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Design of intercity bus terminal at Bhavnagar, IndiaShah, Virendra N. January 1959 (has links)
Thesis (M.S.)--University of Wisconsin--Madison, 1959. / Typescript. eContent provider-neutral record in process. Description based on print version record.
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Inter-city bus terminal location criteriaCuylits, Edmond Reinier January 1972 (has links)
Since the initial development of inter-city transport, fixed stopping places serving inter-city common carrier modes have become established. Such stopping places include locations with specialized structures or terminals that facilitate the interchange process and link the access or egress journey to the line haul mode. Traditionally inter-city bus terminals have been situated in the central business district of metropolitan areas. However, the expansion of urban areas and the dispersion of urban activities into these areas would suggest that the traditional location of the bus terminals is no longer optimal. This thesis poses this question in the hypothesis which states:
The optimal location for an inter-city bus terminal in an urban metropolitan area is one at or near that metropolitan area's central business district.
In order to develop a definition for optimal location an examination is first made of inter-model competition and factors that affect demand. Time and cost are indicated in the literature to be of prime importance and their minimization encourages travel. As access and egress journeys form significant elements of the inter-city journey, the time and cost of these journey segments receive most of the attention in the literature surveyed. Measurements of these factors is discussed at length.
As the inter-city terminal is the interchange point which links the access or egress journey to the line haul mode, a variation in the terminals' location will affect these journey segments. The optimal location is defined in terms of minimizing the access/egress journey times and cost in order to stimulate demand.
However, demand oriented locations may have high land acquisition and operating costs that would negate the benefit of such locations and for this reason this aspect must be considered in the location evaluation. Finally, consideration is given to the consequences of such location on the present and future urban environment. These three criteria - demand, cost and urban impacts must be included in the evaluation of terminal location.
It is concluded that a central location near the hub of the urban transit system is most desirable for main bus terminals. In the future, the importance of the central location will decline and a location on the transit system will become the most desirable. However, with the dispersion of urban patterns, it may be necessary, to add .suburban terminals which can best be located near major arterials and at points where suburban town centers should be encouraged. / Applied Science, Faculty of / Community and Regional Planning (SCARP), School of / Graduate
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A study of covered bus terminus design and air quality issues /Li, Siu-wah. January 2006 (has links)
Thesis (M. Sc.)--University of Hong Kong, 200.
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Interfacing MarabastadCroeser, Sophia Louw. January 2005 (has links)
Thesis (M.Arch.(Prof.))--University of Pretoria, 2005. / Includes summary. Includes bibliography. Available on the Internet via the World Wide Web.
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Public transport buildings of metropolitan Adelaide, 1839-1900 /Kelt, Andrew. January 1990 (has links) (PDF)
Thesis (M. Arch.)--University of Adelaide, Faculty of Architecture and Planning, 1991. / Includes bibliographical references (leaves 240-249).
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A decision support tool for capacity designing of BRT stations using discrete-event simulationEngelbrecht, Louise 12 1900 (has links)
Thesis (MScEng (Industrial Engineering))--University of Stellenbosch, 2010. / ENGLISH ABSTRACT: The purpose of this study is to investigate the capacity of a proposed bus rapid transit (BRT) station in Cape Town. A bus rapid transit system is a high-capacity public transportation system that carries passengers from one point to another, providing a service that is faster and more efficient than an ordinary bus line. The implementation of these systems is increasing rapidly worldwide, serving as a solution to decrease traffic congestion.
The capacity of the proposed bus station, known as the Thibault Station, is investigated in the study by developing a simulation model. The aim is to develop a stochastic simulation model, which represents the flow of passengers throughout the station so that the station capacity can be investigated. By developing a stochastic model as opposed to a deterministic model, elements of uncertainty can be included into the model, thereby representing a system that is closer to the real-life situation under investigation. The majority of BRT systems, as well as past studies undertaken on the Thibault Station, are designed using deterministic calculations.
The study commences by researching literature on BRT systems and focuses on the current methods used to calculate station capacity requirements. Thereafter, the concept of simulation is introduced. Simulation is the method chosen to model and evaluate the passenger and bus operations at the Thibault Station.
The study presents the methods used to build and verify the simulation model. This is done to familiarise the user with a number of aspects of the model. The model can then be used as a tool to investigate capacity parameters and alternative designs or scenarios. Using the results of these investigations, decisions can ultimately be made regarding the planning and design components of any bus rapid transit station given that the model is adapted.
Scenario results, as well as interpretations of performance measurements, are presented at the end of the study. The results can be used for more realistic design of BRT stations using stochastic modelling. / AFRIKAANSE OPSOMMING: Die doel van die studie is om ondersoek in te stel na die kapasiteit van „n hoëspoed bus vervoer stelsel (BRT). Die ondersoek is gebaseer op „n voorgestelde bus stelsel vir Kaapstad. „n BRT-stelsel is „n hoë-kapasiteit publieke vervoerstelsel wat passasiers van een punt na „n ander vervoer, deur „n diens te verskaf wat vinniger en meer doeltreffend is as „n gewone bus stelsel. Die implementering van hierdie tipe stelsels neem wêreldwyd toe en dien as „n oplossing om verkeersopeenhopings te verminder.
Die spesifieke busstasie wat ondersoek word staan bekend as die Thibault Stasie van Kaapstad se BRT-stelsel. Die kapasiteit van die stasie word ondersoek deur middel van simulasiemodellering. Die doel is om „n stogastiese simulasiemodel wat die vloei van passasiers modelleer te ontwikkel ten einde die kapasiteit van die stasie te ondersoek. Deur „n stogastiese model in plaas van „n deterministiese model te gebruik, kan elemente van onsekerheid ingesluit word. Dit verteenwoordig dus „n stelsel wat nader aan die werklikheid is. Tans word meeste BRT-stelsels ontwerpe gebaseer op deterministiese berekeninge, asook historiese studies wat onderneem is oor die Thibault Stasie.
Die studie begin deur literatuur oor BRT-stelsels te bestudeer en fokus daarna op die huidige metodes wat gebruik word om die vereiste kapasiteit van „n busstasie te bepaal. Die konsep van simulasie word daarna voorgestel. Simulasie is die metode wat in die studie gebruik word om die passasier- en busaktiwiteite van die Thibault Stasie te modelleer en te evalueer.
Die studie verskaf die metodes wat gebruik word vir die ontwikkeling en geldigmaak van die simulasiemodel. Gebruikers word op dié manier blootgestel aan die verskillende aspekte van die model. Nadat die gebruikers vertroud is met sekere aspekte van die model, word die model verder uiteengesit en word daar verduidelik hoe dit as „n instrument om kapasiteit parameters en alternatiewe ontwerpe van busstasies te ondersoek kan dien. Die resultate van die model kan gebruik word om beplannings- en ontwerpbesluite van enige busstasie te neem.
Aan die einde van die studie word scenarioresultate bekendgestel, asook die interpretasie daarvan. Die resultate kan gebruik word vir meer realistiese ontwerp van BRT-stasies met behulp van stogastiese simulasie modellering.
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The economic evaluation of bus and minibus taxi terminals and transfer facilitiesPienaar, Wessel Johannes 12 1900 (has links)
Thesis (PhD (Civil Engineering))--University of Stellenbosch, 1998. / 147 leaves single sided printed, preliminary pages i-v and numbered pages 1-1 to 8-8. Includes bibliography,list of figures and tables. Digitized using a Hp Scanjet 8250 Scanner to pdf format (OCR). / ENGLISH ABSTRACT: The dissertation describes the functions of bus and minibus taxi terminals and transfer facilities. Planning, design and evaluation guidelines are proposed. These proposals are aimed at the following aspects: the geometric features and functional layout of facilities in order to enhance the effective usage thereof by passengers, as well as the smooth flow of vehicles; the location of facilities and traffic control arrangements, which take cognisance of effective traffic flow as well as acceptable walking distance by commuters; and an evaluation methodology which addresses allocative efficiency from an economic viewpoint, supplemented by analysis guidelines which consider distributive efficiency from a viewpoint of equitable distribution of welfare. It is explained how benefits for travellers, the transit operator and the subsidizing authority, and the opportunity costs of supplying the facility can be determined. A model is proposed whereby the non-monetary component of generalised travel costs can be estimated. The use of economic evaluation techniques for the selection and prioritisation of projects is detailed. This is supplemented by an example of an economic evaluation of a proposed bus/minibus taxi terminal. Subsequently it is examined how the design and effectiveness of a real world passenger transport terminal could be affected by the use of the guidelines proposed in the dissertation. The dissertation, lastly, deals with welfare distribution and the more equitable community accessibility and mobility which can be brought about by the creation and use of passenger transport terminals and transfer facilities. Also discussed is the accommodation of welfare distribution with an economic evaluation as a means of achieving greater equity or fairness and the ways in which this can be done. / AFRIKANSE OPSOMMING: Die proefskrif beskryf die funksies van bus- en minibustaxivervoereindpunte en oorstapfasiliteite. Beplannings-, ontwerp- en evalueringsriglyne word voorgestel. Die voorsteUe is gerig op die volgende aspekte: (1) Die geometriese en funksionele uitieg om die doeltreffende gebruik deur passasiers en vloei van voertuie te bevorder; (2) fasiliteitplasing en verkeersbeheermaatreels wat vlot voertuigbeweging sowel as aanvaarbare stapafstand in ag neem; en (3) 'n evalueringsmetodologie wat toewysingsdoeltreffendheid vanuit 'n ekonomiese oogpunt en verdelingsdoeltreffendheid vanuit 'n billike welvaartsverdelingsoogpunt in ag neem. Dit word verduidelik hoe voordele vir reisigers, die transit-operateur en die subsidierende owerheid, en die geleentheidskoste van fasiliteitsvoorsiening bepaal kan word. 'n Model word voorgestel waarvolgens die nie-monetere gedeelte van veralgemeende reiskoste beraam kan word. Die gebruik van ekonomiese evalueringstegnieke vir die keuse en prioritisering van projekte word verskaf. Dit word aangevul met 'n voorbeeld van 'n ekonomiese evaluering van 'n voorgestelde bus/minibustaxi-eindpunt. Vervolgens word dit ondersoek hoe die ontwerp en doeltreffendheid van 'n werklike passasiervervoereindpunt deur die gebruik van die voorgestelde riglyne beinvloed kan word. Ten slotte word welvaartverdeling en die groter toeganklikheid en beweeglikheid behandel wat binne 'n gemeenskap geskep kan word deur die voorsiening en gebruik van passasiersvervoereindpunte en oorstapfasiliteite. Dit word bespreek hoe 'n ekonomiese evaluering aangepas kan word as 'n maatreel om billikheid te bevorder.
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User information and the bus stop: designs and applications in the United States and CanadaSilveira, Christopher 17 January 2013 (has links)
Bus stops are interwoven into the urban landscape, providing direct access to the transit system and offering upfront information to users. This contact creates an ever-present opportunity for transit agencies to market their services to the public and attract ridership. The purpose of this thesis is to help transit agencies exploit this opportunity through the development and deployment of user information. The thesis examines how agencies are leveraging bus stop infrastructure in the United States and Canada. Site visits were conducted at twenty-nine transit agencies across the continent with observations photographed and processed into matrices. The photographs provide examples of innovative ways in which agencies have employed elements, while the matrices reveal the current state of the practice. The thesis concludes with recommendations for the conceptualization and development of bus stop signage that integrate many of these innovative elements as well as ADA regulations to improve user information at transit agencies.
The findings of this thesis may be of interest to transit agencies that are seeking to construct a new or improve upon an existing user information system as well as to those interested in or studying public transit, wayfinding, or environmental graphic design. While there exists a large degree of difference as to the level of information that is made available to users in different transit agencies, all agencies have room to improve.
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A study of covered bus terminus design and air quality issuesLi, Siu-wah., 李兆鏵. January 2006 (has links)
published_or_final_version / Environmental Management / Master / Master of Science in Environmental Management
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Innovative Approach to Estimating Demand for Intercity Bus Services in a Rural EnvironmentMattson, Jeremy January 2017 (has links)
Because existing models have their limitations, there is a significant need for a model to estimate demand for intercity bus services, especially in rural areas. The general objective of this research was to develop an intercity mode choice model that can be incorporated into a statewide travel demand model to estimate demand for rural intercity bus services. Four intercity transportation modes were considered in the study: automobile, bus, rail, and air. A stated preference survey was conducted of individuals across the state of North Dakota, and a mixed logit model was developed to estimate a mode choice model. Results from the mode choice model showed the significant impacts of individual, trip, and mode characteristics on choice of mode. Gender, age, income, disability, trip purpose, party size, travel time, travel cost, and access distance were all found to have significant impacts on mode choice, and traveler attitudes were also found to be important. The study demonstrated how the mode choice model can be incorporated into a statewide travel demand model, and intercity bus mode shares were estimated for origin-destination pairs within the state. Alternative scenarios were analyzed to show how mode shares would change under different conditions or service characteristics. This study was conducted in the largely rural state of North Dakota, but results could be transferable to other areas with similar geographic characteristics. / U.S. Department of Transportation (USDOT)
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