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Analyzing Barriers to Integrating Bike Share with Green Transportation Modes and the Trail System in Greater Cincinnati, OhioRogers, William P., III 04 October 2021 (has links)
No description available.
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Urban Transportation: Sections At MinusErol, Ezgi 01 February 2010 (has links) (PDF)
This thesis focuses on the underground transportation forms that began to emerge in city centers in the second half of the 20th century. Besides providing an illustration and evaluation of the selected case projects, the notions of speed and time are opened for discussion as significant concepts that interact to affect the physical formations both of cities and transport policies. The developments in urban transport technologies after the 1960s are also examined as leading factors in the development of today&rsquo / s multimodal and multilayered urban transportation hubs.
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Analýza dopravy na Slovensku / Analysis of transportation in SlovakiaBrezina, Jakub January 2015 (has links)
The theme of this thesis is the analysis of transportation in the Slovak Republic with a focus on freight transportation. The Output of the thesis is recommendations for improvements of transportation in the Slovak Republic. The theoretical part deals with theoretical knowledge on transportation, transportation infrastructure, principles of SWOT analysis, method for evaluation of alternatives and the general characteristics of the Slovak Republic. The practical part is focused on the analysis of transporation and creation of recommendations based on this analysis.
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Exploring Social/Cultural Factors that Influence the Motivation of Muslim Women to Walk in Their Neighborhoods (A Case Study of Detroit Metro Area)Mohebbi, Mehri 01 October 2019 (has links)
No description available.
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Análise de sistemas integrados de transporte rodo-fluvial-marítimo sob a influência de regimes sazonais. / Analysis of an integrated transportation system road-river-sea under the incluences of seasonal periods.Mathias, Tiago Novaes 15 August 2016 (has links)
Este trabalho está voltado à avaliação dos problemas do transporte intermodal sob efeito de restrições sazonais que, usualmente, não são consideradas na fase de planejamento e dimensionamento da frota. E, considerando a sobreposição de dois fatores sazonais restritivos ao longo da cadeia de transportes - a variação na produção de grãos ao longo do ano e a sazonalidade das cotas de nível d\'água nas hidrovias -, um modelo de simulação de eventos discretos mostra as impedâncias sofridas no sistema pela junção de fatores restritivos bem fortes. É possível avaliar o impacto dessas restrições não só no nível de utilização dos silos intermediários e silagem do porto, mas também no número de veículos necessários para fazer o transporte de commodities na região Centro-Oeste do Brasil. Em um sistema de transporte composto pelos modais rodoviário, hidroviário e marítimo, no qual o modelo de simulação abrange desde a produção nas fazendas, passando pelo transporte de caminhão até os armazéns intermediários, posteriormente com o transporte fluvial com destino ao porto para exportação. O presente estudo traz uma série de comparações entre cenários para avaliação dos gargalos existentes neste sistema de transporte intermodal, especialmente avaliando cenários com e sem as restrições sazonais, assim como análises de sensibilidade de performance de equipamentos de carregamento e descarregamento, nos quais a frota e os estoques necessários são substancialmente diferentes se a sazonalidade não for considerada. / This work focuses on the evaluation of the intermodal transport problems under the influence of seasonal constraints that are not usually considered on the phase of planning and sizing the fleet. Considering the superposition of two different seasonal factors along the transportation chain - first one the variation on grain production and the second one the level of water in the waterways throughout the year -, a discrete event simulation model was built to show the real effects of those constraints in the grain supply chain. So, it is possible to evaluate the impact of those constraints not only on the usage level of storages in this system, but also the number of vehicles required to transport this commodities from the Midwest of Brazil to the port. In a complex multimodal transportation system, the simulation model in this work includes roadways, waterways and seaways to transport all the cargo from farms to the final costumer. This study is composed by a number of scenarios to evaluate the bottlenecks in this intermodal transportation system, specially analyzing scenarios with and without seasonal constraints, as well as analysis of sensitivity of performance of equipment of loading and unloading, in which the fleet and the required stocks are substantially different if seasonality is not considered. In other words, it is possible to evaluate the risks involved when managers are making decisions if they do not take in consideration any of those seasonal constraints.
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Análise de sistemas integrados de transporte rodo-fluvial-marítimo sob a influência de regimes sazonais. / Analysis of an integrated transportation system road-river-sea under the incluences of seasonal periods.Tiago Novaes Mathias 15 August 2016 (has links)
Este trabalho está voltado à avaliação dos problemas do transporte intermodal sob efeito de restrições sazonais que, usualmente, não são consideradas na fase de planejamento e dimensionamento da frota. E, considerando a sobreposição de dois fatores sazonais restritivos ao longo da cadeia de transportes - a variação na produção de grãos ao longo do ano e a sazonalidade das cotas de nível d\'água nas hidrovias -, um modelo de simulação de eventos discretos mostra as impedâncias sofridas no sistema pela junção de fatores restritivos bem fortes. É possível avaliar o impacto dessas restrições não só no nível de utilização dos silos intermediários e silagem do porto, mas também no número de veículos necessários para fazer o transporte de commodities na região Centro-Oeste do Brasil. Em um sistema de transporte composto pelos modais rodoviário, hidroviário e marítimo, no qual o modelo de simulação abrange desde a produção nas fazendas, passando pelo transporte de caminhão até os armazéns intermediários, posteriormente com o transporte fluvial com destino ao porto para exportação. O presente estudo traz uma série de comparações entre cenários para avaliação dos gargalos existentes neste sistema de transporte intermodal, especialmente avaliando cenários com e sem as restrições sazonais, assim como análises de sensibilidade de performance de equipamentos de carregamento e descarregamento, nos quais a frota e os estoques necessários são substancialmente diferentes se a sazonalidade não for considerada. / This work focuses on the evaluation of the intermodal transport problems under the influence of seasonal constraints that are not usually considered on the phase of planning and sizing the fleet. Considering the superposition of two different seasonal factors along the transportation chain - first one the variation on grain production and the second one the level of water in the waterways throughout the year -, a discrete event simulation model was built to show the real effects of those constraints in the grain supply chain. So, it is possible to evaluate the impact of those constraints not only on the usage level of storages in this system, but also the number of vehicles required to transport this commodities from the Midwest of Brazil to the port. In a complex multimodal transportation system, the simulation model in this work includes roadways, waterways and seaways to transport all the cargo from farms to the final costumer. This study is composed by a number of scenarios to evaluate the bottlenecks in this intermodal transportation system, specially analyzing scenarios with and without seasonal constraints, as well as analysis of sensitivity of performance of equipment of loading and unloading, in which the fleet and the required stocks are substantially different if seasonality is not considered. In other words, it is possible to evaluate the risks involved when managers are making decisions if they do not take in consideration any of those seasonal constraints.
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Algorithmes de recherche d'itinéraires en transport multimodal / Shortest path Algorithms in multimodal transportationGueye, Fallou 14 December 2010 (has links)
Ce travail de thèse s’est intéressé au transport urbain de passagers dans un contexte d’offre de transport multimodale consistant en la coexistence de plusieurs modes de transport. Dans la pratique, un problème de transport multimodal nécessite la prise en compte de plusieurs objectifs et de contraintes spécifiques liées aux modes ou à la séquence de modes utilisés. De telles contraintes sont appelées contraintes de viabilité.Cette thèse CIFRE s’est déroulée en collaboration avec la société MobiGIS, spécialisée dans le conseil et le développement d’applications autour des Systèmes d’Information Géographiques.Le problème étudié dans cette thèse est celui de la recherche d’itinéraires viables multimodaux point à point bi-objectif pour lequel il s’agit à la fois de minimiser le temps de trajet et le nombre de changements de mode. Compte tenu notamment des objectifs considérés, ce problème est de complexité polynomiale.Sur la base d’une modélisation multi-couches des réseaux de transport multimodaux et d’une modélisation par un automate à états finis des contraintes de viabilité nous avons proposé différents algorithmes de résolution de ce problème basés sur le principe de fixation et extension de labels. Nous avons également proposé une règle de dominance basée sur les états de l’automate de viabilité et permettant d’élaguer le nombre de labels explorés par nos algorithmes. Des adaptations en bidirectionnel ou en utilisant le principe de la recherche A_ ont également été proposées.Les algorithmes proposés ont été évalués sur une partie du réseau de transport de la ville de Toulouse et les expérimentations ont mis en évidence l’intérêt de la règle de dominance basée sur les états ainsi que de l’approche bidirectionnelle développée.Un prototype logiciel implémentant différentes fonctionnalités des algorithmes de plus courts chemins a été développé. Il permet notamment de réaliser des calculs d’itinéraires point à point, des calculs d’accessibilité ou des calculs de distancier / This thesis focuses on urban passenger multimodal transportation. In practice, a multimodal transportation problem requires taking into account several objectives and specific constraints related to modes or sequence of used modes. Such constraints are called viability constraints. This work has been carried out in collaboration with MobiGIS, a company specialized in consulting and development of applications around Geographical Information Systems.The problem studied in this thesis is the bi-objective multimodal viable point-to-point shortest path, aiming at minimizing the total travel time and the total number of mode changes. Given the considered objectives, this problem is polynomial.On the basis of a multi-layered graph model of the multimodal transportation networks, and of a finite state automaton model of the viability constraints, we propose various algorithms for solving this problem, based on the principle of label setting and extension.We also proposed a new dominance rule based on the states of the automaton to reduce the number of labels explored by our algorithms. Bidirectional and A* variants are also proposed.The algorithms are evaluated the transportation network of the city of Toulouse and experiments demonstrate the interest of the proposed dominance rules and bidirectional approach. A prototype software implementing different features of the shortest path algorithms has been developed. It notably enables calculations of point-to-point routes, accessibility and origin-destination matrices
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The evolution of multimodal transportation planning: key factors in shaping the approaches of state DOTsSmith, Denise A. 09 April 2013 (has links)
As a result of the changing needs of society since the early 20th century, approaches to transportation planning have been continually shifting from highway-focused to multimodal, an approach which takes multiple modes of transportation into consideration. This evolution has been reflected in federal transportation legislation and continues to have many implications for transportation agencies, especially state departments of transportation (DOTs).
The objective of this thesis is to analyze what state DOTs have done in order to adapt to the shift. More specifically, the project focuses on the organizational and funding structures of state DOTs. First, an organizational structure analysis of all 50 state DOTs was carried out. This analysis looked at how state DOTs incorporate multiple modes of transportation into their organizational structure. Secondly, the results of a statewide multimodal planning survey, to which 35 states responded, were analyzed. The survey gauged to what extent the representative from a given state DOT thought that their agency was conducting multimodal transportation planning. It also analyzed state DOT modal responsibilities, funding options, and characteristics that influence multimodal transportation planning. Lastly, case studies were carried out for six state transportation agencies: Florida DOT, North Carolina DOT, Oregon DOT, Virginia's Transportation Secretariat, Maryland DOT, and Massachusetts DOT. These case studies focused on organizational structure, funding, and multimodal efforts.
Findings from the three different aspects of this thesis support the notion that highway is still the dominant mode in statewide transportation planning in most state DOTs. However, this research also supports the idea that this situation is changing, though more rapidly in some states than in others. Though it is not evident that one type of organizational structure is better than another, states have used the reorganization of these structures as a method for adapting to multimodal transportation planning. Overall, state DOTs tend to incorporate multiple modes of transportation into their organizational structure through multimodal divisions, separate modal divisions, or a combination of both. In addition to the organizational structures, some states have also restructured their funding mechanisms in order to make funds more flexible across all modes of transportation so that they may be able to better accommodate multimodal transportation planning. Those state DOTs with transportation trust funds and separate modal programs have generally shown more initiative in embracing a more multimodal approach to transportation planning. Besides organizational and funding structures, leadership, organizational culture, and institutional issues have been recognized as factors that influence the extent of multimodal planning.
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OPTIMERING AV TRANSPORTFLÖDET FÖR MASSAVED : Minimering av transportkostnader och koldioxidutsläpp för Norra Skogs tåg- och lastbilstransporter / OPTIMIZATION OF TRANSPORT FLOW FOR PULPWOOD : Minimization of transport costs and carbondioxide emissions for Norra Skog’s train and truck transportsHäggström, Hanna, Leonardson, Mimmi January 2024 (has links)
Med fokus på att öka lönsamheten för sina medlemmar strävar Norra Skog ständigt efter att förbättra och effektivisera sin logistik för att hantera det ständigt föränderliga flödet av massaved från skogsavlägg till industri. För att uppnå detta har företaget implementerat Woodflow, en avancerad programvara för logistikoptimering. I linje med det ökande intresset för att minska transportkostnader och främja hållbarhet inom transportnätverket, har det också börjat väcka intresse för att undersöka möjligheterna till att utöka användningen av tågtransporter för massaved. Detta examensarbete syftar till att analysera och optimera Norra Skogs transportflöde av massaved med målet att minimera transportkostnader och undersöka möjligheterna till att minska koldioxidutsläpp inom transportflödet. Arbetet inleddes med en grundlig litteraturstudie för att skapa en förståelse för leveranskedjan för massaved inom skogsindustrin samt ge en bakgrund till den optimeringsteori som ligger till grund för programvaran Woodflow. Genom användning av Woodflow utfördes olika scenarioanalyser för att utvärdera olika strategier och metoder för att optimera transportflödet. Relevanta data för projektet samlades in och bearbetades för att förbereda indata till programvaran och möjliggöra analys av informationen om transportflöden för massaved. De undersökta scenarierna inkluderade ett scenario som speglade det faktiska transportflödet år 2023 och ett scenario med optimerade lastbilstransporter som användes som referenspunkt. Vidare genomfördes ett scenario med fria tåg- och lastbilstransporter med syftet att undersöka det optimala transportflödet som minimerar transportkostnader. Införande av nya terminaler och uteslutande av en befintlig terminal undersöktes i ett scenario och dessutom utfördes en analys av minimering av koldioxidutsläpp och transportkostnader genom att tillämpa en premiekostnad som representerade lastbilstransporternas högre koldioxidutsläpp. Till sist genomfördes ett framtidsscenario som syftar till att undersöka hur Norra Skog bör planera för sina transporter i framtiden utifrån prognoser av ökade tillgångsvolymer. Genom att noggrant utvärdera dessa olika scenarier söker arbetet efter de mest effektiva och hållbara lösningarna för Norra Skogs transportflöde för massaved. Resultatet visar på att det finns potential till stora kostnadsbesparingar och betydande minskningar av koldioxidutsläpp genom att optimera lastbilstransporterna från det faktiska utfallet 2023. Därefter finns ytterligare kostnadsbesparingar att hämta genom att optimera tågflödet och transportera mer volym via detta mer hållbara transportslag. Samtliga optimeringar av tågflödet, förutom framtidsscenariot med ökad tillgång, bidrar till ytterligare minskningar av koldioxidutsläpp och det anses därav vara av intresse för Norra Skog att fortsatt undersöka och utvärdera möjligheten att utöka tågtransporterna. Det är främst terminalen Storuman som visar på stor potential för fler antal tågavgångar, medan Hissmofors och Bastuträsk överlag visar minst potential för utökning av tågtransporter. Vidare visar terminalen Östavall ytterligare potential för ökad transport av massaved via tåg genom att helt ersätta terminalen Ånge. / Focusing on increasing profitability for its members, Norra Skog continuously strives to improve and streamline its logistics to manage the ever-changing flow of pulpwood from forest sites to industry. To achieve this, the company has implemented Woodflow, an advanced logistics optimization software. In line with the growing interest in reducing transportation costs and promoting sustainability within the transport network, there has also been increasing interest in exploring the possibilities of expanding the use of rail transport for pulpwood. This thesis aims to analyze and optimize Norra Skog's transport flow of pulpwood with the goal of minimizing transportation costs and exploring possibilities to reduce carbon dioxide emissions within the transport flow. The work began with a thorough literature review to create an understanding of the supply chain for pulpwood in the forestry industry and then provide a background to the optimization theory underlying the Woodflow software. Using Woodflow, various scenario analyses were conducted to evaluate different strategies and methods for optimizing the transport flow. Relevant data for the project was collected and processed to prepare input for the software and enable the analysis of information on pulpwood transport flows. The scenarios examined included one that reflected the actual transport flow in 2023 and one with optimized truck transports used as a reference point. Furthermore, a scenario with free rail and truck transports was conducted to investigate the optimal transport flow that minimizes transportation costs. The introduction of new terminals and the exclusion of an existing terminal were examined in one scenario, and an analysis of minimizing carbon dioxide emissions and transportation costs was also performed by applying a premium cost representing the higher carbon dioxide emissions of truck transports. Finally, a future scenario was conducted to examine how Norra Skog should plan its transports in the future based on forecasts of increased supply volumes. By carefully evaluating these different scenarios, the work seeks the most efficient and sustainable solutions for Norra Skog's pulpwood transport flow. The results show that there is potential for significant cost savings and substantial reductions in carbon dioxide emissions by optimizing truck transports from the actual outcome in 2023. Further cost savings can be achieved by optimizing the rail flow and transporting more volume with this more sustainable mode of transport. All optimizations of the rail flow, except for the future scenario with increased supply, contribute to further reductions in carbon dioxide emissions and are therefore considered of interest for Norra Skog to continue evaluating the possibility of expanding rail transports. It is mainly the terminal Storuman that shows great potential for an increased number of rail departures, while Hissmofors and Bastuträsk generally show the least potential for the expansion of rail transports. Furthermore, the Östavall terminal shows additional potential for increased transport of pulpwood by rail by completely replacing the Ånge terminal.
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