Home /Research /Tracking the Cheetah Tail Using Animal-Borne Cameras, GPS, and an IMU
LOCOMOTION

Tracking the Cheetah Tail Using Animal-Borne Cameras, GPS, and an IMU

Amir Patel, Bradley B. Stocks, Callen Fisher, Fred Nicolls, Edward Boje

Year
2017
Citations
27

Abstract

The cheetah (Acinonyx Jubatus) is the fastest terrestrial animal and is also highly maneuverable. An investigation into the whole-body motion dynamics of this specialized predator will illuminate various factors that influence and affect performance in legged animals as well as provide insight for the design of future bio-inspired robots. Presently, animal sensor collars can capture the gross animal behavior successfully but do not provide information about the animal's complete motion. Here, in an effort towards whole-body motion estimation, we demonstrate the use of animal mounted cameras, as well as the sensor suite of a smartphone that are attached to captive cheetahs during maneuvers. The various sensors are fused by an Extended Kalman Smoother (EKS) to provide high-bandwidth state estimates of the position, velocity, and acceleration of the cheetah spine and tail.

Keywords

Inertial measurement unitAcinonyx jubatusComputer scienceGlobal Positioning SystemComputer visionAccelerometerAnimal behaviorTracking (education)Artificial intelligenceBiology

Related papers

Browse all LOCOMOTION papers