Grant Details
| Grant Number: | 5U01CA130783-04 Interpret this number |
| Primary Investigator: | Freedson, Patty |
| Organization: | University Of Massachusetts Amherst |
| Project Title: | Development of an Integrated Measurement System to Assess Physical Activity |
| Fiscal Year: | 2010 |
Abstract
DESCRIPTION (provided by applicant): We are proposing to advance objective assessment methodology through development of an integrated measurement system to evaluate free-living physical activity (PA). The overall goal of this proposal is to develop and test new and innovative sensor technology to assess PA in the field over long periods of time with minimal subject burden and at relatively low cost. In addition to an accelerometer, which is commonly used in PA assessment research to measure body motion, we are proposing to use sensors that capture characteristics of breathing and the environmental context. Inclusion of these additional sensors ensures that the measurement system will objectively quantify GEI-relevant features (e.g. exposure to environmental contaminants, indoor vs. outdoor activity) and increase the precision and validity of estimates of PA mode and the associated energy expenditure. A rigorous process of design optimization will be employed so that the final integrated measurement system (IMS) will be appropriate for use in large-scale epidemiological studies at a reasonable cost and with minimal subject burden. The specific aims are: 1) To design and develop a miniature self-contained IMS to assess physical activity. The device will include an accelerometer sensor, a ventilation sensor, and an environmental context sensor, which will determine if the activity takes place indoors or outdoors; 2) To calibrate the IMS during different types and intensities of indoor and outdoor physical activity; 3) To develop statistical data processing methods that will combine the information from the three streams of data (acceleration, ventilation and setting) to estimate physical activity mode and energy expenditure; 4) To validate the modeled estimates of physical activity mode and energy expenditure developed in Aim 3. We have assembled a multi-disciplinary team representing the fields of exercise physiology, electrical engineering, signal processing, mechanotronics, and statistics which provides us with the broad expertise needed to successfully carry out this project. These areas include expertise in sensor design and fabrication (electrical engineering, mechanotronics, signal processing), validation and calibration of the sensors during light, moderate and vigorous activity (exercise physiology) and development of appropriate statistical models to evaluate the performance of the various sensors and to develop and test activity pattern recognition systems. A field-deployable system will be complete at the end of Year 4.
Publications
Pruning Growing Self-Organizing Map Network for Human Physical Activity Identification.
Authors: Mo L. , Yu H. , Hua W. .
Source: Journal Of Healthcare Engineering, 2022; 2022, p. 9972406.
EPub date: 2022-01-03 00:00:00.0.
PMID: 35028128
Related Citations
Cross-validation of waist-worn GENEA accelerometer cut-points.
Authors: Welch W.A. , Bassett D.R. , Freedson P.S. , John D. , Steeves J.A. , Conger S.A. , Ceaser T.G. , Howe C.A. , Sasaki J.E. .
Source: Medicine And Science In Sports And Exercise, 2014 Sep; 46(9), p. 1825-30.
PMID: 24496118
Related Citations
Comparison of raw acceleration from the GENEA and ActiGraph¿ GT3X+ activity monitors.
Authors: John D. , Sasaki J. , Staudenmayer J. , Mavilia M. , Freedson P.S. .
Source: Sensors (basel, Switzerland), 2013-10-30 00:00:00.0; 13(11), p. 14754-63.
EPub date: 2013-10-30 00:00:00.0.
PMID: 24177727
Related Citations
Classification accuracy of the wrist-worn gravity estimator of normal everyday activity accelerometer.
Authors: Welch W.A. , Bassett D.R. , Thompson D.L. , Freedson P.S. , Staudenmayer J.W. , John D. , Steeves J.A. , Conger S.A. , Ceaser T. , Howe C.A. , et al. .
Source: Medicine And Science In Sports And Exercise, 2013 Oct; 45(10), p. 2012-9.
PMID: 23584403
Related Citations
Simple to complex modeling of breathing volume using a motion sensor.
Authors: John D. , Staudenmayer J. , Freedson P. .
Source: The Science Of The Total Environment, 2013-06-01 00:00:00.0; 454-455, p. 184-8.
EPub date: 2013-06-01 00:00:00.0.
PMID: 23542491
Related Citations
Tissue artifact removal from respiratory signals based on empirical mode decomposition.
Authors: Liu S. , Gao R.X. , John D. , Staudenmayer J. , Freedson P. .
Source: Annals Of Biomedical Engineering, 2013 May; 41(5), p. 1003-15.
PMID: 23325303
Related Citations
Computational methods for estimating energy expenditure in human physical activities.
Authors: Liu S. , Gao R.X. , Freedson P.S. .
Source: Medicine And Science In Sports And Exercise, 2012 Nov; 44(11), p. 2138-46.
PMID: 22617402
Related Citations
Wireless design of a multisensor system for physical activity monitoring.
Authors: Mo L. , Liu S. , Gao R.X. , John D. , Staudenmayer J.W. , Freedson P.S. .
Source: Ieee Transactions On Bio-medical Engineering, 2012 Nov; 59(11), p. 3230-7.
PMID: 23086196
Related Citations
Multisensor data fusion for physical activity assessment.
Authors: Liu S. , Gao R.X. , John D. , Staudenmayer J.W. , Freedson P.S. .
Source: Ieee Transactions On Bio-medical Engineering, 2012 Mar; 59(3), p. 687-96.
PMID: 22156943
Related Citations
Biomechanical examination of the 'plateau phenomenon' in ActiGraph vertical activity counts.
Authors: John D. , Miller R. , Kozey-Keadle S. , Caldwell G. , Freedson P. .
Source: Physiological Measurement, 2012 Feb; 33(2), p. 219-30.
PMID: 22260902
Related Citations
Assessment of physical activity using wearable monitors: recommendations for monitor calibration and use in the field.
Authors: Freedson P. , Bowles H.R. , Troiano R. , Haskell W. .
Source: Medicine And Science In Sports And Exercise, 2012 Jan; 44(1 Suppl 1), p. S1-4.
PMID: 22157769
Related Citations
Statistical considerations in the analysis of accelerometry-based activity monitor data.
Authors: Staudenmayer J. , Zhu W. , Catellier D.J. .
Source: Medicine And Science In Sports And Exercise, 2012 Jan; 44(1 Suppl 1), p. S61-7.
PMID: 22157776
Related Citations
ActiGraph and Actical physical activity monitors: a peek under the hood.
Authors: John D. , Freedson P. .
Source: Medicine And Science In Sports And Exercise, 2012 Jan; 44(1 Suppl 1), p. S86-9.
PMID: 22157779
Related Citations
Improved regression models for ventilation estimation based on chest and abdomen movements.
Authors: Liu S. , Gao R. , He Q. , Staudenmayer J. , Freedson P. .
Source: Physiological Measurement, 2012 Jan; 33(1), p. 79-93.
PMID: 22173273
Related Citations
Calibrating a novel multi-sensor physical activity measurement system.
Authors: John D. , Liu S. , Sasaki J.E. , Howe C.A. , Staudenmayer J. , Gao R.X. , Freedson P.S. .
Source: Physiological Measurement, 2011 Sep; 32(9), p. 1473-89.
PMID: 21813941
Related Citations
ZigBee-based wireless multi-sensor system for physical activity assessment.
Authors: Mo L. , Liu S. , Gao R.X. , John D. , Staudenmayer J. , Freedson P. .
Source: Conference Proceedings : ... Annual International Conference Of The Ieee Engineering In Medicine And Biology Society. Ieee Engineering In Medicine And Biology Society. Annual Conference, 2011; 2011, p. 846-9.
PMID: 22254443
Related Citations
SVM-based multi-sensor fusion for free-living physical activity assessment.
Authors: Liu S. , Gao R.X. , John D. , Staudenmayer J. , Freedson P.S. .
Source: Conference Proceedings : ... Annual International Conference Of The Ieee Engineering In Medicine And Biology Society. Ieee Engineering In Medicine And Biology Society. Annual Conference, 2011; 2011, p. 3188-91.
PMID: 22255017
Related Citations
Development of statistical regression models for ventilation estimation.
Authors: Liu S. , Gao R.X. , He Q. , Staudenmayer J. , Freedson P. .
Source: Conference Proceedings : ... Annual International Conference Of The Ieee Engineering In Medicine And Biology Society. Ieee Engineering In Medicine And Biology Society. Annual Conference, 2009; 2009, p. 1266-9.
PMID: 19964511
Related Citations
Midpoint-based empirical decomposition for nonlinear trend estimation.
Authors: He Q. , Gao R.X. , Freedson P. .
Source: Conference Proceedings : ... Annual International Conference Of The Ieee Engineering In Medicine And Biology Society. Ieee Engineering In Medicine And Biology Society. Annual Conference, 2009; 2009, p. 2228-31.
PMID: 19965153
Related Citations
Empirical mode decomposition applied to tissue artifact removal from respiratory signal.
Authors: Liu S. , He Q. , Gao R.X. , Freedson P. .
Source: Conference Proceedings : ... Annual International Conference Of The Ieee Engineering In Medicine And Biology Society. Ieee Engineering In Medicine And Biology Society. Annual Conference, 2008; 2008, p. 3624-7.
PMID: 19163494
Related Citations