HomeMuhammad Zubair Khaliq

Muhammad Zubair Khaliq

Professor

Research areas: Radio resource management, optimization, AI/ML

PHONE NUMBER
+420 2 2435xxxx
EMAIL ADDRESS
khalimuh@fel.cvut.cz

Biography

Muhammad Zubair Khaliq received BS (Electrical Engineering) degree from COMSATS Institute of Information Technology (currently known as COMSATS University Islamabad), Pakistan, in 2015, and the MS (Telecommunication Engineering) degree from University of Engineering and Technology, Taxila, Pakistan, in 2020. He has served as Research Associate/Lab Engineer at the Department of Electrical and Computer Engineering, COMSATS University Islamabad, Pakistan.

Currently, he is pursuing the Ph.D. degree at the Department of Telecommunication Engineering at the Czech Technical University (CTU) in Prague, Czechia. His research interests cover Machine Learning/Artificial Intelligence, Optimization, and Cooperative communications and Radio resource management (RRM) in future mobile networks.

Publications, patents, and demos

Selected publications

2024
  • , , , and ,“Machine Learning for Channel Quality Prediction: From Concept to Experimental Validation”, IEEE Transactions on Wireless Communications, volume 23, no. 10, . [BibTex] [pdf] [doi]
  • , and ,“Offloading of Tasks with Tight Delay Requirements via Combined Half and Full Duplex UAV Relays”, IEEE Transactions on Vehicular Technologies, volume 73, no. 9, . [BibTex] [pdf] [doi]
  • , , and ,“Joint Exit Selection and Offloading Decision for Applications Based on Deep Neural Networks”, IEEE Internet of Things Journal, volume Early access, . [BibTex] [pdf] [doi]
  • , and ,“Coordinated Machine Learning for Channel Reuse and Transmission Power Allocation for D2D Communication”, IEEE Global Communications Conference (IEEE Globecom 2024), . [BibTex] [pdf]
  • , , and ,“Optimization of Placement and Resource Allocation in UAV-aided Multi-hop Wireless Networks”, IEEE Internet of Things Journal, volume 11, no. 11, . [BibTex] [pdf] [doi]
  • , , and ,“Joint Optimization of Communication and Storage Latencies for Vehicular Edge Computing”, IEEE Transactions on Intelligent Transportation Systems, volume 25, no. 6, . [BibTex] [pdf] [doi]
  • , and ,“Cascade Fuzzy Logic for Handover Optimization in Mobile Networks”, IEEE International Mediterranean Conference on Communications and Networking (IEEE MeditCom 2024), . [BibTex] [pdf]
  • , , and ,“Coordinated Machine Learning for Energy Efficient D2D Communication”, IEEE Wireless Communications Letters, volume 13, no. 5, . [BibTex] [pdf] [doi]
  • , and ,“Allocation of Resources for HARQ Retransmission in Mobile Networks based on C-RAN”, IEEE Systems Journal, volume 18, no. 1, . [BibTex] [pdf] [doi]
  • and ,“Reducing Computation, Communication, and Storage Latency in Vehicular Edge Computing”, IEEE Vehicular Technology Conference (IEEE VTC2024-Spring 2024), . [BibTex] [pdf]
  • , , and ,“Coordinated Machine Learning for Handover in Mobile Networks with Transparent Relaying UAVs”, IEEE International Conference on Communications (IEEE ICC 2024), workshop AI/ML-Powered Autonomous Telco Networks (APATN), . [BibTex] [pdf]
  • , and ,“Coping with Spatial Unfairness and Overloading Problem in Mobile Networks via D2D Relaying”, IEEE Wireless Communications, volume 31, no. 1, . [BibTex] [pdf] [doi]
  • , , , , , and ,“OCTOPUS: Optimized Cross-border TeleOperated Medicine Pouring Using NextGen Seamless Communication Networks”, IEEE International Conference on Communications (IEEE ICC 2024), . [BibTex] [pdf]
  • and ,“Joint Route Selection and Power Allocation in Multi-hop Cache-enabled Networks”, IEEE Wireless Communications and Networking Conference (IEEE WCNC 2024), . [BibTex] [pdf]
2023
  • , , and ,“Dynamic Clustering for Low Delay Delivery of Video Content Cached in MEC Servers”, IEEE Systems Journal, volume 17, no. 4, . [BibTex] [pdf] [doi]
  • , and ,“Multi-hop Relaying with Mixed Half and Full Duplex Relays for Offloading to MEC”, IEEE Global Communications Conference (IEEE Globecom 2023), Workshop on Emerging Topics in 6G Communications (6GComm), . [BibTex] [pdf]
  • , , , , and ,“Graph Neural Network Empowered Resource Allocation for Connected Autonomous Mobility”, IEEE Robotic Computing (IEEE IRC 2023), . [BibTex] [pdf]
  • , , and ,“Machine Learning-based Channel Quality Prediction in 6G Mobile Networks”, IEEE Communications Magazine, volume 61, no. 7, . [BibTex] [pdf] [doi]
  • , , , , , and ,“Blockchain-based Route Selection with Allocation of Radio and Computing Resources for Connected Autonomous Vehicles”, IEEE Transactions on Intelligent Transportation Systems, volume 24, no. 7, . [BibTex] [pdf] [doi]
  • , , and ,“Channel Reuse for Backhaul in UAV Mobile Networks with User QoS Guarantee”, IEEE International Conference on Communications (IEEE ICC 2023), . [BibTex] [pdf]
  • , and ,“Optimization of Cell Individual Offset for Handover of Flying Base Stations and Users”, IEEE Transactions on Wireless Communications, volume 22, no. 5, . [BibTex] [pdf] [doi]
  • and ,“Maximization of Minimum User Capacity in UAV-Enabled Mobile Networks with NOMA”, IEEE Networking Letters, volume 5, no. 1, . [BibTex] [pdf] [doi]
  • , and ,“Energy Consumption Optimization for UAV Base Stations with Wind Compensation”, IEEE Communications Letters, volume 27, no. 3, . [BibTex] [pdf] [doi]
2022
  • , , and ,“QoS-Aware Sum Capacity Maximization for Mobile Internet of Things Devices Served by UAVs”, IEEE International Symposium on Personal, Indoor and Mobile Radio Communications (IEEE PIMRC 2022) workshop on Sustainable and Intelligent Green Internet of Things for 6G and Beyond, . [BibTex] [pdf] [doi]
  • , , and ,“Sum Capacity Maximization in Multi-Hop Mobile Networks with Flying Base Stations”, IEEE Global Communications Conference (IEEE GLOBECOM 2022), . [BibTex] [pdf] [doi]
  • , , and ,“Machine Learning-Based Beamforming for Unmanned Aerial Vehicles Equipped with Reconfigurable Intelligent Surfaces”, IEEE Wireless Communications, volume 29, no. 4, . [BibTex] [pdf] [doi]
  • , and ,“On Energy Consumption of Airship-based Flying Base Stations Serving Mobile Users”, IEEE Transactions on Communications, volume 70, no. 10, . [BibTex] [pdf] [doi]
  • , and ,“Mitigation of Doppler Effect in High-speed Trains through Relaying”, IEEE Vehicular Technology Conference (IEEE VTC2022-Spring), . [BibTex] [pdf]
  • , and ,“Q-Learning-based Setting of Cell Individual Offset for Handover of Flying Base Stations”, IEEE Vehicular Technology Conference (IEEE VTC2022-Spring), . [BibTex] [pdf]
  • and ,“Device-to-Device Relaying: Optimization, Performance Perspectives, and Open Challenges towards 6G Networks”, IEEE Communications Surveys & Tutorials, . [BibTex] [pdf] [doi]
  • , , and ,“Reducing Storage and Communication Latencies in Vehicular Edge Cloud”, EuCNC & 6G Summit 2022, . [BibTex] [pdf] [doi]
  • and ,“Optimization of Total Power Consumed by Flying Base Station Serving Mobile Users”, IEEE Transactions on Network Science and Engineering, volume 9, no. 4, . [BibTex] [pdf] [doi]
  • , , and , “System and Methods for Device-to-Device Communication”, US patent No. US11284361B2, . [BibTex]
  • , and ,“Power Allocation, Channel Reuse, and Positioning of Flying Base Stations with Realistic Backhaul”, IEEE Internet of Things Journal, volume 9, no. 3, . [BibTex] [pdf] [doi]
  • and , “Optimal Positioning of Flying Base Stations and Transmission Power Allocation in NOMA Networks”, IEEE Transactions on Wireless Communications, volume 21, no. 2, . [BibTex] [pdf] [doi]
2021
2020
  • and , “Hierarchical resource scheduling method of wireless communication system”, US patent US10849139B2, . [BibTex]
  • , , and ,“Predicting Device-to-Device Channels from Cellular Channel Measurements: A Learning Approach”, IEEE Transactions on Wireless Communications, volume 19, no. 11, . [BibTex] [pdf] [doi]
  • , , , , , and , “6G in the Sky: On-Demand Intelligence at the Edge of 3D Networks”, ETRI Journal, volume 42, no. 5, . [BibTex] [pdf] [doi]
  • , and ,“Deep Learning for Selection between RF and VLC Bands in Device-to-Device Communication”, IEEE Wireless Communications Letters, volume 9, no. 10, . [BibTex] [pdf] [doi]
  • and , “Energy Efficient Positioning of Flying Base Stations via Coulomb’s law”, IEEE Global Communications Conference (IEEE Globecom 2020) workshop on Space-Ground Integrated Networks, . [BibTex] [pdf]
  • and ,“Low-Complexity Iterative Soft-output Demodulation for Hierarchical Quadrature Amplitude Modulation”, IEEE Global Communications Conference (IEEE Globecom 2020), . [BibTex] [pdf]
  • , and ,“Joint Association, Transmission Power Allocation and Positioning of Flying Base Stations Considering Limited Backhaul”, IEEE Vehicular Technology Conference (IEEE VTC-Fall 2020), . [BibTex] [doi]
  • and ,“Optimization of Transmission Power for NOMA in Networks with Flying Base Stations”, IEEE Vehicular Technology Conference (IEEE VTC-Fall 2020), . [BibTex] [pdf] [doi]
  • , , and ,“Mobility Management for D2D Communication Combining Radio Frequency and Visible Light Communications Bands”, Wireless Networks, volume 26, . [BibTex]
  • , , and ,“Integrating UAVs as Transparent Relays into Mobile Networks: A Deep Learning Approach”, IEEE International Symposium on Personal, Indoor and Mobile Radio Communications (IEEE PIMRC 2020), . [BibTex] [pdf]
  • and , “Methods and devices for resource scheduling in wireless communication systems”, US patent US10798722B2, . [BibTex]
  • and ,“Flexible Soft Frequency Reuse for Interference Management in the Networks with Flying Base Stations”, IEEE Vehicular Technology Conference (IEEE VTC-Spring 2020), . [BibTex]
  • , and ,“Sequential Bargaining Game for Reuse of Radio Resources in D2D Communication in Dedicated Modes”, IEEE Vehicular Technology Conference (IEEE VTC-Spring 2020), . [BibTex] [pdf]
  • , , and , “Hierarchical resource scheduling method of wireless communication system”, US patent US10624105B2, . [BibTex]
  • , and ,“Reducing Energy Consumed by Repositioning of Flying Base Stations Serving Mobile Users”, IEEE Wireless Communications and Networking Conference (IEEE WCNC 2020), . [BibTex] [doi]
  • and ,“Optimizing Transmission and Propulsion Powers for Flying Base Stations”, IEEE Wireless Communications and Networking Conference (IEEE WCNC 2020), . [BibTex] [pdf] [doi]
2019
  • , and ,“Incentive Mechanism and Relay Selection for D2D Relaying in Cellular Networks”, IEEE Global Communications Conference (IEEE Globecom 2019), . [BibTex]
  • , , and ,“Machine Learning for Power Control in D2D Communication based on Cellular Channel Gains”, IEEE Global Communications Conference (IEEE Globecom 2019) workshop on Machine Learning for Wireless Communications, . [BibTex] [pdf]
  • , and ,“Relay Selection Exploiting Genetic Algorithms for Multi-hop Device-to-Device Communication”, Wireless Internet Conference (WiCON 2019), . [BibTex] [pdf]
  • and ,“Joint Positioning of UAV and Power Control for Flying Base Stations in Mobile Networks”, IEEE International Conference on Wireless and Mobile Computing, Networking and Communications (IEEE WiMOB 2019), . [BibTex] [pdf] [doi]
  • , , and , “Nash Bargaining Solution for Cooperative Relaying Exploiting Energy Consumption”, IEEE International Workshop on Signal Processing Advances in Wireless Communications (IEEE SPAWC 2019), . [BibTex] [pdf] [doi]
  • , , , and ,“Two-Phase Random Access Procedure for LTE-A Networks”, IEEE Transactions on Wireless Communications, volume 18, no. 4, . [BibTex]
  • , and ,“Resource Allocation for D2D Communication with Multiple D2D Pairs Reusing Multiple Channels”, IEEE Wireless Communications Letters, volume 8, no. 4, . [BibTex]
  • , , and ,“Positioning of Flying Base Stations to Optimize Throughput and Energy Consumption of Mobile Devices”, IEEE Vehicular Technology Conference (IEEE VTC-Spring 2019), . [BibTex]
  • , , , and , “Joint Positioning of Flying Base Stations and Association of Users: Evolutionary-Based Approach”, IEEE Access, volume 7, . [BibTex] [pdf] [doi]
  • , , , and ,“Efficient Exploitation of Radio Frequency and Visible Light Communication Bands for D2D in Mobile Networks”, IEEE Access, volume 7, . [BibTex] [pdf]
2018
  • , and ,“Vehicular network-aware route selection considering communication requirements of users for ITS”, IEEE Systems Journal, volume 12, no. 2, . [BibTex]
  • , and ,“Combined shared and dedicated resource allocation for Device-to-Device Communication”, IEEE Vehicular Technology Conference (IEEE VTC-Spring 2018), . [BibTex]
  • , and ,“Selection between Radio Frequency and Visible Light Communication Bands for D2D”, IEEE Vehicular Technology Conference (IEEE VTC-Spring 2018) recent results, . [BibTex]
  • , and ,“Hybrid Spectrum Sharing for Cognitive Small Cells”, IEEE Wireless Communications and Networking Conference (IEEE WCNC 2018), . [BibTex]
  • , , and ,“Self-tuning Handover Algorithm Based on Fuzzy Logic in Mobile Networks with Dense Small Cells”, IEEE Wireless Communications and Networking Conference (IEEE WCNC 2018), . [BibTex]
  • , and ,“Adaptive Hysteresis Margin Based on Fuzzy Logic for Handover in Mobile Networks with Dense Small Cells”, IEEE Access, volume 6, . [BibTex]
  • , and ,“Modeling of Distributed Queueing-based Random Access for Machine Type Communications in Mobile Networks”, IEEE Communications Letters, volume 22, no. 1, . [BibTex]
2017
  • , , and ,“Combination of Visible Light and Radio Frequency Bands for Device-to-Device Communication”, IEEE International Symposium on Personal, Indoor and Mobile Radio Communications (IEEE PIMRC 2017), workshop on Coexisting Radio and Optical Wireless Deployments, . [BibTex]
  • and ,“Energy-aware Dynamic Selection of Overlay and Underlay Spectrum Sharing for Cognitive Small cells”, IEEE Transactions on Vehicular Technology, volume 66, no. 5, . [BibTex]
  • , , , and , “Performance of Mobile Networks with UAVs: Can Flying Base Stations Substitute Ultra-Dense Small Cells?”, European Wireless (EW 2017), , BEST PAPER AWARD. [BibTex] [pdf]
  • , , , , , and ,“Distributed Architecture of 5G Mobile Networks for Efficient Computation Management in Mobile Edge Computing”, 5G Radio Access Network (RAN) – Centralized RAN, Cloud-RAN and Virtualization of Small Cells (H. Venkataraman, R. Trestian, eds.), CRC Press, Taylor and Francis Group, USA, . [BibTex]
  • and ,“Mobile Edge Computing: A Survey on Architecture and Computation Offloading”, IEEE Communications Surveys & Tutorials, volume 19, no. 3, . [BibTex]
2016
2015
  • , and ,“In-Band Device-to-Device Communication in OFDMA Cellular Networks: A Survey and Challenges”, IEEE Communications Surveys & Tutorials, volume 17, no. 4, . [BibTex] [doi]
  • , , and ,“Offloading Multiple Mobile Data Contents through Opportunistic Device-to-device Communications”, Wireless Personal Communications, volume 84, no. 3, . [BibTex]
  • , and , “Cross-layer approach enabling communication of high number of devices in 5G mobile networks”, IEEE International Conference on Wireless and Mobile Computing, Networking and Communications (IEEE WiMOB 2015), . [BibTex] [pdf] [doi]
  • , and ,“Self-optimizing neighbor cell list with dynamic threshold for handover purposes in networks with small cells”, Wireless Communications and Mobile Computing, volume 15, no. 13, . [BibTex] [doi]
  • and ,“Enhancement of Hybrid Cognitive Approach for Femtocells”, IEEE Vehicular Technology Conference (IEEE VTC-Spring 2015), . [BibTex]
  • , , , and ,“A seamless integration of computationally-enhanced base stations into mobile networks towards 5G”, IEEE Vehicular Technology Conference (IEEE VTC-Spring 2015) workshops, . [BibTex]
  • and ,“Distributed Hybrid Spectrum Sharing for OFDMA-based Cognitive Femtocells in 5G Networks”, European Wireless (EW 2015), . [BibTex]
2014
  • and ,“Cloud-aware power control for cloud-enabled small cells”, IEEE Global Communications Conference (IEEE GLOBECOM 2014) workshops, . [BibTex]
  • , , and ,“Interference empowered 5G networks”, International Conference on 5G for Ubiquitous Connectivity (5GU 2014), . [BibTex] [doi]
  • , and ,“VANETs based Route Selection with QoS Guarantees in Smart Cities”, Wireless Days (WD 2014), . [BibTex] [doi]
  • , and ,“Prediction of channel quality after handover for mobility management in 5G”, International Conference on 5G for Ubiquitous Connectivity (5GU 2014), . [BibTex] [doi]
  • and ,“QoS-ensuring distribution of computation load among cloud-enabled small cells”, IEEE International Conference on Cloud Networking (IEEE CloudNet 2014), . [BibTex] [doi]
  • , and , “Path Selection Using Handover in Mobile Networks with Cloud-enabled Small Cells”, IEEE International Symposium on Personal, Indoor and Mobile Radio Communications (IEEE PIMRC 2014), . [BibTex] [pdf] [doi]
  • , and ,“Q-Learning-based Prediction of Channel Quality after Handover in Mobile Networks”, IEEE International Symposium on Personal, Indoor and Mobile Radio Communications (IEEE PIMRC 2014), . [BibTex]
  • and , “Radio Resource Sharing Among Users in Hybrid Access Femtocells”, KSII Transactions on Internet and Information Systems (TIIS), Korean Society for Internet Information, volume 8, no. 8, . [BibTex] [pdf] [doi]
  • and ,“Methodology and tool for energy consumption modeling of mobile devices”, IEEE Wireless Communications and Networking Conference (IEEE WCNC 2014) workshops, . [BibTex] [doi]
  • and ,“Centralized dynamic resource allocation scheme for femtocells exploiting graph theory approach”, IEEE Wireless Communications and Networking Conference (IEEE WCNC 2014), . [BibTex] [doi]
  • , , , , , and ,“An architecture for mobile computation offloading on cloud-enabled LTE small cells”, IEEE Wireless Communications and Networking Conference (IEEE WCNC 2014) workshops, . [BibTex] [doi]
  • and ,“Vertical Handover Decision in Heterogeneous Wireless Networks with Femtocells”, Electronics and Electrical Engineering, Electronics and Electrical Engineering, volume 20, no. 4, . [BibTex] [doi]
  • and ,“Hybrid Cognitive Approach for Femtocell Interference Mitigation”, International Conference on Networks (ICN 2014), . [BibTex]
2013
  • and ,“Mitigation of Redundant Handovers to Femtocells by Estimation of Throughput Gain”, Mobile Information Systems, IOS Press, volume 9, no. 4, . [BibTex] [doi]
  • , and ,“Dynamic Optimization of Neighbor Cell List for Femtocells”, IEEE 77th Vehicular Technology Conference (IEEE VTC-Spring 2013), . [BibTex] [doi]
  • , and ,“Optimization of SINR-based Neighbor Cell List for networks with small cells”, IEEE 24th International Symposium on Personal Indoor and Mobile Radio Communications (IEEE PIMRC 2013), . [BibTex] [doi]
  • and ,“Self-configured Neighbor Cell List of macro cells in network with Small Cells”, IEEE 24th International Symposium on Personal Indoor and Mobile Radio Communications (IEEE PIMRC 2013), . [BibTex] [doi]
  • , and ,“Optimization of association procedure in WiMAX networks with relay stations”, Telecommunication Systems, Springer US, volume 52, no. 3, . [BibTex] [doi]
  • , and ,“Handover of relay stations for load balancing in IEEE 802.16.”, Wireless Communications and Mobile Computing, volume 13, no. 2, . [BibTex] [doi]
2012
  • and ,“Performance of fast cell selection in two-tier OFDMA networks with small cells”, Wireless Days (WD 2012), . [BibTex] [doi]
  • and ,“Handover with consideration of connection cost in femtocell networks”, Wireless Telecommunications Symposium (WTS 2012), . [BibTex] [doi]
  • and ,“Connection Cost Based Handover Decision for Offloading Macrocells by Femtocells”, Wired/Wireless Internet Communication (WWIC 2012), . [BibTex] [doi]
  • , and ,“Handover Procedure in Femtocells”, Femtocell Communications and Technologies: Business Opportunities and Deployment Challenges (R.A. Saeed, ed.), Information Science Reference, . [BibTex] [doi]
  • , and ,“Fast cell selection with efficient active set management in OFDMA networks with femtocells”, EURASIP Journal on Wireless Communications and Networking, Springer International Publishing AG, volume 2012, no. 1, . [BibTex] [doi]
  • and ,“On Efficiency of ARQ and HARQ Entities Interaction in WiMAX Networks”, Advanced Transmission Techniques in WiMAX (R. Hincapie, ed.), Information Science Reference, . [BibTex] [doi]
2011
  • and ,“Efficient routing of data for femtocells”, Wireless Days (WD 2011), . [BibTex] [doi]
  • and ,“On enhancement of handover decision in femtocells”, Wireless Days (WD 2011), . [BibTex] [doi]
  • and ,“Optimization of power control algorithm for femtocells based on frame utilization”, IEEE International Symposium on Personal Indoor and Mobile Radio Communications (PIMRC 2011), . [BibTex] [doi]
  • and ,“QoS-Guaranteed Power Control Mechanism Based on the Frame Utilization for Femtocells”, EURASIP Journal on Wireless Communications and Networking, Hindawi Publishing Corporation, volume 2011, no. 2011, . [BibTex] [doi]
  • , and ,“Assessment of Speech Quality in VoIP”, VoIP Technologies (Shigeru Kashihara, ed.), INTECH Open Access Publisher, . [BibTex] [doi]
  • and ,“Radio resources allocation for decentrally controlled relay stations”, Wireless Networks, Springer US, volume 17, no. 1, . [BibTex] [doi]
  • and ,“Overhead of ARQ mechanism in IEEE 802.16 networks”, Telecommunication Systems, Springer US, volume 46, no. 4, . [BibTex] [doi]
  • and ,“Path Selection in WiMAX Networks with Mobile Relay Stations”, International Conference on Networks (ICN 2011), . [BibTex]
  • , , , and ,“Femtocelulas”, Redes, Telecom e Intalaoes, volume 12, no. 130, . [BibTex]
  • and ,“Fast predicted handover in IEEE 802.16 networks”, European Transactions on Telecommunications, John Wiley & Sons, Ltd., volume 22, no. 2, . [BibTex] [doi]
  • , and ,“Improvement of handover prediction in mobile WiMAX by using two thresholds”, Computer Networks, volume 55, no. 16, . [BibTex] [doi]
2010
  • , , , , and ,“Femtocells for next-G wireless systems: The FREEDOM approach”, Future Network and Mobile Summit (FuNeMS 2010), . [BibTex]
  • and ,“Reduction of Scanning Reporting Overhead in IEEE 802.16 Networks with Relays”, International Conference on Networks (ICN 2010), . [BibTex] [doi]
  • and ,“Adaptive Hysteresis Margin for Handover in Femtocell Networks”, International Conference on Wireless and Mobile Communications (ICWMC 2010), . [BibTex] [doi]
  • and ,“Dynamic Power Control Mechanism for Femtocells Based on the Frame Utilization”, International Conference on Wireless and Mobile Communications (ICWMC 2010), . [BibTex] [doi]
2009
  • , and ,“Acquisition of Channel State Information for Routing Purposes in Relay-Based WiMAX Networks”, International Conference on Networks (ICN 2009), . [BibTex] [doi]
  • , and ,“Impact of Handover on VoIP Speech Quality in WiMAX Networks”, International Conference on Networks (ICN 2009), . [BibTex] [doi]
  • , and ,“Initialization of handover procedure in WiMAX networks”, ICT-MobileSummit 2009, . [BibTex]
  • ,“Efficiency of Handover Prediction Based on Handover History”, Journal of Convergence Information Technology (JCIT), no. 4, . [BibTex] [doi]
2008
  • , and ,“Optimization of network entry procedure in relay based WiMAX networks”, International Conference on Systems, Signals and Image Processing (IWSSIP 2008), . [BibTex] [doi]
  • , , , , and ,“The FP7 ROCKET Project: Wireless Access Technology for Homogeneous High Rate Coverage”, Proceedings of 17th ICT Mobile Summit 2008 (S. Simoens, others, eds.), . [BibTex]
  • , and ,“Optimization of handover scanning procedure in WiMAX networks with relay stations”, International Symposium on Wireless Pervasive Computing (IEEE ISWPC 2008), . [BibTex] [doi]
  • and ,“WiMAX throughput evaluation of conventional relaying”, Telecommunication Systems, Springer US, volume 38, no. 1-2, . [BibTex] [doi]
2007
  • and ,“Implementation of handover delay timer into WiMAX”, Conference on Telecommunication (ConfTele 2007), . [BibTex]
  • ,“Impact of relay stations implementation on the handover in WiMAX”, Personal Wireless Communications (PWC 2007), Springer US, . [BibTex]