Musa Furkan Keskin
Musa Furkan Keskin is a researcher in the Communication Systems (CS) group at the department of Electrical Engineering (E2). He has been actively contributing to many EU (Hexa X, Hexa X II RISE 6G, 6G DISAC) and Swedish (Vinnova FFI RADCOM2 and FFI B5GPOS) projects in the field of integrated sensing and communications (ISAC) for beyond 5G/6G wireless systems. He will also be involved in the ISLANDS project, an MSCA Doctoral Networks project on ISAC for vehicular environments. His current research focuses on ISAC, RIS-aided localization and sensing, distributed MIMO localization and sensing, and hardware impairments in beyond 5G/6G systems.
Showing 62 publications
Deceptive Jamming in WLAN Sensing
RIS-Enabled NLoS Near-Field Joint Position and Velocity Estimation under User Mobility
RIS-Enabled and Access-Point-Free Simultaneous Radio Localization and Mapping
Joint Detection and Localization of Multiple Moving Targets in a Distributed Radar System
Multi-RIS-Enabled 3D Sidelink Positioning
Semi-Supervised End-to-End Learning for Integrated Sensing and Communications
The Integrated Sensing and Communication Revolution for 6G: Vision, Techniques, and Applications
6G Localization and Sensing in the Near Field: Features, Opportunities, and Challenges
Millimeter-wave Radio SLAM: End-to-End Processing Methods and Experimental Validation
RIS-Aided NLoS Monostatic Sensing Under Mobility and Angle-Doppler Coupling
Near-field RIS-aided Localization under Channel Non-Stationarity: A Mismatched Model Approach
RIS-aided Localization under Pixel Failures
Modeling and Analysis of OFDM-based 5G/6G Localization under Hardware Impairments
Towards joint communication and sensing (Chapter 4)
On the Impact of Phase Noise on Monostatic Sensing in OFDM ISAC Systems
Spatial Signal Design for Positioning via End-to-End Learning
ESPRIT-Oriented Precoder Design for mmWave Channel Estimation
Positioning and Sensing in 6G: Gaps, Challenges, and Opportunities
RIS-aided Near-Field Localization under Phase-Dependent Amplitude Variations
Uplink Joint Positioning and Synchronization in Cell-Free Deployments with Radio Stripes
Model-Driven End-to-End Learning for Integrated Sensing and Communication
Model-based end-to-end learning for multi-target integrated sensing and communication
Analysis of V2X Sidelink Positioning in sub-6 GHz
Monostatic Sensing with OFDM under Phase Noise: From Mitigation to Exploitation
Optimal Spatial Signal Design for mmWave Positioning under Imperfect Synchronization
Channel Model Mismatch Analysis for XL-MIMO Systems from a Localization Perspective
MCRB-based Performance Analysis of 6G Localization under Hardware Impairments
Constrained RIS Phase Profile Optimization and Time Sharing for Near-field Localization
RIS-Enabled SISO Localization under User Mobility and Spatial-Wideband Effects
Localization With Distributed MIMO Using a High-Speed Sigma-Delta-Over-Fiber Testbed
On the Impact of Hardware Impairments on RIS-aided Localization
Millimeter-wave Mobile Sensing and Environment Mapping: Models, Algorithms and Validation
End-to-End Learning for Integrated Sensing and Communication
6G Radio Requirements to Support Integrated Communication, Localization, and Sensing
Arbitrary Beam Pattern Approximation via RISs with Measured Element Responses
MIMO-OFDM Joint Radar-Communications: Is ICI Friend or Foe
ICI-aware parameter estimation for MIMO-OFDM radar via APES spatial filtering
Radar Interference Mitigation through Active Coordination
Limited Feedforward Waveform Design for OFDM Dual-Functional Radar-Communications
Semi-Passive 3D Positioning of Multiple RIS-Enabled Users
SISO RIS-Enabled Joint 3D Downlink Localization and Synchronization
Near-field Localization with a Reconfigurable Intelligent Surface Acting as Lens
Indoor Mapping with a Mobile Radar Using an EK-PHD Filter
Pro-social control of connected automated vehicles in mixed-autonomy multi-lane highway traffic
Integration of Communication and Sensing in 6G: A Joint Industrial and Academic Perspective
Automotive Radar Interference Mitigation via Multi-Hop Cooperative Radar Communications
Radar Sensing with OTFS: Embracing ISI and ICI to Surpass the Ambiguity Barrier
Positioning and Sensing for Vehicular Safety Applications in 5G and Beyond
RadChat: Spectrum Sharing for Automotive Radar Interference Mitigation
Peak Sidelobe Level Based Waveform Optimization for OFDM Joint Radar-Communications
Power Efficient Positioning for Visible Light Systems via Chance Constrained Optimization
Comparison of Automotive FMCW and OFDM Radar Under Interference
Radar Interference Mitigation for Automated Driving: Exploring Proactive Strategies
Stepped-Carrier OFDM V2V Resource Allocation for Sensing and Communication Convergence
Altruistic Control of Connected Automated Vehicles in Mixed-Autonomy Multi-Lane Highway Traffic
Jamming Strategies in Wireless Source Localization Systems
Freeway Traffic Jam Mitigation via Connected Automated Vehicles
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Showing 7 research projects
Distributed Multi-Modal Traffic Monitoring with 6G Networks: from Compression to Semantics
Adaptive and Network-Level Traffic Signal Control for Sustainable Traffic Management (ANTSC)
Joint Radar and Communication for Next-Generation Automotive Applications
6G Artificial Intelligence Radar
Safety aware vehicular routing using on-car sensors