This thesis contributes an evaluation of state-of-the-art dataflow models of computation regarding their suitability for a model-based design and analysis of human activity recognition systems, in terms of expressiveness and analyzability, as well as model accuracy. Different aspects of state-of-the-art human activity recognition systems have been modeled and analyzed. Based on existing methods, novel analysis approaches have been developed to acquire extra-functional properties like processor utilization, data communication rates, and finally energy consumption of the system
© 2018 Dr. Weihao ChengHuman Activity Recognition (HAR) is a promising technology which enables arti...
Abstract Energy demand in typical home environments accounts for a significant fraction of the overa...
Human activity recognition is a technology that offers automatic recognition of what a person is doi...
The advances in MEMS technology development allow for small and thus unobtrusive designs of wearable...
Sensor-based human activity recognition (HAR) involves artificial intelligence methods to automatica...
Driven by growing real-world application 'such as healthcare challenges, accelerometry-based activit...
In this paper, we propose a novel energy-efficient approach for mobile activity recognition system (...
Today’s pervasive availability of computing devices enabled with wireless communication and location...
2013-07-02Ubiquitous computing envisions a world in which people can access computing resources anyw...
There is an increasing need for personalised and context-aware services in our everyday lives and we...
With the wide ranges of real-time event feed capturing devices, there has been significant progress ...
<p>The mission of the research presented in this thesis is to give computers the power to sense and ...
Human activity recognition is an important area of research in today’s complex world as it can be ap...
It is a significant technical and computational task to provide precise information regarding the ac...
This book consists of a number of chapters addressing different aspects of activity recognition, rou...
© 2018 Dr. Weihao ChengHuman Activity Recognition (HAR) is a promising technology which enables arti...
Abstract Energy demand in typical home environments accounts for a significant fraction of the overa...
Human activity recognition is a technology that offers automatic recognition of what a person is doi...
The advances in MEMS technology development allow for small and thus unobtrusive designs of wearable...
Sensor-based human activity recognition (HAR) involves artificial intelligence methods to automatica...
Driven by growing real-world application 'such as healthcare challenges, accelerometry-based activit...
In this paper, we propose a novel energy-efficient approach for mobile activity recognition system (...
Today’s pervasive availability of computing devices enabled with wireless communication and location...
2013-07-02Ubiquitous computing envisions a world in which people can access computing resources anyw...
There is an increasing need for personalised and context-aware services in our everyday lives and we...
With the wide ranges of real-time event feed capturing devices, there has been significant progress ...
<p>The mission of the research presented in this thesis is to give computers the power to sense and ...
Human activity recognition is an important area of research in today’s complex world as it can be ap...
It is a significant technical and computational task to provide precise information regarding the ac...
This book consists of a number of chapters addressing different aspects of activity recognition, rou...
© 2018 Dr. Weihao ChengHuman Activity Recognition (HAR) is a promising technology which enables arti...
Abstract Energy demand in typical home environments accounts for a significant fraction of the overa...
Human activity recognition is a technology that offers automatic recognition of what a person is doi...