This technical report publishes the proceedings of the 22th Prague Workshop, which was held from 30th November to 1st December 2018. The workshop offers a possibility for young scientists to present their current research work in the fields of computer graphics, human-computer-interaction, robotics and usability. The works is meant as a platform to bring together researchers from both the Czech Technical University in Prague (CTU) and the University of Applied Sciences Dresden (HTW). The German Academic Exchange Service offers its financial support to allow student participants the bilateral exchange between Prague and Dresden.:1) An approach to a self-organizing production in com- parison to a centrally planned production 4 2) Tactile symb...
For assistive devices such as active orthoses, exoskeletons or other close-to-body robotic-systems, ...
To assess ergonomic aspects of a (future) workplace already in the design phase where no physical pr...
In this work, I investigate how the synergistic coupling between different upper limb degrees of fre...
We present a comprehensive data-driven statistical model for skin and muscle deformation of the huma...
Estimation of muscle activity is very important as it can be a cue to assess a person’s movements an...
International audienceThis paper presents a novel method for deforming the skin of 3D characters in ...
AbstractThe current state of the art digital human models are a visual proxy for humans in part due ...
The work of this thesis focuses in key areas of human-computer interaction (HCI), namely rigid facia...
Skin forms the outermost layer of the human body and, because of its high visibility and importance,...
Abstract — This paper deals with development of a highly realistic human hand and forearm model. The...
The paper presents description of muscle model for animation used to do motion capture worked out as...
The goal of this dissertation is to develop methods to measure, model, and animate facial tissues of...
Stability during locomotion arises from many complex interactions which are not yet fully understood...
Surface electromyography (sEMG) is a non-invasive technique that measures the electrical activity ge...
UnrestrictedA system for producing an accurate human body model is important and required in many fi...
For assistive devices such as active orthoses, exoskeletons or other close-to-body robotic-systems, ...
To assess ergonomic aspects of a (future) workplace already in the design phase where no physical pr...
In this work, I investigate how the synergistic coupling between different upper limb degrees of fre...
We present a comprehensive data-driven statistical model for skin and muscle deformation of the huma...
Estimation of muscle activity is very important as it can be a cue to assess a person’s movements an...
International audienceThis paper presents a novel method for deforming the skin of 3D characters in ...
AbstractThe current state of the art digital human models are a visual proxy for humans in part due ...
The work of this thesis focuses in key areas of human-computer interaction (HCI), namely rigid facia...
Skin forms the outermost layer of the human body and, because of its high visibility and importance,...
Abstract — This paper deals with development of a highly realistic human hand and forearm model. The...
The paper presents description of muscle model for animation used to do motion capture worked out as...
The goal of this dissertation is to develop methods to measure, model, and animate facial tissues of...
Stability during locomotion arises from many complex interactions which are not yet fully understood...
Surface electromyography (sEMG) is a non-invasive technique that measures the electrical activity ge...
UnrestrictedA system for producing an accurate human body model is important and required in many fi...
For assistive devices such as active orthoses, exoskeletons or other close-to-body robotic-systems, ...
To assess ergonomic aspects of a (future) workplace already in the design phase where no physical pr...
In this work, I investigate how the synergistic coupling between different upper limb degrees of fre...