Mantis Within a Multi Robot Team for Lunar Exploration and Construction Tasks

This paper describes key technologies for the use of the six-legged walking system Mantis in a multi robot team performing cooperative tasks for the construction of an In-Situ Resource Utilization (ISRU) facility on the Moon. Autonomous multi robot cooperation is one of several key technologies that hold promise for In-Situ space exploration and ISRU facility construction. Therefore, the PRO-ACT (Planetary RObots deployed for Assembly and Construction Tasks) project aimed to develop a multi robot team which can act (semi-) autonomous. PRO-ACT is a European project with many partners working on space robotics technologies, the so-called building blocks. These building blocks have been implemented and extended on Mantis to cover the scope of multi-robot cooperative scenarios. To allow the different partners to execute commands without considering the robot's control framework, a communication interface was developed to provide a common and generic way to send commands and receive sensor data. It facilitates access to all robots and to their simulated counterparts. Due to the impact of COVID-19, most of the testing, including the final demonstration, was performed remotely, with robots available at the partners' premises. © 2022 IEEE.

Building a lunar infrastructure with the help of a heterogeneous (semi)autonomous multi-robot-Team

Exploring planets requires cooperative robotics technologies that make it possible to act independently of human influence. So-called multi-robot teams, consisting of different and synchronized robots, can solve problems that cannot be handled by a single robot. The PRO-ACT (Planetary RObots deployed for Assembly and Construction Tasks) project aimed to develop and demonstrate key technologies for robot collaboration in the construction of future ISRU (In-Situ Resource Utilization) facilities on the Moon. To this end, the following robots were used: Veles-a rover with six wheels and a 7-DoF (Degree of Freedom) arm, Mantis-a six-legged walking system, and a mobile gantry that can be used for payload manipulation or 3D printing. The project further developed existing software and hardware developed in previous space robotics projects and integrated them into the robotic systems involved. The software enables collaborative tasks such as transportation, mapping and navigation. Due to the Covid-19 situation, the final demonstration was performed remotely for defined mission scenarios. The intensive remote test campaigns provided valuable lessons learned that are directly applicable to future space missions. In addition, PRO-ACT opens a new way for multi-robot collaboration. The paper describes the developed robotic software and hardware as well as the final mission scenarios performed in lunar analogues with Mantis tested in the test field with granules in the DFKI Space Hall in Bremen, Germany, with Veles tested in Warsaw, Poland and with the mobile gantry tested in Elgoibar, Spain. In addition one mission scenario, manipulation tasks with two robotic systems, was performed with two Panda robotic arms in Toulouse, France. The paper concludes with the results of the final demonstration of the multi-robotics team. © 2021 International Astronautical Federation, IAF. All rights reserved.