This paper investigates anisoplanatic numerical wave simulation in the context of lucky look imaging. We demonstrate that numerical wave propagation can produce root mean square (RMS) wavefront distributions and probability of lucky look (PLL) statistics that are consistent with Kolmogorov theory. However, the simulated RMS statistics are sensitive to the sampling parameters used in the propagation window. To address this, we propose and validate a new sample spacing rule based on the point source bandwidth used in the propagation and the level of atmospheric turbulence. We use the tuned simulator to parameterize the wavefront RMS probability density function as a function of turbulence strength. The fully parameterized RMS distribution mod...
We have developed an imaging simulator that accounts for the anisoplanatic effects encountered while...
In this study, we want to simulate long-range laser propagation in atmospheric turbulence. The numer...
It is well known that optical signals propagating through the atmosphere are subject to random fluct...
We present a numerical wave propagation method for simulating imaging of an extended scene under ani...
Atmospheric optical turbulence can be a significant source of image degradation, particularly in lon...
We present a numerical wave propagation method for simulating imaging of an extended scene under ani...
When viewing objects over long distances, atmospheric turbulence introduces significant aberrations ...
This effort characterizes proper sampling of laser speckle in wave-optics simulations, with an empha...
We describe a numerical wave propagation method for simulating long range imaging of an extended sce...
We use a rigorous Markov approximation-based propagation model to calculate statistical properties o...
In this paper, we compare the performance of multiple turbulence mitigation algorithms to restore im...
A new extendable method for the simulation of atmospheric wave-fronts with turbulence inter- mittenc...
The presence of turbulence over horizontal imaging paths severely reduces the resolution available t...
This research began as a continuation of work on the propagation of planar electromagnetic (EM) wave...
In long range imaging applications, anisoplanatic atmospheric optical turbulence imparts spatially- ...
We have developed an imaging simulator that accounts for the anisoplanatic effects encountered while...
In this study, we want to simulate long-range laser propagation in atmospheric turbulence. The numer...
It is well known that optical signals propagating through the atmosphere are subject to random fluct...
We present a numerical wave propagation method for simulating imaging of an extended scene under ani...
Atmospheric optical turbulence can be a significant source of image degradation, particularly in lon...
We present a numerical wave propagation method for simulating imaging of an extended scene under ani...
When viewing objects over long distances, atmospheric turbulence introduces significant aberrations ...
This effort characterizes proper sampling of laser speckle in wave-optics simulations, with an empha...
We describe a numerical wave propagation method for simulating long range imaging of an extended sce...
We use a rigorous Markov approximation-based propagation model to calculate statistical properties o...
In this paper, we compare the performance of multiple turbulence mitigation algorithms to restore im...
A new extendable method for the simulation of atmospheric wave-fronts with turbulence inter- mittenc...
The presence of turbulence over horizontal imaging paths severely reduces the resolution available t...
This research began as a continuation of work on the propagation of planar electromagnetic (EM) wave...
In long range imaging applications, anisoplanatic atmospheric optical turbulence imparts spatially- ...
We have developed an imaging simulator that accounts for the anisoplanatic effects encountered while...
In this study, we want to simulate long-range laser propagation in atmospheric turbulence. The numer...
It is well known that optical signals propagating through the atmosphere are subject to random fluct...