Healthy transportation - healthy communities: developing objective measures of built-environment using GIS and testing significance of pedestrian variables on walking to transit

Maghelal, Praveen Kumar

15 May 2009

Walking to transit stations is proposed as one of the strategies to increase the use of transit. Urban planners, transportation planners, environmentalists, and health professionals encourage and support environmental interventions that can reduce the use of cars for all kinds of trips and use alternative modes of travel such as walking, biking, and mass-transit. This study investigates the influence of the built-environment on walking to transit stations. Transit-oriented communities at quarter and half-mile distances from the Dallas Area Rapid Transit (DART) station in Dallas, Texas, were analyzed to identify the relation of various constructs of built-environment on walking to the DART stations. Twenty-one pedestrian indices were reviewed to develop a comprehensive list of 73 built-environment variables used to measure the suitability to walk. This study aims to objectively measure built-environment using spatial data. Based on this criterion the total number of variables was narrowed to 32. Walking to transit, calculated as a percentage of transit users who walk to the DART LRT stations, was used as the dependent variable. The number of stations in operation and used for analysis in this study is 20(n). Therefore, bootstrapping was used to perform the statistical analysis for this study. The final pattern of variable grouping for the quarter-mile and the half-mile analysis revealed four principal components: Vehicle-Oriented Design, Density, Diversity, and Walking-Oriented Design. Bootstrap regression revealed that density ( = -0.767) was the only principal component that significantly (p<0.05) explained walking to transit station at quarter-mile distance from the station. At half-mile distance built-environment variables did not report any significant relation to walking to transit. The present study revealed that mere increase of density should not be taken as a proxy of increase in walking. Environmental interventions that can promote walking should be identified even at locations with high density. Further studies should use advanced statistical techniques such as Hierarchical Linear Modeling or Structural Equation Modeling to test the relationship of both the principal components and the individual variables that define the principal component to clearly understand the relationship of built-environment with walking to transit station.

Pedestrian

walkability

transit-oriented development

non-motorized transportation

Healthy transportation - healthy communities: developing objective measures of built-environment using GIS and testing significance of pedestrian variables on walking to transit

Maghelal, Praveen Kumar

15 May 2009

Walking to transit stations is proposed as one of the strategies to increase the use of transit. Urban planners, transportation planners, environmentalists, and health professionals encourage and support environmental interventions that can reduce the use of cars for all kinds of trips and use alternative modes of travel such as walking, biking, and mass-transit. This study investigates the influence of the built-environment on walking to transit stations. Transit-oriented communities at quarter and half-mile distances from the Dallas Area Rapid Transit (DART) station in Dallas, Texas, were analyzed to identify the relation of various constructs of built-environment on walking to the DART stations. Twenty-one pedestrian indices were reviewed to develop a comprehensive list of 73 built-environment variables used to measure the suitability to walk. This study aims to objectively measure built-environment using spatial data. Based on this criterion the total number of variables was narrowed to 32. Walking to transit, calculated as a percentage of transit users who walk to the DART LRT stations, was used as the dependent variable. The number of stations in operation and used for analysis in this study is 20(n). Therefore, bootstrapping was used to perform the statistical analysis for this study. The final pattern of variable grouping for the quarter-mile and the half-mile analysis revealed four principal components: Vehicle-Oriented Design, Density, Diversity, and Walking-Oriented Design. Bootstrap regression revealed that density ( = -0.767) was the only principal component that significantly (p<0.05) explained walking to transit station at quarter-mile distance from the station. At half-mile distance built-environment variables did not report any significant relation to walking to transit. The present study revealed that mere increase of density should not be taken as a proxy of increase in walking. Environmental interventions that can promote walking should be identified even at locations with high density. Further studies should use advanced statistical techniques such as Hierarchical Linear Modeling or Structural Equation Modeling to test the relationship of both the principal components and the individual variables that define the principal component to clearly understand the relationship of built-environment with walking to transit station.

Pedestrian

walkability

transit-oriented development

non-motorized transportation

Measuring the Sustainability of U.S. Public Bicycle Systems

Williamson, Max W

15 December 2012

As cities worldwide plan for increasing urbanization levels, new challenges in mobility will arise. Any approach taken to address these new issues will need to consider how to move more people with declining resources, thus the need for a sustainable solution arises. This thesis examines the growing trend of cities creating public bicycle systems as a means to add sustainability to a transportation system and identifies what are the criteria and indicators of a sustainable public bicycle. The criteria and indicators are used to examine data collection techniques of three Public Bicycle Systems in the United States: Capital Bikeshare in Washington, D.C., Nice Ride in Minneapolis, Minnesota and Denver B-Cycle in Denver, Colorado.

Public Bicycles

Bike Share

Sustainability

Urban Transportation

Non-Motorized Transportation

Urban, Community and Regional Planning

Understanding Land Use Grain: An Evaluation of Meaning and Measurement

Williams, Benjamin N

02 August 2012

Land use grain is a commonly-used measure of the mixture of land uses in the urban environment in transportation planning and public health, but there is no standard measurement practice in place. This thesis examines the meaning and common measurements of land use grain in these subfields. The entropy-based equation, the jobs-to-housing ratio, and the Herfindahl-Hirschman Index (HHI) are among the most common measures of land use grain, but results from these metrics differ depending upon how researchers choose a sample area and upon how land use categories are defined. All three metrics are performed, in a single context with varying assumptions, using the neighborhoods of Roxbury and Dorchester in Boston, MA. The entropy-based equation was deemed the most appropriate measure in a general context, with the HHI and the jobs-to-housing ratio potentially appropriate in specific contexts.

active transportation

buffer

entropy

land use mix

non-motorized transportation

transportation demand

Urban, Community and Regional Planning

Regional–local coordination of non-motorized transportation : an exploration of two regions

Dohm, Diane Annette

13 July 2011

This research report explores two regions, Denver and Minneapolis, by describing and analyzing their regional and local coordination efforts with respect to non-motorized transportation. The report is comprised of a literature review on the MPO institutional framework and governance, description and analysis of each region including levels of relationships between the MPO, State DOT, local governments and advocacy groups, as well as a comparison of both regions leading to the findings, lessons learned, and research implications. Specifically, this research seeks to understand how different levels of government work together, how the regional relationships assist in creating and implementing plans, how relationships with advocacy groups affect planning, and how climate change goals are integrated into non-motorized transportation planning. / text

Non-motorized transportation

Climate change

Climatic change

Bicycles

Pedestrians

United States

Denver

Minneapolis

Active transportation prediction using Theory of Planned Behavior among college students

Chaney, Robert A.

January 2012

No description available.

Health Education

Active transportation

biking

walking

theory of planned behavior

physical activity

non-motorized transportation

Non Motorized Transport Planning for an Indian City

Rahul, T M

January 2015

Indian cities are currently facing various transportation issues like congestion, pollution, urban inequity, high fatality rate due to accidents etc. because of an increase in the ownership of private motor vehicles and their usage. This has prompted many policy makers to search for alternate modal options that are more sustainable than motorized modes. Non Motorized Transport (NMT), which includes mainly walking and cycling in an urban context, do not produce many of the issues associated with motorized modes like congestion, pollution, fatal accidents etc. But, promotion of NMT requires a clear-cut planning strategy, with a lucid understanding of various strategies and their effect on the NMT usage. Present study tries to answer certain pertinent questions, particularly with respect to walking and cycling, which can arise while preparing a plan for promoting NMT in Indian cities. The following are the questions that the author seeks to answer in the present study. 1) Which are the areas inside a city that a planner shall target for promotion of NMT?2) Where shall a planner locate the infrastructures for NMT in these areas?3) What may be the possible impacts of providing these NMT facilities?4) What may be the possible effect of built environment factors on the choice of NMT? Providing NMT infrastructures requires knowledge of location characteristics such as the trip distance of NMT. Present study tries to elicit the existing distance characteristics of walking and cycling in terms of an acceptable trip distance. The household travel data of Bangalore city, for the year 2009, are used in the study. First, a description and a statistical analysis of the walking and cycling trip distances across the subcategories of socio-demographic and regional factors is done. Secondly, the acceptable distance is computed from the cumulative trip length distribution based on the results of the statistical analysis. The socio-demographic and regional factors used in the study include purpose, age, gender, educational level, occupational status, and motor vehicle ownership. The major results include a significant difference between the mean trip distances on foot for the subcategories of variables such as gender (z value, 4.94), whether the respondent owned a private vehicle (z value, -21.2), and whether the trip was made inside the Central Business District (CBD) (z value, -3.93). One of the major implications of this study pertains to requirement of a footpath around main activity centers like bus stations, at least up to a distance of 1385 meters (maximum value for walking as the main mode) and around the bus stops, at least up to a distance of 750 meters (maximum value for walking as the access mode). Next, the present study analyzes the influence of built environment factors –density and diversity -on the mode choice and trip distance of the residents in the Bangalore city. The built environment factors are analyzed, for their marginal effects in the presence of various socio-demographic and alternative attributes, for the two segments -respondents owning at least a personal vehicle and respondents not owning any personal vehicle. The density used is the total density, which was the sum of population density in a zone and employment density in a zone. The diversity index, which was an explainer of the land-use mixture, was set such that, when a zone with small area had employment opportunities comparable with its population, the diversity index would be high. When tested on a holdout sample other than the ones used in the estimation of the mode choice model, for the vehicle-owning group, the model estimated produced a validation accuracy of 93% and 91% respectively for two-wheelers and walking. For the vehicle non-owning group, the prediction success rate was highest for walking (97%), and lowest for public transit (84%). For the vehicle non-owning group, an increase in the density increased the trip distance (parameter values of 0.016 for total density at origin and 0.002 for total density at destination) and decreased the NMT usage (parameter values of -0.036 and 0.038 respectively for cycling and walking for total density at origin, and -0.092 and 0.073 respectively for cycling and walking for total density at destination), but for the vehicle-owning group, the inverse was true. The results for the vehicle non-owning group highlighted the requirement of a policy framework to control the employment and housing location of them in order to reduce their trip distance. In the mode choice model for the personal vehicle-owning group, the similarity between the parameters of the built environment factors across the two-wheeler and NMT reflected the need for adopting policies that would change the attitude of people towards NMT. Also, the trip distance model determined that females preferred a shorter working distance, with a parameter value -0.109 for the vehicle-owning group and -0.04 for the vehicle non-owning group, when compared with males. Lastly, the study develops a methodological framework to determine the sustainability impact on providing NMT infrastructures using a Composite Sustainability Index (CSI). More specifically, the study develops a methodological framework to determine the variation in the CSI on providing NMT -walking and cycling – infrastructure. The methodology establishes a link between the proposed NMT infrastructures and the CSI using two explanatory indicators: 1) number of motorized vehicles and 2) vehicle-kilometers travelled by the motorized modes. The main components of the framework include the estimation of a mode choice model for a study area, calculation of the explanatory indicators for the scenarios before and after providing NMT infrastructures, and determination of the sustainability impact. The proposed framework, along with the acceptable distance determined in the earlier step, is then used to determine the sustainability impact on providing NMT facilities, for a future scenario, inside the CBD of Bangalore and around the bus stops carrying trips to the CBD. Three case studies are presented with the first one considering only intra zonal (CBD) trips, the second one considering only inter zonal trips having CBD as destination, and the third one considering both above mentioned the trips. The results of all the three case studies found an increase in the CSI (0.002 for the first case study, 0.076 for the second case study, and 0.100 for the third case study) for the peak-hour trips inside the CBD, on providing NMT infrastructures. This increase showed an improvement in the sustainability. Further, for the case study 1, which consisted of high percentage of short distance trips, the major beneficiaries of the NMT infrastructures were the low-income group. There was a reduction in public transport trips, of which the main contributors were the low-income group, from 142706.2 to 96410.2.

Non Motorized Transportation

Urban Transportation

Non Motorozed Transport Planning-India

Walking

Cycling

Pedestrian and Bicycle Planning

Non Motorized Tranportation-Bangalore

NMT India

Non-motorized Transportation

Walking and Cycling

Pedestrian Travel Behaviour

Pedestrian Travel Behavior

Non-Motorized Transport

Transportation Policies

Transportation Policy

Civil Engineering

Transporte não motorizado: o uso da bicicleta e seu potencial no entorno da Universidade Federal do Amazonas- UFAM

Neri, Helen Carmem Ferreira Rebouças

21 November 2014

Made available in DSpace on 2015-04-01T11:58:45Z (GMT). No. of bitstreams: 1 arquivototal.pdf: 3448063 bytes, checksum: d1e7c70106a11d73c446f2bd23e07924 (MD5) Previous issue date: 2014-11-21 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES / The use of bicycle has been highlighting globally as alternative transportation, since the bikes have great potential for use in urban transport for the reduction of car, besides bringing benefits such as improving the quality of life of the user; improving the physical conditions; reduced environmental impact; improved accessibility for the cost / benefit; low maintenance cost; occupies less space on urban roads, and reduces maintenance costs of infrastructure. In this context, this study aimed to evaluate the use of bicycles as a potentially viable means of transport in order to contribute to improving transit access to campus. The methodology consisted of a literature review on urban mobility and mobility by bicycle, followed by field research which was divided into two stages: the questionnaire and systematic evaluations (characterization of the road and study of soil (Worksheet observation), Cyclists count and behavioral map). The results confirmed the hypotheses is possible to improve urban mobility if located one cycling infrastructure surrounding the campus of the Federal University of Amazonas and the users of this campus join the bicycle as an alternative means of transport since, the bicycle is a fast and efficient mode of transport suitable for small displacements and facilitate the mobility of users residing in a relatively close distance, up to 5 km, the UFAM, softening the motor road flow helping in the flow of traffic. / O uso da bicicleta vem se destacando mundialmente como alternativa de transporte, visto que tem um grande potencial de uso como transportes urbanos diminuindo o uso de automóveis, além de trazer benefícios como: melhoria da qualidade de vida do usuário; melhoria das suas condições físicas; impacto ambiental reduzido; maior acessibilidade pelo custo/benefício; baixo custo de manutenção; ocupar menor espaço nas vias urbanas e, reduzir os gastos com manutenção da infraestrutura. Diante desse contexto, o presente trabalho teve como objetivo avaliar o uso da bicicleta como um meio de transporte potencialmente viável de modo a contribuir com a melhoria do trânsito no acesso ao campus. A metodologia consistiu em revisão de literatura sobre a mobilidade urbana e o gerenciamento de mobilidade enfatizando o uso da bicicleta, seguida por pesquisa de campo que foi dividida em duas etapas: o questionário e as observações sistemáticas (caracterização da infraestrutura viária [Planilha de observação], Contagem de Ciclistas e o mapa comportamental). Os resultados confirmaram as hipóteses é possível melhorar a mobilidade urbana se for implantada uma infraestrutura cicloviária no entorno do campus da Universidade Federal do Amazonas e os usuários deste campus aderirem a bicicleta como uma alternativa de meio de transporte uma vez que, a bicicleta é um modo de transporte rápido e eficiente indicado para pequenos deslocamentos e facilitaria a mobilidade dos usuários que residem em uma distância relativamente próxima, até 5 km, à UFAM, amenizando o fluxo viário motorizado ajudando no escoamento do trânsito.

Mobilidade

Campus Universitário da UFAM

Transporte não motorizado

Ciclista

Mobility

UFAM`s campus

Non motorized transportation

Bicycle