A vision for the mobility of the future: the Hyperloop superfast train.
A vision for the mobility of the future: the Hyperloop superfast train.
Image: TUM Hyperloop
  • Mobility, Sustainability, Event
  • Reading time: 5 MIN

TUM presents the mobile world of the future at IAA MOBILITYFaster, more sustainable and smarter travel

Will a hyperloop train soon whisk us from Munich to Berlin in just 30 minutes? Will artificial intelligence control our vehicles in the future? And how can we create more effectively networked, climate-friendly forms of urban mobility? These issues are being explored by scientists at the Technical University of Munich (TUM). Their research projects will be presented at IAA MOBILITY in Munich from September 7–12.

This year’s edition of the International Automotive Exhibition (IAA), the annual mobility show presented by the Association of the German Automotive Industry (VDA), features a new concept. The presentations, talks and discussions for industry experts will take place in the Riem trade fair halls. Meanwhile, the Open Space format, aimed at the general public, will present information and discussions on new mobility concepts at various locations around the Munich city center.  

TUM will also be part of this open dialog. In the IAA Citizen Lab, covering a wide range of topics related to the development of public space and future mobility, TUM researchers will present their current projects at Marienplatz, the iconic square outside Munich’s city hall.

A simulated cycling tour through virtual worlds

One of the exhibits will allow visitors to cycle through a virtual city on a simulator developed by the Chair of Traffic Engineering and Control while testing a new bicycle collision warning system.

Meanwhile, a trip with the rickshaw constructed in the TEMPUS project, headed by the same research chair, does not take place in a virtual world. The goal is to test intelligent combinations of cargo and passenger traffic in the city. Pilot projects are also testing automated road traffic.

Driverless racing cars

A race with an AI system at the wheel instead of human drivers: A team of researchers from the Chair of Automotive Technology and the Chair of Automatic Control is taking part in this year’s Indy Autonomous Challenge in Indianapolis. At the TUM booth, visitors can learn about how the development of the software for the race will also provide a boost for the use of artificial intelligence in vehicles in everyday transportation.

The research project Providentia++, headed by the Chair of Robotics, Artificial Intelligence and Real-time Systems, is also concerned with autonomous driving. The goal is to implement digital modelling of real-time traffic. This will enable autonomous vehicles to make better decisions in complex situations and will also facilitate warnings and traffic forecasting.

Ultrafast and climate-neutral travel

The Department of Aerospace and Geodesy is developing the Hyperloop, a climate-neutral, ground-based transportation technology for ultrafast links between mobility centers. In the initial phase of the program, a 24-meter demonstrator will be built with a matching passenger capsule. At the IAA, the TUM Hyperloop Program team will present a 1:30 model of the demonstrator.

The Chair of Automotive Technology is also studying the implementation of climate-friendly mobility – on our roads in the near future. The Web-based Analysis Tool Electromobility (WATE) will support companies and public authorities in planning and implementing the transition to electric vehicles. The tool lets users simulate various combinations of electric vehicles and individual charging station setups to identify the ideal solution to meet various mobility requirements.

Mobility in metropolitan regions

Because roads and other transportation infrastructure cannot be simply relocated after they are built, computer-based traffic models are used for precise analysis of new infrastructure to study the impact on transport demand, congestion and the environment. The Professorship for Travel Behavior is developing agent-based models that simulate the demographics of the population, calculate transportation demand for all people in the Munich metropolitan area and map the results in detail to the road, cycling and public transportation networks.

The Chair of Urban Structure and Transport Planning shows the interrelationship between the available mobility options, the spatial structure and mobility behavior. The researchers will present the Geo Open Accessibility Tool (GOAT) for pedestrian and bicycle transport, among other topics. With the Street Experiment Tool (S.E.T.), visitors can click through various options for redesigning streets.

MCube cluster

The Munich cluster of mobility in metropolitan regions (MCube), headed by TUM, has an ambitious goal. MCube, which will be launched in November 2021, has been granted up to 45 million euros in funding over a nine-year period. The regional network will bring together an interdisciplinary team of researchers along with partners from the private sector and civil society to work on the major challenges in the mobility sector. Visitors can learn about the cluster at the TUM booth.

TUM at the trade fair in Riem

The Chair of Traffic Engineering and Control will be represented at two booths in Riem. The @CITY and @CITY-AF projects will be represented at the booth of the Federal Ministry for Economic Affairs and Energy (B1/D20). The researchers will introduce work on automated vehicles, interactions with vulnerable road users, driving behavior and bicycle simulator studies. The project “SERVUS – safe and efficient cargo bikes for urban transport” will be presented at Booth B1/ E50.

Events and discussions

Prof. Klaus Bogenberger will take part in the panel discussion entitled “Who needs the traffic turnaround” at the Siemens headquarters at Wittelsbacherplatz on Wednesday, September 8 from 12:30 – 15:00. Starting at 16:00 h on Thursday, September 9, he will also take part in a podium discussion at Marienplatz. It will be hosted by the working group AGW, which builds bridges between pupils in secondary education and the modern economy. He will be joined by Munich mayor Dieter Reiter and representatives of BMW. The topic: How do young people envision the mobility of the future in their city?

TUM students will present mobility solutions for the city in the form of 20 pictures in the dialog arena at Marienplatz on September 9 from 19:00 to 20:00.

On September 10, the workshop “Strategies for the Future of Urban Mobility”, headed by Prof. Gebhard Wulfhorst, will take place from 13:15 to 14:45 as part of the first Munich Mobility Congress.

More information:

  • General information on the IAA, registration for events, tickets and the current hygiene concept are available on the IAA website: https://www.iaa.de/en/mobility

  • TUM is pooling its competencies in the field of mobility in the TUM.Mobility research platform, on which more than 40 research chairs are working on sustainable mobility. TUM’s big strength in this endeavor is above all the intensive interdisciplinary cooperation across the fields of engineering, natural sciences, economics and social sciences.

Technical University of Munich

Corporate Communications Center Stefanie Reiffert

Related articles at www.tum.de

New early warning system for self-driving cars

A team of researchers at the Technical University of Munich (TUM) has developed a new early warning system for vehicles that uses artificial intelligence to learn from thousands of real traffic situations. A study of the…

The new design combines the functions of sports equipment and wheelchair.

Hybrid bike increases autonomy

Unlike the classic bicycle, the handbike is powered by the arms and is one of the most popular pieces of sports equipment among paraplegics. But there's one major drawback: While on the go with a handbike, the rider has no…

The future cluster M Cube is researching the urban mobility of tomorrow.

M Cube future cluster wins federal funding

The Munich Cluster for the Future of Mobility in Metropolitan Regions (M Cube), under the leadership of the Technical University of Munich (TUM), is among the winners of the German government’s Clusters4Future competition.…

A Hyperloop tube in Bavaria: a team from the Technical University of Munich is researching this vision.

TUM launches hyperloop research program

It is designed to move passengers at close to the speed of sound: the Hyperloop. In international competitions, students of the Technical University of Munich (TUM) have already demonstrated that they can build passenger…

Mitglied des Hyperloop-Teams arbeitet an Hyperloop-Transportkapsel

"Im weltweiten Mobilitätswettbewerb muss Deutschland aufwachen"

Die Technische Universität München (TUM) unterstützt den Plan von Bundesverkehrsminister Andreas Scheuer, in München ein „Deutsches Zentrum Mobilität der Zukunft“ einzurichten. Nur mit solch einem gemeinschaftlichen…

TUM-President Prof. Wolfgang A. Herrmann, Domenik Radeck, Sofía Ramírez, Minister President Dr. Markus Söder, TUM-Vice-President Prof. Thomas Hofmann, Gabriele Semino,  Bavarian Minister of Science and Art Bernd Sibler.

Bavaria boosts the Hyperloop vision

The Technical University of Munich (TUM) is racing to the future with the Hyperloop. Tesla and SpaceX founder Elon Musk came up with the idea of a high-speed train that will move through a tube at close to the speed of…

Rasend schnell schoss die dritte Kapsel des WARRHyperloop-Teams in Los Angeles durch die Teströhre. Damit blieben die Studierenden der TUM auch im dritten Hyperloop Pod Wettbewerb ungeschlagen. (Bild: WARR/TUM)

Hyperloop bleibt Weltmeister (4/2018)

Das studentische Team WARR Hyperloop hat souverän im dritten Hyperloop Pod Wettbewerb gesiegt: 467 Stundenkilometer sind nicht zu schlagen! Und auch die Studi-WM Beachvolleyball war ein voller Erfolg. Eine Sonderaufführung…

The new aCar prototype. (Photo: Florian Lehmann / TUM)

aCar – The electric “all-rounder”

An electric car for Africa, custom-designed for the needs of the population there, that strengthens rural structures and helps drive the economy: Scientists at the Technical University of Munich (TUM) and partners have been…

Scientists study tactical behavior of bicyclists.

Typical bicycle rider

Suddenly he moves from the street onto the sidewalk, sidling through the traffic, right to the front, and is one of the nimblest of road users: the cyclist. A team of scientists from Technical University of Munich (TUM)…

The pedestrian simulator can be connected with to other traffic-simulators.

The virtual pedestrian

Advanced driver assistance systems (ADAS) are designed to identify traffic hazards. But to assess the behavior of other road users, these systems need detailed data. That is why researchers at the Technical University of…

Visio.M: Voll geladen kann es 160km fahren und lädt in nur 30 Min wieder auf. Bild: Florian Lehmann / TUM

Der Visio.M: Das ideale Stadtauto

Ein Elektroauto, das leicht, sicher, effizient und günstig ist – geht das? An der TUM haben 14 Lehrstühle zusammen mit 14 Partnern aus der Automobilindustrie den Visio.M entwickelt. Johannes Betz vom TUM-Lehrstuhl für…