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Project | VaMEx3-APO

Duration:
VaMEx3-APO - Ausfallsichere, absolute Positions- und Orientierungsbestimmung

VaMEx3-APO - Ausfallsichere, absolute Positions- und Orientierungsbestimmung

Application fields

The goal of the VaMEx initiative is the development of an autonomous, heterogeneous robot swarm for the exploration of the Valles Marineris on Mars. Driving, walking, and flying systems will use their advantages to cooperatively explore a large area with different environmental characteristics.

The VaMEx-APO project is part of the VaMEx 3 initiative, which aims to develop and demonstrate several key technologies for future exploration on Mars. The core of the VaMEx-APO project is the development of a highly accurate and robust absolute position and orientation estimation system. A high degree of fail-safety is crucial for space missions, where repairs, remote access, and software updates are no longer possible. Achieving the goals of high accuracy and robustness simultaneously is very challenging, since high accuracy can only be achieved with complex algorithms that model or estimate all error sources and their statistics, and thus itself becomes more error-prone than simple algorithms that neglect minor errors. An accurate and fail-safe positioning system is a key component for a future Mars mission. However, there are also numerous terrestrial applications for a precise and at the same time fail-safe positioning system - one example is autonomous driving of robots and vehicles, where functional safety is of high importance in addition to accuracy.

The fusion of camera-based and LIDAR-based SLAM is a core task of the project to increase the navigation accuracy and robustness. Furthermore, a local position measurement system will be built and used for localization. In order to deploy the required radio beacons at specific locations in the field, the rover Artemis will be extended with a specific drop mechanism.

VaMEx Website:
vamex.space

Partners

ANavS GmbH Julius-Maximilians-Universität Würzburg

Contact Person

Leon Cedric Danter, M.Sc.

Publications about the project

  1. VAMEX3: AUTONOMOUSLY EXPLORING MARS WITH A HETEROGENEOUS ROBOT SWARM

    Leon Cedric Danter; Joachim Clemens; Andreas Serov; Anne Schattel; Michael Schleiss; Cedric Liman; Mario Gäbel; Andre Mühlenbrock; Gabriel Zachmann

    In: ASTRA Proceedings. ESA/Estec Symposium on Advanced Space Technologies in Robotics and Automation (ASTRA-2023), 17th Symposium on Advanced Space Technologies in Robotics and Automation, October 18-20, Leiden, Netherlands, European Space Agency (ESA), 2023.

Sponsors

BMWK - Federal Ministry for Economic Affairs and Climate Action

50RK2252C

BMWK - Federal Ministry for Economic Affairs and Climate Action