Research studies on dynamic models of legged locomotion have generally focused on telescoping-type leg models. Such telescoping spring loaded inverted pendulum (SLIP) models have been able to accurately predict observed center of mass (CoM) trajectories. There have been comparatively fewer studies on dynamics of locomotion with segmented legs. Some earlier studies on the dynamics due to leg segmentation appear straightforward. For example, a simple model with the only joint moment being due to a passive springy knee has been shown to behave similarly to a telescoping spring-mass model. However, in real-life animal locomotion, there are multiple joint-moments acting at the hip, knee and the ankle joints. The joint-moments could act together ...
A critical review of studies related to the modelling of the human locomotor system is given. Kinema...
Accurately predicting human locomotion has been a goal of various mathematical models. Early canonic...
Traditional approaches to the biomechanical analysis of movement are joint-based; that is the mechan...
Research studies on dynamic models of legged locomotion have generally focused on telescoping-type l...
In human running, the ankle, knee, and hip moments are known to play different roles to influence th...
Despite advancement in the field of robotics, current legged robots still cannot achieve the kind of...
Abstract Evidence for the simplification of motor control of the limbs through a reduction in the nu...
Compliant elements in the leg musculoskeletal system appear to be important not only for running but...
Relatively little attention has previously been focussed upon the dynamics of the leg during the swi...
Previous work done with legged robots and above-the-knee amputees has shown that it is possible to a...
In this paper, we study the mechanical behavior of leg muscles and tendons during human walking in o...
The ability of the weight bearing knee joint remain hyperextended and support the amputee is charact...
Abstract: Spring-like leg behavior was found in the global dynamics of human and animal running in s...
During human locomotion, in every moment of a walk cycle, the loading on support leg or on the two l...
Traditional approaches to the biomechanical analysis of movement are joint-based; that is the mechan...
A critical review of studies related to the modelling of the human locomotor system is given. Kinema...
Accurately predicting human locomotion has been a goal of various mathematical models. Early canonic...
Traditional approaches to the biomechanical analysis of movement are joint-based; that is the mechan...
Research studies on dynamic models of legged locomotion have generally focused on telescoping-type l...
In human running, the ankle, knee, and hip moments are known to play different roles to influence th...
Despite advancement in the field of robotics, current legged robots still cannot achieve the kind of...
Abstract Evidence for the simplification of motor control of the limbs through a reduction in the nu...
Compliant elements in the leg musculoskeletal system appear to be important not only for running but...
Relatively little attention has previously been focussed upon the dynamics of the leg during the swi...
Previous work done with legged robots and above-the-knee amputees has shown that it is possible to a...
In this paper, we study the mechanical behavior of leg muscles and tendons during human walking in o...
The ability of the weight bearing knee joint remain hyperextended and support the amputee is charact...
Abstract: Spring-like leg behavior was found in the global dynamics of human and animal running in s...
During human locomotion, in every moment of a walk cycle, the loading on support leg or on the two l...
Traditional approaches to the biomechanical analysis of movement are joint-based; that is the mechan...
A critical review of studies related to the modelling of the human locomotor system is given. Kinema...
Accurately predicting human locomotion has been a goal of various mathematical models. Early canonic...
Traditional approaches to the biomechanical analysis of movement are joint-based; that is the mechan...