This module will provide methodological components related to the analysis of transportation systems, with an emphasis on emerging data and applications. Extensions to traditional transportation systems analysis tools will be demonstrated, showing how emerging transport modes can be effectively modelled. Both data driven and theory based models will be presented, demonstrating how both approaches can be used in parallel.

Lecturers: Dr. Ramandeep Singh, Technical University of Munich, Chair of Transportation Systems Engineering

This module provides an introduction into travel behavior analyses. Theoretical foundations of travel behavior are discussed and simple econometric estimation of travel behavior models are presented. An introduction for travel demand modeling is provided, including traditional four-step models, activity-based models, freight models and integrated land use/transport models.

Lecturers: Prof. Dr. Rolf Moeckel, Technical University of Munich, Professor for Modeling Spatial Mobility 

This module provides an introduction to rail traffic planning. At the beginning, the interplay between railway signalling and train operations and its impact on rail traffic planning is discussed. Building on that, an overview of concepts and methods for timetabling (robustness metrics, periodic event scheduling) is provided. The course concludes with a discussion of railway performance modelling and capacity planning.

Lecturers: Prof. Dr. Norman Weik, Technical University of Munich, Professor for Design and Operation of Public Rail Transport Systems 

This module will give an introduction into the planning principles of public transport systems. The characteristics of different public transport means (Bus, LRT, MRT. etc.) will be discussed. The characteristics of different line network concepts will be introduced. Public transport prioritisation and the integration of different transport means into one system are other topics in this module.

Lecturers: Dr. Andreas Rau, Technical University of Munich Asia, Faculty Head and Principal Investigator (Rail, Transport & Logistics) 

Dive into the world of linear programming and discover how to transform complex real-world challenges into mathematical models. You will gain the skills to tackle diverse industry problems and create effective solutions through the art of mathematical formulation. Introduction to Logistics Material Flow Optimization.

Lecturers: Dr. Fabian Schäfer Technical University of Munich, Chair of Supply and Value Chain Management 

This module aims to introduce the basic principles of public transport policies to create transport system where people can rely on a fast and passenger friendly public transport system. The theoretical policies will be supported by showing some case studies in Chinese cities, where these concepts are applied in a real city.

Lecturers: Prof. Dr. Yang Xinmiao, Tsinghua University 

This course is to introduce the basic principles of transport planning, planning methods, the working process of transport planning, and the application of transport planning theory in various transport planning and the latest research progress. The main contents include the characteristics of traffic demand and the main influencing factors, the content and main processes of urban traffic planning, the classical methods of urban traffic demand forecasting, and the outlook of traffic planning and management theory research.

Lecturers: Prof. Dr. Huapu Lu, Tsinghua University 

Nowadays, with the development of data collection, analysis and application technology, various kinds of abundant data bring new opportunities for urban road traffic state estimation and control. Based on multi-source data collection, this module introduces some research achievements of the lecturer in the field of multi-level traffic state estimation and control in recent years from the perspectives of macro-traffic state analysis, estimation, micro-traffic parameter estimation and feedback closed-loop traffic control.

Lecturers: Prof. Dr. Ruimin Li Tsinghua University