Proceeding of

NCAICN National Conference 2013



Advances in

Computing & Networking


A Special Issue of

International Journal of Computer Science and Applications



Hon. Shri Sundeepji Meghe

(Chairman, Vidarbha Youth Welfare Society, Amravati)



Dr. V.T. Ingole (FIE, FIETE, Professor Emeritus)


Organizing Committee


Dr. D.T. Ingole (FIE, FIETE)

(Principal PRMIT & R, Badnera and  Chairman IEI  Amravati Center).


 Er. A.W. Jawanjal

(Honorary Secretary IEI, Amravati Center)


Dr. G.R. Bamnote ((FIE, FIETE)

(H.O.D. Computer Science & Engineering)

Dr. A.S. Alvi (MIE)

(H.O.D. Information Technology))

Prof. Mrs. M.D. Ingole (FIE.MIETE)

(H.O.D. Electronics & Telecommunication)


Prof. S.V. Dhopte ((FIE, FIETE)

Prof. Ms. V.M. Deshmukh (FIE, FIETE)

Dr. S.W. Mohod  (FIE,FIETE)


Dr. S.R. Gupta (MIE, MIETE)

Prof. S.V. Pattalwar ((FIE, FIETE)

Prof. M.D. Damahe


Prof. Mrs. M.S. Joshi                

Dr. S.M. Deshmukh

Prof. V.U. Kale

Prof. S.S. Kulkarni

Prof. Ms. R.R. Tuteja

Prof. Ms. J.N. Ingole

Prof. V.R. Raut

Prof. C.N. Deshmukh

Prof. Ms. M.S. Deshmukh

Prof. S.P. Akarte

Prof. Mrs. A.P. Deshmukh

Prof. Mrs. S.S. Sikchi

Prof. N.N. Khalsa

Department of Information and Computer Science and Engineering

Prof. Ram Meghe Institute of Technology and Research, Badnera Distt. Amravati



Prof. K. H. Walse





IJCSA ISSN: 0974-1011 (Online) >>    

Study and Analysis of the Capacity of Ad Hoc Wireless Networks using Mobility and Delay

Sanjeev Kumar Srivastava, Dr. (Mrs.) Ranjana D. Raut and Dr. P.T.Karule


with a cellular architecture of 𝑚 base stations, it is investigated that each wireless node can be realized with a throughput that  By employing a practical and simple routing policy to study and analyze the capacity using mobility and delay of an ad-hoc wireless network and  consisting of 𝑛 static wireless nodes overlaid scales  sub linearly or linearly with 𝑚., The analysis shows that one requires  a  large  deployment cost  in  order  to  achieve  a  Θ(1) capacity.  Existing research works also indicate that for pure mobile ad hoc networks, a capacity of Θ(1) can be achieved by exploiting the mobility of the nodes, at the expense of very high end-to-end delay. This larger delay, nevertheless, stems from the assumption of global mobility, where nodes move around the entire network. By leveraging  a  more practical and restricted mobility model, it is analyzed the capacity using mobility and delay ad-hoc wireless network design with 𝑛 mobile nodes and 𝑚 base stations, termed as mobile hybrid wireless network. This results show that each node can be realized with a capacity of Θ (1), while keeping the average end-to-end delay smaller by a factor of 𝑚 than the pure mobile ad hoc networks.

2013 International Journal of Computer Science and Applications 

Published by Research Publications, India