Deutsche Gesellschaft für Luft- und Raumfahrt - Lilienthal-Oberth e.V.
Doi
Abstract
The digital transformation poses a major challenge to the aviation industry with its diverse fields of
operations and its mostly historically evolved organizational structure. But there is a lot of potential in the
individual organizations for increasing efficiency and reducing obstacles for interoperability by establishing
different digitalization concepts.
In the past, research has been conducted on various technologies such as assistance systems, automation
or inspection and image processing methodologies in the field of composite repair. However, digitalizing
individual process steps using a new technology does not necessarily mean that it will also result in a more
efficient overall process. For more efficient processes and the implementation of the vision of a digital twin,
the digitalization and consideration of the respective holistic process is necessary. Data consistency, which
should run like a thread through all process stages is a key factor and requires a corresponding data
management concept.
The repair process for fiber-reinforced composite structures, see Figure 1, is the basis for the development of
a vision for a digital transformation in this work. The reason for this is, that the tasks in this process are
usually carried out manually. The resulting media disruptions during the technical execution as well as during
the final documentation limit the usability of information. This leads to an additional effort for information
interpretation during the process execution and inhibits the potential for a data-based learning and
improvement process.
In the first part of this paper, the individual process steps are presented according to the current state of the
art. This is followed by a process modification doing research regarding suitable technology concepts, which
could be used to allow the complete digitalization of the process flow. Based on this, a corresponding data
management system for the modified process will is designed, that enables an interaction between the
process itself and the digital twin