Realistic propagation simulation of urban mesh networks
Computer Networks: The International Journal of Computer and Telecommunications Networking
Stereoscopic aerial photography: an alternative to model-based urban mobility approaches
Proceedings of the sixth ACM international workshop on VehiculAr InterNETworking
Geo-aware handover of mission agents using opportunistic communication in VANET
ruSMART/NEW2AN'10 Proceedings of the Third conference on Smart Spaces and next generation wired, and 10th international conference on Wireless networking
A study of the discovery process in 802.11 networks
ACM SIGMOBILE Mobile Computing and Communications Review
Analyzing different levels of geographic context awareness in agent ferrying over VANETs
Proceedings of the 2011 ACM Symposium on Applied Computing
Nets4Cars/Nets4Trains'11 Proceedings of the Third international conference on Communication technologies for vehicles
Comparing apples and oranges?: trends in IVC simulations
Proceedings of the ninth ACM international workshop on Vehicular inter-networking, systems, and applications
Improving the accuracy of environment-specific vehicular channel modeling
Proceedings of the seventh ACM international workshop on Wireless network testbeds, experimental evaluation and characterization
Review: Information management in vehicular ad hoc networks: A review
Journal of Network and Computer Applications
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Recent advances in portable technologies suggest that ad hoc networks will finally move out from the research and military harbors to the commercial world. In particular, vehicular safety and entertainment applications are mature for the market. Several major manufacturer are considering vehicular communications as an opportunity to increase the profitability and marketability of their vehicles. In this phase, simulations are essential to evaluate the performance of protocols and applications large urban Ad Hoc and Vehicular networks. This paper tackles on the long overdue issue of an high fidelity propagation model for urban ad hoc networks. In particular, we propose CORNER a low computational cost yet accurate urban propagation prediction technique for ad hoc networks in urban scenarios. We also provide validation of the model through a side-to-side comparison of real experiments and simulations.