POCI-01-0247-FEDER-033479With the fast increase in the demand for location-based services and the proliferation of smartphones, the topic of indoor localization is attracting great interest. In indoor environments, users’ performed activities carry useful semantic information. These activities can then be used by indoor localization systems to confirm users’ current relative locations in a building. In this paper, we propose a deep-learning model based on a Convolutional Long Short-Term Memory (ConvLSTM) network to classify human activities within the indoor localization scenario using smartphone inertial sensor data. Results show that the proposed human activity recognition (HAR) model accurately identifies nine types of activities: not mo...
Recognizing the activity performed by users is importantin many application domains, from e-h...
International audienceThis paper introduces our work in the framework of Track 3 of the IPIN 2016 In...
With the rapid development of location-based services (LBSs), efficient and mobile-friendly localiza...
With the fast increase in the demand for location-based services and the proliferation of smartphone...
The widespread use of mobile devices and the rise of Global Navigation Satellite Systems (GNSS) have...
Abstract. Geographic location of a person is important contextual information that can be used in a ...
As a result of the rapid development of smartphone-based indoor localization technology, location-ba...
Thanks to the pervasiveness of smart technologies, researchers could aggregate data and investigate ...
© 2018 Dr Fuqiang GuIndoor localization is important for a variety of applications such as location-...
Pedestrian dead reckoning (PDR), enabled by smartphones’ embedded inertial sensors, is widely applie...
Human Activity Recognition (HAR) is a key component in smart health in that it is valuable to solve ...
The widespread use of mobile devices and the rise of Global Navigation Satellite Systems (GNSS) have...
Human activity recognition aims to classify the user activity in various applications like healthcar...
Recently, modern smartphones equipped with a variety of embedded-sensors, such as accelerometers and...
This paper presents a method that uses common objects as landmarks for smartphone-based indoor local...
Recognizing the activity performed by users is importantin many application domains, from e-h...
International audienceThis paper introduces our work in the framework of Track 3 of the IPIN 2016 In...
With the rapid development of location-based services (LBSs), efficient and mobile-friendly localiza...
With the fast increase in the demand for location-based services and the proliferation of smartphone...
The widespread use of mobile devices and the rise of Global Navigation Satellite Systems (GNSS) have...
Abstract. Geographic location of a person is important contextual information that can be used in a ...
As a result of the rapid development of smartphone-based indoor localization technology, location-ba...
Thanks to the pervasiveness of smart technologies, researchers could aggregate data and investigate ...
© 2018 Dr Fuqiang GuIndoor localization is important for a variety of applications such as location-...
Pedestrian dead reckoning (PDR), enabled by smartphones’ embedded inertial sensors, is widely applie...
Human Activity Recognition (HAR) is a key component in smart health in that it is valuable to solve ...
The widespread use of mobile devices and the rise of Global Navigation Satellite Systems (GNSS) have...
Human activity recognition aims to classify the user activity in various applications like healthcar...
Recently, modern smartphones equipped with a variety of embedded-sensors, such as accelerometers and...
This paper presents a method that uses common objects as landmarks for smartphone-based indoor local...
Recognizing the activity performed by users is importantin many application domains, from e-h...
International audienceThis paper introduces our work in the framework of Track 3 of the IPIN 2016 In...
With the rapid development of location-based services (LBSs), efficient and mobile-friendly localiza...