Filtering in the joint time/chirp-rate domain for separation of quadratic and cubic phase chirp signals

Abstract: This article investigates the possibility and convenience of a filtering operation in the joint time/chirp-rate (TCR) domain, and proposes a novel linear TCR filter for decomposing multicomponent signals into their quadratic and/ or cubic phase chirp components with monotonic instantaneous chirp-rate (ICR) laws only. The TCR domain mask of the filter is selected on a display of a TCR representation of an input signal to isolate the desired chirp component. Projecting the input signal onto the phase signal asso… Show more

“…In the article "Filtering in the joint time/chirp-rate domain for separation of quadratic and cubic phase chirp signals" [6], MehmetÖzgen proposes a linear time/chirprate (TCR) filter for decomposing multicomponent signals into their quadratic and/ or cubic phase chirp components. The article shows that it is easier to design filter masks in the TCR domain than in the time-frequency domain for recovering downsampled cubic phase signals and resolving back-to-back objects from in-line holograms.…”

Time frequency and array processing of non-stationary signals

“…In the article "Filtering in the joint time/chirp-rate domain for separation of quadratic and cubic phase chirp signals" [6], MehmetÖzgen proposes a linear time/chirprate (TCR) filter for decomposing multicomponent signals into their quadratic and/ or cubic phase chirp components. The article shows that it is easier to design filter masks in the TCR domain than in the time-frequency domain for recovering downsampled cubic phase signals and resolving back-to-back objects from in-line holograms.…”

Time frequency and array processing of non-stationary signals