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This paper aims to describe the development of a knowledge management system (KMS) for the Nadir and Occultation for Mars Discovery (NOMAD) instrument on board the ESA/Roscosmos 2016 ExoMars Trace Gas Orbiter (TGO) spacecraft. The KMS collects knowledge acquired during the engineering process that involved over 30 project partners. In addition to the documentation and technical data (explicit knowledge), a dedicated effort was made to collect the gained experience (tacit knowledge) that is crucial for the operational phase of the TGO mission and also for future projects. The system is now in service and provides valuable information for the scientists and engineers working with NOMAD.

The NOMAD KMS was built around six areas: official documentation, technical specifications and test results, lessons learned, management data (proposals, deliverables, progress reports and minutes of meetings), picture files and movie files. Today, the KMS contains 110 GB of data spread over 11,000 documents and more than 13,000 media files. A computer-aided design (CAD) library contains a model of the full instrument as well as exported sub-parts in different formats. A context search engine for both documents and media files was implemented.

The conceived KMS design is basic, flexible and very robust. It can be adapted to future projects of a similar size.

The paper provides practical guidelines on how to retain the knowledge from a larger aerospace project. The KMS tool presented here works offline, requires no maintenance and conforms to data protection standards.

This paper shows how knowledge management requirements for space missions can be fulfilled. The paper demonstrates how to transform the large collection of project data into a useful tool and how to address usability aspects.

This chapter in its first part analyzes the Leader approach in terms of concept, constituent elements, application, and its contribution to rural development and rural entrepreneurship. In the continuation of the text, authors analyze the application of this approach in Serbia, looking at the activities of the ministry in charge and the views of local action groups (LAGs)’ managers on this matter. The aim of this chapter is to present the results and problems Serbia has seen so far in the implementation of the Leader approach for development of rural areas on a local level. The results indicate that the lack of systemic and continuous state support resulting, among other things, in the lack of a financial portfolio for the LAGs, is the main cause of low local entrepreneurial initiatives and projects implemented within the Leader approach. Future steps in the implementation of this approach in Serbia will depend on financial support for the LAGs from all levels of government, as well as from the possibility of using funds within the EU pre-accession assistance for rural development. Also, it will be necessary to launch larger innovative and entrepreneurial initiatives both by LAGs’ managers and all stakeholders involved in local rural development.