Add to ORKGWeather surveillance radars can effectively detect flying animals, such as groups of birds, bats, and insects. Further, these radars are demonstrably useful for detecting the existence of certain bird roosting locations, particularly those of many species of swallows. The roosts appear on radar as distinctive rings of high reflectivity. Detecting and locating bird roosts have a variety of applications from ecological conservation to wind farm placement and air traffic control. In this thesis, I first detect the presence of a roost in NEXt Generation Weather RADar (NEXRAD) images of purple martin and tree swallow roosts and improve upon Chilson et al. (2019)'s work by altering the network architecture and data preprocessing. Because d...
The aim of this study is to propose a bird detection algorithm. Bird detection is useful for the cou...
Radar wind profilers (RWPs) are a very sensitive class of operational and research-grade meteorologi...
Billions of insects, birds and bats use the aerosphere for migration, dispersive movements or foragi...
Although NEXRAD radars have proven to be an effective tool for detecting airborne animals, detecting...
NEXRAD radars have proven to be an effective tool for detecting bird roosts for several species or b...
Roosting birds of certain species can be agricultural pests, hazards to aircraft on takeoff and land...
The US weather radar archive holds detailed information about biological phenomena in the atmosphere...
Radar observations present a way to monitor large, mobile populations across long temporal scales, a...
Despite using the aerosphere for many facets of their life, most flying animals (i.e., birds, bats, ...
Large networks of weather radars are comprehensive instruments for studying bird migration. For exam...
This repository contain the data for running the algorithm for detecting soaring bird migration usin...
© Springer International Publishing AG, part of Springer Nature 2017. Despite using the aerosphere f...
Report issued on: November 3, 1994INHS Technical Report prepared for US Fish and Wildlife Servic
We acknowledge the support provided by COST–European Cooperation in Science and Technology through t...
This is an author's peer-reviewed final manuscript, as accepted by the publisher. The published arti...
The aim of this study is to propose a bird detection algorithm. Bird detection is useful for the cou...
Radar wind profilers (RWPs) are a very sensitive class of operational and research-grade meteorologi...
Billions of insects, birds and bats use the aerosphere for migration, dispersive movements or foragi...
Although NEXRAD radars have proven to be an effective tool for detecting airborne animals, detecting...
NEXRAD radars have proven to be an effective tool for detecting bird roosts for several species or b...
Roosting birds of certain species can be agricultural pests, hazards to aircraft on takeoff and land...
The US weather radar archive holds detailed information about biological phenomena in the atmosphere...
Radar observations present a way to monitor large, mobile populations across long temporal scales, a...
Despite using the aerosphere for many facets of their life, most flying animals (i.e., birds, bats, ...
Large networks of weather radars are comprehensive instruments for studying bird migration. For exam...
This repository contain the data for running the algorithm for detecting soaring bird migration usin...
© Springer International Publishing AG, part of Springer Nature 2017. Despite using the aerosphere f...
Report issued on: November 3, 1994INHS Technical Report prepared for US Fish and Wildlife Servic
We acknowledge the support provided by COST–European Cooperation in Science and Technology through t...
This is an author's peer-reviewed final manuscript, as accepted by the publisher. The published arti...
The aim of this study is to propose a bird detection algorithm. Bird detection is useful for the cou...
Radar wind profilers (RWPs) are a very sensitive class of operational and research-grade meteorologi...
Billions of insects, birds and bats use the aerosphere for migration, dispersive movements or foragi...