International Encyclopedia of Transportation
International Encyclopedia of Transportation

Author:

Publisher: Elsevier

Published: 2021-05-13

Total Pages: 4418

ISBN-13: 0081026722

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In an increasingly globalised world, despite reductions in costs and time, transportation has become even more important as a facilitator of economic and human interaction; this is reflected in technical advances in transportation systems, increasing interest in how transportation interacts with society and the need to provide novel approaches to understanding its impacts. This has become particularly acute with the impact that Covid-19 has had on transportation across the world, at local, national and international levels. Encyclopedia of Transportation, Seven Volume Set - containing almost 600 articles - brings a cross-cutting and integrated approach to all aspects of transportation from a variety of interdisciplinary fields including engineering, operations research, economics, geography and sociology in order to understand the changes taking place. Emphasising the interaction between these different aspects of research, it offers new solutions to modern-day problems related to transportation. Each of its nine sections is based around familiar themes, but brings together the views of experts from different disciplinary perspectives. Each section is edited by a subject expert who has commissioned articles from a range of authors representing different disciplines, different parts of the world and different social perspectives. The nine sections are structured around the following themes: Transport Modes; Freight Transport and Logistics; Transport Safety and Security; Transport Economics; Traffic Management; Transport Modelling and Data Management; Transport Policy and Planning; Transport Psychology; Sustainability and Health Issues in Transportation. Some articles provide a technical introduction to a topic whilst others provide a bridge between topics or a more future-oriented view of new research areas or challenges. The end result is a reference work that offers researchers and practitioners new approaches, new ways of thinking and novel solutions to problems. All-encompassing and expertly authored, this outstanding reference work will be essential reading for all students and researchers interested in transportation and its global impact in what is a very uncertain world. Provides a forward looking and integrated approach to transportation Updated with future technological impacts, such as self-driving vehicles, cyber-physical systems and big data analytics Includes comprehensive coverage Presents a worldwide approach, including sets of comparative studies and applications

Evaluation of the Impact of the I-66 Active Traffic Management System: Phase II
Evaluation of the Impact of the I-66 Active Traffic Management System: Phase II

Author: Nancy Dutta

Publisher:

Published: 2018

Total Pages: 48

ISBN-13:

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In early 2013, construction began on a Virginia Department of Transportation (VDOT) project to install an Active Traffic Management (ATM) system on I-66 from US 29 in Centreville to the Capital Beltway (I-495). Construction was completed in September 2015. This project was intended to improve safety and operations on I-66 without physically expanding the roadway through better management of the existing facility. The main components of the installed system included advisory variable speed limits (AVSL), lane use control signals (LUCS), and hard shoulder running (HSR). In 2016, the Virginia Transportation Research Council completed a Phase I evaluation of the system, covering its first 5 months of operation. A before-after study to quantify the effectiveness of the system was performed using “after” data from October 2015–February 2016 (21 weeks) for the operational analysis and data from October 2015–December 2015 (13 weeks) for the safety analysis. Since the operational and safety analyses were performed using limited amounts of data, the results were preliminary. The analysis showed several benefits attributable to dynamic HSR, but only 1.5 months of data were available with the AVSL active. In Phase II, the project was expanded to evaluate the long-term effects of the I-66 ATM system. For this phase, data from October 2015–November 2017 were used for the operational analysis and data from October 2015–December 2016 were used for the safety analysis. The operational measures of effectiveness were the same as for Phase I and included the ATM utilization rate, average travel time, and travel time reliability. In order to evaluate the safety impacts, the empirical Bayes method was used with safety performance functions developed for Virginia. Segment-level analysis was performed to determine the segments that had benefitted the most from the implementation of the ATM system. From this segment-level analysis, it was determined that HSR was the ATM component that created most of the improvements on I-66. The operational analysis showed that travel time improved significantly during off-peak hours after the ATM system was activated but that travel time during peak periods in the peak direction of travel generally did not improve. Further analysis revealed that most of these improvements occurred on the sections with HSR. The safety evaluation showed 6%, 10%, and 11% reductions in total (all severity), multiple-vehicle (all severity), and rear-end (all severity) crashes, respectively. Segment-level analysis again showed that the most safety benefits were found for locations with HSR (crash reductions of 25% to 40%), and no statistically significant reductions were found for sections with only AVSL and LUCS. The results of the analysis showed that HSR could produce statistically significant operational and safety benefits but that the effects of other ATM components were more limited. The study recommends that VDOT’s Operations Division and regions use the results from I-66 to inform decisions about future ATM and HSR use in Virginia.

Evaluation of the Impact of the I-66 Active Traffic Management System
Evaluation of the Impact of the I-66 Active Traffic Management System

Author: PilJin Chun

Publisher:

Published: 2016

Total Pages: 65

ISBN-13:

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Construction of a Virginia Department of Transportation project to install an Active Traffic Management (ATM) system on I-66 from U.S. 29 in Centreville to the Capital Beltway (I-495) was completed in September 2015. The project was constructed to improve safety and operations on I-66 through better management of existing roadway capacity. The main components of the ATM system were advisory variable speed limits (AVSL), queue warning systems (QWS), lane use control signs (LUCS), and hard shoulder running (HSR). Since ATM is still a relatively new approach in the United States, there was a need to analyze the effects of the I-66 ATM. Thus, a before-and-after study was conducted to quantify its effectiveness. The study used "after" data from October 2015-February 2016 (21 weeks) for the operations analysis and data from October 2015-December 2015 (13 weeks) for the safety analysis. Operations and safety evaluations were performed using limited data, so the results should be considered preliminary. The operational measures of effectiveness (MOEs) included ATM utilization rate, average travel time, travel time reliability, and total travel time delay. The safety MOEs included crash rates by type and severity and incident frequency. These MOEs were analyzed using INRIX travel time data, limited traffic volume point sensor data, police crash reports, and iPeMS traffic incident data. Segment-level analysis was performed to determine the segments that benefitted the most from ATM implementation. From this segment-level analysis, it was determined that HSR was the ATM component that led to most of the improvements on I-66. The results of the study indicate that the ATM produced positive operational and safety benefits across multiple MOEs. The ATM generally had limited operational and safety impacts during the weekday peak periods and some impacts during the midday and off-peak weekday periods. Average weekday travel times during the midday period in the off-peak direction typically improved by 2% to 6%. However, weekday peak period travel times and travel time reliability in the peak direction continued to degrade after ATM installation. This was not surprising given that HSR was already in use during the weekday peak periods before ATM activation and there has been a historic trend of increased travel times on the corridor. There were large operational benefits on weekends, with average travel times and travel time reliability improving by approximately 10% during the weekend peak periods. The weekend improvements were most likely due to the activation of HSR, which had not been active during weekends before ATM implementation, so the additional capacity served to alleviate congestion after activation. The safety analysis showed promising results for weekends, but no solid conclusions could be formed because of the limited data available for the safety analysis. A planning-level benefit-cost ratio was calculated based on the initial operational and safety benefits. The ATM had a benefit-cost ratio of 1.54 based on conservative assumptions that used only weekend operational improvements. This indicates that the I-66 ATM was a cost-efficient solution for improving operations and safety on I-66. The study recommends expansion of ATM in Virginia and further study.

Routledge Handbook of Transportation
Routledge Handbook of Transportation

Author: Dusan Teodorovic

Publisher: Routledge

Published: 2015-08-20

Total Pages: 483

ISBN-13: 1317630912

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The Routledge Handbook of Transportation offers a current and comprehensive survey of transportation planning and engineering research. It provides a step-by-step introduction to research related to traffic engineering and control, transportation planning, and performance measurement and evaluation of transportation alternatives. The Handbook of Transportation demonstrates models and methods for predicting travel and freight demand, planning future transportation networks, and developing traffic control systems. Readers will learn how to use various engineering concepts and approaches to make future transportation safer, more efficient, and more sustainable. Edited by Dušan Teodorović and featuring 29 chapters from more than 50 leading global experts, with more than 200 illustrations, the Routledge Handbook of Transportation is designed as an invaluable resource for professionals and students in transportation planning and engineering.

Dynamics in GIscience
Dynamics in GIscience

Author: Igor Ivan

Publisher: Springer

Published: 2017-08-23

Total Pages: 420

ISBN-13: 3319612972

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This book is intended for researchers, practitioners and students who are interested in the current trends and want to make their GI applications and research dynamic. Time is the key element of contemporary GIS: mobile and wearable electronics, sensor networks, UAVs and other mobile snoopers, the IoT and many other resources produce a massive amount of data every minute, which is naturally located in space as well as in time. Time series data is transformed into almost (from the human perspective) continuous data streams, which require changes to the concept of spatial data recording, storage and manipulation. This book collects the latest innovative research presented at the GIS Ostrava 2017 conference held in 2017 in Ostrava, Czech Republic, under the auspices of EuroSDR and EuroGEO. The accepted papers cover various aspects of dynamics in GIscience, including spatiotemporal data analysis and modelling; spatial mobility data and trajectories; real-time geodata and real-time applications; dynamics in land use, land cover and urban development; visualisation of dynamics; open spatiotemporal data; crowdsourcing for spatiotemporal data and big spatiotemporal data.