Abstract
Synthetic aperture radar (SAR) provides high-resolution images of the Earth’s surface irrespective of sunlight and weather conditions. In conventional spaceborne SAR, nadir echoes caused by the pulsed operation of SAR may significantly affect the SAR image quality. Therefore, the pulse repetition frequency (PRF) is constrained within the SAR system design to avoid the appearance of nadir echoes in the SAR image. As an alternative, the waveform-encoded SAR concept using a pulse-to-pulse variation of the transmitted waveform and dual-focus postprocessing can be exploited for nadir echo removal and to alleviate the PRF constraints. In particular, cyclically shifted chirps have been proposed as a possible waveform variation scheme. However, a large number of distinct waveforms is required to enable the simple implementation of the concept. This work proposes a technique based on the Eulerian circuit for generating a waveform sequence starting from a reduced number of distinct cyclically shifted chirps that can be effectively exploited for waveform-encoded SAR. The nadir echo suppression performance of the proposed scheme is analyzed through simulations using real TerraSAR-X data and a realistic nadir echo model that shows how the number of distinct waveforms and therefore the system complexity can be reduced without significant performance loss. These developments reduce the calibration burden and make the concept viable for implementation in future SAR systems.
Highlights
Synthetic aperture radar (SAR) is a technology capable of providing high-resolution images for remote sensing applications regardless of sunlight illumination and weather conditions [1,2]
This section proposes a technique based on the Eulerian circuit for effectively generThis section proposes a technique based on the Eulerian circuit for effectively generating a waveform sequence starting from a limited number of distinct waveforms
If the distinct waveforms are represented as the vertices of a polygon, the transitions among the distinct are represented asof the vertices of awhere polygon, transitions among ti values canwaveforms be represented as the edges the polygon, the the number of vertices is can be represented as the edges of the polygon, where the number of vertices is tN. values
Summary
Synthetic aperture radar (SAR) is a technology capable of providing high-resolution images for remote sensing applications regardless of sunlight illumination and weather conditions [1,2]. A typical SAR system is mounted on a moving platform to transmit electromagnetic pulses and to receive the reflections from the region of interest. The nadir echo may significantly affect the SAR image quality with its strong intensity because of the shorter distance and the specular reflection even though it is attenuated by the transmit and receive antenna patterns.
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