Abstract
Abstract. Active UHF RFID systems are often used for identifying, tracking and locating objects. In the present publication a GPS- based localization system for saving fawns during pasture mowing was introduced and tested. Fawns were first found by a UAV before mowing began. They were then tagged with small active RFID transponders, and an appropriate reader was installed on a mowing machine. Conventional direction-of-arrival approaches require a large antenna array with multiple elements and a corresponding coherent receiver, which introduces a large degree of complexity on the reader-side. Instead, our transponders were equipped with a small GPS module, allowing a transponder to determine its own position on request from the reader. A UHF link was used to transmit the location to a machine- mounted reader, where a second GPS receiver was installed. Using information from this second position and a machine- mounted magnetometer for determining the relative north direction of a vehicle, relative distance, and angle between GPS receivers can be calculated. The accuracy and reliability of this novel method were tested under realistic operating conditions, considering critical factors such as the height of grass, the lying position of a fawn, humidity and geographical area.
Highlights
The main period for fawns to be born is in the spring, between the end of April and middle of June (Rieck, 1955)
If a fawn is found, it is marked with a small active RFID transponder, making it is easy to later detect the fawn using a corresponding reader, mounted on a mowing machine
In place of conventional direction-of-arrival approaches, a GPS based localization system was used for determining the relative angle and distance
Summary
The main period for fawns to be born is in the spring, between the end of April and middle of June (Rieck, 1955). Does seek calm and protected areas on the edges of woods with high grass as a visual cover, to protect newborn fawns against natural threats This birth period coincides with the first cut of the pasture when farmers start mowing for animal forage. If a fawn is found, it is marked with a small active RFID transponder, making it is easy to later detect the fawn using a corresponding reader, mounted on a mowing machine. This solves the problem of false-positive alarms.
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