Work place: Rama Raja Institute of Technology and Science, Tirupati,A.P.,India
E-mail: lokesh.palapati@gmail.com
Website:
Research Interests: Network Architecture, Computer Networks
Biography
P. Lokesh Kumar Reddy, received the BCA and MCA degrees from S.V. University, Tirupati in 2004 and 2007. He is working as Assistant Professor in Rama Raja Institute of Technology and Science, Tirupati. His research interest Network Protocol.
By P.Lokesh Kumar Reddy B.Rama Bhupal Reddy S.Rama Krishna
DOI: https://doi.org/10.5815/ijitcs.2013.02.09, Pub. Date: 8 Jan. 2013
Multistate operations within a network result in high-dimensional, multivariate temporal data, and are useful for systems, which monitor access to network entities like resources, objects, etc. Efficient self organization of such multistate network operations stored in databases with respect to relationships amongst users or between a user and a data object is an important and a challenging problem. In this work, a layer is proposed where discovered relationship patterns amongst users are classified as clusters. This information along with attributes of involved users is used to monitor and extract existing and growing relationships. The correlation is used to help generate alerts in advance due to internal user-object interactions or collaboration of internal as well as external entities. Using an experimental setup, the evolving relationships are monitored, and clustered in the database.
[...] Read more.By P.Lokesh Kumar Reddy B.Rama Bhupal Reddy S.Rama Krishna
DOI: https://doi.org/10.5815/ijisa.2013.01.06, Pub. Date: 8 Dec. 2012
According to technical statistics, current TCP protocols with approximately 80% Internet applications run on perform very well on wired networks. However, due to the effects of long propagation delay, great band- width asymmetry, high sporadic Bit Error Rate (BER) and etc., TCP performance degrades obviously on the satellite communication networks. To avoid the problems, TP-S, a novel transport control protocol, is introduced for satellite IP networks. Firstly, in order to increase the increment speed of Congestion Window (cwnd) at the beginning of data transmission, the traditional Slow Start strategy is replaced by a new strategy, known as Super Start. Secondly, a new packet lost discriminated scheme based on IP packets alternately sending with different priority is used in the protocol to decouple congestion decision from errors. Thirdly, bandwidth asymmetry problem is avoided by adopting Modified NACK (M-NACK) in receiving ends, which is sent periodically. In addition, the sending strategy in routers is also modified along with other’s changes to support the protocol. Finally, the simulation experiments show that the new protocol can not only significantly enhance throughput performance, but also reduce sharply bandwidth used in the reverse path as compared with traditional TCP protocols and those protocols, which are recently proposed for satellite IP networks.
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