Freiling F, Schuhr J, Gruhn M (2015)
Publication Type: Journal article, Original article
Publication year: 2015
Publisher: Gesellschaft für Informatik
Book Volume: 57
Pages Range: 376-383
Journal Issue: 6
ISBN: 9781479999033
In his seminal work on file system forensic analysis, Carrier defined the notion of essential data as 'those that areneeded to save and retrieve files.' He argues that essential data is therefore more trustworthy since it has to be correctin order for the user to use the file system. In many practical settings, however, it is unclear whether a specific pieceof data is essential because either file system specifications are ambiguous or the importance of a specific data fielddepends on the operating system that processes the file system data. We therefore revisit Carrier's definition andshow that there are two types of essential data: strong and weak. While strongly essential corresponds to Carrier'sdefinition, weakly essential refers to application specific interpretations. We empirically show the amount of stronglyand weakly essential data in DOS/MBR and GPT partition systems, thereby complementing and extending Carrier'sfindings.
APA:
Freiling, F., Schuhr, J., & Gruhn, M. (2015). What is essential data in digital forensic analysis? it - Information Technology, 57(6), 376-383. https://doi.org/10.1515/itit-2015-0016
MLA:
Freiling, Felix, Jan Schuhr, and Michael Gruhn. "What is essential data in digital forensic analysis?" it - Information Technology 57.6 (2015): 376-383.
BibTeX: Download