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1 – 2 of 2Bernard Rothenburger and Daniel Galarreta
The aim of this paper is to provide a conceptual and methodological framework in order to prevent knowledge loss in a long duration space project.
Abstract
Purpose
The aim of this paper is to provide a conceptual and methodological framework in order to prevent knowledge loss in a long duration space project.
Design/methodology/approach
Starting from risk management, the paper considers existing factors that contribute to the success of the mission, such as dependability and safety, and then argues, using a multi‐viewpoint approach, that risk analysis produces knowledge (not simply information or data). Then, the paper describes how the filtering of risky components of a technical documentation is performed. It is based on the confrontation of the vocabulary of the different documents to an ontology of “criticality” built by the authors. The paper also describes how the knowledge evolutions are detected and how the interpretation of these evolutions is carried out.
Findings
On a conceptual side, a general model of the design process is presented based on a multi‐viewpoints approach and characterised by a value system. On the practical side, an ontology of risk, used as a reference system in order to compare knowledge at different stages of a project, is described.
Research limitations/implications
Some difficulty arises when a very huge documentation is addressed. Among all evolution clues a lot of them could be well‐known by everybody or could be of little importance.
Practical implications
The paper intends to have a preventive strategy for knowledge loss in a long duration project. Reaching the ultimate stage of a mission, project management should be able to identify the main knowledge differences between technical culture of new incomers and the one of the early designer that can be found in the project documents.
Originality/value
The paper carries a multi‐discipline approach, putting together different domains: space activity, statistic specialist, knowledge managements, and linguistics.
Details
Keywords
This article aims to describe the importance of knowledge management (KM) to the space industry.
Abstract
Purpose
This article aims to describe the importance of knowledge management (KM) to the space industry.
Design/methodology/approach
Drawing from a range of literature published in the academic and industry arenas, also including articles published in this special issue. The authors also apply their personal experience and practical knowledge.
Findings
Implementations in KM within aerospace organizations and space industry have grown beyond mere technology thrusts, and now include aspects of culture, people, and process. These more sophisticated KM tasks build on technology and information to help guide organizations through the intricacies of working with international teams and making ever‐more‐complex decisions.
Practical implications
All organizations make mistakes; an important factor for recovering from these errors and avoiding the repetition of these problems is the implementation of a knowledge management system (KMS).
Originality/value
Most general KM articles discuss KM from the technology thrusts; this article describes how the implementation in KMS within space organizations has grown beyond mere technology thrusts and now includes aspects of culture, people, and process.
Details