This content is not included in
your SAE MOBILUS subscription, or you are not logged in.
V2V Communication - Analysis and Validation of Propagation Models in Real World Scenarios
Technical Paper
2015-01-0289
ISSN: 0148-7191, e-ISSN: 2688-3627
Annotation ability available
Sector:
Language:
English
Abstract
Progressed efforts have been made on the development of Vehicle to Vehicle communication technology. The European Telecommunications Standard Institute has allocated a dedicated frequency band of 5.855 - 5.925 GHz to vehicular communication. Numerous on road measurement campaigns have been conducted by joint consortium to evaluate the performance of Vehicle to Vehicle (V2V) communication around the world. However due to the scalability limitation of on road measurements, light-weight simulation tools are more widely implemented to gain general insights into Vehicle to Vehicle communication. Hence, the needs of simulation regarding evaluation on the performance of this technology have been aroused. In order to ensure the reliability of the simulation, propagation model on Vehicle to Vehicle communication should be accurate to have realistic results.
In this paper, we conducted a survey of the available propagation models in urban, suburban and highway area. Both empirically derived and physical mechanism based models have been analyzed. The validation of the proposed models is based on the measurements conducted by us in Lippstadt, Germany, which is a typical medium sized city with average traffic flows.
This paper focuses on the derivation of the path loss exponents and the validation of propagation models based on measurements conducted in Lippstadt, Germany. The applicability of the proposed models in estimating the signal propagation in this specific environment condition was discussed subsequently.
The paper summarizes different approaches implemented to estimate the propagation loss of Vehicle to Vehicle communication. Values for path loss exponents have been derived base on realistic measurement results, which can be integrated into simulation of Vehicle to Vehicle communication.
Authors
Citation
Chen, Y., Chamadiya, B., and Bueker, U., "V2V Communication - Analysis and Validation of Propagation Models in Real World Scenarios," SAE Technical Paper 2015-01-0289, 2015, https://doi.org/10.4271/2015-01-0289.Also In
References
- Popescu , R. , Radusch , I. , and Rigani , M. A. Vehicular-2-X communications: State-of-the-art and research in mobile vehicular ad hoc networks Springer Berlin 2010
- Dedicated Short Range Communication transmission equipment operating in the 5,8 GHz Industrial, EN 300 674-1 2004
- Schack , M. , Nuckelt , J. , Geise , R. , Thiele , L. and Kürner , T. Comparison of path loss measurements and predictions at urban crossroads for C2C communications Antennas and Propagation (EUCAP), Proceedings of the 5th European Conference on 2896 2900 IEEE 2011
- Sklar , B. Digital communications: Fundamentals & applications 2nd Prentice Hall US 2005
- Schwengler , T. , Gilbert , M. Propagation models at 5.8GHz path loss & building Penetration Proc. Radio and Wireless Conf. 2000 10.1109/RAWCON.2000.881870
- Boban , M. , Viriyasitavat , W. , Tonguz , O. Modeling vehicle to vehicle LOS channels and its impact on application level performance metrics Proc. VANET '13 2013
- Paschalidis , P. , Mahler , K. , Kortke , A. , Peter , M. , Keusgen , W. Pathloss and multipath power decay of the wideband car-to-car channel at 5.7 GHz Proc. VTC Spring Conf. 2011 10.1145/2482967.2482980
- Elbatt , T. , Goel , S. K. , Holland , G. , Krishnan , H. , and Parikh , J. Cooperative collision warning using dedicated short range wireless communications Proc. the 3 rd ACM Int. Workshop on Vehicular Ad Hoc Networks (VANET'06) 2006 10.1145/1161064.1161066
- Huang , C. -L. , Fallah , Y. P. , Sengupta , R. and Krishnan , H. Information dissemination control for cooperative active safety applications in vehicular ad-hoc networks Proc. IEEE GLOBECOM 2009 Conf. 2009 10.1109/glocom.2009.5425750
- Schumacher H. , Tchouankem , H. Highway propagation modeling in VANETs and its impact on performance evaluation Proc. WONS Conf. 2013 10.1109/wons.2013.6578344
- Cheng , L. , Henty , B. E. , Bai , F. , and Stancil , D. D. Highway and rural propagation channel modeling for vehicle-to-vehicle communications at 5.9 GHz Proc. 2008 IEEE Antennas and Propagation Sciety Int. Symp. 2008 10.1109/aps.2008.4619037
- Kaul S. , Ranachandran K. , Shankar P. , Oh S. , Gruteser M. , Seskar I. and Nadeem T. Effect of antenna placement and diversity on vehicular network communications Proc. SECON'07 Conf. 2007 10.1109/sahcn.2007.4292823
- Sommer , C. and Dressler , F. Using the right two-ray model? A measurement based evaluation of PHY models in VANETs Proc. MobiCom 2011 2011