Skip to main content

2024 | Buch

Transportation Policy and Project Evaluation

Methods and Practices

insite
SUCHEN

Über dieses Buch

This book adopts a methodology-focused approach, concentrating on quantitative techniques for transportation. It specifically focuses on methods that have been or potentially could be applied to study the effects of transportation policies and projects. The prevailing research features three key research categories: cross-sectional regression models, simulation (forecasting) methods, and causal inference models.

Inhaltsverzeichnis

Frontmatter
Chapter 1. Cross-Sectional Regression Methods
Abstract
This chapter focuses on the analysis of cross-sectional regression, which conceptualizes travel behavior as influenced by both socioeconomic and constructed environment elements. Using observed cross-sectional data, such regression analysis assesses the association between independent variables and travel behavior. Complementary methods are crucial for obtaining unbiased estimators, and both instrumental variable and propensity score matching methods have been widely utilized in transportation research.
Huajie Yang
Chapter 2. Forecasting Methods
Abstract
This chapter mainly introduces various forecasting models and explains them in relation to related research and applications. The first method discussed is the mainstream four-step travel demand model, which conceptualizes travel decision-making. The second method is the direct demand model, where cross-sectional regression analysis estimates travel demand. This is followed by a discussion of post-processing models that account for impacts not explicitly considered in the main models. Next, the abstract mode demand model is introduced, which assumes an abstract representation based on features that affect mode choice, such as cost, travel time, and frequency. The incremental demand model is subsequently utilized to examine the effects of variations in travel time, cost, and other transportation attributes. This analysis typically involves the use of elasticity analysis and pivot-point modeling. The final model discussed is the sketch planning model, used to analyze traffic and land use scenarios at a broad resolution level, providing general magnitude estimates. Additionally, the chapter covers the corridor model and the marginal demand model. The corridor model is characterized by simplicity, considering only the entry and exit points as the origin and destination. The marginal demand model focuses on travel demand, most likely influenced by specific projects and policies.
Huajie Yang
Chapter 3. Causal Models for Project Evaluation
Abstract
This chapter introduces causal models for project evaluation, including methods used to estimate counterfactual effects. Firstly, it discusses the regression discontinuity (RD) method, including fuzzy and sharp RD, and its application in transportation. Then, it covers the difference-in-differences methods, noting that panel data helps estimate causality and that difference-in-differences is widely used in transportation research. Finally, the chapter examines the synthetic control method, which creates a “synthetic” control unit for comparison with the treated unit. Synthetic control methods can also construct counterfactual outcome trajectories. However, the synthetic control method has seen limited application in transportation.
Huajie Yang
Chapter 4. Case Studies
Abstract
This chapter examines pertinent cases and practical applications using the models and methodologies expounded upon in the preceding three chapters. The inaugural case study concerns the UrbanFootprint transportation analysis, which furnishes a sturdy framework for land use planning, modeling, and data structuring. This enables practitioners, public agencies, and additional stakeholders to engage in more enlightened planning endeavors. The subsequent case scrutinizes using land use and transportation models in policy analysis. It involves evaluating transportation and land use policies, comparing scenario analyses under different policy conditions, and discussing their impacts on urban development. The third case focuses on the transportation planning evaluation of the metro’s regional transportation planning. Lastly, this chapter offers a temporal examination of congestion and public transportation within Urbanized Areas (UZAs) in the United States through time-series analysis. This analysis explores the temporal relationship between public transportation and congestion, providing insights into their interdependencies.
Huajie Yang
Metadaten
Titel
Transportation Policy and Project Evaluation
verfasst von
Huajie Yang
Copyright-Jahr
2024
Verlag
Springer Nature Singapore
Electronic ISBN
978-981-9754-30-4
Print ISBN
978-981-9754-29-8
DOI
https://doi.org/10.1007/978-981-97-5430-4

Premium Partner