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Transportation Geography and Network Science
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Table of contents
Underground, London
Introductory Material
About
Introduction
What can Transportation Geography and Network Science teach each other?
Graphs
Dijkstra's Algorithm
Graph theory
Analyzing Networks
Spatial Econometrics
Accessibility
Accessibility
Characterizing Networks
Characterizing Graphs
Mobility
Centrality
Circuity
Topology
Hierarchy
Morphology
Legibility
Space syntax
Connectivity
Network Performance
Reliability
Resilience
Robustness
Vulnerability
Network Topologies
Scaling and size
Random graphs
Small-world network
Scale-free network
Hub and spoke network
Transport Network Technologies
Modal selection
Road networks
Public transit networks
Freight rail networks
Pipeline networks
Taxi networks
Shared micromobility networks
Bicycle networks
Last mile problem
Last meter problem
Electrical Network Technologies
Electric grid
Telephony
Telegraphy
Wireless networks
Internet
Broadcast networks
Civil Engineering Networks
Physical structures
Water and wastewater distribution
Social Networks
Social networks
Flows and Walks
Flows on Networks
Spatial Interaction
Agglomeration
Evolving Networks
Network grammars
Network formation
Network growth models
Network design problem
(NDP)
Network flexibility and adaptability
Networks and Travel Behavior
Time Geography
Telecommunications networks and travel behavior
Social networks and travel behavior
Wayfinding
Networks and biology
Networks and animal behavior
Epidemics on networks
Circulatory system
Neuronal networks
Conclusions
Conclusions
Related Wikibooks
Fundamentals of Transportation
Transportation Economics
Useful Off-site Resources
SONG: Simulator of Network Growth
SONIC: Simulator of Network Incremental Connection
CLUSTER: Clustered Location of Urban Services, Transport, and Economic Resources
ABODE: Agent Based Origin Destination Estimator
Wikipedia
has related information at
Transportation geography