Gradual tool-based optimization of engineering processes aiming at a knowledge-based configuration of robot-based automation solutions

Abstract Due to the growing individualization and ever shorter product life cycles, the engineering of automation solutions is facing increasing challenges. The rethinking of common engineering processes and the inclusion of knowledge-based approaches are considered inevitable. However, existing optimization measures often do not meet the actual problems as many approaches in academics are still too immature for practical use. Therefore, a rather simple procedure for the optimization of knowledge-intensive engineering processes is presented here, mainly relying on the incremental, tool-based creation of a common knowledge base. The procedure is validated using the example of a German automotive supplier. Building on this, the further development towards a knowledge-based configuration platform for robot-based automation solutions is illustrated in the outlook.