Difference between revisions of "Past Selected Articles"

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m (New page: ''Archived past selected research articles'' <small>2008-July-5</small> <bibtex> @article{ publisher="Taylor & Francis", journal="Journal of Digital Forensic Practice", author="Y...)
 
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''Archived past selected research articles''
 
''Archived past selected research articles''
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<small>2008-July-12</small>
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<bibtex>
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@article{
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  misc="",
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  publisher="DFRWS 2008",
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  author="Anandabrata Pal and Taha Sencar and Nasir Memon",
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  title="Detecting File Fragmentation Point Using Sequential Hypothesis Testing",
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  year=2008,
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  abstract="Abstract—File carving is a technique whereby data files are
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extracted from a digital device without the assistance of file
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tables or other disk meta-data. One of the primary challenges in
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file carving can be found in attempting to recover files that are
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fragmented. In this paper, we show how detecting the point of
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fragmentation of a file can benefit fragmented file recovery. We
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then present a sequential hypothesis testing procedure to identify
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the fragmentation point of a file by sequentially comparing
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adjacent pairs of blocks from the starting block of a file until
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the fragmentation point is reached. By utilizing serial analysis we
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are able to to minimize the errors in detecting the fragmentation
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points. The performance results obtained from the fragmented
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test-sets of DFRWS 2006 and 2007 show that the method can be
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effectively used in recovery of fragmented files.
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clear that recovery of fragmented files is a critical problem in
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forensics. ",
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  url="http://www.digital-assembly.com/technology/research/pubs/dfrws2008.pdf"
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}
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</bibtex>
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This DFRWS 2008 article presents an improved approach for carving fragmented JPEGs using sequential hypothesis testing. According to the authors, "The technique begins with a header block identifying the start of a file and then attempts to validate via SHT each subsequent block following the header block. The fragmentation point is identified when SHT identifies a block as not belonging to the file. By utilizing this technique, we are able to correctly and efficiently recover JPEG images from the DFRWS 2006 [1] and 2007 [2] test sets even in the presence of tens of thousands of blocks and files fragmented into 3 or more parts. The bifragment gap carving technique enhanced with SHT allows us to improve the performance result of DFRWS 2006 challenge test-sets,
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although the technique cannot be used for DFRWS 2007. We then show how Parallel Unique Path enhanced with SHT is able to recover all fragmented JPEGs from DFRWS 2006 and all recoverable JPEGs from 2007 challenge test-sets. As far as we are aware, no other automated technique can recover multi-fragmented JPEGs from the DFRWS 2007 test set."
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<small>2008-July-5</small>
 
<small>2008-July-5</small>

Revision as of 00:56, 21 July 2008

Archived past selected research articles

2008-July-12

Anandabrata Pal, Taha Sencar, Nasir Memon - Detecting File Fragmentation Point Using Sequential Hypothesis Testing
,2008
http://www.digital-assembly.com/technology/research/pubs/dfrws2008.pdf
Bibtex
Author : Anandabrata Pal, Taha Sencar, Nasir Memon
Title : Detecting File Fragmentation Point Using Sequential Hypothesis Testing
In : -
Address :
Date : 2008

This DFRWS 2008 article presents an improved approach for carving fragmented JPEGs using sequential hypothesis testing. According to the authors, "The technique begins with a header block identifying the start of a file and then attempts to validate via SHT each subsequent block following the header block. The fragmentation point is identified when SHT identifies a block as not belonging to the file. By utilizing this technique, we are able to correctly and efficiently recover JPEG images from the DFRWS 2006 [1] and 2007 [2] test sets even in the presence of tens of thousands of blocks and files fragmented into 3 or more parts. The bifragment gap carving technique enhanced with SHT allows us to improve the performance result of DFRWS 2006 challenge test-sets, although the technique cannot be used for DFRWS 2007. We then show how Parallel Unique Path enhanced with SHT is able to recover all fragmented JPEGs from DFRWS 2006 and all recoverable JPEGs from 2007 challenge test-sets. As far as we are aware, no other automated technique can recover multi-fragmented JPEGs from the DFRWS 2007 test set."



2008-July-5

Yoginder Singh Dandass, Nathan Joseph Necaise, Sherry Reede Thomas - An Empirical Analysis of Disk Sector Hashes for Data Carving
Journal of Digital Forensic Practice 2:95--106,2008
http://www.informaworld.com/10.1080/15567280802050436
Bibtex
Author : Yoginder Singh Dandass, Nathan Joseph Necaise, Sherry Reede Thomas
Title : An Empirical Analysis of Disk Sector Hashes for Data Carving
In : Journal of Digital Forensic Practice -
Address :
Date : 2008

Authors Dandass et. al analyzed 528 million sectors from 433,630 unique files. They computed the CRC32, CRC64, MD5 and SHA-1 of each sector. Not surprisingly, they find that the MD5 and SHA-1s of the sectors are different if the sectors are different. They find 94 CRC64 collisions and 30 million CRC32 collisions. The conclusion is that, if you are search for a single sector or building a database of single sector hashes, you are better off building a database of CRC64s because they are easier to store and dramatically faster to calculate than the traditional hash functions, and they are nearly as accurate.