21 Page 21- 29 © MANTECH PUBLICATIONS 2019. All Rights Reserved Journal of Wireless Communication, Network and Mobile Engineering Technology Volume 4 Issue 2 Markovian Implementation Methods using Mobile Ad hoc Networks K. Thamizhmaran Assistant Professor Department of ECE Govt. College of Engineering, Tamilnadu, India–625528, Corresponding author’s email id: tamil10_happy@rediff.com DOI: - http://doi.org/10.5281/zenodo.3354238 Abstract In this proposed emerging paper approach that indicated storage buffer and security for mobile ad hoc network using via improved delay analysis. Optimal route allocation is first made by applying dynamic routing protocol. This is to reduce the communication bandwidth cost between the unbreakable optimal paths. Finally, security between the nodes is ensured through MUHC method. An extensive simulation is conducted to illustrate the efficiency of our delay analysis as well as the impacts of network parameters PDR, Delay RO and size of the sending packet. Keywords: MANET, Routing, Protocol, QoS, Delay, Markovian Queuing. INTRODUCTION End-to-End Delay method in Buffer- limited (E2ED-B) MANETs indicated two-hop communication paths delay analysis. The E2ED-B framework combined the theories of fixed-point (FP), quasi-birth-and-death process, and embedded Markov chain. To the occupancy states of relay buffer, the Markov chain theory was then applied to categorize packet delivery process. However, the end-to-end delay method in buffer limited constraints with 2HR (E2ED-B) did not take into consideration the security aspects and the constraint on buffer space was not addressed. The paper is developed as follows. In the next section (Section 2), we discuss some related work in delay analysis in MANET. In this paper, we propose an effective End-to-End delay method detector based on the combination of cooperative network and dynamic