Dual-Polarized Multi-Channel 24 GHz Radar Sensor Antenna for High Channel-to-Channel Isolation

Kim, Young‐Jun; Noh, Gunhark; Lee, Hanlim; Yu, Sungwook

doi:10.3390/s20185233

Cited by 4 publications

(3 citation statements)

References 64 publications

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“…On the other hand, with the increasing complexity of radar system functions, the number of receiving and transmitting antennas on the same platform is increasing. Receiving and transmitting with multiple antennas inevitably results in mutual interference, which reduces antenna isolation and communication capacity [42]. Thus, a device of channel isolation is required in the hardware configuration of the radar system to avoid interference between each channel.…”

Section: Discussionmentioning

confidence: 99%

Simultaneous Multiresolution Imaging Based on Multimode MIMO-SAR

Zhou

Shen

Liu

et al. 2023

IEEE J. Sel. Top. Appl. Earth Observations Remote Sensing

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This paper proposes a novel imaging mode which allows for the acquisition of SAR images with different resolution in a single imaging process, specifically designed for multipleinput multiple-output synthetic aperture radar (MIMO-SAR). To achieve this, a multi-mode array system model based on twodimensional intra-pulse scanning is established, followed by the division of full aperture signals into sub-aperture signals. Improved azimuth phase coding technology is then employed to separate multi-mode echo signals, and spatial filtering technology and range digital beam forming technology are used to remove ambiguity in azimuth and range of the sub-aperture signals of each mode. Finally, sub-aperture image coherent fusion algorithm is used to generate high-resolution images corresponding to the full aperture of each mode. Simulation results show that the improved azimuth phase coding can effectively separate multi-mode echo signals, and the multiresolution characteristics and imaging effect are verified.

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Section: Discussionmentioning

confidence: 99%

Simultaneous Multiresolution Imaging Based on Multimode MIMO-SAR

Zhou

Shen

Liu

et al. 2023

IEEE J. Sel. Top. Appl. Earth Observations Remote Sensing

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“…Dual-polarisation antennas with high port-to-port isolation have wide applications in contemporary radiocommunication systems in order to increase their performance in variable propagation conditions. In case of microwave radar sensors, the sensitivity strongly depends on isolation between the RX input and TX output [1][2][3]. In 2 × 2 MIMO systems, the throughput could be doubled by means of simultaneous emission using two orthogonal polarisations [4].…”

Section: Introductionmentioning

confidence: 99%

On the Design of Dual-Polarised Linear Antenna Arrays with Enhanced Port-to-Port Isolation

Wójcik

Surma

Нога

et al. 2020

Sensors

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The paper describes the process of designing a dual-polarised linear antenna array with enhanced port-to-port isolation, with the example of a four-element array with isolation better than 60 dB for the U-NII 5.15–5.925 GHz band. As a single antenna, dual-polarised electromagnetically coupled microstrip antennas were used with port-to-port isolation not exceeding 25 dB. A significant improvement in the isolation of the array was achieved thanks to the application of a dedicated feeding network. On the basis of theoretical analysis, a mathematical model describing port-to-port isolation was developed. Circuit and full-wave simulations were carried out to show the influence of electromagnetic couplings between antennas and/or the microstrip lines of the feeding network and the selection of phase shifters/power dividers on the isolation. The fabricated prototype is characterised by a gain of about 14 dBi, polarisation purity of at least −27 dB within the main lobe and close to expectations isolation better than 57 dB within the whole operational band.

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“…Utilizing vertical (V-pol) and horizontal polarizations (H-pol) for radar sensing also enables the radar to capture more information about the targets since some target features may be better acquired in one specific polarization and a dual-polarized radar may also provide a higher signal-to-noise ratio (SNR) [31]. This also mitigates the impact of the interference from other RF devices operating in the same frequency band as the interference is likely to happen in only one of the polarizations [32]. The University College London (UCL) ARESTOR platform [33] was used as the experimental platform on which to validate the proposed DFRC concept.…”

mentioning

confidence: 99%

An Experimental Study of Radar-Centric Transmission for Integrated Sensing and Communications

Temiz

Peters

Ritchie

et al. 2023

IEEE Trans. Microwave Theory Techn.

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This study proposes a dual-function radar and communication (DFRC) system that utilizes radar transmission parameters as modulation indexes to transmit data to the users while performing radar sensing as its primary function. The proposed technique exploits index modulation (IM) using the center frequency of radar chirps, their bandwidths, and polarization states as indexes to modulate the communication data within each radar chirp. By utilizing the combination of these indexes, the proposed DFRC system can reach up to 17 Mb/s throughput, while observing a robust radar performance. Through our experimental study, we also reveal the trade-off between the radar sensing performance and communication data rate, depending on the radar waveform parameters selected in the DFRC system. This study also demonstrates the implementation of the proposed DFRC system and presents its real-time over-the-air experimental measurements. Consequently, the simulation results are verified by real-time over-the-air experiments, where ARESTOR, a highspeed signal processing and experimental radar platform, has been employed.

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Dual-Polarized Multi-Channel 24 GHz Radar Sensor Antenna for High Channel-to-Channel Isolation

Cited by 4 publications

References 64 publications

Simultaneous Multiresolution Imaging Based on Multimode MIMO-SAR

Simultaneous Multiresolution Imaging Based on Multimode MIMO-SAR

On the Design of Dual-Polarised Linear Antenna Arrays with Enhanced Port-to-Port Isolation

An Experimental Study of Radar-Centric Transmission for Integrated Sensing and Communications

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