<p>Modern sensing apps require continuous and intense computation on data streams. Unfortunately, mobile devices are failing to keep pace despite advances in hardware capability. In contrast to powerful system-on-chips that rapidly evolve, battery capacities merely grow. This hinders the potential of long-running, compute-intensive sensing services such as image/audio processing, motion tracking and health monitoring, especially on small, wearable devices. </p><p>In this thesis, we present three pieces of work that target at improving the energy efficiency for mobile sensing. (1) In the first work, we study heterogeneous mobile processors that dynamically switch between high-performance and low-power cores according to tasks' performance re...
Personal mobile devices have a strong impact in the daily life of their users, making part of their ...
UnrestrictedMobile device based urban sensing, participatory sensing, and user activity recognition ...
Modern smartphones are increasingly performant and feature-rich, but because they are battery powere...
Design for human-borne sensing faces a key challenge: to provide increasingly high-quality, day-by-d...
Mobile phones play a pivotal role in supporting ubiquitous and unobtrusive sensing of human activiti...
Recent research in ubiquitous and mobile computing uses mobile phones and wearable accelerometers to...
Recent research in ubiquitous and mobile computing uses mobile phones and wearable accelerometers to...
Recent evolutions in smartphones, today provided with several sensors, have the strong processing ca...
Recent advances in the development of wearable sensors and smartphones open up opportunities for ex...
The ever-increasing technological advances in embedded systems engineering, together with the prolif...
Even though wireless and mobile devices have evolved with richer capabilities, resources in such dev...
Abstract—Personal mobile devices have a strong impact in the daily life of their users, making part ...
Next-generation embedded devices are expected to pervasively extract information from the world arou...
The future of computing is in allowing our devices to see what we see: Continuous mobile vision. Wea...
Urban sensing, participatory sensing, and user activity recog-nition can provide rich contextual inf...
Personal mobile devices have a strong impact in the daily life of their users, making part of their ...
UnrestrictedMobile device based urban sensing, participatory sensing, and user activity recognition ...
Modern smartphones are increasingly performant and feature-rich, but because they are battery powere...
Design for human-borne sensing faces a key challenge: to provide increasingly high-quality, day-by-d...
Mobile phones play a pivotal role in supporting ubiquitous and unobtrusive sensing of human activiti...
Recent research in ubiquitous and mobile computing uses mobile phones and wearable accelerometers to...
Recent research in ubiquitous and mobile computing uses mobile phones and wearable accelerometers to...
Recent evolutions in smartphones, today provided with several sensors, have the strong processing ca...
Recent advances in the development of wearable sensors and smartphones open up opportunities for ex...
The ever-increasing technological advances in embedded systems engineering, together with the prolif...
Even though wireless and mobile devices have evolved with richer capabilities, resources in such dev...
Abstract—Personal mobile devices have a strong impact in the daily life of their users, making part ...
Next-generation embedded devices are expected to pervasively extract information from the world arou...
The future of computing is in allowing our devices to see what we see: Continuous mobile vision. Wea...
Urban sensing, participatory sensing, and user activity recog-nition can provide rich contextual inf...
Personal mobile devices have a strong impact in the daily life of their users, making part of their ...
UnrestrictedMobile device based urban sensing, participatory sensing, and user activity recognition ...
Modern smartphones are increasingly performant and feature-rich, but because they are battery powere...