Astronaut Archives - ROBOPHILOSOPHY

The article “Wearable Social Robots in Space” by Tamara Siegmann and Oliver Bendel was published on December 23, 2025. It is part of the volume “Social Robotics + AI: 17th International Conference, ICSR+AI 2025, Naples, Italy, September 10–12, 2025, Proceedings, Part I.” From the abstract: “Social robots have been developed on Earth since the 1990s. This article shows that they can also provide added value in space – particularly on a manned flight to Mars. The focus in this paper is on wearable social robots, which seem to be an obvious type due to their small size and low weight. First, the environment and situation of the astronauts are described. Then, using AIBI as an example, it is shown how it fits into these conditions and requirements and what tasks it can perform. Possible further developments and improvements of a wearable social robot are also mentioned in this context. It becomes clear that a model like AIBI is well suited to accompany astronauts on a Mars flight. However, further developments and improvements in interaction and communication are desirable before application.” The Swiss student presented the paper together with her professor on September 10, 2025, in Naples. It can be downloaded from link.springer.com/chapter/10.1007/978-981-95-2379-5_33.

The short paper “Wearable Social Robots in Space” by Tamara Siegmann and Oliver Bendel (FHNW School of Business) has been accepted for presentation at the International Conference on Social Robotics (ICSR). The conference will take place from September 10 to 12, 2025, in Naples, Italy. Social robots have been explored on Earth since the 1990s, but this study considers their application beyond our planet – specifically, on manned missions to Mars. The focus lies on wearable social robots, a promising form factor due to their compact size and light weight. Using AIBI as a case study, the short paper examines how such a robot could support astronauts under the unique psychological and environmental conditions of deep space travel. The authors discuss the little robot’s potential roles and highlight directions for future development, particularly in improving human-robot interaction and communication. The findings suggest that wearable social robots like AIBI could offer valuable support on long-duration space missions.