With the increasing popularity of consumer wearable devices augmented with sensing capabilities (smart bands, smart watches), there is a significant focus on extracting meaningful information about human behaviour through large scale real-world wearable sensor data. The focus of this work is to develop techniques to detect human activities, utilising a large dataset of wearable data where no ground truth has been produced on the actual activities performed. We propose a deep learning variational auto encoder activity recognition model - Motion2Vector. The model is trained using large amounts of unlabelled human activity data to learn a representation of a time period of activity data. The learned activity representations can be mapped into ...
Human activity recognition algorithms based on information obtained from wearable sensors are succes...
Human activity recognition algorithms based on information obtained from wearable sensors are succes...
Human activity recognition (HAR) by wearable sensor devices embedded in the Internet of things (IOT)...
This thesis investigates the use of wearable sensors to recognize human activity. The activity of th...
Humans engage in a wide range of simple and complex activities. Human Activity Recognition (HAR) is ...
With the ever-increasing number of ubiquitous and mobile devices, Human Activity Recognition (HAR) u...
Mobile and wearable devices have enabled numerous applications, including activity tracking, wellnes...
Human Activity Recognition provides valuable contextual information for wellbeing, healthcare, and s...
In this work we present A-Wristocracy, a novel framework for recognizing very fine-grained and compl...
Human activity recognition algorithms based on information obtained from wearable sensors are succes...
The rapid growing of the population age in industrialized societies calls for advanced tools to cont...
Sensor-based motion recognition integrates the emerging area of wearable sensors with novel machine ...
Human activity recognition (HAR) is an active area of research concerned with the classification of ...
Human activity recognition (HAR) is vital in a wide range of real-life applications such as health m...
This paper addresses the problem of classifying motion signals acquired via wearable sensors for the...
Human activity recognition algorithms based on information obtained from wearable sensors are succes...
Human activity recognition algorithms based on information obtained from wearable sensors are succes...
Human activity recognition (HAR) by wearable sensor devices embedded in the Internet of things (IOT)...
This thesis investigates the use of wearable sensors to recognize human activity. The activity of th...
Humans engage in a wide range of simple and complex activities. Human Activity Recognition (HAR) is ...
With the ever-increasing number of ubiquitous and mobile devices, Human Activity Recognition (HAR) u...
Mobile and wearable devices have enabled numerous applications, including activity tracking, wellnes...
Human Activity Recognition provides valuable contextual information for wellbeing, healthcare, and s...
In this work we present A-Wristocracy, a novel framework for recognizing very fine-grained and compl...
Human activity recognition algorithms based on information obtained from wearable sensors are succes...
The rapid growing of the population age in industrialized societies calls for advanced tools to cont...
Sensor-based motion recognition integrates the emerging area of wearable sensors with novel machine ...
Human activity recognition (HAR) is an active area of research concerned with the classification of ...
Human activity recognition (HAR) is vital in a wide range of real-life applications such as health m...
This paper addresses the problem of classifying motion signals acquired via wearable sensors for the...
Human activity recognition algorithms based on information obtained from wearable sensors are succes...
Human activity recognition algorithms based on information obtained from wearable sensors are succes...
Human activity recognition (HAR) by wearable sensor devices embedded in the Internet of things (IOT)...