Most terrestrial animals move with a specific number of propulsive legs, which differs between clades. The reasons for these differences are often unknown and rarely queried, despite the underlying mechanisms being indispensable for understanding the evolution of multilegged locomotor systems in the animal kingdom and the development of swiftly moving robots. Moreover, when speeding up, a range of species change their number of propulsive legs. The reasons for this behaviour have proven equally elusive. In animals and robots, the number of propulsive legs also has a decisive impact on the movement dynamics of the centre of mass. Here, I use the leg force interference model to elucidate these issues by introducing gradually declining ground ...
Deciphering how quadrupeds coordinate their legs and other body parts, such as the trunk, head, and ...
Deciphering how quadrupeds coordinate their legs and other body parts, such as the trunk, head, and ...
Legged animals can traverse significantly more of the Earth\u27s land mass than man-made wheeled and...
Most terrestrial animals move with a specific number of propulsive legs, which differs between clade...
The examination of gaits and gait changes has been the focus of movement physiology and legged robot...
The analysis of terrestrial locomotion over the past half century has focused largely on strategies ...
Previous studies have noted that biological quadrupeds adjust their gaits when encountering drag in ...
Despite advancement in the field of robotics, current legged robots still cannot achieve the kind of...
Although many studies deal with transitions between gaits and several alternative hypotheses on ulti...
Different quadrupedal template models with fixed parameters have been introduced to facilitate the ...
Previous studies have noted that biological quadrupeds adjust their gaits when encountering drag in ...
In spite of the sustained worldwide efforts of the last few decades, the development of mobile robot...
The Dynamics of Legged Locomotion: Models, Analyses, and Challenges Cheetahs and beetles run, dolphi...
Carrying loads with a rigid structure during legged locomotion is difficult, inefficient, and can le...
Accurately predicting human locomotion has been a goal of various mathematical models. Early canonic...
Deciphering how quadrupeds coordinate their legs and other body parts, such as the trunk, head, and ...
Deciphering how quadrupeds coordinate their legs and other body parts, such as the trunk, head, and ...
Legged animals can traverse significantly more of the Earth\u27s land mass than man-made wheeled and...
Most terrestrial animals move with a specific number of propulsive legs, which differs between clade...
The examination of gaits and gait changes has been the focus of movement physiology and legged robot...
The analysis of terrestrial locomotion over the past half century has focused largely on strategies ...
Previous studies have noted that biological quadrupeds adjust their gaits when encountering drag in ...
Despite advancement in the field of robotics, current legged robots still cannot achieve the kind of...
Although many studies deal with transitions between gaits and several alternative hypotheses on ulti...
Different quadrupedal template models with fixed parameters have been introduced to facilitate the ...
Previous studies have noted that biological quadrupeds adjust their gaits when encountering drag in ...
In spite of the sustained worldwide efforts of the last few decades, the development of mobile robot...
The Dynamics of Legged Locomotion: Models, Analyses, and Challenges Cheetahs and beetles run, dolphi...
Carrying loads with a rigid structure during legged locomotion is difficult, inefficient, and can le...
Accurately predicting human locomotion has been a goal of various mathematical models. Early canonic...
Deciphering how quadrupeds coordinate their legs and other body parts, such as the trunk, head, and ...
Deciphering how quadrupeds coordinate their legs and other body parts, such as the trunk, head, and ...
Legged animals can traverse significantly more of the Earth\u27s land mass than man-made wheeled and...