PLS for V2I Communications Using Friendly Jammer and Double kappa-mu Shadowed Fading

The concept of intelligent transportation systems (ITS) is considered to be a highly promising area of research due to its diversity of unique features. It is based mainly on the wireless vehicular network (WVN), where vehicles can perform sophisticated services such as sharing real-time safety information. To ensure high-quality service, WVN needs to solve the security challenges like eavesdropping, where malicious entities try to intercept the confidential transmitted signal. In this paper, we are going to provide a security scheme under the Double kappa-mu Shadowed fading. Our solution is based on the use of a friendly jammer that will transmit an artificial noise (AN) to jam the attacker's link and decrease its eavesdropping performances. To evaluate the efficiency of our solution, we investigated the outage probability for two special cases: Nakagami-m and Rician shadowed while taking into consideration the density of the blockage and the shadowing effects. We also studied the average secrecy capacity via deriving closed-form expressions of the ergodic capacity at the legitimate receiver and the attacker for the special case: Nakagami-m fading distribution.

[1]  Ayman I. Kayssi,et al.  SDN VANETs in 5G: An architecture for resilient security services , 2017, 2017 Fourth International Conference on Software Defined Systems (SDS).

[2]  Zhen Gao,et al.  Machine Learning Enabling Analog Beam Selection for Concurrent Transmissions in Millimeter-Wave V2V Communications , 2020, IEEE Transactions on Vehicular Technology.

[3]  I. M. Pyshik,et al.  Table of integrals, series, and products , 1965 .

[4]  H. Stefanovic,et al.  Some Statistical Characteristics of a New Shadowed Rician Fading Channel Model , 2008, 2008 The Fourth International Conference on Wireless and Mobile Communications.

[5]  Mohsen Guizani,et al.  Hybrid Rayleigh and Double-Weibull over impaired RF/FSO system with outdated CSI , 2017, 2017 IEEE International Conference on Communications (ICC).

[6]  Prabhat K. Upadhyay,et al.  Improving Secrecy Performance of Land Mobile Satellite Systems via a UAV Friendly Jammer , 2020, 2020 IEEE 17th Annual Consumer Communications & Networking Conference (CCNC).

[7]  Brian K. Johnson,et al.  Tractable Approach to MmWaves Cellular Analysis With FSO Backhauling Under Feedback Delay and Hardware Limitations , 2019, IEEE Transactions on Wireless Communications.

[8]  K. Gupta,et al.  An integral involving generalized function of two variables , 1972 .

[9]  Parviz Keshavarzi,et al.  Acquiring real time traffic information using VANET and dynamic route guidance , 2011, 2011 IEEE 2nd International Conference on Computing, Control and Industrial Engineering.

[10]  Azhar Hussain,et al.  Artificial Intelligence for Vehicle-to-Everything: A Survey , 2019, IEEE Access.

[11]  Mohsen Guizani,et al.  Aggregate Hardware Impairments Over Mixed RF/FSO Relaying Systems With Outdated CSI , 2018, IEEE Transactions on Communications.

[12]  Günes Karabulut-Kurt,et al.  Analysis on the effects of artificial noise on physical layer security , 2013, 2013 21st Signal Processing and Communications Applications Conference (SIU).

[13]  Elyes Balti,et al.  A Modified Zero-Forcing Max-Power Design for Hybrid Beamforming Full-Duplex Systems , 2020 .

[14]  Mohsen Guizani,et al.  Mixed RF/FSO Cooperative Relaying Systems With Co-Channel Interference , 2018, IEEE Transactions on Communications.

[15]  Ali Abdi,et al.  A new simple model for land mobile satellite channels: first- and second-order statistics , 2003, IEEE Trans. Wirel. Commun..

[16]  I. S. Gradshteyn,et al.  Table of Integrals, Series, and Products , 1976 .

[17]  Mohsen Guizani,et al.  Impact of Non-Linear High-Power Amplifiers on Cooperative Relaying Systems , 2017, IEEE Transactions on Communications.

[18]  Mohsen Guizani,et al.  Advanced Activity-Aware Multi-Channel Operations1609.4 in VANETs for Vehicular Clouds , 2016, 2016 IEEE Global Communications Conference (GLOBECOM).

[19]  Mohsen Guizani,et al.  Mixed RF/FSO Relaying Systems with Hardware Impairments , 2017, GLOBECOM 2017 - 2017 IEEE Global Communications Conference.

[20]  Shweta S Doddalinganavar,et al.  Survey on Deep Reinforcement Learning Protocol in VANET , 2019, 2019 1st International Conference on Advances in Information Technology (ICAIT).

[21]  Paschalis C. Sofotasios,et al.  The Double Shadowed κ-µ Fading Model , 2019, 2019 International Conference on Wireless and Mobile Computing, Networking and Communications (WiMob).

[22]  Mohsen Guizani,et al.  Study of Vehicular Cloud during traffic congestion , 2016, 2016 4th International Conference on Control Engineering & Information Technology (CEIT).

[23]  Mohsen Guizani,et al.  Incentives for safe driving in VANET , 2016, 2016 4th International Conference on Control Engineering & Information Technology (CEIT).

[24]  Huiming Wang,et al.  Secure MISO Wiretap Channels With Multiantenna Passive Eavesdropper: Artificial Noise vs. Artificial Fast Fading , 2015, IEEE Transactions on Wireless Communications.

[25]  Bin Li,et al.  Secrecy Outage Probability Analysis of Friendly Jammer Selection Aided Multiuser Scheduling for Wireless Networks , 2019, IEEE Transactions on Communications.

[26]  Manu Bansal,et al.  A review on VANET security attacks and their countermeasure , 2017, 2017 4th International Conference on Signal Processing, Computing and Control (ISPCC).

[27]  Mohsen Guizani,et al.  Partial Relay Selection for Hybrid RF/FSO Systems with Hardware Impairments , 2016, 2016 IEEE Global Communications Conference (GLOBECOM).