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An investigation into the electrical conditions of the Cedar Rapids and Iowa City RailwayMacDonald, J. R. 01 January 1906 (has links)
No description available.
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Investigation of Recurrent Neural Network architectures based Deep Learning for Short-Term Traffic Speed ForecastingFandango, Armando 01 January 2020 (has links)
The availability of large tranches of data and its influence on traffic flow, make the problem of short-term traffic speed prediction very complex in nature. For more than 40 years, various statistical time series forecasting methods have been applied for traffic speed prediction, and in the last 20 years, machine learning-based methods have gained prevalence. However, more recently, recurrent neural network (RNN) based methods have emerged to show better results for traffic speed prediction\cite{tian2015pred, zhao2017lstm,fu2017usin,chen2016long,dai2017deep,dai2019deep, kanestrom2017traf,shao2016traf,jia2017traf}. As the interest in applying RNN models to the traffic speed predictions started to grow, we found some critical and important unanswered questions with respect to the application of such methods. From these open questions, as part of this research study, we studied the following three questions for multi-step-ahead short-term traffic speed predictions: - What is the impact of using the direct and recursive strategies on the accuracy of RNN models as compared to using the multi-input-multi-output (MIMO) strategy? - What is the impact of different aggregation intervals for the input data? - What is the impact of including additional variables such as volume, occupancy, time of day, day of week, and spatial location as represented by station or sensor id? Our study resulted in the following observations, conclusions, and recommendations: - We observed that GRU architecture based RNN models had better accuracy as compared to other architectures. Thus we recommend that modeling efforts start with GRU architecture. - We observed that combining direct strategy with RNN gives the same accuracy as MIMO (i.e. many-to-many RNN architecture), however, the time taken for building many-to-many RNN architecture is much less as compared to direct strategy. Thus we recommend avoiding the use of recursive or direct strategies and advise the use of many-to-many RNN architecture without combining any other strategies. - We observed that there was no significant difference in the accuracy of 5,10,15 minute aggregations and that adding additional variables does not necessarily always result in higher accuracy. In both cases, we observed that using autotuning with a Bayesian algorithm was able to reduce the error metrics to a smaller range for almost all the combinations of aggregations and multivariate features. Among different data aggregations and feature sets, we suggest converting these choices as hyper-parameters and let the Bayesian algorithm based hyper-parameter tuner select the best combinations for your dataset. With the above contributions, this dissertation seeks to give traffic engineers a better understanding of how to apply modern methods for multi-step-ahead short-term traffic speed predictions.
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Assessing the Impact of Multi-variate Steering-rate Vehicle Control on Driver Performance in a Simulation FrameworkXynidis, Michael 01 January 2018 (has links)
When a driver turns a steering-wheel, he or she normally expects the vehicle's steering system to communicate an equivalent amount of signal to the road-wheels. This relationship is linear and occurs regardless of the steering-wheel's position within its rotational travel. The linear steering paradigm in passenger vehicles has gone largely unchanged since mass production of passenger vehicles began in 1901. However, as more electronically-controlled steering systems appear in conjunction with development of autonomous steering functions in vehicles, an opportunity to advance the existing steering paradigms arises. The following framework takes a human-factors approach toward examining and evaluating alternative steering systems by using Modeling and Simulation methods to track and score human performance. Present conventional steering systems apply a linear relationship between the steering-wheel and the road wheels of a vehicle. The rotational travel of the steering-wheel is 900° and requires two-and-a-half revolutions to travel from end-stop to opposite end-stop. The experimental steering system modeled and employed in this study applies a dynamic curve response to the steering input within a shorter, 225° rotational travel. Accommodation variances, based on vehicle speed and steering-wheel rotational position and acceleration, moderate the apparent steering input to augment a more-practical, effective steering rate. This novel model follows a paradigm supporting the full range of steering-wheel actuation without necessitating hand repositioning or the removal of the driver's hands from the steering-wheel during steering maneuvers. In order to study human performance disparities between novel and conventional steering models, a custom simulator was constructed and programmed to render representative models in a test scenario. Twenty-seven males and twenty-seven females, ranging from the ages of eighteen to sixty-five were tested and scored using the driving simulator that presented two successive driving test vignettes: One vignette using conventional 900° steering with linear response and the other employing the augmented 225° multivariate, non-linear steering. The results from simulator testing suggest that both males and females perform better with the novel system, supporting the hypothesis that drivers of either gender perform better with a system augmented with 225° multivariate, non-linear steering than with a conventional steering system. Further analysis of the simulated-driving scores indicates performance parity between male and female participants, supporting the hypothesis positing no significant difference in driver performance between male and female drivers using the augmented steering system. Finally, composite data from written questionnaires support the hypothesis that drivers will prefer driving the augmented system over conventional steering. These collective findings support justification for testing and refining novel steering systems using Modeling and Simulation methods. As a product of this particular study, a tested and open-sourced simulation framework now exists such that researchers and automotive designers can develop, as well as evaluate their own steering-oriented products within a valid human-factors construct. The open-source nature of this framework implies a commonality by which otherwisedisparate research and development work can be associated. Extending this framework beyond basic investigation to reach applications requiring morespecialized parameters may even impact drivers having special needs. For example, steeringsystem functional characteristics could be comparatively optimized to accommodate individuals afflicted with upper-body deficits or limited use of either or both arms. Moreover, the combined human-factors and open-source approaches distinguish the products of this research as a common and extensible platform by which purposeful automotive-industry improvements can be realized—contrasted with arbitrary improvements that might be brought about predominantly to showcase technological advancements.
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Understanding Changes In Land Use Patterns At A Parcel Level In Central Florida Counties (Orange, Seminole, Osceola)Elsebaie, Youssef Mohamed Abdelaziz 01 January 2023 (has links) (PDF)
In Florida, a state with significant population growth, it is essential to understand how land use change and transportation interact. Understanding these interactions between land use and transport is useful for transportation planners and land use modelers. Hence, in this research, we attempt to quantify the impact of the transportation system on land use and vice-versa. The research, using high-resolution land use data from 2011 to 2019, builds a binary logistic regression model of land use change. The model accounts for various independent variables, including socio-demographic attributes, built environment characteristics, and transportation network variables. The data set covers GIS data for three Central Florida counties: Orange, Osceola, and Seminole. The model building exercise is conducted using a random sample of parcel-level records. The model results indicate that as the distance to the nearest road or central business district (CBD) or shopping centers from the parcel increases, the likelihood of land use change is reduced. Furthermore, increasing the number of cafeterias or supermarkets or restaurants in the area lessens the likelihood of land use change. On the other hand, as the distance to the nearest recreational area or park or hospital from the parcel increases the likelihood of land use change is likely to be higher. The model developed was also validated using a holdout sample analysis.
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Applying Mathcad to the Highway Capacity ManualFernandez Leon, Jose Alfredo 08 April 2004 (has links)
The objective of this study was to develop a tool for engineers and researchers to understand the underlying logic of the Highway Capacity Manual (HCM) procedures. The HCM offers a collection of methodologies and techniques for estimating the capacity and evaluation of the level of service for highway, street and transit facilities (HCM 2000). Mathcad worksheets were developed to replicate the computational procedures of five chapters of the HCM. The principal topics addressed are advantages of the Mathcad worksheets over existing implementations of the HCM, challenges associated with the implementation, and changes and additions made to the format of the HCM worksheets reflecting capabilities and limitations of Mathcad. These dynamic documents allow the user to easily explore the sensitivity of the procedures to varying equations, relationships and input parameters. Because the Mathcad worksheets display information in a manner similar to the HCM, most users will find the worksheets straightforward to use and interpret. As such the Mathcad worksheets offer better transparency than other implementations of the HCM procedures.
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Student understanding of sight distance in geometric design a beginning line of inquiry to characterize student understanding of transportation engineering /Andrews, Brock Taylor. January 2009 (has links) (PDF)
Thesis (M.S. in civil engineering)--Washington State University, December 2009. / Title from PDF title page (viewed on Jan. 15, 2010). "Department of Civil and Environmental Engineering." Includes bibliographical references (p. 30-31).
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Implimentation [sic] and measures of effectiveness of travel demand management measures /Bausher, Christopher S. January 1994 (has links)
Report (M.S.)--Virginia Polytechnic Institute and State University, 1994. / Abstract. Includes bibliographical references (leaves 30-33). Also available via the Internet.
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Development of a framework for preliminary risk analysis in transportation projectsGuo, Wei. January 2004 (has links)
Thesis (M.S.)--Worcester Polytechnic Institute. / Keywords: continuous risk analysis; risk management; transportation infrastructure projects; cost overrun. Includes bibliographical references (p. 90-92).
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An initial implementation of a multi-agent transport simulator for South AfricaFourie, Pieter Jacobus. January 2009 (has links)
Thesis (M.Eng.(Industrial Engineering))--University of Pretoria, 2009. / Includes bibliographical references.
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Die invloed van skoolritte op vervoerstudiesHavenga, Cornelia Wilhelmina 25 March 2014 (has links)
M.Ing. (Transportation Engineering) / Please refer to full text to view abstract
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