AbstractDuring the unmanned aerial vehicles (UAV) reconnaissance missions in the middle-low troposphere, the reconnaissance images are blurred and degraded due to the scattering process of aerosol under fog, haze and other weather conditions, which reduce the image contrast and color fidelity. Considering the characteristics of UAV itself, this paper proposes a new algorithm for dehazing UAV reconnaissance images based on layered scattering model. The algorithm starts with the atmosphere scattering model, using the imaging distance, squint angle and other metadata acquired by the UAV. Based on the original model, a layered scattering model for dehazing is proposed. Considering the relationship between wave-length and extinction coefficient,...
The quality of the camera image directly determines the accuracy of the defect identification of the...
A new automatic image enhancement technique based on a locally tunable transformation function for v...
Abstract: Current environmental monitoring devices are limited in their capability of measuring atmo...
AbstractDuring the unmanned aerial vehicles (UAV) reconnaissance missions in the middle-low troposph...
Since incoming light to an unmanned aerial vehicle (UAV) platform can be scattered by haze and dust ...
Outdoor images captured in bad weather are prone to yield poor visibility, which is a fatal problem ...
Unmanned aerial vehicles (UAVs) have become an important technology for acquiring high-resolution re...
Unmanned aerial vehicles (UAVs)-based environmental studies are gaining space in recent years due to...
The visibility of a scene is degraded by weather phenomena such as rain drizzle, fog and haze. The d...
Imaging in the atmosphere presents the phenomenons of low contrast, low saturation and hue offset du...
The presence of haze could seriously contaminate the observations of optical satellite imagery. Haze...
The images capture in a bad environment usually loses its fidelity and contrast. As the light rays t...
Outdoor images are typically degraded by light scattering and absorption from aerosols, such as dust...
IEEE Atmospheric scattering model (ASM) has been widely used in hazy image restoration. However, the...
Unmanned aerial vehicles (UAV) have become an interesting and active research topic for photogrammet...
The quality of the camera image directly determines the accuracy of the defect identification of the...
A new automatic image enhancement technique based on a locally tunable transformation function for v...
Abstract: Current environmental monitoring devices are limited in their capability of measuring atmo...
AbstractDuring the unmanned aerial vehicles (UAV) reconnaissance missions in the middle-low troposph...
Since incoming light to an unmanned aerial vehicle (UAV) platform can be scattered by haze and dust ...
Outdoor images captured in bad weather are prone to yield poor visibility, which is a fatal problem ...
Unmanned aerial vehicles (UAVs) have become an important technology for acquiring high-resolution re...
Unmanned aerial vehicles (UAVs)-based environmental studies are gaining space in recent years due to...
The visibility of a scene is degraded by weather phenomena such as rain drizzle, fog and haze. The d...
Imaging in the atmosphere presents the phenomenons of low contrast, low saturation and hue offset du...
The presence of haze could seriously contaminate the observations of optical satellite imagery. Haze...
The images capture in a bad environment usually loses its fidelity and contrast. As the light rays t...
Outdoor images are typically degraded by light scattering and absorption from aerosols, such as dust...
IEEE Atmospheric scattering model (ASM) has been widely used in hazy image restoration. However, the...
Unmanned aerial vehicles (UAV) have become an interesting and active research topic for photogrammet...
The quality of the camera image directly determines the accuracy of the defect identification of the...
A new automatic image enhancement technique based on a locally tunable transformation function for v...
Abstract: Current environmental monitoring devices are limited in their capability of measuring atmo...