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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.
The doctoral dissertation investigates the consequences of multimodal traveling for designing multimodal transport networks. It describes the characteristics of multimodal travel today and assesses its future potential. The analysis focuses on the way transport transport networks are organized in hierarchical network structures and determines the main mechanisms leading to these hierarchical network structures
This book offers a wealth of interdisciplinary approaches to urbanization strategies in architecture centered on growing concerns about the future of cities and their impacts on essential elements of architectural optimization, livability, energy consumption and sustainability. It portrays the urban condition in architectural terms, as well as the living condition in human terms, both of which can be optimized by mathematical modeling as well as mathematical calculation and assessment. Special features include: • new research on the construction of future cities and smart cities • discussions of sustainability and new technologies designed to advance ideas to future city developments Graduate students and researchers in architecture, engineering, mathematical modeling, and building physics will be engaged by the contributions written by eminent international experts from a variety of disciplines including architecture, engineering, modeling, optimization, and related fields.
Public Transport is a comprehensive textbook covering the planning of all public transport systems (bus, coach, rail, taxi and domestic air travel) in Britain and other countries with similar systems. The term ‘planning’ is used both in the context of local authority and central government roles and in the work done by transport operators for example, network structures, vehicle type selection. In addition to the various types of transport, the differing needs of the urban, rural and long distance markets are examined. This restructured new edition gives greater emphasis to service quality and marketing issues as well as covering recent changes in legislation, statistics and research findings. Public Transport is of particular interest to transport planners in local authorities and consultancies, managers in transport operations, as well as undergraduates and MSc students of transport planning and those studying for the membership examinations of the Chartered Institute of Logistics and Transport.
Peter White reviews current practices in urban, rural and long-distance travel by road, rail and air. The review covers the legal and organisational structure in Britain but is also applicable to many other countries.
Widened in scope and completely updated, this new edition of a well-established textbook provides an authoritative introduction to all modes of public transport; from taxis and local buses to intercity rail, domestic air and express coaches.
Feeder transit system (FTS) aims at arranging access to vehicles located at different depots at all demand points and transporting residents from these selected pick-up stops to transportation hubs (rail station and airport etc.). The FTS transit network, including a set of nodes (transportation hubs, bus stops, demand points, and depots) and links between them, is regarded as an effective tool to provide a better first/last mile service to and from the major fixed-route transit networks. The first/last mile access to major fixed-route transit networks and connectivity of residential areas is one of the main challenges faced by public transit. A well-designed FTS transit network shifted transport demand from individual car traffic to public transport and further enhanced urban sustainability. A feasible solution to the problem is the planning, design and implementation of efficient feeder transit services.