At first glance, it seems to be quite surprising that so far traditional business process-oriented knowledge management techniques have not been transferred to research in order to improve the efficiency of scientific work on a larger scale. But due to the high variability and unpredictability of scientific work processes, these techniques are not applicable. In fact scientific work processes have to be understood as a network of informal learning processes with a high level of social in-teraction. For this purpose, we have elaborated the model of a “Knowledge-Added Process” as a new paradigm of process-oriented support. We are developing various models, methods, and tools on the basis of semantic technologies supporting this process, and which are exemplified within three scenarios within the application domain “rapid prototyping”.
%0 Conference Paper
%1 BraunHefkeSchmidtSevilmisGES07
%A Braun, Simone
%A Hefke, Mark
%A Schmidt, Andreas
%A Sevilmis, Neyir
%B Proceedings of the German e-Science Conference 2007 (GES 2007), Baden-Baden, Germany
%D 2007
%K aps conference fzi ipe lang:en myown wissensnetz
%T Im Wissensnetz: Linked Information Processes in Research Networks
%U http://www.andreas-p-schmidt.de/publications/braun_hefke_schmidt_sevilmis_wissensnetz.pdf
%X At first glance, it seems to be quite surprising that so far traditional business process-oriented knowledge management techniques have not been transferred to research in order to improve the efficiency of scientific work on a larger scale. But due to the high variability and unpredictability of scientific work processes, these techniques are not applicable. In fact scientific work processes have to be understood as a network of informal learning processes with a high level of social in-teraction. For this purpose, we have elaborated the model of a “Knowledge-Added Process” as a new paradigm of process-oriented support. We are developing various models, methods, and tools on the basis of semantic technologies supporting this process, and which are exemplified within three scenarios within the application domain “rapid prototyping”.
@inproceedings{BraunHefkeSchmidtSevilmisGES07,
abstract = {At first glance, it seems to be quite surprising that so far traditional business process-oriented knowledge management techniques have not been transferred to research in order to improve the efficiency of scientific work on a larger scale. But due to the high variability and unpredictability of scientific work processes, these techniques are not applicable. In fact scientific work processes have to be understood as a network of informal learning processes with a high level of social in-teraction. For this purpose, we have elaborated the model of a “Knowledge-Added Process” as a new paradigm of process-oriented support. We are developing various models, methods, and tools on the basis of semantic technologies supporting this process, and which are exemplified within three scenarios within the application domain “rapid prototyping”.},
added-at = {2007-04-11T09:59:27.000+0200},
author = {Braun, Simone and Hefke, Mark and Schmidt, Andreas and Sevilmis, Neyir},
biburl = {https://www.bibsonomy.org/bibtex/2089bce4e31e50f2eebac0e5779515c14/aschmidt},
booktitle = {Proceedings of the German e-Science Conference 2007 (GES 2007), Baden-Baden, Germany},
interhash = {43a45508558366a8ff69926b7beaf1b5},
intrahash = {089bce4e31e50f2eebac0e5779515c14},
keywords = {aps conference fzi ipe lang:en myown wissensnetz},
timestamp = {2011-02-04T11:08:16.000+0100},
title = {Im Wissensnetz: Linked Information Processes in Research Networks},
url = {http://www.andreas-p-schmidt.de/publications/braun_hefke_schmidt_sevilmis_wissensnetz.pdf},
year = 2007
}