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Data from: Unmanned aerial vehicles for high-throughput phenotyping and agronomic research
负责人:
Thomasson, John A.
关键词:
unmanned aerial vehicle high throughput phenotyping precision agriculture remote sensing
摘要:
on increasingly larger farms; e.g., site-specific application of water and nutrients. Unmanned aerial vehicles (UAVs) have recently gained traction
Data from: A view from above: A view from above: unmanned aerial vehicles (UAVs) provide a new tool for assessing liana infes
负责人:
关键词:
drones;drone ecology;Remote sensing;tropical forest canopy;crown occupancy index;Lianas;visual image interpretation;liana infestation;UAVs
摘要:
ult, particularly for upper canopy layers. 2. We used a light-weight unmanned aerial vehicle (UAV) to assess liana infestation of tree canopies from above
Data from: The Chirocopter: a UAV for recording sound and video of bats at altitude
负责人:
关键词:
bats;Bioacoustics;Tadarida brasiliensis;UAV;drone
摘要:
1. Most recordings of bats are conducted with fixed equipment, which relies on opportunistic data collection. Unmanned aerial vehicles (suc
Data from: A computer vision for animal ecology
负责人:
Weinstein, Ben
关键词:
Automation images camera traps ecological monitoring unmanned aerial vehicles
摘要:
and scope of ecological study. Ecologists often use image capture to bolster data collection in time and space. However, the ability to process these images
Data from: Drones count wildlife more accurately and precisely than humans
负责人:
关键词:
RPA;Ecology;drones;RPAS;UAS;bird;surveys;population monitoring;UAV;wildlife
摘要:
ng technologies, such as remotely piloted aircraft (RPA; commonly known as “drones,” unmanned aerial systems or unmanned aerial vehicles), for wildlife monitoring
Data from: A new low-turbulence wind tunnel for animal and small vehicle flight experiments
负责人:
Quinn, Daniel
关键词:
biomechanics wind tunnel turbulence unmanned aerial vehicles flight stability gust mitigation
摘要:
in both laminar and turbulent environments, a multi-purpose wind tunnel for studying animal and small vehicle flight was built at Stanford Univer
Data from: Remote sensing of plant trait responses to field-based plant–soil feedback using UAV-based optical sensors
负责人:
De Deyn, Gerlinde B.
关键词:
plant-soil feedback soil legacy treatment discrimination high-resolution hyperspectral imagery UAV remote sensing plant height biomass nitrogen leaf chlorophyll
摘要:
s controlled conditions. Here we used unmanned aerial vehicle (UAV)-based optical sensors to test whether PSF effects on plant traits can be quantified remotely

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