Current methods to estimate energy expenditure are either infeasible for everyday use or associated with significant errors. Here the authors present a Wearable System using inertial measurement units worn on the shank and thigh that estimates metabolic energy expenditure in real-time during common steady-state and time-varying activities
Due to the limitations of traditional metabolic measuring systems and other devices used to measure ...
sensors represent promising tools for physical activity (PA) assessment, as each provides an estimat...
actions produced by the contraction of skeletal muscle that increase energy expenditure above basal ...
Abstract. This paper presents a method for estimation of human energy expenditure during normal dail...
This paper introduces an ambulatory energy expenditure technique using a single inertial sensor, and...
Consumers, clinicians, and researchers lack an easy-to-use, reliable and cost effi cient way to accu...
method for predicting energy expenditure (EE) using a footwear-based system with integrated accelero...
Body movements monitoring may allow preventing, diagnosing, and recovering several wrong attitudes t...
Current laboratory-based setups (optical marker cameras + force plates) for human motion measurement...
This dataset presents energetic and wearable physiological sensor data from ten healthy subjects per...
This paper presents a new method that integrates heart rate, respiration, and motion information obt...
In order to monitor their energy requirements, athletes may desire to assess energy expenditure (EE)...
Accurate estimation of Energy Expenditure (EE) in ambu-latory settings is a key element in determini...
Special thanks to the participants providing the data collectionBy combining embedded passive sensin...
Ph.D. University of Hawaii at Manoa 2014.Includes bibliographical references.Respiratory activity ca...
Due to the limitations of traditional metabolic measuring systems and other devices used to measure ...
sensors represent promising tools for physical activity (PA) assessment, as each provides an estimat...
actions produced by the contraction of skeletal muscle that increase energy expenditure above basal ...
Abstract. This paper presents a method for estimation of human energy expenditure during normal dail...
This paper introduces an ambulatory energy expenditure technique using a single inertial sensor, and...
Consumers, clinicians, and researchers lack an easy-to-use, reliable and cost effi cient way to accu...
method for predicting energy expenditure (EE) using a footwear-based system with integrated accelero...
Body movements monitoring may allow preventing, diagnosing, and recovering several wrong attitudes t...
Current laboratory-based setups (optical marker cameras + force plates) for human motion measurement...
This dataset presents energetic and wearable physiological sensor data from ten healthy subjects per...
This paper presents a new method that integrates heart rate, respiration, and motion information obt...
In order to monitor their energy requirements, athletes may desire to assess energy expenditure (EE)...
Accurate estimation of Energy Expenditure (EE) in ambu-latory settings is a key element in determini...
Special thanks to the participants providing the data collectionBy combining embedded passive sensin...
Ph.D. University of Hawaii at Manoa 2014.Includes bibliographical references.Respiratory activity ca...
Due to the limitations of traditional metabolic measuring systems and other devices used to measure ...
sensors represent promising tools for physical activity (PA) assessment, as each provides an estimat...
actions produced by the contraction of skeletal muscle that increase energy expenditure above basal ...