Phase Error Calculation Caused by Start-Stop Approximation in Processing FMCW Radar Signals for SAR Imaging

Vu, Viet T.; Ivanenko, Yevhen; Pettersson, Mats I.

doi:10.1109/access.2023.3318009

Cited by 2 publications

(2 citation statements)

References 16 publications

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“…t is the time when the beam is pointing to the target, c is the light velocity, 0 f is the carry frequency and r K is the chirp rate. The range Fourier transform is implemented in (5), and then we can get…”

Section: B Equivalent Acceleration Imaging Algori-thm Of Missile-born...mentioning

confidence: 99%

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A Modified Algorithm for Highly Squinted Missile-Borne SAR Imaging With Large Acceleration

Zheng,

Guan,

Jiang

et al. 2024

IEEE Access

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The acceleration imaging algorithm of missile-borne SAR deals with acceleration and high squint angle using an equivalent range model. However, the original missile-borne SAR acceleration imaging algorithm will be ineffective because the phase error compensation for the center point of the scene is no longer applicable to all point targets in the presence of increased acceleration. To address this problem, this paper makes improvements to the missile-borne SAR acceleration imaging algorithm and adds compensation measures for slant distance approximation error. The corresponding imaging algorithms are designed and the space-variant errors of the range and azimuth are compensated respectively. Simulation experiments verify the accuracy and effectiveness of the proposed algorithm.INDEX TERMS synthetic aperture radar (SAR), missile-borne SAR, high squint, large acceleration, spacevariant error compensation.

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Section: B Equivalent Acceleration Imaging Algori-thm Of Missile-born...mentioning

confidence: 99%

“…Synthetic aperture radar (SAR) is one of the high-resolution imaging radars, which can acquire clear two-dimensional images of the ground area [1]- [5]. Since spaceborne SAR was first launched in 1978, the imaging algorithms of SAR have been developed for many years [6]- [10].…”

Section: Introductionmentioning

confidence: 99%

A Modified Algorithm for Highly Squinted Missile-Borne SAR Imaging With Large Acceleration

Zheng,

Guan,

Jiang

et al. 2024

IEEE Access

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Millimeter Wave Indoor SAR Sensing Assisted With Chipless Tags-Based Self-Localization System: Experimental Evaluation

Batra,

Abbas,

Sánchez-Pastor

et al. 2024

IEEE Sensors J.

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This paper addresses indoor environment mapping by employing the synthetic aperture radar (SAR) technique at millimeter wave (mmWave) frequencies. The mmWave-based SAR can provide a high-resolution map for example of an emergency scenario like a burning room. The high-resolution map drives a new era of SAR applications such as object detection, classification, characterization, and precise localization. A major requirement at high frequencies is the precise knowledge of SAR trajectory, where radar sensors are mounted on a mobile platform such as a drone or unmanned aerial vehicle (UAV). State-of-the-art localization methods such as GPS-aided inertial measurement units are not valid due to limited coverage and accuracy. One of the primary solutions could be the SAR assisted with an indoor localization system, which is exploited in the work. The presented indoor localization system comprises two types of passive chipless frequency-coded tags, based on dielectric resonators and frequency-selective surfaces. In this work, firstly, the proposed method of integrating SAR and localization systems is evaluated in a single-tag environment. Further, a version of a room equipped with a multi-tag system is considered for real-time applications, and a successful demonstration of indoor environment mapping for the frequency spectrum of 75-110 GHz is presented.

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Phase Error Calculation Caused by Start-Stop Approximation in Processing FMCW Radar Signals for SAR Imaging

Cited by 2 publications

References 16 publications

A Modified Algorithm for Highly Squinted Missile-Borne SAR Imaging With Large Acceleration

A Modified Algorithm for Highly Squinted Missile-Borne SAR Imaging With Large Acceleration

Millimeter Wave Indoor SAR Sensing Assisted With Chipless Tags-Based Self-Localization System: Experimental Evaluation

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