Can partial steps of an operation also be automated?
Mathis-Ullrich: Our goal is to be able to offer various assistance systems in automated form. The eye is an organ that is not very deformable and the dimensions are comparatively similar in all people. It therefore offers a relatively standardized environment that facilitates automation.
To support surgeons, we want to display and visualize the planned positioning of the robot. In the case of autonomously performed surgical steps, the robot must also explain why certain decisions are being made. This is the only way to build trust between the robot and the surgeons, who can retain control and trigger automated procedures in a controlled manner.
These processes should be intuitive and efficient. So is it also about the operating concept?
Mathis-Ullrich: To be able to establish a system with autonomous steps in the clinic, the partnership between system and human must be optimized. The use of robotic systems requires a comparatively large amount of preparation time. The system has to be placed on the patient and the robotic arms with the tools have to be prepared individually.
We want to provide intuitive ways to use systems more efficiently, quickly and easily. Using the example of ophthalmic robots, this means we need to clarify how the system must be positioned and set up in relation to patients - if possible, in such a way that manual readjustment is no longer necessary.
Could AI also help to improve the interaction between surgeons, patients, and the robotic system?
Mathis-Ullrich: An operation is often difficult from an ergonomic point of view, because surgeons and assistants work together in a very confined space with different instruments. First of all, robot cognition is needed: the system must grasp and understand the situation. To do this, we use various machine learning methods. Also, to achieve the best robot movements or actions in a given situation, we explore methods of AI. Since a lot of data is needed to learn movements, we train our systems in simulation before evaluating the methods in the real world.
We are not trying to develop completely autonomous robotic systems. Rather, it's about networking intelligent systems to make certain jobs easier. Our subject area is very interdisciplinary. Medical and technical professions work together here, which is why we try to bring students from both disciplines together at a very early stage.