Abstract
This paper proposes a predicted k-hop-limited multi-RSU-considered (PKMR) vehicle to vehicle to roadside unit (RSU) (VVR) data offloading method based on the architecture of the Software Defined Network (SDN) controller inside the multi-access edge computing (MEC) server. In the proposed method, a source vehicle that wants to offload data traffic can use a VVR path that connects the source vehicle and the ahead/rear RSU to perform RSU data offloading when the source vehicle approaches the ahead RSU or leaves the rear RSU. Since some RSUs’ signal ranges may overlap, multi-RSU deployment and RSU handoff between signal-overlapping RSUs must be managed to utilize VVR-based RSU data offloading as much as possible. Based on a vehicle’s periodically reported contexts received by the MEC server, the SDN controller inside the MEC server can execute the proposed PKMR method, which adopts (i) the time-extended prediction mechanism to find the potential VVR paths that exist in a coming time period [tc, tc+T] and (ii) a quality function that takes vehicles’ and RSUs’ network conditions into consideration to select the most suitable VVR data offloading path. The performance evaluation results indicate that the proposed PKMR method produces better data offloading performance than the traditional self-offloading method.
Highlights
I EEE 802.11p [1], [2] was defined, developed and deployed for vehicular networks’ Dedicated Short Range Communications (DSRC) [3], [4] more than ten years ago
Vi repeatedly (a) sends the uplinked data received from Vi−1 to Vi+1, (b) forwards the downlinked data received from Vi+1 to Vi−1, and (c) sends the context report to the multi-access edge computing (MEC) server periodically until it is notified by the MEC server to exit the current vehicle to vehicle to RSU (VVR) data offloading path
The main reason is that the exploring of the VVR data offloading path is roadside unit (RSU)-oriented, i.e., it is explored on RSU by one RSU, the computation complexity does not depend on the number of overlapped RSUs
Summary
I EEE 802.11p [1], [2] was defined, developed and deployed for vehicular networks’ Dedicated Short Range Communications (DSRC) [3], [4] more than ten years ago. Based on the corresponding vehicular network topology that exists at reference time point t+1, i.e., after 1 time unit, the best VVR data offloading path is V-C-RSU1, the quality value of which is 3.6. Based on the vehicular network topology that exists at reference time point t+2, i.e., after 2 time units, the best VVR data offloading path is V-D-RSU2, whose quality value is 8.
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