Improving assessment of daily energy expenditure by identifying types of physical activity with a single accelerometer.
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Estimation of daily energy expenditure in pregnant and non-pregnant women using a wrist-worn tri-axial accelerometerClinical Evaluation of the Measurement Performance of the Philips Health Watch: A Within-Person Comparative StudyPrediction of activity-related energy expenditure using accelerometer-derived physical activity under free-living conditions: a systematic review.Energy Expenditure in People with Diabetes Mellitus: A Review.Comparative evaluation of features and techniques for identifying activity type and estimating energy cost from accelerometer data.Energy expenditure estimation in beta-blocker-medicated cardiac patients by combining heart rate and body movement data.How consumer physical activity monitors could transform human physiology research.Accelerometer output and MET values of common physical activities.Evaluations of Actiheart, IDEEA® and RT3 monitors for estimating activity energy expenditure in free-living womenComparing metabolic energy expenditure estimation using wearable multi-sensor network and single accelerometer.Validity of physical activity monitors for assessing lower intensity activity in adultsWeight-loss induced changes in physical activity and activity energy expenditure in overweight and obese subjects before and after energy restriction.Validation and comparison of two methods to assess human energy expenditure during free-living activities.A random forest classifier for the prediction of energy expenditure and type of physical activity from wrist and hip accelerometers.Assessment of physical activity and energy expenditure: an overview of objective measures.Validation of five minimally obstructive methods to estimate physical activity energy expenditure in young adults in semi-standardized settingsValidation and Reliability of a Classification Method to Measure the Time Spent Performing Different Activities.Calibration and validation of wearable monitors.Posture and activity recognition and energy expenditure estimation in a wearable platform.Best practices for using physical activity monitors in population-based research.Ngram time series model to predict activity type and energy cost from wrist, hip and ankle accelerometers: implications of age.Impact of study design on development and evaluation of an activity-type classifierHip and Wrist Accelerometer Algorithms for Free-Living Behavior Classification.Walking as a Contributor to Physical Activity in Healthy Older Adults: 2 Week Longitudinal Study Using Accelerometry and the Doubly Labeled Water Method.A comparison of energy expenditure estimation of several physical activity monitors.Support vector machines classifiers of physical activities in preschoolers.Estimation of Energy Expenditure Using a Patch-Type Sensor Module with an Incremental Radial Basis Function Neural Network.Advances in physical activity monitoring and lifestyle interventions in obesity: a review.Childhood obesity and walking: guidelines and challenges.Computational methods for estimating energy expenditure in human physical activities.Practical physical activity measurement in youth: a review of contemporary approaches.Measurement of Physical Activity and Energy Expenditure in Wheelchair Users: Methods, Considerations and Future Directions.Smart approaches for assessing free-living energy expenditure following identification of types of physical activity.Neural network versus activity-specific prediction equations for energy expenditure estimation in children.To total amount of activity….. and beyond: perspectives on measuring physical behaviorOptimal placement of accelerometers for the detection of everyday activities.Assessment of human ambulatory speed by measuring near-body air flow.Physical Outdoor Activity versus Indoor Activity: Their Influence on Environmental BehaviorsAutomatic identification of physical activity types and sedentary behaviors from triaxial accelerometer: laboratory-based calibrations are not enough.Reliability and validity of the Iranian version of the QAPACE in adolescents.
P2860
Q28742008-21F1F51F-2F9A-48D2-9E00-61744A0A8C5CQ29248007-739BDB7B-3207-40E0-9C4A-D6D40D95FDE6Q30250355-179BE66F-16A4-42E9-858D-0F08D0CBEF8EQ30379554-3887A95D-7922-4A80-9092-E53B690BD7A2Q31044072-01610400-1EE2-4A05-A0EB-F3E3E565A6C5Q31130576-F67A7D0A-42BF-4D53-BCE9-4806DAD6BB88Q33452118-8E993541-F716-45B0-8891-B00EC8A9F5C3Q34077122-2CC81DC3-9665-427B-BE67-8405A7621E8EQ34127172-393E182D-F278-47B2-AA92-C6DE25753DADQ34169382-63328697-F4D2-4014-A237-EF5A775215A1Q34316481-EC001587-E27B-42A2-92B0-D8826ED907CCQ34651749-A830685D-040D-4F2C-A0EB-697B083DDD69Q35109149-7E4BFFCC-A696-4F7A-BBA2-B7FAE7C006A2Q35219153-BE7CC999-1ACE-4DF1-AA60-57CB0975B1F9Q35596507-42DF76C8-F0A5-48D3-A0DB-27D0327D1E1AQ35617835-EC98643F-52CA-4270-B862-F5D47F7A1E19Q35656001-F427E5BC-9B06-45BC-9205-1A5987CDA8A3Q35739453-F6B2BB21-8223-4CB0-92F4-57FF8D7BF55CQ35986207-65E6F73B-6A1A-40AA-B8F6-1BE220180B09Q36528635-692D452B-F387-42F5-9413-4E3CE68CEF74Q36682887-C1F3AEA2-3F99-4F57-9194-C2D66EBA5B6EQ36787411-0E3DC41B-ABFC-4BAE-8670-3DB1334018A0Q36803256-4AB6DBAE-5490-4992-A857-1445BCFF0917Q37027190-4DBBE9A1-13D6-4380-A109-EB1FD2571B7BQ37239416-EC6BCA34-BEC8-44F2-B22B-A113B913757AQ37319433-9F031A11-F60C-4B73-9ED2-7B2D31AE60D2Q37380519-2BEA334E-E533-4C5E-B1C2-CD2B948B1B10Q37876672-3F63BC71-9E17-4FED-AB07-F774B8C2649EQ37903842-617E40CB-494F-4CFD-9E38-070867E5C30FQ38012253-AFEDA3E9-940C-4B6E-A123-F396D0D73AEAQ38034064-8DD84C5E-804F-43CE-AF69-30E7D8830FC4Q38751630-90284408-AF26-4E24-BFC7-781228C5FA48Q39121556-0E8E1628-AB0C-4FC9-B612-E3AC33F4A60FQ39358883-5CE8E562-53D0-43A1-84EB-89CBC9F53ACFQ39378551-4AF1EC7B-B840-434C-B89A-439D133D68F0Q39381701-3147539B-1965-48F8-99E1-BDA89F6D9BEDQ39619466-CE99DC2B-4C0A-4096-8F8E-4AA48296BD64Q41338893-3E2CBD21-638E-4661-BB1F-E8019044B578Q41576174-3898D1D6-5293-4BCF-B62F-6BCB77628CEFQ44665606-C2B9E093-C5D9-4B76-AA8A-E3F0FA877726
P2860
Improving assessment of daily energy expenditure by identifying types of physical activity with a single accelerometer.
description
2009 nî lūn-bûn
@nan
2009年の論文
@ja
2009年学术文章
@wuu
2009年学术文章
@zh-cn
2009年学术文章
@zh-hans
2009年学术文章
@zh-my
2009年学术文章
@zh-sg
2009年學術文章
@yue
2009年學術文章
@zh
2009年學術文章
@zh-hant
name
Improving assessment of daily ...... y with a single accelerometer.
@en
Improving assessment of daily ...... y with a single accelerometer.
@nl
type
label
Improving assessment of daily ...... y with a single accelerometer.
@en
Improving assessment of daily ...... y with a single accelerometer.
@nl
prefLabel
Improving assessment of daily ...... y with a single accelerometer.
@en
Improving assessment of daily ...... y with a single accelerometer.
@nl
P2093
P2860
P1476
Improving assessment of daily ...... y with a single accelerometer.
@en
P2093
A G Bonomi
A H C Goris
K R Westerterp
P2860
P304
P356
10.1152/JAPPLPHYSIOL.00150.2009
P407
P577
2009-06-25T00:00:00Z