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Automated Digital Forensic Triage: Rapid Detection of Anti-Forensic Tools
| Content Provider | Semantic Scholar |
|---|---|
| Author | Laurenson, Thomas |
| Copyright Year | 2017 |
| Abstract | We live in the information age. Our world is interconnected by digital devices and electronic communication. As such, criminals are finding opportunities to exploit our information rich electronic data. In 2014, the estimated annual cost from computer-related crime was more than 800 billion dollars. Examples include the theft of intellectual property, electronic fraud, identity theft and the distribution of illicit material. Digital forensics grew out of necessity to combat computer crime and involves the investigation and analysis of electronic data after a suspected criminal act. Challenges in digital forensics exist due to constant changes in technology. Investigation challenges include exponential growth in the number of cases and the size of targets; for example, forensic practitioners must analyse multi-terabyte cases comprised of numerous digital devices. A variety of applied challenges also exist, due to continual technological advancements; for example, anti-forensic tools, including the malicious use of encryption or data wiping tools, hinder digital investigations by hiding or removing the availability of evidence. In response, the objective of the research reported here was to automate the effective and efficient detection of anti-forensic tools. A design science research methodology was selected as it provides an applied research method to design, implement and evaluate an innovative Information Technology (IT) artifact to solve a specified problem. The research objective require that a system be designed and implemented to perform automated detection of digital artifacts (e.g., data files and Windows Registry entries) on a target data set. The goal of the system is to automatically determine if an anti-forensic tool is present, or absent, in order to prioritise additional in-depth investigation. The system performs rapid forensic triage, suitable for execution against multiple investigation targets, providing an analyst with highlevel information regarding potential malicious anti-forensic tool usage. The system is divided into two main stages: 1) Design and implementation of a solution to automate creation of an application profile (application software reference set) of known unique digital artifacts; and 2) Digital artifact matching between the created reference set and a target data set. Two tools were designed and implemented: 1) A live differential analysis tool, named LiveDiff, to reverse engineer application software with a specific emphasis on digital forensic requirements; 2) A digital artifact matching framework, named Vestigium, to correlate digital artifact metadata and detect anti-forensic tool presence. In addition, a forensic data abstraction, named Application Profile XML (APXML), was designed to store and distribute digital artifact metadata. An associated Application Programming Interface (API), named apxml.py, was authored to provide automated processing of APXML documents. Together, the tools provided an automated triage system to detect anti-forensic tool presence on an investigation target. |
| File Format | PDF HTM / HTML |
| Alternate Webpage(s) | https://ourarchive.otago.ac.nz/bitstream/handle/10523/7621/LaurensonThomas2016PhD.pdf?isAllowed=y&sequence=1 |
| Language | English |
| Access Restriction | Open |
| Content Type | Text |
| Resource Type | Article |
