We present LiveLabs, a mobile experimentation testbed that is cur-rently deployed across our university campus with further deploy-ments at a large shopping mall, a commercial airport, and a resort island soon to follow. The key goal of LiveLabs is to allow in-situ real-time experimentation of mobile applications and services that require context-specific triggers with real participants on their actual smart phones. We describe how LiveLabs works, and then explain the novel R&D required to realise it. We end with a de-scription of the current LiveLabs status (> 700 active participants to date) as well as present some key lessons learned. 1
The M-learning concept is a consequence of mobile technology evolution, i.e. the appearance of devic...
Many studies of ubiquitous computing systems involve deploying a system to a group of users who will...
Smart phones are equipped with a wide range of sensors (such as GPS, light, accelerometer, gyroscope...
We present LiveLabs, a mobile experimentation testbed that is cur-rently deployed across our univers...
www.phone-lab.org As smartphones have emerged as the most widely deployed mobile computing platform,...
Today, new ways of constructing and delivering complex wireless and mobile services require more e...
In this demonstration we present SmartLab1, an exciting experimental testbed of approximately 40+ re...
Concepts like E-learning and M-learning are changing the traditional learning place. No longer restr...
Human subject studies with mobile users are widely used to understand, and model, human aspects such...
This paper discusses potentials and challenges of living lab approach in studying pervasive mobile p...
Involving users has become a prerequisite these days in ITproduct and service development processes;...
ii Smartphones have emerged as the most significant large-scale mobile platform in computing history...
In this demonstration paper we present SmartLab, an architecture for managing a cluster of both Andr...
There has been increasing interest in deploying Internet of Things (IoT) devices to study human beha...
Abstract—In this paper we present a comprehensive architec-ture to carry out experimental repeatabil...
The M-learning concept is a consequence of mobile technology evolution, i.e. the appearance of devic...
Many studies of ubiquitous computing systems involve deploying a system to a group of users who will...
Smart phones are equipped with a wide range of sensors (such as GPS, light, accelerometer, gyroscope...
We present LiveLabs, a mobile experimentation testbed that is cur-rently deployed across our univers...
www.phone-lab.org As smartphones have emerged as the most widely deployed mobile computing platform,...
Today, new ways of constructing and delivering complex wireless and mobile services require more e...
In this demonstration we present SmartLab1, an exciting experimental testbed of approximately 40+ re...
Concepts like E-learning and M-learning are changing the traditional learning place. No longer restr...
Human subject studies with mobile users are widely used to understand, and model, human aspects such...
This paper discusses potentials and challenges of living lab approach in studying pervasive mobile p...
Involving users has become a prerequisite these days in ITproduct and service development processes;...
ii Smartphones have emerged as the most significant large-scale mobile platform in computing history...
In this demonstration paper we present SmartLab, an architecture for managing a cluster of both Andr...
There has been increasing interest in deploying Internet of Things (IoT) devices to study human beha...
Abstract—In this paper we present a comprehensive architec-ture to carry out experimental repeatabil...
The M-learning concept is a consequence of mobile technology evolution, i.e. the appearance of devic...
Many studies of ubiquitous computing systems involve deploying a system to a group of users who will...
Smart phones are equipped with a wide range of sensors (such as GPS, light, accelerometer, gyroscope...