Conventional human activity recognition (HAR) relies on accelerometers to frequently sample human motion (acceleration). Unfortunately, power consumption of accelerometers becomes a bottleneck for realising pervasive self-powering HAR as the amount of power that can be practically harvested from the environment is very small. Instead of using accelerometer, this paper advocates the use of energy harvesting power signal as the source of HAR when motion (kinetic) energy is being harvested to power the device. The proposed use of harvested power for classifying human activities is motivated by the fact that different activities produce kinetic energy in a different way leaving their signatures in the harvested power signal. Using information t...
Inertial sensors are widely used in the field of human activity recognition (HAR), since this source...
Continuous Human Activity Recognition (HAR) is an important application of smart mobile/wearable sys...
Human Activity Recognition (HAR) is a key component in smart health in that it is valuable to solve ...
Kinetic energy harvesting (KEH) may help combat battery issues in wearable devices. While the primar...
Advances in energy harvesting hardware have created an opportunity to realise self-powered wearables...
Recent advancements in energy-harvesting hardware have created an opportunity for realizing batteryl...
In this paper, we propose a novel energy-efficient approach for mobile activity recognition system (...
© 2018 Dr. Weihao ChengHuman Activity Recognition (HAR) is a promising technology which enables arti...
Driven by growing real-world application 'such as healthcare challenges, accelerometry-based activit...
Human activity recognition aims to identify patterns in data generated through human activity. This ...
The high power consumption of inertial activity sensors limits the battery lifetime of today’s weara...
Sensor-based motion recognition integrates the emerging area of wearable sensors with novel machine ...
Human-activity recognition (HAR) and energy-expenditure (EE) estimation are major functions in the m...
Today's wearable Internet of Things (IoT) devices, which have numerous practical applications, suffe...
In evolution and ubiquitous computing systems, accelerometer-based human activity recognition has hu...
Inertial sensors are widely used in the field of human activity recognition (HAR), since this source...
Continuous Human Activity Recognition (HAR) is an important application of smart mobile/wearable sys...
Human Activity Recognition (HAR) is a key component in smart health in that it is valuable to solve ...
Kinetic energy harvesting (KEH) may help combat battery issues in wearable devices. While the primar...
Advances in energy harvesting hardware have created an opportunity to realise self-powered wearables...
Recent advancements in energy-harvesting hardware have created an opportunity for realizing batteryl...
In this paper, we propose a novel energy-efficient approach for mobile activity recognition system (...
© 2018 Dr. Weihao ChengHuman Activity Recognition (HAR) is a promising technology which enables arti...
Driven by growing real-world application 'such as healthcare challenges, accelerometry-based activit...
Human activity recognition aims to identify patterns in data generated through human activity. This ...
The high power consumption of inertial activity sensors limits the battery lifetime of today’s weara...
Sensor-based motion recognition integrates the emerging area of wearable sensors with novel machine ...
Human-activity recognition (HAR) and energy-expenditure (EE) estimation are major functions in the m...
Today's wearable Internet of Things (IoT) devices, which have numerous practical applications, suffe...
In evolution and ubiquitous computing systems, accelerometer-based human activity recognition has hu...
Inertial sensors are widely used in the field of human activity recognition (HAR), since this source...
Continuous Human Activity Recognition (HAR) is an important application of smart mobile/wearable sys...
Human Activity Recognition (HAR) is a key component in smart health in that it is valuable to solve ...