| scholarly article | Q13442814 |
| P356 | DOI | 10.1016/J.AMEPRE.2009.12.032 |
| P8608 | Fatcat ID | release_6q7ckasrzjfttapwjhiiyobqry |
| P932 | PMC publication ID | 3568665 |
| P698 | PubMed publication ID | 20307812 |
| P5875 | ResearchGate publication ID | 42388840 |
| P50 | author | Charles Matthews | Q43167428 |
| P2093 | author name string | Ellen K Cromley | |
| Philip J Troped | |||
| Steven J Melly | |||
| Jeffrey S Wilson | |||
| P2860 | cites work | Physical activity in the United States measured by accelerometer | Q29614190 |
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| Community and public health approaches to the promotion of physical activity | Q40580499 | ||
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| Translating accelerometer counts into energy expenditure: advancing the quest | Q58618377 | ||
| Policy as intervention: environmental and policy approaches to the prevention of cardiovascular disease | Q64134843 | ||
| Environmental and policy approaches to cardiovascular disease prevention through physical activity: issues and opportunities | Q70870511 | ||
| Validity of the Computer Science and Applications, Inc. (CSA) activity monitor | Q72020540 | ||
| Environmental determinants of physical activity and sedentary behavior | Q73156118 | ||
| Development and Reliability and Validity Testing of an Audit Tool for Trail/Path Characteristics: The Path Environment Audit Tool (PEAT) | Q88836947 | ||
| P433 | issue | 4 | |
| P304 | page(s) | 429-438 | |
| P577 | publication date | 2010-04-01 | |
| P1433 | published in | American Journal of Preventive Medicine | Q4744265 |
| P1476 | title | The built environment and location-based physical activity | |
| P478 | volume | 38 |
| Q31121851 | "Spatial Energetics": Integrating Data From GPS, Accelerometry, and GIS to Address Obesity and Inactivity |
| Q34127402 | A study of community design, greenness, and physical activity in children using satellite, GPS and accelerometer data |
| Q53425369 | Accelerometer and GPS Analysis of Trail Use and Associations With Physical Activity. |
| Q92750767 | Accelerometer and GPS Data to Analyze Built Environments and Physical Activity |
| Q40307885 | Accounting for the daily locations visited in the study of the built environment correlates of recreational walking (the RECORD Cohort Study). |
| Q35575129 | Activity space environment and dietary and physical activity behaviors: a pilot study |
| Q28391438 | Adolescent health-risk behavior and community disorder |
| Q33916029 | Adolescent self-defined neighborhoods and activity spaces: spatial overlap and relations to physical activity and obesity |
| Q57262467 | An Analytical Framework for Integrating the Spatiotemporal Dynamics of Environmental Context and Individual Mobility in Exposure Assessment: A Study on the Relationship between Food Environment Exposures and Body Weight |
| Q35957081 | An assessment of the relevance of the home neighbourhood for understanding environmental influences on physical activity: how far from home do people roam? |
| Q38733062 | Are buffers around home representative of physical activity spaces among adults? |
| Q36341097 | Are neighbourhood social capital and availability of sports facilities related to sports participation among Dutch adolescents? |
| Q36920332 | Assessing Built Environment Walkability using Activity-Space Summary Measures. |
| Q36838182 | Association between physical activity and neighborhood environment among middle-aged adults in Shanghai |
| Q34273222 | Associations between observed neighborhood characteristics and physical activity: findings from a multiethnic urban community |
| Q61807262 | Associations between spatial access to physical activity facilities and frequency of physical activity; how do home and workplace neighbourhoods in West Central Scotland compare? |
| Q34366073 | Availability of exercise facilities and physical activity in 2,037 adults: cross-sectional results from the Swedish neighborhood and physical activity (SNAP) study |
| Q57240698 | Can walking habits be encouraged through area-based regeneration and relocation? A longitudinal study of deprived communities in Glasgow, UK |
| Q34300566 | Changes in the built environment and changes in the amount of walking over time: longitudinal results from the multi-ethnic study of atherosclerosis |
| Q33589188 | Characteristics of residential areas and transportational walking among frail and non-frail Dutch elderly: does the size of the area matter? |
| Q34234650 | Combining GPS, GIS, and accelerometry to explore the physical activity and environment relationship in children and young people - a review |
| Q33643518 | Comparing self-identified and census-defined neighborhoods among adolescents using GPS and accelerometer. |
| Q50672444 | Comparison of home and away-from-home physical activity using accelerometers and cellular network-based tracking devices. |
| Q92960062 | Critical Hours and Important Environments: Relationships between Afterschool Physical Activity and the Physical Environment Using GPS, GIS and Accelerometers in 10-12-Year-Old Children |
| Q39312074 | Daily Physical Activity Patterns During the Early Stage of Alzheimer's Disease |
| Q90158629 | Daily Walking among Commuters: A Cross-Sectional Study of Associations with Residential, Work, and Regional Accessibility in Melbourne, Australia (2012-2014) |
| Q92573620 | Design and methods of the Healthy Kids & Families study: a parent-focused community health worker-delivered childhood obesity prevention intervention |
| Q64898056 | Differences in Behavior, Time, Location, and Built Environment between Objectively Measured Utilitarian and Recreational Walking. |
| Q40373226 | Does being an Olympic city help improve recreational resources? Examining the quality of physical activity resources in a low-income neighborhood of Rio de Janeiro |
| Q37391283 | Does the social environment moderate associations of the built environment with Latinas' objectively-measured neighborhood outdoor physical activity? |
| Q64077505 | Evidence synthesis - Where are children and adults physically active and sedentary? - a rapid review of location-based studies |
| Q23917059 | Exercise among commercial truck drivers |
| Q28386369 | Feasibility of using global positioning systems (GPS) with diverse urban adults: before and after data on perceived acceptability, barriers, and ease of use |
| Q28388943 | Home and work neighbourhood environments in relation to body mass index: the Multi-Ethnic Study of Atherosclerosis (MESA) |
| Q28383024 | Home versus nonhome neighborhood: quantifying differences in exposure to the built environment |
| Q57262519 | How GIS can help address the uncertain geographic context problem in social science research |
| Q33704831 | How do they do it: working women meeting physical activity recommendations |
| Q35032773 | How far from home? The locations of physical activity in an urban U.S. setting |
| Q47998938 | Independent Effects of Neighborhood Poverty and Psychosocial Stress on Obesity Over Time |
| Q35636921 | Indoor Tracking to Understand Physical Activity and Sedentary Behaviour: Exploratory Study in UK Office Buildings |
| Q30788093 | Innovation through Wearable Sensors to Collect Real-Life Data among Pediatric Patients with Cardiometabolic Risk Factors |
| Q34083097 | Invited commentary: Taking advantage of time-varying neighborhood environments. |
| Q44541327 | Is access to workplace amenities associated with leisure-time physical activity among Canadian adults? |
| Q37324436 | Is level of neighbourhood green space associated with physical activity in green space? |
| Q31104375 | Is missing geographic positioning system data in accelerometry studies a problem, and is imputation the solution? |
| Q36581893 | Locations of joint physical activity in parent-child pairs based on accelerometer and GPS monitoring |
| Q28392780 | Long-Term Monitoring of Physical Behavior Reveals Different Cardiac Responses to Physical Activity among Subjects with and without Chronic Neck Pain |
| Q88513794 | Mapping the historical development of research in physical activity and health: Providing a platform for future research |
| Q51820527 | Mechanisms of Endothelial Protection by Natural Bioactive Compounds from Fruit and Vegetables. |
| Q39727342 | NEIGHBOURHOOD POVERTY, PERCEIVED DISCRIMINATION AND CENTRAL ADIPOSITY IN THE USA: INDEPENDENT ASSOCIATIONS IN A REPEATED MEASURES ANALYSIS. |
| Q49212723 | Neighborhood-based PA and its environmental correlates: a GIS- and GPS based cross-sectional study in the Netherlands. |
| Q35962687 | Neighbourhood Walkability and Daily Steps in Adults with Type 2 Diabetes |
| Q36128986 | Neighbourhood walkability and home neighbourhood-based physical activity: an observational study of adults with type 2 diabetes |
| Q36373867 | Neighbourhood walkability, daily steps and utilitarian walking in Canadian adults |
| Q35675106 | Out and about: association of the built environment with physical activity behaviors of adolescent females |
| Q57441707 | Park Use Among Youth and Adults |
| Q33698895 | Perceived built environment and physical activity in U.S. women by sprawl and region |
| Q53190890 | Quality of Public Open Spaces and Recreational Walking. |
| Q55233900 | Quantifying multi-dimensional attributes of human activities at various geographic scales based on smartphone tracking. |
| Q34293734 | Relationships between the built environment and walking and weight status among older women in three U.S. States |
| Q46449608 | Reliability between online raters with varying familiarities of a region: Microscale Audit of Pedestrian Streetscapes (MAPS). |
| Q58156094 | Replication of scientific research: addressing geoprivacy, confidentiality, and data sharing challenges in geospatial research |
| Q48379608 | Revolution/evolution of Active Living Research: perspectives from interdisciplinary grantees |
| Q37684470 | Spatial Polygamy and Contextual Exposures (SPACEs): Promoting Activity Space Approaches in Research on Place and Health. |
| Q61455194 | Spatial Video Health Risk Mapping in Informal Settlements: Correcting GPS Error |
| Q28069391 | Spatio-temporal determinants of mental health and well-being: advances in geographically-explicit ecological momentary assessment (GEMA) |
| Q36182235 | Talking the talk, walking the walk: examining the effect of neighbourhood walkability and social connectedness on physical activity |
| Q26798370 | Technologies That Assess the Location of Physical Activity and Sedentary Behavior: A Systematic Review |
| Q56929189 | The Built Environment and Actual Causes of Death |
| Q64248224 | The Health and economic effects of light rail lines: design, methods, and protocol for a natural experiment |
| Q57262512 | The Uncertain Geographic Context Problem |
| Q33658476 | The built environment predicts observed physical activity |
| Q37618843 | The environmental correlates of overall and neighborhood based recreational walking (a cross-sectional analysis of the RECORD Study). |
| Q29109899 | Travel patterns during pregnancy: comparison between Global Positioning System (GPS) tracking and questionnaire data |
| Q37197657 | Understanding the independent and joint associations of the home and workplace built environments on cardiorespiratory fitness and body mass index |
| Q34881084 | Urban built environment configuration and psychological distress in older men: results from the Caerphilly study. |
| Q28390703 | Use of global positioning systems to study physical activity and the environment: a systematic review |
| Q92882021 | Using Accelerometer and GPS Data for Real-Life Physical Activity Type Detection |
| Q36376741 | Using GPS technology to (re)-examine operational definitions of 'neighbourhood' in place-based health research |
| Q55196889 | Using Individual GPS Trajectories to Explore Foodscape Exposure: A Case Study in Beijing Metropolitan Area. |
| Q37579802 | Validation of a previous day recall for measuring the location and purpose of active and sedentary behaviors compared to direct observation |
| Q38762244 | Where Are Adults Active? An Examination of Physical Activity Locations Using GPS in Five US Cities |
| Q38667543 | Within What Distance Does "Greenness" Best Predict Physical Health? A Systematic Review of Articles with GIS Buffer Analyses across the Lifespan. |
| Q28393116 | Worksite neighborhood and obesogenic behaviors: findings among employees in the Promoting Activity and Changes in Eating (PACE) trial |
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