Add to ORKGAbstract — An important tool in clarifying various theories governing the dynamics of rapid quadrupedal gaits, such as the trot and gallop, is the measurement of body attitude. Such measurements are complicated in open field environments because of the large ranges and high data rates needed due to the speeds (7 m/s) and rapid shifts in dynamics present. To address this a lightweight inertial sensing harness is introduced with sensing design based on the KOLT robot. Its mass center is collocated with the subject so as to reduce dynamic bias. This work combines dynamic gait system identification and motion estimation and is demonstrated on a Labrador retriever (Canis lupus familiaris) through measurements of the gallop over long spans (20 m)...
Reasons for performing study: IMU-sensor based techniques arebecoming more popular in horses as a to...
Abstract—In this paper, a new intelligent control approach for high-speed quadruped bounding and gal...
Animals have evolved over billions of years and understanding these complex and intertwined systems ...
The gallop is the preferred gait by mammals for agile traversal through terrain. This motion is intr...
In this paper we present the system design of a machine that we have constructed to study a quadrupe...
The increasing number of possibilities to monitor both physical and mental health in animals comes w...
BACKGROUND: Inertial-measurement-unit (IMU)-sensor-based techniques are becoming more popular in hor...
© 2017 ASME. Understanding the biomechanics of rapid running locomotion plays an important role in c...
Background: Inertial measurement unit (IMU) sensor-based techniques are becoming more popular in hor...
In this paper, we describe and validate the EquiMoves system, which aims to support equine veterinar...
In this paper, we describe and validate the EquiMoves system, which aims to support equine veterinar...
Rapid quadrupedal movement on granular media and other irregular terrain is an interesting area of r...
In this paper, we describe and validate the EquiMoves system, which aims to support equine veterinar...
Copyright © 2018 ASME. Identifying optimum athletic race track surfacing for greyhounds to reduce ri...
Legged robots display a characteristically periodic motion. Measuring and tracking this motion has t...
Reasons for performing study: IMU-sensor based techniques arebecoming more popular in horses as a to...
Abstract—In this paper, a new intelligent control approach for high-speed quadruped bounding and gal...
Animals have evolved over billions of years and understanding these complex and intertwined systems ...
The gallop is the preferred gait by mammals for agile traversal through terrain. This motion is intr...
In this paper we present the system design of a machine that we have constructed to study a quadrupe...
The increasing number of possibilities to monitor both physical and mental health in animals comes w...
BACKGROUND: Inertial-measurement-unit (IMU)-sensor-based techniques are becoming more popular in hor...
© 2017 ASME. Understanding the biomechanics of rapid running locomotion plays an important role in c...
Background: Inertial measurement unit (IMU) sensor-based techniques are becoming more popular in hor...
In this paper, we describe and validate the EquiMoves system, which aims to support equine veterinar...
In this paper, we describe and validate the EquiMoves system, which aims to support equine veterinar...
Rapid quadrupedal movement on granular media and other irregular terrain is an interesting area of r...
In this paper, we describe and validate the EquiMoves system, which aims to support equine veterinar...
Copyright © 2018 ASME. Identifying optimum athletic race track surfacing for greyhounds to reduce ri...
Legged robots display a characteristically periodic motion. Measuring and tracking this motion has t...
Reasons for performing study: IMU-sensor based techniques arebecoming more popular in horses as a to...
Abstract—In this paper, a new intelligent control approach for high-speed quadruped bounding and gal...
Animals have evolved over billions of years and understanding these complex and intertwined systems ...