2020
DOI: 10.1109/access.2020.3026884
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Indoor THz SAR Trajectory Deviations Effects and Compensation With Passive Sub-mm Localization System

Abstract: In radar remote sensing, the Terahertz (THz) spectrum is presently being investigated worldwide with focus on short-range indoor and outdoor applications. The spectrum broadens the unmanned aerial vehicle (UAV) based synthetic aperture radar (SAR) applications to indoor room profiling with submm resolution and material characterization as many materials have unique fingerprints at this spectrum. SAR technique requires precise localization information of the mobile radar sensor, which in conventional SAR is ach… Show more

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Cited by 27 publications
(23 citation statements)
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“…Very-high positioning accuracy is required at THz. Since, for a coherent processing, positioning deviations in the synthetic aperture have to be very small in relation to the wavelength [15]. Especially, for the case of vertical movement against gravity, the mounting load is of critical importance.…”
Section: Testbedmentioning
confidence: 99%
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“…Very-high positioning accuracy is required at THz. Since, for a coherent processing, positioning deviations in the synthetic aperture have to be very small in relation to the wavelength [15]. Especially, for the case of vertical movement against gravity, the mounting load is of critical importance.…”
Section: Testbedmentioning
confidence: 99%
“…The phase error results in image degradation, blurred images, and incorrect range and azimuth estimations. Based on the far-field condition, the positioning accuracy requirement is R ≤ λ/16, where R = R m − R as defined in [15]. It shows that the THz SAR is highly sensitive to motion errors due to the shorter-wavelengths.…”
Section: ) Antennasmentioning
confidence: 99%
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“…Those existing publications deal with intrapulse motion compensation in FMCW systems using radar sensors with moderate (relative) bandwidths, ranging from 500 MHz in [27] up to 2 GHz in [26] and [28]. In contrast to those applications, millimeter-wave systems above 100 GHz, for instance, in the field of security imaging [30], nondestructive testing [31], or indoor localization [32], often provide a much larger bandwidth and they are therefore not covered by the aforementioned works. Additional examples are the systems presented in [32] and [33], with center frequencies of approximately 275 and 300 GHz and bandwidths of 50 and 40 GHz, respectively.…”
mentioning
confidence: 99%
“…In contrast to those applications, millimeter-wave systems above 100 GHz, for instance, in the field of security imaging [30], nondestructive testing [31], or indoor localization [32], often provide a much larger bandwidth and they are therefore not covered by the aforementioned works. Additional examples are the systems presented in [32] and [33], with center frequencies of approximately 275 and 300 GHz and bandwidths of 50 and 40 GHz, respectively. On one side, the large bandwidth results in a high resolution but also introduces great demands at the positioning unit in an SAR system since the position error has to be a fraction of the wavelength.…”
mentioning
confidence: 99%