989 resultados para urban rail transit
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Mode of access: Internet.
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Thesis (Master's)--University of Washington, 2016-06
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Travel surveys were conducted for collecting data related to residents’ travel at Kelvin Grove Urban Village (KGUV). Currently, KGUV has residents living in the affordable apartments, apartments, townhouses and student accommodation. As a part of data collection process, travel surveys were undertaken for residents living in apartments, affordable apartments and student accommodation. This document contains the questionnaire form used to collect the demographic and travel data related to residents at KGUV. A mail back survey technique was used to collect data for residents living in affordable apartment and apartments, and an intercept surveys was conducted for residents living in student accommodation.
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Travel surveys were conducted for collecting data related to school students’ travel at Kelvin Grove Urban Village (KGUV). Currently, KGUV has school students studying at grade 10 to 12. As a part of data collection process, travel surveys were undertaken for school students studying. This document contains the questionnaire form used to collect the demographic and travel data related to school students at KGUV. The surveys forms were hand delivered to the school and the responses were collected back via reply paid envelop provided with the questionnaire form.
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Transit oriented developments are high density mixed use developments located within short and easily walkable distance of a major transit centre. These developments are often hypothesised as a means of enticing a mode shift from the private car to sustainable transport modes such as, walking, cycling and public transport. However, it is important to gather evidence to test this hypothesis by determining the travel characteristics of transit oriented developments users. For this purpose, travel surveys were conducted for an urban transit oriented development currently under development. This chapter presents the findings from the preliminary data analysis of the travel surveys. Kelvin Grove Urban Village, a mixed use development located in Brisbane, Australia, has been selected as the case for the transit oriented developments study. Travel data for all groups of transit oriented development users ranging from students to shoppers, and residents to employees were collected. Different survey instruments were used for different transit oriented development users to optimise their response rates, and the performance of these survey instruments are stated herein. The travel characteristics of transit oriented development users are reported in this chapter by explaining mode share, trip length distribution, and time of day of trip. The results of the travel survey reveal that Kelvin Grove Urban Village users use more sustainable modes of transport as compared to other Brisbane residents.
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The Centre for Subtropical Design at QUT, in partnership with the Queensland Government and Brisbane City Council, conducts research focused on 'best practice' outcomes for higher density urban living environments in the subtropics through the study of typical urban residential typologies, and urban design. The aim of the research is to inform and illustrate best practice subtropical design principles to policy makers and development industry professionals to stimulate climate-responsive outcomes. The Centre for Subtropical Design recently sought project-specific funding from the Queensland Department of Infrastructure and Planning (DIP) to investigate residential typologies for sustainable subtropical urban communities, based on transit orientated development principles and outcomes for areas around public transport nodes. A development site within the Fitzgibbon Urban Development Area, and close to a rail and bsu transport corridor, provided a case study location for this project. Four design-led multi-disciplinary creative teams participated in a Design Charrette and have produced concept drawings and propositions on a range of options, or prototypes. Analysis of selected prototypes has been undertaken to determine their environmental, economic and social performance. This Project Report discusses the scope of the project funded by DIP in terms of activities undertaken to date, and deliverables achieved. A subsequent Research Report will discuss the detailed findings of the analysis.
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The case study site is physically disconnected from its surrounding community by the rail corridor and future bus lanes and is unlikely to be able to sustain its own commercial retail centre. As a result, it may also be socially disconnected from surrounding suburbs. However, it does offer proximity and access to an extensive „natural‟ area, and this is seen as key opportunity for the proposed development to develop a strong relationship with surrounding suburbs...
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Insulated rail joints (IRJs) possess lower bending stiffness across the gap containing insulating endpost and hence are subjected to wheel impact. IRJs are either square cut or inclined cut to the longitudinal axis of the rails in a vertical plane. It is generally claimed that the inclined cut IRJs outperformed the square cut IRJs; however, there is a paucity of literature with regard to the relative structural merits of these two designs. This article presents comparative studies of the structural response of these two IRJs to the passage of wheels based on continuously acquired field data from joints strain-gauged closer to the source of impact. Strain signatures are presented in time, frequency, and avelet domains and the peak vertical and shear strains are systematically employed to examine the relative structural merits of the two IRJs subjected to similar real-life loading. It is shown that the inclined IRJs resist the wheel load with higher peak shear strains and lower peak vertical strains than that of the square IRJs.
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Urban transit system performance may be quantified and assessed using transit capacity and productive capacity for planning, design and operational management. Bunker (4) defines important productive performance measures of an individual transit service and transit line. Transit work (p-km) captures transit task performed over distance. Transit productiveness (p-km/h) captures transit work performed over time. This paper applies productive performance with risk assessment to quantify transit system reliability. Theory is developed to monetize transit segment reliability risk on the basis of demonstration Annual Reliability Event rates by transit facility type, segment productiveness, and unit-event severity. A comparative example of peak hour performance of a transit sub-system containing bus-on-street, busway, and rail components in Brisbane, Australia demonstrates through practical application the importance of valuing reliability. Comparison reveals the highest risk segments to be long, highly productive on street bus segments followed by busway (BRT) segments and then rail segments. A transit reliability risk reduction treatment example demonstrates that benefits can be significant and should be incorporated into project evaluation in addition to those of regular travel time savings, reduced emissions and safety improvements. Reliability can be used to identify high risk components of the transit system and draw comparisons between modes both in planning and operations settings, and value improvement scenarios in a project evaluation setting. The methodology can also be applied to inform daily transit system operational management.
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Urban transit system performance may be quantified and assessed using transit capacity and productive capacity for planning, design and operational management. Bunker (4) defines important productive performance measures of an individual transit service and transit line. Transit work (p-km) captures transit task performed over distance. Transit productiveness (p-km/h) captures transit work performed over time. This paper applies productive performance with risk assessment to quantify transit system reliability. Theory is developed to monetize transit segment reliability risk on the basis of demonstration Annual Reliability Event rates by transit facility type, segment productiveness, and unit-event severity. A comparative example of peak hour performance of a transit sub-system containing bus-on-street, busway, and rail components in Brisbane, Australia demonstrates through practical application the importance of valuing reliability. Comparison reveals the highest risk segments to be long, highly productive on street bus segments followed by busway (BRT) segments and then rail segments. A transit reliability risk reduction treatment example demonstrates that benefits can be significant and should be incorporated into project evaluation in addition to those of regular travel time savings, reduced emissions and safety improvements. Reliability can be used to identify high risk components of the transit system and draw comparisons between modes both in planning and operations settings, and value improvement scenarios in a project evaluation setting. The methodology can also be applied to inform daily transit system operational management.
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Despite its potential multiple contributions to sustainable policy objectives, urban transit is generally not widely used by the public in terms of its market share compared to that of automobiles, particularly in affluent societies with low-density urban forms like Australia. Transit service providers need to attract more people to transit by improving transit quality of service. The key to cost-effective transit service improvements lies in accurate evaluation of policy proposals by taking into account their impacts on transit users. If transit providers knew what is more or less important to their customers, they could focus their efforts on optimising customer-oriented service. Policy interventions could also be specified to influence transit users’ travel decisions, with targets of customer satisfaction and broader community welfare. This significance motivates the research into the relationship between urban transit quality of service and its user perception as well as behaviour. This research focused on two dimensions of transit user’s travel behaviour: route choice and access arrival time choice. The study area chosen was a busy urban transit corridor linking Brisbane central business district (CBD) and the St. Lucia campus of The University of Queensland (UQ). This multi-system corridor provided a ‘natural experiment’ for transit users between the CBD and UQ, as they can choose between busway 109 (with grade-separate exclusive right-of-way), ordinary on-street bus 412, and linear fast ferry CityCat on the Brisbane River. The population of interest was set as the attendees to UQ, who travelled from the CBD or from a suburb via the CBD. Two waves of internet-based self-completion questionnaire surveys were conducted to collect data on sampled passengers’ perception of transit service quality and behaviour of using public transit in the study area. The first wave survey is to collect behaviour and attitude data on respondents’ daily transit usage and their direct rating of importance on factors of route-level transit quality of service. A series of statistical analyses is conducted to examine the relationships between transit users’ travel and personal characteristics and their transit usage characteristics. A factor-cluster segmentation procedure is applied to respodents’ importance ratings on service quality variables regarding transit route preference to explore users’ various perspectives to transit quality of service. Based on the perceptions of service quality collected from the second wave survey, a series of quality criteria of the transit routes under study was quantitatively measured, particularly, the travel time reliability in terms of schedule adherence. It was proved that mixed traffic conditions and peak-period effects can affect transit service reliability. Multinomial logit models of transit user’s route choice were estimated using route-level service quality perceptions collected in the second wave survey. Relative importance of service quality factors were derived from choice model’s significant parameter estimates, such as access and egress times, seat availability, and busway system. Interpretations of the parameter estimates were conducted, particularly the equivalent in-vehicle time of access and egress times, and busway in-vehicle time. Market segmentation by trip origin was applied to investigate the difference in magnitude between the parameter estimates of access and egress times. The significant costs of transfer in transit trips were highlighted. These importance ratios were applied back to quality perceptions collected as RP data to compare the satisfaction levels between the service attributes and to generate an action relevance matrix to prioritise attributes for quality improvement. An empirical study on the relationship between average passenger waiting time and transit service characteristics was performed using the service quality perceived. Passenger arrivals for services with long headways (over 15 minutes) were found to be obviously coordinated with scheduled departure times of transit vehicles in order to reduce waiting time. This drove further investigations and modelling innovations in passenger’ access arrival time choice and its relationships with transit service characteristics and average passenger waiting time. Specifically, original contributions were made in formulation of expected waiting time, analysis of the risk-aversion attitude to missing desired service run in the passengers’ access time arrivals’ choice, and extensions of the utility function specification for modelling passenger access arrival distribution, by using complicated expected utility forms and non-linear probability weighting to explicitly accommodate the risk of missing an intended service and passenger’s risk-aversion attitude. Discussions on this research’s contributions to knowledge, its limitations, and recommendations for future research are provided at the concluding section of this thesis.
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Este trabalho é o relatório de estágio profissional realizado numa companhia francesa de arquitetura, especializado no planeamento urbano, que se-‐chama AREP. O trabalho desenvolvido teve como objectivo identificar os problemas dos transportes de mercadorias e de logística nas áreas urbanas e da intervenção do planeamento urbano para a mitigação daqueles problemas. Os transportes urbanos de mercadorias são uma prioridade para a definição de políticas num mundo cada vez mais urbanizado. As áreas urbanas necessitam cada vez mais da entrega e recolha de grandes quantidades de mercadorias, resultando na procura de com custos externos elevados e a degradação da qualidade de vida dos residentes. Em 2012, a OECD estimava que as atividades ligadas ao transporte de mercadorias iriam crescer entre 50% e 130% entre 2010 e 2050 nos países da daquela organização. Nos países que não fazem parte da OECD estimava que as atividades iriam crescer entre 250% e 550% durante o mesmo período. Com os problemas já existentes e com o crescimento que está previsto, é importante encontrar soluções que limitem os custos externos e que se encontrem alternativas mais sustentáveis. Tradicionalmente, os formuladores de políticas urbanas tendem a ver os transportes de mercadorias nas áreas urbanas como um problema, em vez de os considerar como um componente essencial do desenvolvimento urbano. Em consequência disso, as políticas implementadas foram desenvolvidas no sentido da restrição na atividade de distribuição de mercadorias. Ao mesmo tempo, os operadores de transporte têm continuado a desenvolver a sua função adequando-‐se às condições impostas com maiores níveis de eficiência. No entanto, este sucesso tem tido muitos custos externos negativos para a economia, a sociedade e o ambiente. Por isso, os transportes urbanos de mercadorias encontram-‐se numa tensão constante entre uma logística eficiente e um desenvolvimento urbano sustentável. Hoje, os decisores políticos começam a alterar a perspectiva sobre a intervenção sobre a circulação de transportes de mercadorias, atendendo à sua importância para a economia urbana e, simultaneamente, à necessidade de reduzir os impactes negativos associados ao transporte de mercadorias. Um dos desafios principais é o de compatibilizar as atividades logísticas e os transportes de mercadorias e a preservação das áreas urbanas, minimizando os impactes, garantindo uma boa qualidade de vida para os residentes. Trata-‐se de um assunto complexo pelos diferentes atores com interesses muitas das vezes conflituantes. A conciliação dos interesses constitui um dos problemas, nomeadamente nas soluções de curto prazo. O espaço disponível para os transportes e as atividades de comércio e serviços emáreas urbanas é limitado. Existe uma grande concorrência sobre o uso do solo urbano entre os diferentes atores.. A necessidade de espaço, conduz a que o sector da logística saía das cidades e se instale nas suas periferias. Esta tendência chama-‐se ‘logistic sprawl’ e tem vários efeitos negativos, por exemplo, o facto de os veículos terem de percorrer maiores distâncias para os seus clientes nas áreas urbanas. Ao mesmo tempo, os residentes, como consumidores, exigem ter uma grande variedade de produtos disponíveis, esquecendo que para isso há a necessidade de os transportar para e dentro da cidade. Quando as políticas de transportes de passageiros em áreas urbanas se tem vindo a concentrar na alteração modal, do transporte em automóvel para os transportes públicos, ou para a utilização da bicicleta ou a marcha a pé, as políticas de transportes de mercadorias devem igualmente potenciar a utilização de transportes alternativos mais sustentáveis do que o transporte em veículos de mercadorias com motores de combustão interna. Hoje em dia, 75% de todos os transportes de mercadorias por via terrestre a distâncias médias ou longas (mais de 50km), são realizados por via rodoviária. A distâncias mais reduzidas (last mile) essa percentagem é de quase 100%. Estes valores não são compatíveis com um desenvolvimento sustentável. O esforço desenvolvido no sentido da promoção dos modos mais sustentáveis, como a ferrovia e a utilização das vias navegáveis, têm encontrado a oposição das empresas de transporte de mercadorias pois a rodovia é mais flexível (entrega porta-‐a-‐porta), com reduzidos custos de utilização de infraestrutura e com custos-‐fixos mais baixos. Uma cooperação integrada e holística entre os diferentes níveis de governação do território é fundamental, sendo desejável uma maior cooperação entre o sector público e privado. As medidas a implementar têm que ter em conta os problemas a curto e longo prazo. Uma grande variedade de medidas (de regulação, de gestão da infraestrutura, de gestão e ordenamento do território, de promoção e de informação, etc.) têm que ser implementadas e coordenadas em conjunto com o sector privado. As medidas isoladas não resolverão os problemas de transporte de mercadorias na cidade, por isso, o desafio é o de implementar um pacote de medidas diferentes que contribua para uma distribuição das mercadorias mais sustentável, tornando as cidades mais habitáveis. Neste relatório, são discutidas e analisadas as diferentes medidas que podem ser implementadas pelos distintos níveis de governança, incluindo a apresentação de alguns case-‐studies.
