Detection of walking periods and number of steps in older adults and patients with Parkinson's disease: accuracy of a pedometer and an accelerometry-based method.
about
Methods to improve reliability of video-recorded behavioral data.Validity of using tri-axial accelerometers to measure human movement - Part II: Step counts at a wide range of gait velocities.Gait Is Associated with Cognitive Flexibility: A Dual-Tasking Study in Healthy Older People.Sharp turning and corner turning: comparison of energy expenditure, gait parameters, and level of fatigue among community-dwelling elderly.Monitoring functional capability of individuals with lower limb amputations using mobile phonesStep detection and activity recognition accuracy of seven physical activity monitors.Physical Activity in Hemodialysis Patients Measured by Triaxial AccelerometerAlpha oscillations in the pedunculopontine nucleus correlate with gait performance in parkinsonismThe Instrumented Sit-to-Stand Test (iSTS) Has Greater Clinical Relevance than the Manually Recorded Sit-to-Stand Test in Older Adults.An Automated Recording Method in Clinical Consultation to Rate the Limp in Lower Limb OsteoarthritisAssessment of dual tasking has no clinical value for fall prediction in Parkinson’s diseaseSit-stand and stand-sit transitions in older adults and patients with Parkinson's disease: event detection based on motion sensors versus force plates.Step detection using multi- versus single tri-axial accelerometer-based systemsComparison between Mother, ActiGraph wGT3X-BT, and a hand tally for measuring steps at various walking speeds under controlled conditions.Quantitative wearable sensors for objective assessment of Parkinson's disease.Wearable inertial sensors for human movement analysis.Gait characteristics and their discriminative power in geriatric patients with and without cognitive impairment.The reliability and validity of a research-grade pedometer for children and adolescents with cerebral palsy.Prediction of sustained harmonic walking in the free-living environment using raw accelerometry data.Home-Based Physical Behavior in Late Stage Parkinson Disease Dementia: Differences between Cognitive Subtypes.Variables influencing wearable sensor outcome estimates in individuals with stroke and incomplete spinal cord injury: a pilot investigation validating two research grade sensors.Counting Steps in Activities of Daily Living in People With a Chronic Disease Using Nine Commercially Available Fitness Trackers: Cross-Sectional Validity Study.Accuracy of the Yamax CW-701 Pedometer for measuring steps in controlled and free-living conditions.Free-living and laboratory gait characteristics in patients with multiple sclerosis.Integrated Wearable System for Monitoring Heart Rate and Step during Physical Activity
P2860
Q33444012-083373BB-F080-4FB7-9E79-58194C9CB6BDQ33647791-11A3EA80-8E39-435C-8FAB-B77ACB350FD2Q33720546-3921DA49-2FF2-4EE6-979D-29A7EF4C823FQ33757808-0D95BC3E-81DE-40AF-8B77-328145E769ECQ34764278-9657D609-FAF3-4757-AE8B-A2D5C07CE0CFQ35195753-F3728418-ADDB-4C58-A0D1-A65134448603Q35690707-6BF734C7-22AF-4FAC-A755-54640AC9D2F1Q35706455-13C00A12-EA22-4D12-96FE-633513503C59Q36070942-FA9890D4-CC40-473F-A504-E4C475BFA8F3Q36173167-5AC21D56-4C71-47E5-9A5B-F7BC2874F044Q36205357-AB0A3CBA-CEB6-49B7-87FD-2E4AA1233744Q36535991-1D9D4987-4FDB-4394-ADB2-5776B699B13EQ36818373-9F4B83C7-5846-4364-8F63-432F732931F6Q37531350-3CB5D85E-F0D6-4701-B195-6B6A75DC0955Q38137018-A01892FA-B298-4521-ADB4-5A02EB9B920DQ38866895-BF5D32C9-6D5E-48CC-9136-D38B25A3BF80Q41413572-76B8201E-06BC-44EC-979A-06E20FE45A89Q46787447-0E1081DC-BABC-402F-8E7C-10F87A5DF2DBQ47560370-D1EA5B41-3AEA-45E4-858D-5DF14DDAA147Q50702194-B974D1CE-1DBE-436C-BD93-E562D68DB66EQ55008662-D3A8F0F9-06DD-47B3-AE6D-05386E6ACEBEQ55032446-89017214-4B53-4E23-98AA-245E2D8019DBQ55260700-FA1CFBF2-78A4-47DA-8749-5AB44FED4EB4Q55281924-86874E9A-C3F8-45DC-8B41-36F3AD1D8062Q59130370-70755861-264D-4429-80BA-0FFDB9749445
P2860
Detection of walking periods and number of steps in older adults and patients with Parkinson's disease: accuracy of a pedometer and an accelerometry-based method.
description
2008 nî lūn-bûn
@nan
2008年の論文
@ja
2008年学术文章
@wuu
2008年学术文章
@zh
2008年学术文章
@zh-cn
2008年学术文章
@zh-hans
2008年学术文章
@zh-my
2008年学术文章
@zh-sg
2008年學術文章
@yue
2008年學術文章
@zh-hant
name
Detection of walking periods a ...... an accelerometry-based method.
@en
Detection of walking periods a ...... an accelerometry-based method.
@nl
type
label
Detection of walking periods a ...... an accelerometry-based method.
@en
Detection of walking periods a ...... an accelerometry-based method.
@nl
prefLabel
Detection of walking periods a ...... an accelerometry-based method.
@en
Detection of walking periods a ...... an accelerometry-based method.
@nl
P2093
P2860
P921
P356
P1433
P1476
Detection of walking periods a ...... an accelerometry-based method.
@en
P2093
Baukje Dijkstra
Erik Scherder
Wiebren Zijlstra
Yvo Kamsma
P2860
P304
P356
10.1093/AGEING/AFN097
P577
2008-05-16T00:00:00Z