Utku Kumbul scite author profile

Utku Kumbul

5Publications

32Citation Statements Received

74Citation Statements Given

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Affiliations

Delft University of Technology, TOBB University of Economics and Technology

Publications

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Experimental Investigation of Phase Coded FMCW for Sensing and Communications

Kumbul

Petrov

Zwan

et al. 2021

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The phase coded FMCW and its properties for joint sensing and communication are studied. Two different receiver structures for the sensing properties of this waveform are compared theoretically and experimentally. It is shown both by simulations and experiments that the phased coded FMCW combines communication capabilities of PMCW and sensing capabilities of FMCW while using a realizable hardware complexity for an automotive radar.

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Receiver Structures for Phase Modulated FMCW Radars

Kumbul

Petrov

Vaucher

et al. 2022

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Two receiver structures of phase modulated FMCW signals with low ADC sampling requirement are investigated, namely the matched filter of the dechirped signal and the group delay filter approach. The sensing performance of the investigated receiver strategies are analyzed in application to BPSK modulated chirp. Numerical simulations demonstrate that both techniques provide comparable performance for low to moderate bandwidth of the modulation signal. Matched filter outperforms the group delay receiver for the modulation waveform with large bandwidth, hence with the price of larger computational complexity.

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Multipath exploitation for knowledge‐aided adaptive target detection

Kumbul¹,

Hayvacı

2019

IET Radar, Sonar & Navigation

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Smoothed Phase-Coded FMCW: Waveform Properties and Transceiver Architecture

Kumbul

Petrov

Vaucher

et al. 2022

IEEE Trans. Aerosp. Electron. Syst.

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Smoothed phase-coded frequency modulated continuous waveform (SPC-FMCW), which is aimed to improve the coexistence of multiple radars operating within the same frequency bandwidth, is studied, and the receiving strategy with a low analog-to-digital converter sampling requirement is investigated. The Gaussian filter is applied to obtain smooth waveform phase transitions, and then, quadratic phase lag compensation is performed before waveform transmission to enhance decoding. The proposed waveform is examined in different domains, and its waveform properties are analyzed theoretically and demonstrated experimentally. Both simulation and experimental results show that the introduced waveform with the investigated processing steps helps combine all advantages of the FMCW waveform, including hardware simplicity and small operational bandwidth of the receiver, with the advantages of phase coding.

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Knowledge-Aided Adaptive Detection with Multipath Exploitation Radar

Kumbul¹,

Hayvacı²

2016

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Utku Kumbul

Experimental Investigation of Phase Coded FMCW for Sensing and Communications

Receiver Structures for Phase Modulated FMCW Radars

Multipath exploitation for knowledge‐aided adaptive target detection

Smoothed Phase-Coded FMCW: Waveform Properties and Transceiver Architecture

Knowledge-Aided Adaptive Detection with Multipath Exploitation Radar

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