Public Transport

Public transit agencies around the world are collecting more data than ever before, and they are turning to MIT to help them apply this data to improve operations and passenger outcomes. For decades, MIT has collaborated with some of the world's largest transit agencies to improve strategic, tactical and operational decisions.

The research labs and faculty working in this area are shown below. You can see a full listing of the people and labs involved with the MIT Mobility Initiative by navigating to the people page and the labs page.

Researchers

Jim Aloisi

Lecturer of Transportation Policy and Planning

Research Interests:

Urban Transportation, Equity, Public Realm Design, Public Transportation Funding and Service Delivery

Fred Salvucci

Senior Lecturer and Senior Research Associate

Research Interests:

Infrastructure, Urban Transportation, Public Transportation, Institutional Development in Decision-Making.

Jinhua Zhao

Edward H. and Joyce Linde Associate Professor of Transportation and City Planning, Director of MIT Mobility Initiative

Research Interests:

Urban Transportation, Travel Behavior, Shared and Automated Mobility Planning, Public Transit

John Attanucci

Lecturer, Research Associate and Manager of the MIT Transit Research Program

Research Interests:

Transportation Planning, Transit Management and Operations, Transit Information and Decision Support Systems

Andrew Whittle

Edmund K. Turner Professor of Civi & Environmental Engineering

Research Interests:

Geomechanics and geomaterials,
urban infrastructure,
environmental sensing

Andres Sevtsuk

Charles and Ann Spaulding Career Development Associate Professor of Urban Science and Planning

Research Interests:

Spatial Analysis, Walkability, Public Transport, Business Location Patterns, Urban Design

Nigel Wilson

Professor Emeritus

Research Interests:

Public Transportation, Transport System Design, New Transportation Systems

Anson Stewart

Research Scientist

Research Interests:

Spatial Analysis, Urban Transportation, Public Transportation

Chris Zegras

Professor of Transportation and Urban Planning

Research Interests:

Environmental Planning and Management, Healthy Communities and Active Living, Transportation and Mobility, Urban Economics

Labs

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Intelligent Transportation Systems Lab

The MIT Intelligent Transportation Systems (ITS) Lab was established in 1990 by Professor Moshe Ben-Akiva. Since its inception, the ITS Lab has conducted numerous studies of transportation systems and developed network modeling and simulation tools. The lab's areas of research include discrete choice and demand modeling techniques, activity-based models, freight transport modeling, and data collection methods for behavioral modeling. Today, lab members are located at MIT's Cambridge campus and its first research center outside of Cambridge: the Singapore-MIT Alliance for Research and Technology (SMART) Centre.

Director:

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JTL Urban Mobility Lab

The JTL Urban Mobility Lab at MIT brings behavioral science and transportation technology together to shape travel behavior, design mobility systems, and improve transportation policies. They apply this framework to managing automobile ownership and usage, optimizing public transit planning and operation, promoting active modes of walking and cycling, governing autonomous vehicles and shared mobility services, and designing multimodal urban transportation systems.

Director:

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Transit Lab

The MIT Transit Lab leverages the value of large-scale, long-term research collaborations across transit agencies. Starting in 1992 under the leadership of Professor Nigel Wilson, the Lab has collaborated with metropolitan transit agencies and departments of transportation worldwide, developing and implementing technology for transit operations and planning. Past and ongoing research sponsors include the Chicago Transit Authority (CTA), Massachusetts Bay Transportation Authority (MBTA), Transport for London (TfL), and Mass Transit Railway (MTR, Hong Kong). These long-term engagements, in addition to projects with other transit agencies and international research centers, provide graduate students unique opportunities for applied research.

Director:

Courses

Transportation Systems Modeling

1.041

Introduces basic concepts of transportation systems modeling, data analysis and visualization techniques. Covers fundamental analytical and simulation-based methodologies. Topics include time-space diagrams, cumulative plots, queueing theory, network science, data analysis, and their applications. Provides students with an understanding of the current challenges and opportunities in different areas of transportation.

Transportation Systems Analysis: Performance & Optimization

1.200

Problem-motivated introduction to methods, models and tools for the analysis and design of transportation networks including their planning, operations and control. Capacity of critical elements of transportation networks. Traffic flows and deterministic and probabilistic delay models. Formulation of optimization models for planning and scheduling of freight, transit and airline systems, and their solution using software packages. User- and system-optimal traffic assignment. Control of traffic flows on highways, urban grids, and airspace.

Transportation Systems Analysis: Demand and Economics

1.201

Covers the key principles governing transportation systems planning and management. Introduces the microeconomic concepts central to transportation systems. Topics include economic theories of the firm, consumer, and market, demand models, discrete choice analysis, cost models and production functions, and pricing theory. Applications to transportation systems - including congestion pricing, technological change, resource allocation, market structure and regulation, revenue forecasting, public and private transportation finance, and project evaluation - cover urban passenger transportation, freight, maritime, aviation, and intelligent transportation systems.

Demand Modeling

1.202

Theory and application of modeling and statistical methods for analysis and forecasting of demand for facilities, services, and products. Topics include: review of probability and statistics, estimation and testing of linear regression models, theory of individual choice behavior, derivation, estimation, and testing of discrete choice models (including logit, nested logit, GEV, probit, and mixture models), estimation under various sample designs and data collection methods (including revealed and stated preferences), sampling, aggregate forecasting methods, and iterative proportional fitting and related methods. Lectures reinforced with case studies, which require specification, estimation, testing, and analysis of models using data sets from actual applications.

Resilient Infrastructure Networks

1.208

Control algorithms and game-theoretic tools to enable resilient operation of large-scale infrastructure networks. Dynamical network flow models, stability analysis, robust predictive control, fault and attack diagnostic tools. Strategic network design, routing games, congestion pricing, demand response, and incentive regulation. Design of operations management strategies for different reliability and security scenarios. Applications to transportation, logistics, electric-power, and water distribution networks.

Comparative Land Use and Transportation Planning

1.251/11.526

Focuses on the integration of land use and transportation planning, drawing from cases in both industrialized and developing countries. Reviews underlying theories, analytical techniques, and the empirical evidence of the land use-transportation relationship at the metropolitan, intra-metropolitan, and micro-scales. Also covers the various ways of measuring urban structure, form, and the "built environment." Develops students' skills to assess relevant policies, interventions and impacts.

Public Transportation Analytics and Planning

11.S953

Students will gain experience processing, visualizing, and analyzing urban mobility data, with special emphasis on models and performance metrics tailored to scheduled, fixed-route transit services. The evolution of urban public transportation modes and services, as well as interaction with emerging on-demand services, will be covered. Instructors and guest lecturers from industry will discuss both methods for data collection and analysis, as well as organizational, policy, and governance constraints on transit planning. In assignments, students will practice using spatial database, data visualization, network analysis, and other software to shape recommendations for transit that effectively meets the future needs of cities.

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