dr. Olusegun Folorunso is a Senior Lecturer in the Department of Computer Science, University of Agriculture, Abeokuta. He obtained a B.Sc degree in Mathematical Sciences from the University of Agriculture, Abeokuta in 1992, M.Sc in Computer Science from University of Lagos in 1997 and a Ph.D in Computer Science in 2003 from the university of Agriculture, Abeokuta. His research interest includes Adoption of Information Systems strategies, Human Computer Interactions (HCI), Knowledge Management, Image Processing and Computational Intelligence. He is a member of Nigeria Computer Society and Computer Professional Registration Council of Nigeria. He has published in reputable international and local Journals.

Author Articles
Asymptotic Stability Analysis of E-speed Start Congestion Control Protocol for TCP

By Oyeyinka I.K. Akinwale A.T. Folorunso O. Olowofela J.A. Oluwatope A.

DOI: https://doi.org/10.5815/ijcnis.2012.04.07, Pub. Date: 8 May 2012

All the proposed window based congestion control protocols use a single slow start algorithm. It has been shown in literature that slow start inefficiently utilizes bandwidth in a network with high bandwidth delay product (BDP). A multiple startup algorithm (E-speed start) was proposed in this work. E-speed start specifies a multiple selectable startup for Transmission Control Protocol (TCP). It is proposed that startup speed for TCP be selectable from n-arry startup algorithms. In E-speed start, a binary start was implemented based on a calculated value β which depends on the available bandwidth and other network conditions. A model for E-speed start was derived using utility maximization theory and the principle of decentralised solution. The model derived was shown to be stable by linear approximation, Laplace transform and by using the concept of Nyquist Stability criterion.

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