Abstract
In the highway environment, many applications require localization. It is common to use the Global Positioning System (GPS) to find the current position, but GPS is easily influenced by the external environment and has many internal errors. Dead Reckoning (DR) is a common method for correcting the GPS position. However, the related applications do not have a notice system that can show the number of and distances to neighboring vehicles. In this paper, we design a map application on the Android operating system for vehicular networks. In this map application, the road map would be shown on a monitor, and the neighboring vehicles could also be drawn on this map. Users can easily understand the road conditions. Moreover, the application can exchange traffic information with other vehicles, and the map can also show the vehicles which are out of range. Furthermore, the application can show the time to collision between two vehicles. The experimental results will show the adjustment of position corrected by DR on Google Map, and the radar map on the Android operating system.
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Keywords
- Global Position System
- Vehicular Network
- Dead Reckoning
- Global Position System Signal
- Differential Global Position System
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.
References
Fernandez, J., Borries, K., Cheng, L., Kumar, B., Stancil, D., Bai, F.: Performance of the 802.11p physical layer in vehicular-to-vehicular environments. IEEE Transactions on Vehicular Technology 61(1), 3–14 (2012)
Hassan, M., Vu, H., Sakurai, T., Andrew, L.: Effect of retransmissions on the performance of the IEEE 802.11 MAC protocol for DSRC. IEEE Transactions on Vehicular Technology 61(1), 22–34 (2012)
Hsieh, T., Tseng, Y.: Vehicular traffic information dissemination for WAVE/DSRC networks. In: IEEE International Symposium on Wireless and Pervasive Computing, pp. 1–6 (2011)
Alam, N., Balaei, A., Dempster, A.: A DSRC Doppler-based cooperative positioning enhancement for vehicular networks with GPS availability. IEEE Transactions on Vehicular Technology 60(9), 4462–4470 (2010)
Lim, H., Chung, T.: Performance evaluation of relative positioning based on low-cost GPS and VANET. In: IEEE International Conference on Internet Technology and Secured Transactions, pp. 542–543 (2011)
He, Z., Ma, Y., Tafazolli, R.: Cooperative localization in a distributed base station scenario. In: IEEE Vehicular Technology Conference, pp. 1–5 (2011)
Cho, B., Koo, J., Yoon, B., Kim, B.: The research of dead reckoning stabilization algorithm using different kinds of sensors. In: IEEE International Conference on Control, Automation and Systems, pp. 1089–1092 (2010)
Yan, Z., Peng, S., Zhou, J., Zu, J., Jia, H.: Research on an improved dead reckoning for AUV navigation. In: IEEE Chinese Control and Decision Conference, pp. 1793–1797 (2010)
Fouque, C., Bonnifait, P., Betaille, D.: Enhancement of global vehicle localization using navigable road maps and dead-reckoning. In: IEEE Position, Location and Navigation Symposium, pp. 1286–1291 (2008)
Wen, J., Lu, X.: Research on low-cost vehicular integrated navigation. In: IEEE International Conference on Advanced Mechatronic Systems, pp. 287–290 (2011)
Li, H., Lin, K.: ITRI WAVE/DSRC communication unit. In: IEEE Vehicular Technology Conference, pp. 1–2 (2010)
Shimonaka, Y., Tasaka, S., Hatta, Y., Wada, T., Okada, H.: Accuracy improvement of vehicular collision avoidance support system (VCASS) for the next generation ITS. In: IEEE Wireless Communications and Networking Conference, pp. 2517–2522 (2007)
Savasta, S., Pini, M., Marfia, G.: Performance assessment of a commercial GPS receiver for networking applications. In: IEEE Consumer Communications and Networking Conference, pp. 613–617 (2008)
Yaacob, N., Abdullah, M., Ismail, M.: Ionospheric modelling: improving the accuracy of differential GPS (dGPS) in equatorial regions. IEEE Asia-Pacific Applied Electromagnetics, 1–5 (2007)
Bevly, D., Parkinson, B.: Cascaded Kalman filters for accurate estimation of multiple biases, dead-reckoning navigation, and full state feedback control of ground vehicles. IEEE Transactions on Control Systems Technology 15(2), 199–208 (2007)
Berman, Z., Powell, J.: The role of dead reckoning and inertial sensors in future general aviation navigation. In: IEEE Position Location and Navigation Symposium, pp. 510–517 (1998)
Krakiwsky, E., Harris, C., Wong, R.: A Kalman filter for integrating dead reckoning, map matching and GPS positioning. In: IEEE Position Location and Navigation Symposium, pp. 39–46 (1988)
Yang, Y., Ye, H., Fei, S.: Integrated map-matching algorithm based on fuzzy logic and dead reckoning. In: IEEE International Conference on Control Automation and Systems, pp. 1139–1142 (2010)
Kuo, W.: Integration of GPS and dead-reckoning navigation systems. In: IEEE Vehicle Navigation and Information Systems Conference, pp. 635–643 (1991)
GPS distance calculate tool, china.cos@gmail.com. this tool is powered by Cosbeta, http://www.storyday.com/wp-content/uploads/2008/09/latlung_dis.html
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Kuo, CI., Wang, PC., Lin, CH., Shieh, CK., Tsai, MF. (2013). Implementation of Radar Map Using GPS in Vehicular Networks. In: Chang, RS., Jain, L., Peng, SL. (eds) Advances in Intelligent Systems and Applications - Volume 1. Smart Innovation, Systems and Technologies, vol 20. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-35452-6_67
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DOI: https://doi.org/10.1007/978-3-642-35452-6_67
Publisher Name: Springer, Berlin, Heidelberg
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