@inproceedings{oai:ipsj.ixsq.nii.ac.jp:00219662,
 author = {Nada, Mohammed Nour and Tomoya, Kitani and Nada, Mohammed Nour and Tomoya, Kitani},
 book = {マルチメディア，分散，協調とモバイルシンポジウム2022論文集},
 month = {Jul},
 note = {Wi-Fi offloading has been proposed to mitigate the data explosion resulting from increased vehicular application and services-Wi-Fi offloading means using Wi-Fi to offload the data initially targeted for cellular networks. In the C-V2X vehicle network, Wi-Fi can be delivered using the Road-Side Units (RSU) as Access Point (AP). The main concern is how many RSU -Wi-Fi APs- are needed to deliver the services for the more significant number of users without exceeding the communication delay demand and ensuring the users' satisfaction. Therefore, this paper wants to investigate the minimum required number of RSU for efficient Wi-Fi offloading in urban areas using the Minimum weighted vertex cover Algorithm. First, we find the graph representation of the target city map, then apply an MWVC algorithm solver to find the RSU Deployment. We will use both network and traffic simulators., Wi-Fi offloading has been proposed to mitigate the data explosion resulting from increased vehicular application and services-Wi-Fi offloading means using Wi-Fi to offload the data initially targeted for cellular networks. In the C-V2X vehicle network, Wi-Fi can be delivered using the Road-Side Units (RSU) as Access Point (AP). The main concern is how many RSU -Wi-Fi APs- are needed to deliver the services for the more significant number of users without exceeding the communication delay demand and ensuring the users' satisfaction. Therefore, this paper wants to investigate the minimum required number of RSU for efficient Wi-Fi offloading in urban areas using the Minimum weighted vertex cover Algorithm. First, we find the graph representation of the target city map, then apply an MWVC algorithm solver to find the RSU Deployment. We will use both network and traffic simulators.},
 pages = {622--626},
 publisher = {情報処理学会},
 title = {A Modeling of Road-Side Unit (RSU) Deployment for Efficient WiFi Offloading in Urban Areas},
 volume = {2022},
 year = {2022}
}