For wearable computing applications, human activity is a central part of the user's context. In order to avoid user annoyance it should be acquired automatically using body-worn sensors. We propose to use multiple acceleration sensors that are distributed over the body, because they are lightweight, small and cheap. Furthermore activity can best be measured where it occurs. We present a hardware platform that we developed for the investigation of this issue and results as to where to place the sensors and how to extract the context information
There is an increasing need for personalised and context-aware services in our everyday lives and we...
Abstract. Wearable inertial sensors have become an inexpensive option to measure the movements and p...
Today’s pervasive availability of computing devices enabled with wireless communication and location...
For wearable computing applications, human activity is a central part\u000A of the users context. I...
Reliable human activity recognition with wearable devices enables the development of human-centric p...
Wearable computation is getting integrated into our daily life day by day. In this work, we propose ...
Wearable devices support the detection of human activities without the expensive and obstructive pre...
This thesis investigates the use of wearable sensors to recognize human activity. The activity of th...
Activity recognition from an on-body sensor network enables context-aware applications in wearable c...
The future of human computer interaction systems lies in how intelligently these systems can take in...
There have been numerous efforts to detect human physical activities automatically. Healthcare profe...
The rapid growing of the population age in industrialized societies calls for advanced tools to cont...
International audienceThe world is getting older by the minute due to rising life expectancy, leadin...
By using activity recognition a ubiquitous computing system can proactively support a user in his da...
Human activity recognition using mobile device sensors is an active area of research in pervasive co...
There is an increasing need for personalised and context-aware services in our everyday lives and we...
Abstract. Wearable inertial sensors have become an inexpensive option to measure the movements and p...
Today’s pervasive availability of computing devices enabled with wireless communication and location...
For wearable computing applications, human activity is a central part\u000A of the users context. I...
Reliable human activity recognition with wearable devices enables the development of human-centric p...
Wearable computation is getting integrated into our daily life day by day. In this work, we propose ...
Wearable devices support the detection of human activities without the expensive and obstructive pre...
This thesis investigates the use of wearable sensors to recognize human activity. The activity of th...
Activity recognition from an on-body sensor network enables context-aware applications in wearable c...
The future of human computer interaction systems lies in how intelligently these systems can take in...
There have been numerous efforts to detect human physical activities automatically. Healthcare profe...
The rapid growing of the population age in industrialized societies calls for advanced tools to cont...
International audienceThe world is getting older by the minute due to rising life expectancy, leadin...
By using activity recognition a ubiquitous computing system can proactively support a user in his da...
Human activity recognition using mobile device sensors is an active area of research in pervasive co...
There is an increasing need for personalised and context-aware services in our everyday lives and we...
Abstract. Wearable inertial sensors have become an inexpensive option to measure the movements and p...
Today’s pervasive availability of computing devices enabled with wireless communication and location...