All Stories
Follow
Subscribe to Technische Universität München

Technische Universität München

Effortless robot movements

TECHNICAL UNIVERSITY OF MUNICH

NEWS RELEASE

New technology mimics nature and makes rhythmic movements predictable

Effortless robot movements

  • Prof. Alin Albu-Schäffer is researching energy-efficient movements under an ERC Advanced Grant.
  • Researchers are using a tool to transfer ‘intrinsic’ movements of humans or animals to robots.
  • Robot BERT now moves faster and more gracefully.

Humans and animals move with remarkable economy - without consciously thinking about it - by utilizing the natural oscillation patterns of their bodies. A new tool developed by researchers at the Technical University of Munich (TUM) can now utilize this knowledge for the first time to make robots move more efficiently.

Four-legged animals that start walking and gradually pick up speed will automatically fall into a trot at some point. This is because it would take more energy not to change gait. This correlation was discovered more than 40 years ago. Now, Alin Albu-Schäffer, a professor at the Chair of Sensor-based Robotic Systems and Intelligent Assistance Systems at TUM, has successfully transferred this method to the movement of robots.

Experts use the term ‘intrinsic dynamics’ for the way humans and animals perform energy-efficient movements. For example, they adjust the stiffness of their muscles when they walk on a more rigid surface. These intrinsic adaptations, which happen automatically, are challenging to identify in humans and complex robotic systems.

Tool filters out the most economical movements

But a new tool developed by a team led by Prof. Albu-Schäffer at TUM makes this possible: “For the first time, we have succeeded in making these intrinsic, highly efficient movements calculable. The tool makes it possible to find out which movements of a system are particularly economical.”

An important test object in the team's research is BERT, a four-legged robot that looks like a small dog. BERT was designed by Prof. Albu-Schäffer at the German Aerospace Centre (DLR). The research, which focuses on “efficient and versatile locomotion with legs,” is funded by the EU through an ERC Advanced Grant.

The researchers identified six movement patterns for BERT, which Prof. Albu-Schäffer describes as exceptionally effortless and which would not require any energy in a world without friction. Some correspond to familiar gaits of quadrupeds, such as walking, trotting, or hopping. “We have thus confirmed the hypothesis that efficient gaits can be realized by exploiting natural oscillation patterns,” explains Prof. Albu-Schäffer, who is also involved in the Munich Institute of Robotics and Machine Intelligence (MIRMI).

Hitting natural oscillations with precise timing

To realize these movements in a natural system with friction, a computer-controlled regulator has now been added that delivers an impulse at the right moment. “You can compare it to a child sitting on a playground swing and receiving an energy impulse at the highest point from the parent who is pushing,” explains Annika Schmidt from Prof. Albu-Schäffer's research team. With one difference: “Humans don't need a lot of equations in their heads to time their push exactly - they do it intuitively,” says the doctoral student, who has spent several years studying how to teach robots the right rhythm.

Success is demonstrated in a race between three BERT models. The robot dog, which has been programmed with the intrinsic movement method, tends to jump and move much faster and more dynamically than its siblings, which rely on more conventional movement patterns.

Publications:

Further information

IN THE VIDEO: Success is demonstrated in a race between three BERT models. The robot dog, which has been programmed with the intrinsic movement method, tends to jump and move much faster and more dynamically than its siblings, which rely on more conventional movement patterns: https://youtu.be/_nL1lcI7AcM

Prof. Alin Albu-Schaeffer is involved in the Munich Institute of Robotics and Machine Intelligence (MIRMI). With MIRMI, TUM has created an integrative research center for science and technology to develop innovative and sustainable solutions for the critical challenges of our time. The center has leading expertise in robotics, perception, and data science. As part of the research and application focus ‘Future of Health,’ research is conducted in the areas of machine learning in medicine, data mining and analysis, virtual and augmented reality, sensor systems in robotics as well as safe human-robot interaction (MRI), soft robotics design and control. Further information can be found at https://www.mirmi.tum.de/.

Additional editorial information :

Scientific contact:

Prof. Alin Albu-Schäffer

Technical University of Munich

Chair of Sensor-Based Robotic Systems and Intelligent Assistance Systems

Alin.albu-schaeffer@tum.de

TUM Corporate Communications Center contact:

Andreas Schmitz

0162-27 46 193

presse@tum.de

The Technical University of Munich (TUM) is one of the world’s leading universities in terms of research, teaching and innovation, with around 650 professorships, 52,000 students and 12,000 staff. TUM’s range of subjects includes engineering, natural and life sciences, medicine, computer sciences, mathematics, economics and social sciences. As an entrepreneurial university, TUM envisages itself as a global hub of knowledge exchange, open to society. Every year, more than 70 start-ups are founded at TUM, which acts as a key player in Munich’s high-tech ecosystem. The university is represented around the world by its TUM Asia campus in Singapore along with offices in Beijing, Brussels, Mumbai, San Francisco and São Paulo. Nobel Prize laureates and inventors such as Rudolf Diesel, Carl von Linde and Rudolf Mößbauer have conducted research at TUM, which was awarded the title of University of Excellence in 2006, 2012 and 2019. International rankings regularly cite TUM as the best university in the European Union.

More stories: Technische Universität München
More stories: Technische Universität München
  • 18.11.2024 – 10:30

    Mühelosere Bewegungen von Robotern

    TECHNISCHE UNIVERSITÄT MÜNCHEN PRESSEMITTEILUNG Neue Technologie ahmt Natur nach und macht Rhythmusgefühl berechenbar Mühelosere Bewegungen von Robotern - Im Rahmen eines ERC Advanced Grants erforscht Prof. Alin Albu-Schäffer energie-effiziente Bewegungen. - Mit einem Tool übertragen Forschende „intrinisische“ Bewegungen eines Menschen oder Tieres auf Roboter. - Roboter BERT bewegt sich nun schneller und ...

  • 14.11.2024 – 12:05

    TUM auf Rang 13 im Global Employability Ranking

    TECHNISCHE UNIVERSITÄT MÜNCHEN PRESSEMITTEILUNG Absolventinnen und Absolventen der TUM weltweit gefragt Rang 13 im Global Employability Ranking Unternehmen weltweit halten die Absolventinnen und Absolventen der Technischen Universität München (TUM) für besonders gut qualifiziert. Dies zeigt das „Global University Employability Ranking“, in der die TUM erneut auf Rang 13 steht. In Europa ist sie damit nach den ...

  • 13.11.2024 – 12:32

    Robotische Hose unterstützt Menschen beim Gehen

    TECHNISCHE UNIVERSITÄT MÜNCHEN PRESSEMITTEILUNG Forschende der TUM entwickeln Shorts mit Motorkraft Robotische Hose unterstützt Menschen beim Gehen - Das gleiche Konzept wie das Elektrorad, nur für das Laufen - Ältere Menschen, aber auch Menschen mit Herz- oder Lungenerkrankungen gehören zur Zielgruppe der Forschung. - Tester benötigten bis zu 18 Prozent weniger eigene Energie für eine definierte Strecke. ...