Validation of human activity recognition using a convolutional neural network on accelerometer and gyroscope data.
E. Hysenllari & J. Ottenbacher & D. McLennan (2022)
in: Springer.
Read more...Validation of wearables for electrodermal activity (EdaMove) and heart rate (Wahoo Tickr).
A. Borovac & I. Stuldreher & N. Thammasan et al. (2021)
in: Measuring Behavior 2020-21 (1).
Read more...Ambulatory sleep scoring using accelerometers—distinguishing between nonwear and sleep/wake states.
A. Barouni & J. Ottenbacher & J. Schneider et al. (2020)
in: PeerJ- Life & Environment (January 2nd).
Read more...Validating Accelerometers for the Assessment of Body Position and Sedentary Behavior.
M. Giurgiu & J.B.J. Bussmann & H. Hill et al. (2020)
in: Journal for the Measurement of Physical Behaviour (Volume 3: Issue 3).
Read more...Energy Expenditure During Incline Walking – Benefits of Integrating a Barometer into Activity Monitors.
M. Armbruster & P. Anastasopoulou & S. Altmann et al. (2018)
in: American Journal of Sports Science (6).
Read more...Electrodermal activity patterns in sleep stages and their utility for sleep versus wake classification.
Anne Herlan & Jörg Ottenbacher & Johannes Schneider et al. (2018)
in: Journal of sleep research (28).
Read more...Validation and comparison of two methods to assess human energy expenditure during free-living activities.
P. Anastasopoulou & M. Tubic & S. Schmidt et al. (2014)
in: PLOS (PLoS ONE 9(2): e90606).
Read more...Evaluation of environmental effects on the measurement of electrodermal activity under real-life conditions.
K. Dorothee & K. Schaaff & J. Ottenbacher et al. (2014) in: Biomedical Engineering / Biomedizinische Technik (59).
Using Support Vector Regression for Assessing Human Energy Expenditure Using a Triaxial Accelerometer and a Barometer.
Panagiota Anastasopoulou & Sascha Härtel & Mirnes Tubic et al. (2013) in: Wireless Mobile Communication and Healthcare.
A Comparison of Two Commercial Activity Monitors for Measuring Step Counts During Different Everyday Life Walking Activities.
P. Anastasopoulou & S. Härtel & S. Hey (2013)
in: International Journal of Sports Science and Engineering (Vol. 07 (2013) No. 01).
Read more...Classification of Human Physical Activity and Energy Expenditure Estimation by Accelerometry and Barometry.
P. Anastasopoulou & M. Tansella & J. Stumpp et al. (2012)
in: 34th Annual International Conference of the Engineering in Medicine and Biology Sciety, EMBC 2012, San Diego USA.
Read more...Assessment of Human Gait Speed and Energy Expenditure Using a Single Triaxial Accelerometer.
Panagiota Anstasopoulou & Shammas Layal & Stefan Hey (2012)
in: Wearable and Implantable Body Sensor Networks (BSN), 2012 Ninth International Conference on.
Read more...A new method to estimate energy expenditure using accelerometry and barometry-based energy models.
P Anastasopoulou & L. Shammas & J. Stumpp et al. (2011) in: 45. DGBMT Jahrestagung. Freiburg.
Validity of the kmsMove-sensor in calculating energy expenditure during different walking intensities.
B. von Haaren & J.-P. Gnam & S. Helmholdt et al. (2011).
Estimation of energy expenditure using accelerometers and activity-based energy models - validation of a new device.
S. Härtel & J. P Gnam & S. Löffler et al. (2011)
in: European Review of Aging and Physical Activity (Volume 8).
Read more...Interaktive psycho-physiologische Messverfahren zur Erfassung von Stress.
Stefan Hey & Jürgen Stumpp & Jörg Ottenbacher et al. (2011).
Energieumsatzmessung mit Aktivitätssensoren – Validität des kmsMove-Akzelerometers.
B. von Haaren & J.-P. Gnam & S. Härtel et al. (2011) in: Kinder bewegen - wissenschaftliche Energien bündeln.