Use of unmanned aerial systems (UASs) in agriculture has risen in the past decade. These systems are key to modernizing agriculture. UASs collect and elucidate data previously difficult to obtain and used to help increase agricultural efficiency and production. Typical commercial off-the-shelf (COTS) UASs are limited by small payloads and short flight times. Such limits inhibit their ability to provide abundant data at multiple spatiotemporal scales. In this paper, we describe the design and construction of the tethered aircraft unmanned system (TAUS), which is a novel power-over-tether UAS leveraging the physical presence of the tether to launch multiple sensors along the tether at multiple altitudes. With power from a ground station, the ...
Environmental monitoring plays a central role in diagnosing climate and management impacts on natura...
Remote sensing applications for precision agriculture depend on acquiring actionable information at ...
Autonomous Aerial Sensors, i.e. meteorological sensors mountedon Unmanned Aerial Systems UAS, can ch...
Use of unmanned aerial systems (UASs) in agriculture has risen in the past decade. These systems are...
The use of unmanned aerial systems (UASs) in agriculture has risen in the past decade and is helping...
The integration of unmanned aerial systems (UASs) has increased in the field of agriculture. These s...
Several research institutes, laboratories, academic programs, and service companies around the Unite...
Efficiently managing soil moisture content on large farms can be a complicated and expensive task th...
Precision agriculture (PA) relies on actionable information obtained from sensors and data analysis ...
Numerous sensors have been developed over time for precision agriculture; though, only recently have...
© 2022 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article dis...
Environmental monitoring plays a central role in diagnosing climate and management impacts on natur...
Researchers at the Utah Water Research Laboratory at Utah State University have developed a small un...
Current technologies employed for use of small, unmanned aerial systems (sUAS), or “drones”, for rem...
Environmental monitoring plays a central role in diagnosing climate and management impacts on natura...
Remote sensing applications for precision agriculture depend on acquiring actionable information at ...
Autonomous Aerial Sensors, i.e. meteorological sensors mountedon Unmanned Aerial Systems UAS, can ch...
Use of unmanned aerial systems (UASs) in agriculture has risen in the past decade. These systems are...
The use of unmanned aerial systems (UASs) in agriculture has risen in the past decade and is helping...
The integration of unmanned aerial systems (UASs) has increased in the field of agriculture. These s...
Several research institutes, laboratories, academic programs, and service companies around the Unite...
Efficiently managing soil moisture content on large farms can be a complicated and expensive task th...
Precision agriculture (PA) relies on actionable information obtained from sensors and data analysis ...
Numerous sensors have been developed over time for precision agriculture; though, only recently have...
© 2022 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article dis...
Environmental monitoring plays a central role in diagnosing climate and management impacts on natur...
Researchers at the Utah Water Research Laboratory at Utah State University have developed a small un...
Current technologies employed for use of small, unmanned aerial systems (sUAS), or “drones”, for rem...
Environmental monitoring plays a central role in diagnosing climate and management impacts on natura...
Remote sensing applications for precision agriculture depend on acquiring actionable information at ...
Autonomous Aerial Sensors, i.e. meteorological sensors mountedon Unmanned Aerial Systems UAS, can ch...