Methodology for Conflict Detection and Resolution in Semantic Revision Control Systems

Hensel, Stephan, Graube, Markus, Urbas, Leon

11 November 2016

Revision control mechanisms are a crucial part of information systems to keep track of changes. It is one of the key requirements for industrial application of technologies like Linked Data which provides the possibility to integrate data from different systems and domains in a semantic information space. A corresponding semantic revision control system must have the same functionality as established systems (e.g. Git or Subversion). There is also a need for branching to enable parallel work on the same data or concurrent access to it. This directly introduces the requirement of supporting merges. This paper presents an approach which makes it possible to merge branches and to detect inconsistencies before creating the merged revision. We use a structural analysis of triple differences as the smallest comparison unit between the branches. The differences that are detected can be accumulated to high level changes, which is an essential step towards semantic merging. We implemented our approach as a prototypical extension of therevision control system R43ples to show proof of concept.

Semantic Web

Linked Data

Revisionsverwaltung

Konflikterkennung

Semantik

Semantic Web

Linked Data

Revisionscontrol

Conflict Detection

Semantics

ddc:004

rvk:ST 200

rvk:SK 130

rvk:ST 132

Methodology for Conflict Detection and Resolution in Semantic Revision Control Systems

Hensel, Stephan, Graube, Markus, Urbas, Leon

January 2016

Revision control mechanisms are a crucial part of information systems to keep track of changes. It is one of the key requirements for industrial application of technologies like Linked Data which provides the possibility to integrate data from different systems and domains in a semantic information space. A corresponding semantic revision control system must have the same functionality as established systems (e.g. Git or Subversion). There is also a need for branching to enable parallel work on the same data or concurrent access to it. This directly introduces the requirement of supporting merges. This paper presents an approach which makes it possible to merge branches and to detect inconsistencies before creating the merged revision. We use a structural analysis of triple differences as the smallest comparison unit between the branches. The differences that are detected can be accumulated to high level changes, which is an essential step towards semantic merging. We implemented our approach as a prototypical extension of therevision control system R43ples to show proof of concept.

info:eu-repo/classification/ddc/004

ddc:004