Add to ORKGRadar imaging of noncooperative targets is an interesting application of all-weather high-resolution coherent radars. However, these images are usually blurred when using the standard range-Doppler algorithm, if a long coherent processing interval (CPI) is used, and motion compensation techniques are hence necessary to improve imaging quality. If the CPI is reduced enough, target scatterers do not migrate of resolution cells and their corresponding Doppler frequencies are constant. Hence, for a short CPI, motion compensation is not longer necessary, but Doppler resolution gets degraded. In that case, superresolution algorithms may be applied. Here, we compare the superresolution-based focusing techniques with motion compensation-based meth...
When the micro-Doppler (MD) image of a ballistic missile is derived, the translational motion compen...
There have been numerous applications of superresolution reconstruction algorithms to improve the ra...
For inverse synthetic aperture radar imagery, the inherent sparsity of the scatterers in the range-D...
This paper is a review of the problems and the solutions for applying superresolution methods. Super...
Superresolution reconstruction algorithms are increasingly being proposed as enhancements for low re...
High-resolution radar imaging is an area undergoing rapid technological and scientific development. S...
We address the problem of estimating target locations that are sparse in a pulse-Doppler radar's una...
In the last few decades, the increasing demand for high-resolution images in applications such as au...
In stepped-frequency radar, target motions produce range-profile distortions. Range shift, signal-to...
For many military operations situational awareness is of great importance. This situational awarenes...
In image formation and recording process, there are many factors that affect sensor performance and ...
This Thesis discusses the use of super-resolution techniques applied for monostatic and bistatic rad...
Superresolution concepts offer the potential of resolution beyond the classical limit. This great pr...
Multiple illuminators of opportunity (IOs) and a large rotation angle are often required for current...
Synthetic aperture radar (SAR) is a digital signal processing technique which enhances the azimuth r...
When the micro-Doppler (MD) image of a ballistic missile is derived, the translational motion compen...
There have been numerous applications of superresolution reconstruction algorithms to improve the ra...
For inverse synthetic aperture radar imagery, the inherent sparsity of the scatterers in the range-D...
This paper is a review of the problems and the solutions for applying superresolution methods. Super...
Superresolution reconstruction algorithms are increasingly being proposed as enhancements for low re...
High-resolution radar imaging is an area undergoing rapid technological and scientific development. S...
We address the problem of estimating target locations that are sparse in a pulse-Doppler radar's una...
In the last few decades, the increasing demand for high-resolution images in applications such as au...
In stepped-frequency radar, target motions produce range-profile distortions. Range shift, signal-to...
For many military operations situational awareness is of great importance. This situational awarenes...
In image formation and recording process, there are many factors that affect sensor performance and ...
This Thesis discusses the use of super-resolution techniques applied for monostatic and bistatic rad...
Superresolution concepts offer the potential of resolution beyond the classical limit. This great pr...
Multiple illuminators of opportunity (IOs) and a large rotation angle are often required for current...
Synthetic aperture radar (SAR) is a digital signal processing technique which enhances the azimuth r...
When the micro-Doppler (MD) image of a ballistic missile is derived, the translational motion compen...
There have been numerous applications of superresolution reconstruction algorithms to improve the ra...
For inverse synthetic aperture radar imagery, the inherent sparsity of the scatterers in the range-D...