Title: End-to-end delay and backlog bound analysis for hybrid vehicular ad hoc network: a stochastic network calculus approach

Authors: Shivani Gupta; Vandana Khaitan

Addresses: Department of Operational Research, University of Delhi, Delhi, India ' Department of Operational Research, University of Delhi, Delhi, India

Abstract: This paper studies end-to-end delay and backlog in a hybrid vehicular ad-hoc network (VANET). The probabilistic upper bounds for delay and backlog are obtained instead of evaluating the numerical results for delay and backlog. To obtain the bounds, a queueing network model is proposed representing the message dissemination scheme in the hybrid VANET architecture. The network model is solved using stochastic network calculus methodology. The novelty of this paper lies in the fact that the arrival and service processes in the proposed queueing network are assumed to be self-similar and heavy-tailed distributed. Further, a comparison study with the exponential arrival and service times is also performed to validate the appropriateness of using heavy-tailed characteristics. In addition, a comparative study of hybrid VANET with the other two conventional architectures of VANET, i.e., ad-hoc network only and cellular network only, is also provided in the paper.

Keywords: hybrid VANET; queueing network; stochastic network calculus; end-to-end delay; backlog; probabilistic bounds; heavy-tailed traffic.

DOI: 10.1504/IJVICS.2023.132925

International Journal of Vehicle Information and Communication Systems, 2023 Vol.8 No.3, pp.191 - 216

Received: 05 Oct 2020
Accepted: 20 Jan 2021
Published online: 17 Aug 2023 *

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