Add to ORKGCopyright © 2013 B. B. Salmerón-Quiroz et al. This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. In this paper we focus on the human arm motion capture, which is motivated by the requirements in physical rehabilitation and training of stroke patients in the same way as monitoring of elderly person activities.The proposed methodology uses a data fusion of low-cost and low-weight MEMS sensors jointly to an a priori knowledge of the arm anatomy. The main goal is to estimate the arm position, the anatomical movements of the shoulder and its accelerations. We propose a discrete optim...
An optimization approach applied to mechanical linkage models is used to simulate human arm movement...
ObjectiveHuman intention recognition technology plays a vital role in the application of robotic exo...
The three-dimensional analysis of human movement is of interest in many different fields of life sc...
International audienceThis study proposes a new inverse optimal control (IOC) framework for the opti...
This paper presents a novel kinematic reconstruction of the human arm chain with five degrees of fre...
In inertial human motion capture, a multitude of body segments are equipped with inertial measuremen...
Motion capture provides the best interface to the understanding of trajectory planning and formation...
The growing interest of the industry production in wearable robots for assistance and rehabilitation...
The shoulder joint, which has a great degree of rotation and mobility, is one of the most important ...
This paper presents an optimization-based human movement prediction using the AnyBody modeling syste...
A number of pathologies impact on the way a patient can either move or control the movements of the ...
This paper aims at the development of a unified method for online identification and tracking of a k...
Shoulder Range of Motion (ROM) has been studied with several devices and methods in recent years. Ac...
Wearable technology has grown rapidly in popularity in recent years. The advances in accessible micr...
An optimization approach applied to mechanical linkage models is used to simulate human arm movement...
ObjectiveHuman intention recognition technology plays a vital role in the application of robotic exo...
The three-dimensional analysis of human movement is of interest in many different fields of life sc...
International audienceThis study proposes a new inverse optimal control (IOC) framework for the opti...
This paper presents a novel kinematic reconstruction of the human arm chain with five degrees of fre...
In inertial human motion capture, a multitude of body segments are equipped with inertial measuremen...
Motion capture provides the best interface to the understanding of trajectory planning and formation...
The growing interest of the industry production in wearable robots for assistance and rehabilitation...
The shoulder joint, which has a great degree of rotation and mobility, is one of the most important ...
This paper presents an optimization-based human movement prediction using the AnyBody modeling syste...
A number of pathologies impact on the way a patient can either move or control the movements of the ...
This paper aims at the development of a unified method for online identification and tracking of a k...
Shoulder Range of Motion (ROM) has been studied with several devices and methods in recent years. Ac...
Wearable technology has grown rapidly in popularity in recent years. The advances in accessible micr...
An optimization approach applied to mechanical linkage models is used to simulate human arm movement...
ObjectiveHuman intention recognition technology plays a vital role in the application of robotic exo...
The three-dimensional analysis of human movement is of interest in many different fields of life sc...