Activity recognition has recently gained a lot of interest and there already exist several methods to detect human activites based on wearable sensors. Most of the existing methods rely on a database of labelled activities that is used to train an offline activity recognition system. This paper presents an approach to build an online activity recognition system that do not require any a priori labelled data. The system incrementally learns activities by actively querying the user for labels. To choose when the user should be queried, we compare a method based on random sampling and another that uses a Growing Neural Gas (GNG). The use of GNG helps reducing the number of user queries by 20% to 30%
Data used in studies about physical activity is primarily collected from questionnaires and other su...
Wearable human activity recognition (HAR) is a widely application system for our daily life. It hasb...
Panzner M, Beyer O, Cimiano P. Human Activity Classification with Online Growing Neural Gas. In: Wo...
Activity recognition has recently gained a lot of interest and there already exist several methods t...
There is an increasing need for personalised and context-aware services in our everyday lives and we...
Human activity recognition using wearable devices is an active area of research in pervasive computi...
Human activity recognition by using wearable sensors has gained tremendous interest in recent years ...
Applications for sensor-based human activity recognition use the latest algorithms for the detection...
Abstract This study presents incremental learning based methods to personalize human activity recog...
In this paper is presented a novel approach for human activity recognition (HAR) through complex dat...
Physical activity recognition based on sensors is a growing area of interest given the great advance...
The aim of activity recognition is to determine the physical action being performed by one or more u...
Activity Recognition has gained a lot of interest in recent years due to its potential and usefulnes...
This paper presents an unsupervised incremental learning approach for activity recognition. Activity...
Physical activity has a positive impact on people's well-being, and it may also decrease the occurre...
Data used in studies about physical activity is primarily collected from questionnaires and other su...
Wearable human activity recognition (HAR) is a widely application system for our daily life. It hasb...
Panzner M, Beyer O, Cimiano P. Human Activity Classification with Online Growing Neural Gas. In: Wo...
Activity recognition has recently gained a lot of interest and there already exist several methods t...
There is an increasing need for personalised and context-aware services in our everyday lives and we...
Human activity recognition using wearable devices is an active area of research in pervasive computi...
Human activity recognition by using wearable sensors has gained tremendous interest in recent years ...
Applications for sensor-based human activity recognition use the latest algorithms for the detection...
Abstract This study presents incremental learning based methods to personalize human activity recog...
In this paper is presented a novel approach for human activity recognition (HAR) through complex dat...
Physical activity recognition based on sensors is a growing area of interest given the great advance...
The aim of activity recognition is to determine the physical action being performed by one or more u...
Activity Recognition has gained a lot of interest in recent years due to its potential and usefulnes...
This paper presents an unsupervised incremental learning approach for activity recognition. Activity...
Physical activity has a positive impact on people's well-being, and it may also decrease the occurre...
Data used in studies about physical activity is primarily collected from questionnaires and other su...
Wearable human activity recognition (HAR) is a widely application system for our daily life. It hasb...
Panzner M, Beyer O, Cimiano P. Human Activity Classification with Online Growing Neural Gas. In: Wo...