Urban transportation: Perspectives on mobility and choice

A study of urban transportation systems are presented characterized by intensive scrutiny of many ideas, philosophies, and academic perspectives. This report is intended to communicate some dimensions of the urban transportation problem to the general public

Government Failure in Urban Transportation

This paper assesses governmental performance in its investment, provision and regulation of urban transportation. Attention is given to public bus and rail transit and road transportation. Evidence based on urban transport in US cities reveals substantial allocative and technical inefficiencies that have led to large public transit deficits and severe highway congestion. I argue that it is futile to expect public officials to remedy the situation by pursuing more efficient policies such as congestion pricing and weighing costs and benefits when deciding transit service. The problem is that urban transportation policy is largely shaped by entrenched political forces that inhibit constructive change. The only realistic way to improve the system is to shield it from those influences and expose it to market forces by privatising it. This position is supported by empirical evidence based on simulations for the US and the UK’s early experience with privatisation.

MATHEMATICAL MODELING CONSIDERING AIR POLLUTION OF TRANSPORTATION: AN URBAN ENVIRONMENTAL PLANNING, CASE STUDY IN PETALING JAYA, MALAYSIA

This paper provides the findings on a project undertaken to develop a geo-spatial mathematical model relating landuse, road type and air quality. The model shows how spatial elements and issues were quantified to accurately represent the usual and unusual urban environment in the development of residential land-use. The mathematical relationship was based on the optimum distance between residential area and urban transportation network. This mathematical analysis would provide a better planning for urban transportation. The spatial data (urban land-use and urban network development) were generated using satellite images, aerial photos and land use maps. Geospatial analyses were performed to find the effect and impact of urban air quality with respect to urban transportation networks. The output of the study would assist the task to reduce negative transport environmental impacts particularly in the field of air pollution. It would also be useful in identifying the potential residential area with respect to urban transportation network towards achieving sustainable development.Transportation, Model, Air pollution, urban environment, land use.

Evolutionary urban transportation planning? An exploration

For urban transportation planners these are challenging times. Mounting practical concerns are mirrored by more fundamental critiques. The latter come together in the observation that conventional approaches do not adequately account for the irreducible uncertainty of future developments. The central aim of this paper is to explore if and how an evolutionary approach can help overcome this limit. Two core-hypotheses are formulated. The first is that the urban transportation system behaves in an evolutionary fashion. The second hypothesis is that because of this, urban transportation planning needs also to focus on enhancing the resilience and adaptability of the system. Changes in transport and land use development patterns and policies and in the broader context in the post-war period in the Amsterdam region are analysed in order to illustrate the two core-hypotheses. In the conclusions more general implications are drawn.evolutionary economics, urban economics, transportation planning

A People's History Of Recent Urban Transportation Innovation

Who are the people leading the charge in urban transportation? As our report explains, the short answer is that it takes leaders from three different sectors of urban society to make change happen quickly.First, there needs to be a robust civic vanguard, the more diverse their range of skills and participation, the better. Second, mayors, commissioners and other city leaders need to create the mandate and champion the change. The third sector is the agency staff. When these three sectors align, relatively quick transformation is possible. Several cities, including New York and Pittsburgh, recently experienced this alignment of a healthy civic community, a visionary and bold mayor and transportation head, and internal agency champions. Our report also highlighted the potential of other cities, such as Charlotte, where the civic sector continues to build on and widen their base

Rethinking mobility at the urban-transportation-geography nexus

Building on the main sections of the book, this concluding chapter identifies four thematic areas for future research into the urban-transportation-geography nexus as follows: (1) the everyday experience of transport and mobility in the “ordinary city”; (2) the environment and the urban politics of mobility; (3) connected cities and competitive states; and (4) transportation mobility and new imaginaries of city-regional development

Decarbonising urban transportation

18 p.The transportation sector is a major contributor to global greenhouse gas emissions, accounting for around one-quarter of current annual emissions. Surface transportation (passenger vehicles, buses, rail, and freight transportation) contributes 75% of total emissions, with the remaining 25% allocated equally between air and water transport. According to the recently released 5th Assessment Report of the IPCC (September 2013), the transportation sector is expected to grow significantly in future years, particularly in rapidly developing countries around the world, and will therefore be one of a few key drivers of increasing global warming. Unless there is a major political effort and consumer willingness to change current energy consumption patterns and travel modes over the next few decades, transport-related emissions are likely to double by 2050 relative to levels observed in 2010. Because of the contribution of transportation to climate change and its impact on urban air quality, a comparative assessment of potential carbon emission reductions and health benefits of reduced particulate matter emissions was undertaken considering several low carbon pathways for development of the urban road transport sector up to 2050. As a result, we conclude that aggressive changes will be needed to scale back future emissions by 20% (or more) compared to present day emissions. These changes will impact vehicle fuel economy (+50%), urban mobility patterns (lower private car demand and greater use of public transportation), choice of alternative fuels (less use of petroleum-based fuels and greater use of biofuels and electrons) and electricity generation mix (greater use of renewables, carbon capture technologies for limiting fossil fuel carbon emissions, and/or nuclear energy). Public acceptance is fundamental to bring about changes in consumer attitudes and behaviour. Given the long lead times required for research, development, demonstration and deployment of new technologies, the time to act is now if we are to limit the global mean surface temperature increase to within 2°C above preindustrial levels