How Do You Measure Distance in Spatial Models? An Example Using Open-Space Valuation

Sander, Heather A.; Ghosh, Debarchana; Riper, David Van; Manson, Steven M.

doi:10.1068/b35126

Cited by 47 publications

(34 citation statements)

References 44 publications

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“…Straight line and road network distances (in meters) were calculated for each of the nearest physical activity opportunities from the girl's home address. Only road network distance is presented in these analyses because it is the most feasible route most girls would travel to get from her home to the closest physical activity opportunity (Sander, Ghosh, van Riper, & Manson, 2010).…”

Section: Objective Proximity Of Neighborhood Physical Activitymentioning

confidence: 99%

Perception vs Reality: Is Perceived or Objective Proximity to Physical Activity Opportunities in the Environment More Associated With Recent Use Among Adolescent Girls?

Barr-Anderson¹,

Bauer²,

Hannan³

et al. 2014

Women in Sport and Physical Activity Journal

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Little is known about adolescent girls’ accuracy of perception of physical activity (PA) opportunities in their neighborhood. Furthermore, few studies have explored whether proximity to PA opportunities is associated with girls’ recent use. Participants included 356 high school girls enrolled in New Moves, a school-based physical activity intervention. Objective proximity to neighborhood PA opportunities was assessed using Geographic Information System (GIS) software. Girls self-reported their perceived proximity to resources and recent use of these opportunities. Girls’ perceived proximity of distance to a park, walking/biking trail, and recreational center was associated with recent use of these resources (P = .02, P < .001, P < .001, respectively), whereas associations were not found with objective measures of distance. Both perceived and objective proximity were associated with recent use of a private fitness facility (P = .006 and P = .002, respectively). Perceived proximity to neighborhood PA opportunities is associated with use of those resources among adolescent girls. Increasing awareness of neighborhood opportunities could be a viable method to increasing PA.

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Section: Objective Proximity Of Neighborhood Physical Activitymentioning

confidence: 99%

Perception vs Reality: Is Perceived or Objective Proximity to Physical Activity Opportunities in the Environment More Associated With Recent Use Among Adolescent Girls?

Barr-Anderson¹,

Bauer²,

Hannan³

et al. 2014

Women in Sport and Physical Activity Journal

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“…In the raster data model, the strict topology that governs real world travel along roads is replaced by predefined directional movement among cells. Thus, in routing applications, the raster data model has the potential to produce unexpected results [33,34]. Furthermore, travel time estimates may be either overestimated or underestimated depending upon the geometric complexity of the road network and the cell resolution.…”

Section: Introductionmentioning

confidence: 99%

Measuring geographic access to health care: raster and network-based methods

et al. 2012

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BackgroundInequalities in geographic access to health care result from the configuration of facilities, population distribution, and the transportation infrastructure. In recent accessibility studies, the traditional distance measure (Euclidean) has been replaced with more plausible measures such as travel distance or time. Both network and raster-based methods are often utilized for estimating travel time in a Geographic Information System. Therefore, exploring the differences in the underlying data models and associated methods and their impact on geographic accessibility estimates is warranted.MethodsWe examine the assumptions present in population-based travel time models. Conceptual and practical differences between raster and network data models are reviewed, along with methodological implications for service area estimates. Our case study investigates Limited Access Areas defined by Michigan’s Certificate of Need (CON) Program. Geographic accessibility is calculated by identifying the number of people residing more than 30 minutes from an acute care hospital. Both network and raster-based methods are implemented and their results are compared. We also examine sensitivity to changes in travel speed settings and population assignment.ResultsIn both methods, the areas identified as having limited accessibility were similar in their location, configuration, and shape. However, the number of people identified as having limited accessibility varied substantially between methods. Over all permutations, the raster-based method identified more area and people with limited accessibility. The raster-based method was more sensitive to travel speed settings, while the network-based method was more sensitive to the specific population assignment method employed in Michigan.ConclusionsDifferences between the underlying data models help to explain the variation in results between raster and network-based methods. Considering that the choice of data model/method may substantially alter the outcomes of a geographic accessibility analysis, we advise researchers to use caution in model selection. For policy, we recommend that Michigan adopt the network-based method or reevaluate the travel speed assignment rule in the raster-based method. Additionally, we recommend that the state revisit the population assignment method.

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“…Table 1 shows further descriptive statistics for the distances from a student's home to the closest bike-friendly network segment (DIS2PATH), closest distance along the network to the major bike path network along the river (DIS2GREEN), and the total distance from named intersection to the campus library (DIS2CAM). These measures are distinct from most of those in the reviewed literature, which uses a straight line, or categories of distances (Krizek & Johnson, 2006;Millward et al, 2013;Sander et al, 2010). Using a network gives the benefit of topographic and built environment barriers (i.e., near-by interstate or large river) being represented in this continuous measure.…”

Section: Results and Findingsmentioning

confidence: 99%

Cycling willingness: Investigating distance as a dependent variable in cycling behavior among college students

Wuerzer

Mason

2015

Applied Geography

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We present a novel approach to understanding distance as a barrier to cycling and its use as a dependent variable in multinomial logistic regression. In doing so, this study explores distances in relation to spatially and relevant human factors such as gender and propensity to cycle among college students. College students (N= 949) participated in a health survey and stated possible predictors of cycling based on their cycle usage and preferences in the previous 30 days. While utilizing GIS in a bicycle-friendly network, we created geo-statistical GISgroupings and performed multinomial logistic regression analysis. We examined college students to discover how their demographic and personal characteristics may mediate the deterrent properties of distance when considered as a dependent variable in cycling to a college campus. Age and propensity for cycling for transportation mediate the negative effect of distance on the likelihood of cycling. The findings also suggest that infrastructure improvements could lessen the impact of distance as a barrier to cycling and increase the likelihood of cycling for commuting.

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How Do You Measure Distance in Spatial Models? An Example Using Open-Space Valuation

Cited by 47 publications

References 44 publications

Perception vs Reality: Is Perceived or Objective Proximity to Physical Activity Opportunities in the Environment More Associated With Recent Use Among Adolescent Girls?

Perception vs Reality: Is Perceived or Objective Proximity to Physical Activity Opportunities in the Environment More Associated With Recent Use Among Adolescent Girls?

Measuring geographic access to health care: raster and network-based methods

Cycling willingness: Investigating distance as a dependent variable in cycling behavior among college students

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