International Journal of Advanced Networking and Applications

Open Access Open Access  Restricted Access Subscription Access

Design and Implementation of AMRP for Multi hop wireless Mobile ad hoc Networks


Affiliations
1 Dept. of ISE, Rajarajeswari College of Engineering, Bangalore, India
2 Dept. of CSE, Rajarajeswari College of Engineering, Bangalore, India
 

In this paper have analyzed the interruption concert of a multi-hop wireless network in which the routes between resource-objective pairs are fixed. It has developed a new queue grouping technique to handle the complex correlations of the service process resulting from the multi-hop nature of the flows and their mutual sharing of the wireless medium. A general set based interfering model is assumed that imposes constraints on links that can be served simultaneously at any given time. These interference constraints are used to obtain a fundamental lower bound on the interruption concert of any scheduling policy for the system. It presents a systematic methodology to derive such lower bounds. For a special wireless system, namely the clique, it design a policy that is sample path interruption is finest. For the cycle queue network, where the interruption finest policy is known, the expected interruption of the optimal policy numerically coincides with the lower bound. The lower bound analysis provides useful insights into the design and analysis of optimal or nearly optimal scheduling policies.

Keywords

Hop by Hop, Performance, clique, Interference, Multi Hop, Scheduling, AMRIS.
User
Notifications
Font Size

Abstract Views: 135

PDF Views: 2




  • Design and Implementation of AMRP for Multi hop wireless Mobile ad hoc Networks

Abstract Views: 135  |  PDF Views: 2

Authors

R. Balakrishna
Dept. of ISE, Rajarajeswari College of Engineering, Bangalore, India
K. S. Rajesh
Dept. of CSE, Rajarajeswari College of Engineering, Bangalore, India

Abstract


In this paper have analyzed the interruption concert of a multi-hop wireless network in which the routes between resource-objective pairs are fixed. It has developed a new queue grouping technique to handle the complex correlations of the service process resulting from the multi-hop nature of the flows and their mutual sharing of the wireless medium. A general set based interfering model is assumed that imposes constraints on links that can be served simultaneously at any given time. These interference constraints are used to obtain a fundamental lower bound on the interruption concert of any scheduling policy for the system. It presents a systematic methodology to derive such lower bounds. For a special wireless system, namely the clique, it design a policy that is sample path interruption is finest. For the cycle queue network, where the interruption finest policy is known, the expected interruption of the optimal policy numerically coincides with the lower bound. The lower bound analysis provides useful insights into the design and analysis of optimal or nearly optimal scheduling policies.

Keywords


Hop by Hop, Performance, clique, Interference, Multi Hop, Scheduling, AMRIS.