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Smart city article details
| Title | Improving Resources In Internet Of Vehicles Transportation Systems Using Markov Transition And Tdma Protocol |
|---|---|
| ID_Doc | 30902 |
| Authors | Miri F.; Javadpour A.; Ja'Fari F.; Sangaiah A.K.; Pazzi R. |
| Year | 2023 |
| Published | IEEE Transactions on Intelligent Transportation Systems, 24, 11 |
| DOI | http://dx.doi.org/10.1109/TITS.2023.3244394 |
| Abstract | In today's world, interconnected Vehicular ad-hoc networks (VANET) and intelligent transportation systems have become more popular. Although IoV can bring many benefits for the smart cities and provide comforts for the passengers, however, the increasing needs for keeping the QoS and QoE at an acceptable level in time sensitive applications seems crucial and needs to be investigated deeply. Also, allocating the right number of resources to avoid congestions and fill the deficiencies in a distributed manner is a challenging issue. So, with the increase in users, attention must be given to Quality of Service (QoS) and resource allocation. As the vehicle network provides information to provide safety, comfort, and entertainment to drivers and passengers, they are one of the most compelling research topics in intelligent transportation systems. TDMA protocol is used in this study to increase the efficiency of the network and the quality of service it provides. To solve the synchronization problem, the Markov method predicts the size of slots and frames. The scenario field is used in the Markov application section to better predict TDMA gaps on solving the synchronization problem. Accordingly, the higher the quality of service, the lower the latency of the network, and the better the allocation of resources. Optimizing allocation and quality of service is further motivated by reducing collision between packets. In terms of its implementation, this method is divided into two components, the first being the database proposal for constructing the Markov matrix and the second being the simulation on VanetMobisim and implementation of the network in NS2. The proposed method performed better in different scenarios in terms of computational complexity, PDF, latency, and overhead, as shown in the results section. © 2000-2011 IEEE. |
| Author Keywords | fuzzy Markov; intelligent transportation; quality of service; resource allocation; TDMA; VANET; VanetMobisim |
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