GeoISA: A new road-topology-assisted geo-based content discovery scheme for vehicular named data networking

[1]  Hafiz Adnan Niaz,et al.  Data collection protocols for VANETs: a survey , 2022, Complex & Intelligent Systems.

[2]  Ayoub Ait Lahcen,et al.  Forwarding strategies in vehicular named data networks: A survey , 2020, J. King Saud Univ. Comput. Inf. Sci..

[3]  Jiangang Xu,et al.  Impact of Road Network Topology on Public Transportation Development , 2021, Wireless Communications and Mobile Computing.

[4]  N. Shiwakoti,et al.  Review on Lane Detection and Tracking Algorithms of Advanced Driver Assistance System , 2021, Sustainability.

[5]  M. Felsberg,et al.  Graph Representation Learning for Road Type Classification , 2021, Pattern Recognit..

[6]  Muhammad Atif Ur Rehman,et al.  Context-Aware Naming and Forwarding in NDN-Based VANETs , 2021, Sensors.

[7]  Abdelfettah Belghith,et al.  Infrastructure localization service and tracking scheme in uncovered areas for Internet of Vehicles , 2021, Annals of Telecommunications.

[8]  G. Pau,et al.  Autonomous Vehicles: An Analysis Both on Their Distinctiveness and the Potential Impact on Urban Transport Systems , 2021, Applied Sciences.

[9]  Raed A. Alsaqour,et al.  A survey of data dissemination schemes in vehicular named data networking , 2021, Veh. Commun..

[10]  Peng Liu,et al.  A review of lane detection methods based on deep learning , 2021, Pattern Recognit..

[11]  Junaid Ahmed Khan,et al.  Leveraging Content Connectivity and Location Awareness for Adaptive Forwarding in NDN-based Mobile Ad Hoc Networks , 2020, ICN.

[12]  Augusto Neto,et al.  Towards Improved Vehicular Information-Centric Networks by Efficient Caching Discovery , 2020, Vehicles.

[13]  Maghsoud Abbaspour,et al.  A density-aware probabilistic interest forwarding method for content-centric vehicular networks , 2020, Veh. Commun..

[14]  Azzedine Boukerche,et al.  LoICen: A novel location-based and information-centric architecture for content distribution in vehicular networks , 2019, Ad Hoc Networks.

[15]  Sukumar Nandi,et al.  A tutorial survey on vehicular communication state of the art, and future research directions , 2019, Veh. Commun..

[16]  Tao Zhang,et al.  A Flexible Multi-Layer Map Model Designed for Lane-Level Route Planning in Autonomous Vehicles , 2019, Engineering.

[17]  Igor M. Moraes,et al.  GeoZone: An interest-packet forwarding mechanism based on dissemination zone for content-centric vehicular networks , 2019, Comput. Electr. Eng..

[18]  Peng Zhang,et al.  Context-Aware Data Dissemination for ICN-Based Vehicular Ad Hoc Networks , 2018, Inf..

[19]  Syed Hassan Ahmed,et al.  BIRD: bio-inspired distributed interest forwarding in vehicular named-data networks , 2018, SAC.

[20]  Alexander Afanasyev,et al.  On the Evolution of ndnSIM , 2017, Comput. Commun. Rev..

[21]  Antonella Molinaro,et al.  A novel hybrid forwarding strategy for content delivery in wireless information-centric networks , 2017, Comput. Commun..

[22]  Antonella Molinaro,et al.  Forwarding strategies in named data wireless ad hoc networks: Design and evaluation , 2015, J. Netw. Comput. Appl..

[23]  Azzedine Boukerche,et al.  DRIVE: An efficient and robust data dissemination protocol for highway and urban vehicular ad hoc networks , 2014, Comput. Networks.

[24]  Antonella Molinaro,et al.  Content-centric wireless networking: A survey , 2014, Comput. Networks.

[25]  Patrick Crowley,et al.  Named data networking , 2014, CCRV.

[26]  Giovanni Pau,et al.  ACM HotMobile 2013 poster: vehicular inter-networking via named data , 2013, MOCO.

[27]  Alexander Afanasyev,et al.  Rapid traffic information dissemination using named data , 2012, NoM '12.

[28]  Aharon Bar-Hillel,et al.  Recent progress in road and lane detection: a survey , 2014, Machine Vision and Applications.

[29]  Maxim Raya,et al.  TraCI: an interface for coupling road traffic and network simulators , 2008, CNS '08.