Visual-MIMO for Software-Defined Vehicular Networks release_cltoapkrgfaivpalkjkadqvpla

by Tae Ho Kwon, Jai Eun Kim, Ki Soo An, Rappy Saha, Ki Doo Kim

Published in International Journal of Engineering & Technology by Science Publishing Corporation.

2018   Issue 4.4, p13


The paradigm of software-defined network (SDN) is being applied to vehicle scenarios in order to eliminate this heterogeneity of vehicular network infrastructure and to manage packet flow in an application- and user-centrically flexible and efficient manner. However, owing to the random mobility of vehicles and the unpredictable road communication environment, efficient vehicle-based SDN development needs further research. In this study, we propose the concept of a sub-control plane for supporting and backing up, at the data plane level, various functions of the control plane, which plays a key role in SDN. The sub-control plane can be intuitively understood through the image processing techniques used in color-independent visual-MIMO (multiple input multiple output) networking, and the function of the control plane can be backed up through various vehicle-based recognition and tracking algorithms under the situation of disconnection between the data plane and the control plane. The proposed sub-control plane is expected to facilitate efficient management of the software-defined vehicular network (SDVN) and improve vehicular communication performance and service quality.  
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Type  article-journal
Stage   published
Date   2018-09-15
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ISSN-L:  2227-524X
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