Security-Aware Cross-Layer Resource Allocation for Heterogeneous Wireless Networks

In this paper, a security-aware energy-efficient resource allocation is modeled as a fractional programming problem for heterogeneous multi-homing networks. The security-aware resource allocation is formulated as a secrecy energy efficiency maximization problem subject to the average packet delay, the average packet dropping probability, and the total available power consumption. In order to guarantee the packet-level quality of service (QoS), first, the average packet delay and the average packet dropping probability requirement for each mobile terminal at the link layer are transformed into a minimum secrecy rate constraint at the physical layer. Then, the non-convex secrecy energy efficiency maximization problem is approximated by a convex problem through epigraph representation. A security-aware energy-efficient resource allocation algorithm is then proposed leveraging dual-decomposition method and bi-section search method. Finally, a heuristic security-aware resource allocation algorithm is proposed to serve as a benchmark. Simulation results demonstrate that the proposed security-aware energy-efficient resource allocation algorithm not only improves the secrecy energy efficiency and throughput, but also guarantees the packet-level QoS.

[1]  W. Zhuang,et al.  Green radio communications in a heterogeneous wireless medium , 2014, IEEE Wireless Communications.

[2]  Donald F. Towsley,et al.  Physical Layer Security in Heterogeneous Cellular Networks , 2016, IEEE Transactions on Communications.

[3]  Mohamed-Slim Alouini,et al.  Energy Management in Wireless Cellular and Ad-hoc Networks , 2016 .

[4]  Muhammad Ali Imran,et al.  How much energy is needed to run a wireless network? , 2011, IEEE Wireless Communications.

[5]  S. Wittevrongel,et al.  Queueing Systems , 2019, Introduction to Stochastic Processes and Simulation.

[6]  Victor C. M. Leung,et al.  Secure Resource Allocation for OFDMA Two-Way Relay Wireless Sensor Networks Without and With Cooperative Jamming , 2016, IEEE Transactions on Industrial Informatics.

[7]  Hiroshi Harada,et al.  Architecture and enablers for optimized radio resource usage in heterogeneous wireless access networks: The IEEE 1900.4 Working Group , 2009, IEEE Communications Magazine.

[8]  Ranjan K. Mallik,et al.  Physical Layer Security in Three-Tier Wireless Sensor Networks: A Stochastic Geometry Approach , 2016, IEEE Transactions on Information Forensics and Security.

[9]  A. D. Wyner,et al.  The wire-tap channel , 1975, The Bell System Technical Journal.

[10]  Miao Pan,et al.  Secure Communications in NOMA System: Subcarrier Assignment and Power Allocation , 2018, IEEE Journal on Selected Areas in Communications.

[11]  A. Lee Swindlehurst,et al.  Detecting passive eavesdroppers in the MIMO wiretap channel , 2012, 2012 IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP).

[12]  Rui Zhang,et al.  Wireless Powered Cooperative Jamming for Secrecy Multi-AF Relaying Networks , 2015, IEEE Transactions on Wireless Communications.

[13]  Abdallah Jarray,et al.  Energy-Efficient Resource-Allocation Model for OFDMA Macrocell/Femtocell Networks , 2013, IEEE Transactions on Vehicular Technology.

[14]  Athanasios V. Vasilakos,et al.  Power Minimization Based Resource Allocation for Interference Mitigation in OFDMA Femtocell Networks , 2014, IEEE Journal on Selected Areas in Communications.

[15]  Guy Pujolle,et al.  Cluster-Based Resource Management in OFDMA Femtocell Networks With QoS Guarantees , 2014, IEEE Transactions on Vehicular Technology.

[16]  Swades De,et al.  Jammer-Assisted Resource Allocation in Secure OFDMA With Untrusted Users , 2016, IEEE Transactions on Information Forensics and Security.

[17]  Zhu Han,et al.  Physical-Layer Security in Distributed Wireless Networks Using Matching Theory , 2013, IEEE Transactions on Information Forensics and Security.

[18]  Stefano Tomasin,et al.  Resource Allocation for Secret Key Agreement Over Parallel Channels With Full and Partial Eavesdropper CSI , 2015, IEEE Transactions on Information Forensics and Security.

[19]  Zhu Han,et al.  On the Resilience of Wireless Multiuser Networks to Passive and Active Eavesdroppers , 2013, IEEE Journal on Selected Areas in Communications.

[20]  Hoon Kim,et al.  Joint Resource Allocation for Parallel Multi-Radio Access in Heterogeneous Wireless Networks , 2010, IEEE Transactions on Wireless Communications.

[21]  Kostas Berberidis,et al.  Security-Aware Max–Min Resource Allocation in Multiuser OFDMA Downlink , 2015, IEEE Transactions on Information Forensics and Security.

[22]  Muhammad Ali Imran,et al.  Energy efficiency in heterogeneous wireless access networks , 2013, IEEE Wireless Communications.

[23]  Qian Yang,et al.  Safeguarding Decentralized Wireless Networks Using Full-Duplex Jamming Receivers , 2016, IEEE Transactions on Wireless Communications.

[24]  Weihua Zhuang,et al.  A Distributed Multi-Service Resource Allocation Algorithm in Heterogeneous Wireless Access Medium , 2012, IEEE Journal on Selected Areas in Communications.

[25]  Wei-Ho Chung,et al.  Hybrid RF-Baseband Precoding for Cooperative Multiuser Massive MIMO Systems With Limited RF Chains , 2017, IEEE Transactions on Communications.

[26]  Dong In Kim,et al.  QoS-Aware and Energy-Efficient Resource Management in OFDMA Femtocells , 2013, IEEE Transactions on Wireless Communications.

[27]  Sheng Zhong,et al.  A Unified Resource Allocation Framework for Defending Against Pollution Attacks in Wireless Network Coding Systems , 2016, IEEE Transactions on Information Forensics and Security.

[28]  Duk Kyung Kim,et al.  Max-min fairness based radio resource management in fourth generation heterogeneous networks , 2009, 2009 9th International Symposium on Communications and Information Technology.

[29]  Stefano Secci,et al.  An Operations Research Game Approach for Resource and Power Allocation in Cooperative Femtocell Networks , 2015, IEEE Transactions on Mobile Computing.

[30]  Markku J. Juntti,et al.  Energy-Efficient Bandwidth and Power Allocation for Multi-Homing Networks , 2015, IEEE Transactions on Signal Processing.

[31]  Peng Gong,et al.  Radio Resource Management with Proportional Rate Constraint in the Heterogeneous Networks , 2012, IEEE Transactions on Wireless Communications.

[32]  Arumugam Nallanathan,et al.  Video Packet Scheduling With Stochastic QoS for Cognitive Heterogeneous Networks , 2017, IEEE Transactions on Vehicular Technology.

[33]  Hui Tian,et al.  Optimal Resource Allocation for Multi-Access in Heterogeneous Wireless Networks , 2012, 2012 IEEE 75th Vehicular Technology Conference (VTC Spring).

[34]  Stephen V. Hanly,et al.  Capacity and Stable Scheduling in Heterogeneous Wireless Networks , 2014, IEEE Journal on Selected Areas in Communications.

[35]  Yu-Kwong Kwok,et al.  A Low-Complexity QoS-Aware Proportional Fair Multicarrier Scheduling Algorithm for OFDM Systems , 2009, IEEE Transactions on Vehicular Technology.

[36]  Bechir Hamdaoui,et al.  Uplink Performance Characterization and Analysis of Two-Tier Femtocell Networks , 2012, IEEE Transactions on Vehicular Technology.

[37]  Hongke Zhang,et al.  Resource Allocation with Interference Avoidance in OFDMA Femtocell Networks , 2012, IEEE Transactions on Vehicular Technology.