Regular-Shaped Geometry-Based Stochastic Model for Vehicle-to-Vehicle Visible Light Communication Channel

Research output: Chapter in Book/Report/Conference proceedingConference proceeding

Abstract

This paper proposes an outdoor vehicle-to-vehicle visible light communication (VVLC) channel model. Due to the lack of a realistic channel model that takes the vehicles mobility and the light propagation nature into consideration, we propose a regular-shaped geometry based stochastic channel model (RSGBSM). Particularly, we suggest the ellipse shape to describe the line of sight (LOS) and the reflection components of the VVLC. This approach offers flexibility to describe vehicles locations, speed and direction as well as stationary and non-stationary reflectors which are changing rapidly and continuously. The simulation results demonstrate that the LOS channel component is more affected by the direction of motion than the reflection component, whereas the reflection component is more affected by the relative speed of the vehicles.
Original languageEnglish
Title of host publication2019 IEEE Jordan International Joint Conference on Electrical Engineering and Information Technology, JEEIT 2019 - Proceedings
PublisherIEEE
Pages297-301
Number of pages5
ISBN (Electronic)9781538679425
ISBN (Print) 978-1-5386-7942-5
DOIs
Publication statusPublished - 16 May 2019
Event2019 IEEE Jordan International Joint Conference on Electrical Engineering and Information Technology - Amman, Jordan
Duration: 9 Apr 201911 Apr 2019
https://jeeit.net/

Conference

Conference2019 IEEE Jordan International Joint Conference on Electrical Engineering and Information Technology
Abbreviated titleJEEIT 2019
CountryJordan
CityAmman
Period9/04/1911/04/19
Internet address

Fingerprint

Stochastic models
Geometry
Light propagation
Visible light communication

Keywords

  • Outdoor channel model
  • Regular shaped geometry based stochastic model (RS-GBSM)
  • Vehicle to vehicle (V2V) communication
  • Visible light communication (VLC)

ASJC Scopus subject areas

  • Computer Networks and Communications
  • Computer Science Applications
  • Hardware and Architecture
  • Information Systems
  • Information Systems and Management
  • Electrical and Electronic Engineering
  • Computational Mathematics

Cite this

Al Sallami, F. M. Y., Ahmad, Z., Haas, O., & Rajbhandari, S. (2019). Regular-Shaped Geometry-Based Stochastic Model for Vehicle-to-Vehicle Visible Light Communication Channel. In 2019 IEEE Jordan International Joint Conference on Electrical Engineering and Information Technology, JEEIT 2019 - Proceedings (pp. 297-301). [8717408] IEEE. https://doi.org/10.1109/JEEIT.2019.8717408

Regular-Shaped Geometry-Based Stochastic Model for Vehicle-to-Vehicle Visible Light Communication Channel. / Al Sallami, Farah Mahdi Yaseen; Ahmad, Zahir; Haas, Olivier; Rajbhandari, Sujan.

2019 IEEE Jordan International Joint Conference on Electrical Engineering and Information Technology, JEEIT 2019 - Proceedings. IEEE, 2019. p. 297-301 8717408.

Research output: Chapter in Book/Report/Conference proceedingConference proceeding

Al Sallami, FMY, Ahmad, Z, Haas, O & Rajbhandari, S 2019, Regular-Shaped Geometry-Based Stochastic Model for Vehicle-to-Vehicle Visible Light Communication Channel. in 2019 IEEE Jordan International Joint Conference on Electrical Engineering and Information Technology, JEEIT 2019 - Proceedings., 8717408, IEEE, pp. 297-301, 2019 IEEE Jordan International Joint Conference on Electrical Engineering and Information Technology , Amman, Jordan, 9/04/19. https://doi.org/10.1109/JEEIT.2019.8717408
Al Sallami FMY, Ahmad Z, Haas O, Rajbhandari S. Regular-Shaped Geometry-Based Stochastic Model for Vehicle-to-Vehicle Visible Light Communication Channel. In 2019 IEEE Jordan International Joint Conference on Electrical Engineering and Information Technology, JEEIT 2019 - Proceedings. IEEE. 2019. p. 297-301. 8717408 https://doi.org/10.1109/JEEIT.2019.8717408
Al Sallami, Farah Mahdi Yaseen ; Ahmad, Zahir ; Haas, Olivier ; Rajbhandari, Sujan. / Regular-Shaped Geometry-Based Stochastic Model for Vehicle-to-Vehicle Visible Light Communication Channel. 2019 IEEE Jordan International Joint Conference on Electrical Engineering and Information Technology, JEEIT 2019 - Proceedings. IEEE, 2019. pp. 297-301
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