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 53 publications
6G Localization and Sensing in the Near Field: Features, Opportunities, and Challenges
Multi-RIS-Enabled 3D Sidelink Positioning
RIS-aided Localization under Pixel Failures
Spatial Signal Design for Positioning via End-to-End Learning
ESPRIT-Oriented Precoder Design for mmWave Channel Estimation
Towards joint communication and sensing (Chapter 4)
RIS-Enabled and Access-Point-Free Simultaneous Radio Localization and Mapping
Positioning and Sensing in 6G: Gaps, Challenges, and Opportunities
Semi-Supervised End-to-End Learning for Integrated Sensing and Communications
On the Impact of Phase Noise on Monostatic Sensing in OFDM ISAC Systems
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
Modeling and Analysis of OFDM-based 5G/6G Localization under Hardware Impairments
Monostatic Sensing with OFDM under Phase Noise: From Mitigation to Exploitation
Channel Model Mismatch Analysis for XL-MIMO Systems from a Localization Perspective
Millimeter-wave Mobile Sensing and Environment Mapping: Models, Algorithms and Validation
Optimal Spatial Signal Design for mmWave Positioning under Imperfect Synchronization
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
MCRB-based Performance Analysis of 6G Localization under Hardware Impairments
6G Radio Requirements to Support Integrated Communication, Localization, and Sensing
End-to-End Learning for Integrated Sensing and Communication
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
Limited Feedforward Waveform Design for OFDM Dual-Functional Radar-Communications
Pro-social control of connected automated vehicles in mixed-autonomy multi-lane highway traffic
Radar Interference Mitigation through Active Coordination
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
Integration of Communication and Sensing in 6G: A Joint Industrial and Academic Perspective
Positioning and Sensing for Vehicular Safety Applications in 5G and Beyond
Indoor Mapping with a Mobile Radar Using an EK-PHD Filter
Automotive Radar Interference Mitigation via Multi-Hop Cooperative Radar Communications
Radar Sensing with OTFS: Embracing ISI and ICI to Surpass the Ambiguity Barrier
Peak Sidelobe Level Based Waveform Optimization for OFDM Joint Radar-Communications
RadChat: Spectrum Sharing for Automotive Radar Interference Mitigation
Power Efficient Positioning for Visible Light Systems via Chance Constrained Optimization
Radar Interference Mitigation for Automated Driving: Exploring Proactive Strategies
Comparison of Automotive FMCW and OFDM Radar Under Interference
Stepped-Carrier OFDM V2V Resource Allocation for Sensing and Communication Convergence
Altruistic Control of Connected Automated Vehicles in Mixed-Autonomy Multi-Lane Highway Traffic
Freeway Traffic Jam Mitigation via Connected Automated Vehicles
Jamming Strategies in Wireless Source Localization Systems
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Showing 4 research projects
Joint Radar and Communication for Next-Generation Automotive Applications
6G Artificial Intelligence Radar
Safety aware vehicular routing using on-car sensors