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Active Transportation Modes: Data Requirements and Historical Analysis of Impedance Functions

Active travel, encompassing walking and cycling, has emerged as a vital component in pursuing sustainable, healthy, and efficient urban transportation systems. This thesis comprises two interrelated studies that collectively contribute to a comprehensive understanding of active travel behavior and its analysis within the Canadian context. At the first step, we focused on the data prerequisites and sources required for active accessibility analysis, systematically evaluates geographic accessibility measures and data specificity essential to assessing walking and cycling in the Canadian urban landscape. As accessibility increasingly takes center stage in urban transportation policies, it becomes imperative to understand the unique data requirements and methodological considerations for these non-motorized modes. In the subsequent phase of our research, we extensively analyzed active travel behavior trends in Canada, spanning three decades from 1986 to 2015. This study uses data from Canada’s General Social Survey to examine individual preferences and behaviors related to walking and cycling. The focus is mainly on understanding how these behaviors vary according to different trip purposes and geographical contexts. Our approach involved the calibration of empirical impedance functions to gain insights into the willingness of individuals to travel to various destinations using active modes of transportation. This aspect of the study is crucial in quantifying the time individuals are willing to allocate to walk and cycle to reach their destinations. The investigation notably provides a historical perspective on the evolution of active mobility over the past 35 years. This historical analysis is pivotal in unraveling the changes in active travel behavior, influenced by factors such as urban development trends, societal attitudes towards health and environmental sustainability, and modifications in transportation infrastructure and policy frameworks. Our findings reveal significant and consistent disparities in trip durations between walking and cycling modes, accompanied by intriguing temporal variations over the years. / Thesis / Master of Applied Science (MASc) / Active travel, encompassing walking and cycling, is pivotal in fostering sustainable and
healthy urban transportation systems. This thesis comprises two interconnected studies
comprehensively addressing the complexities and imperatives of active travel analysis
within the Canadian context. The first chapter evaluates geographic accessibility
measures and data specifics necessary for assessing these modes in the Canadian
context, shifting the focus to data prerequisites and sources critical for active
accessibility analysis. This comprehensive analysis compares metrics, origin-destination
considerations, geographic scales, and methods for calculating travel time and distance
for walking and cycling. Beyond its relevance in Canada, this examination yields broader
insights into the challenges and considerations associated with active travel accessibility
analysis worldwide. The second chapter embarks on a journey through three decades
of active travel behavior in Canada. Utilizing data from Canada’s General Social
Survey, this research calibrates empirical impedance functions to elucidate individuals’
willingness to undertake trips to various destinations by walking and cycling. The study
not only reveals evolving patterns in active mobility but also offers valuable insights
for urban planners and policymakers seeking to elevate walking and cycling as essential
components of urban transportation in Canada. These integrated studies contribute
significantly to the ongoing discourse on active travel and accessibility, emphasizing the
need for a transition from mobility-centric to accessibility-focused urban transportation
policies. This transition holds the key to creating more sustainable, vibrant, and
healthier cities for the future.

Identiferoai:union.ndltd.org:mcmaster.ca/oai:macsphere.mcmaster.ca:11375/30129
Date January 2024
CreatorsMoghadasi, Mahdis
ContributorsPaez, Antonio, Geography
Source SetsMcMaster University
LanguageEnglish
Detected LanguageEnglish
TypeThesis

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