The bispectrum of a signal has useful properties such as being zero for a Gaussian random process, retaining both phase and magnitude information of the Fourier transform of a signal, and being insensitive to linear motion. It has found applications in a wide variety of fields. The use of these properties for reducing speckle in coherent imaging systems was investigated. It was found that the bispectrum could be used to restore speckle-degraded images. Coherent speckle noise is modeled as a multiplicative noise process. By using a logarithmic transformation, this speckle noise is converted to a signal independent, additive process which is close to Gaussian when an integrating aperture is used. Bispectral reconstruction of speckle-degraded ...
The impact of multiplicative speckle noise on data acquisition in coherent imaging is studied. This ...
The uses of the bispectrum for recovering the images of one-dimensional infrared astronomical speckl...
Hennelly BM, Kelly DP, Maycock J, Naughton TJ, McDonald JB. Speckle reduction from digital holograms...
The bispectrum of a signal has useful properties such as being zero for a Gaussian random process, r...
Coherent speckle noise is modeled as a multiplicative noise process that has a negative exponential ...
In this paper we propose two algorithms for the restoration of images based on the bispectrum. The b...
Diffraction-limited infrared images of three binary stars reconstructed using speckle imaging techni...
Speckle imaging has long been used for recovery images of static scenes distorted by atmospheric opt...
Shift-invariant image reconstruction of speckle-degraded using bispectrum estimatio
The problem of jittery and noisy image reconstruction is considered. Bispectrum-based image row Four...
The problem of horizontal imaging through the atmospheric boundary layer is common in defense, surve...
Frame selection using quality sharpness metrics have been shown in previous AFIT theses, to be effec...
There is high demand for deploying real-time or near real-time implementation of image reconstructio...
We analyze image transmission in a coherent imaging system, in the presence of speckle noise modeled...
We present a method for blind bias compensation of the bispectrum in speckle-imaging applications us...
The impact of multiplicative speckle noise on data acquisition in coherent imaging is studied. This ...
The uses of the bispectrum for recovering the images of one-dimensional infrared astronomical speckl...
Hennelly BM, Kelly DP, Maycock J, Naughton TJ, McDonald JB. Speckle reduction from digital holograms...
The bispectrum of a signal has useful properties such as being zero for a Gaussian random process, r...
Coherent speckle noise is modeled as a multiplicative noise process that has a negative exponential ...
In this paper we propose two algorithms for the restoration of images based on the bispectrum. The b...
Diffraction-limited infrared images of three binary stars reconstructed using speckle imaging techni...
Speckle imaging has long been used for recovery images of static scenes distorted by atmospheric opt...
Shift-invariant image reconstruction of speckle-degraded using bispectrum estimatio
The problem of jittery and noisy image reconstruction is considered. Bispectrum-based image row Four...
The problem of horizontal imaging through the atmospheric boundary layer is common in defense, surve...
Frame selection using quality sharpness metrics have been shown in previous AFIT theses, to be effec...
There is high demand for deploying real-time or near real-time implementation of image reconstructio...
We analyze image transmission in a coherent imaging system, in the presence of speckle noise modeled...
We present a method for blind bias compensation of the bispectrum in speckle-imaging applications us...
The impact of multiplicative speckle noise on data acquisition in coherent imaging is studied. This ...
The uses of the bispectrum for recovering the images of one-dimensional infrared astronomical speckl...
Hennelly BM, Kelly DP, Maycock J, Naughton TJ, McDonald JB. Speckle reduction from digital holograms...