Abstract
In the vehicular ad-hoc networks (VANETs), wireless access in vehicular environments (WAVE) as the core networking technology is suitable for supporting safety-critical applications, but it is difficult to guarantee its performance when transmitting non-safety data, especially high volumes of data, in a multi-hop manner. Therefore, to provide non-safety applications effectively and reliably for users, we propose a hybrid V2V communication system (HVCS) using hierarchical networking architecture: a centralized control model for the establishment of a fast connection and a local data propagation model for efficient and reliable transmissions. The centralized control model had the functionality of node discovery, local ad-hoc group (LAG) formation, a LAG owner (LAGO) determination, and LAG management. The local data propagation indicates that data are transmitted only within the LAG under the management of the LAGO. To support the end-to-end multi-hop transmission over V2V communication, vehicles outside the LAG employ the store and forward model. We designed three phases consisting of concise device discovery (CDD), concise provisioning (CP), and data transmission, so that the HVCS is highly efficient and robust on the hierarchical networking architecture. Under the centralized control, the phase of the CDD operates to improve connection establishment time, and the CP is to simplify operations required for security establishment. Our HVCS is implemented as a two-tier system using a traffic controller for centralized control using cellular networks and a smartphone for local data propagation over Wi-Fi Direct. The HVCS’ performance was evaluated using Veins, and compared with WAVE in terms of throughput, connectivity, and quality of service (QoS). The effectiveness of the centralized control was demonstrated in comparative experiments with Wi-Fi Direct. The connection establishment time measured was only 0.95 s for the HVCS. In the case of video streaming services through the HVCS, about 98% of the events could be played over 16 frames per second. The throughput for the streaming data was between 74% to 81% when the vehicle density was over 50%. We demonstrated that the proposed system has high throughput and satisfies the QoS of streaming services even though the end-to-end delay is a bit longer when compared to that of WAVE.
Highlights
A cooperative intelligent transportation system (C-ITS) is a complex transport system with the cooperation between vehicles and specialized equipment located along transport infrastructure
We introduce some of the wireless networking technologies available to smart mobile devices, especially smartphones, in order to find out particular technologies suitable for the transmission of large amounts of non-safety data such as real-time video streaming data in vehicular ad-hoc networks (VANETs)
Using Veins, we evaluated the performance of the hybrid V2V communication system (HVCS) in terms of the throughput, transmission delay, propagation delay, E2E delay, and quality of service (QoS)
Summary
A cooperative intelligent transportation system (C-ITS) is a complex transport system with the cooperation between vehicles and specialized equipment located along transport infrastructure. The development of new technology allows drivers to extend an automobile from the main means of transportation as a new life space These days, users in the vehicle are highly interested in enjoying entertainment (e.g., watching video streaming and playing games with friends) and utilizing various information for convenience and comfort. In this regard, during traveling, infotainment data have already been provided through network to vehicle (N2V) communication, for example, Internet access and a cellular network to vehicles [2,3,4]. In Korea, drivers can already receive real-time video streaming from CCTV installed along highways over a wired network or a cellular network (i.e., N2V or I2V) [5]
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