Abstract
Although indicators in rating systems have been initiated to measure and promote the sustainability performance of roadway projects in some developed countries, applying those indicators to other regions/countries may still be difficult. In response to the United Nations’ sustainable development goals, local road agencies in Taiwan urgently need to establish systematic and quantifiable sustainable roadway strategies. As part of the project to develop a green urban road rating system in Taiwan, this study aims to develop transportation livability-related indicators (TLIs) and identify critical barriers to TLI application in Taiwan’s urban road system. To this end, the research employed an adaptive approach that integrates top-down and bottom-up approaches. The top-down approach included the comprehensive literature review and panel discussion to derive four TLIs and 21 corresponding requirements, and nine potential barriers to hold the indicator adoption. Four TLIs are pedestrian facilities, universal design, multimodal transportation, and utility facilities. The bottom-up approach used the Analytic Hierarchy Process (AHP) to assign weights to proposed indicators/requirements. Four critical barriers were also investigated through the Weighted Sum Model (WSM) method, namely unfavorable in-situ conditions, lack of stakeholders’ coordination, unsupported government policy and regulation, and limited budget and schedule. The findings can be beneficial to engineers and decisionmakers to enhance the livability standard of urban streets. The framework proposed in this research can be applied to other roadway characteristics aspects in different regions/countries.
Highlights
Road network is a critical infrastructure in cities
This study presents the development of the indicators related to transportation livability characteristics of urban road projects, which is part of the Taiwan Green Urban Road (TGUR) Rating System
For a group of experts, the comparison matrix in the Analytic Hierarchy Process (AHP) can be made by integrating the various judgments under each expert through a geometric mean or arithmetic mean [34]
Summary
Road network is a critical infrastructure in cities. The growing automobile usage, especially in the densely populated urban areas, has deteriorated the urban environment and streets. In developed countries, the policies to promote green road/highway systems have been promulgated since the 1960s–70s [1]. Green roads/highways are constructional systems of roadway projects, which include five main aspects, i.e., (1) ecosystem conservation, (2) stormwater management, (3) life-cycle energy and emission reduction,. Environment, and ecology, green roads demand considerations to societal benefits for the community, such as safety, equity, accessibility, and public health. These aspects are generally the main contributors to livable streets [3]. The livability transportation in this research emphasizes the physical aspects of livable urban roads (e.g., configuration, motorized and non-motorized traffic, traffic facilities, utilities) rather than livable streets’ functional and social characteristics
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