Abstract
The recent advances of ensemble mobile environment of smart devices with embedded sensors have enabled the MANET to play a key role in the smart cities as well as WSN and WMN. However, these smart devices are still limited in terms of energy, processor, and memory. Moreover, the efficient routing for reliable network connectivity at anytime, anywhere, and about everything is still a challenge in multihop wireless networks. This paper evaluates the QoS and energy efficiency of three active routing protocols: (i) OLSRv2, a successor to OLSR, (ii) DYMO, a successor to both DSR and AODV, and (iii) MP-OLSR multipath extension to OLSRv2. In contrast to the related previous works which focused only on CBR traffic without considering the influence of specific traffic types on the performance of routing protocols, this work focused on this area from a different perspective. It evaluates the performance of three internet-based traffic types that can be used in the smart city applications: VoIP, HTTP, and FTP using different simulation models. The impact of the network density, load traffic, and nodes mobility on the considered protocols was evaluated by considering particular performance metrics for each traffic application. Based on the results, the study concludes by presenting useful recommendations for future work.
Highlights
Smart city is becoming the orientation trend of urban development [1, 2]
This paper focuses on three Internet-based traffic types: voice over internet protocol (VoIP), file transfer protocol (FTP), and hypertext transfer protocol (HTTP) that can be utilized in smart city and internet of things (IoT) applications in different scenarios
This section provides a discussion of the main results obtained in this study. This includes the results obtained from comparing the performances of the routing protocols: OLSRv2, DYMO, and MP-optimized link state routing (OLSR) are compared for the considered application traffic models (VoIP, HTTP, and FTP) in different scenarios with different metrics
Summary
The advances and popularity in the smart mobile devices (laptops, notebooks, tablets, and smartphones) with embedded sensors, computing resources and wireless technologies, allied to the demand for smart city applications, are presenting a new ensemble mobile environment in smart cities These sensor enabled smart mobile devices are ideal candidates to catalyze smart applications and services in smart cities [3] and present the mobile ad hoc networks (MANET) [4, 5] as an essential component of the smart city infrastructure as well as wireless sensor networks (WSN) and wireless mesh networks (WMN). OLSR [14] is the currently most employed and leading proactive routing protocol in mobile ad hoc networks and the first version of OLSR (OLSRv1) [14]. It has been standardized as an experimental RFC (RFC 3626).
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