Great start and second place for AGH Space Systems at the ERC

Nearly 70 teams applied to the challenge and 25 qualified to the finale. The finalists faced a specially prepared space imitating the surface of Mars and five complex, challenging tasks.

The objective of the Maintenance Task is to exhibit the rovers’ capability in handling diverse  components affixed to a dedicated panel. The team must employ the rover’s manipulating device to configure switches, measure electrical parameters, power on an electromagnetic lock, and insert an RJ-45 plug into a specified socket. ArUco markers will be positioned on the panel, enabling the robotic arm to operate autonomously. Accomplishing the task autonomously will lead to a more favourable score.

The Navigation Task consists of two subtasks. Firstly, the rover must reach four checkpoints in the “Traverse” subtask, with allowed usage of GNSS. This task is scored extra if done autonomously, with no video feedback. Secondly, in the “Droning” subtask, teams must proficiently operate a drone (off-the-shelf or self-constructed) by adhering to provided flight instructions and executing an “emergency landing” at a predefined location.

In the Probing Task, participants are tasked with locating three probes distributed haphazardly  throughout the Mars yard. After discovering the probes, teams are required to employ on-board equipment, such as robotic arm, to secure and transfer the probes into a designated on-board container. Participants need to be aware of the time spent, as the scoring for this task depends on the completion time.

The science task consists of three subtasks, with a common goal in mind: recreating typical scientific activities performed by the rover on the surface of Mars. Firstly, in the “Exploration and Construction” subtask, participants must conduct a scientific hypothesis check-up (incl. literature review, data analysis, scientific exploration plan, and report delivery), and construct a “wall” with available material. Secondly, in the “Surface Sampling subtask” they must collect and analyse surface samples with on-board instruments (e.g., robotic arm). Thirdly, in the “Deep (Sub-Surface) Sampling” subtask, contestants must collect and analyse drilled-out material samples with on-board instruments (e.g., drilling mechanism).

The Presentation Task provides teams with the opportunity to introduce themselves and present their projects. Judges anticipate understanding the team’s project work, the technical solutions employed in the rover or software, the team’s approach to handling specific competition tasks (e.g., electro-mechanical design, algorithms), and how the team addressed challenges and learned lessons during development. The task also aims to create a field for discussion and provide mentoring support in solving problems.

The supervisor of AGH Space Systems is Dr Mariusz Gibiec from the Faculty of Mechanical Engineering and Robotics.