Digital Forensic Science. Vassil Roussev
Digital Forensic Science
Issues, Methods, and Challenges
Synthesis Lectures on Information Security, Privacy, & Trust
Editor
Elisa Bertino, Purdue University
Ravi Sandhu, University of Texas, San Antonio
The Synthesis Lectures Series on Information Security, Privacy, and Trust publishes 50- to 100-page publications on topics pertaining to all aspects of the theory and practice of Information Security, Privacy, and Trust. The scope largely follows the purview of premier computer security research journals such as ACM Transactions on Information and System Security, IEEE Transactions on Dependable and Secure Computing and Journal of Cryptology, and premier research conferences, such as ACM CCS, ACM SACMAT, ACM AsiaCCS, ACM CODASPY, IEEE Security and Privacy, IEEE Computer Security Foundations, ACSAC, ESORICS, Crypto, EuroCrypt and AsiaCrypt. In addition to the research topics typically covered in such journals and conferences, the series also solicits lectures on legal, policy, social, business, and economic issues addressed to a technical audience of scientists and engineers. Lectures on significant industry developments by leading practitioners are also solicited.
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Digital Forensic Science: Issues, Methods, and Challenges
Vassil Roussev
www.morganclaypool.com
ISBN: 9781627059596 paperback
ISBN: 9781627054652 ebook
DOI 10.2200/S00738ED1V01Y201610SPT019
A Publication in the Morgan & Claypool Publishers series
SYNTHESIS LECTURES ON INFORMATION SECURITY, PRIVACY, & TRUST
Lecture #19
Series Editors: Elisa Bertino, Purdue University
Ravi Sandhu, University of Texas, San Antonio
Series ISSN
Print 1945-9742 Electronic 1945-9750
Digital Forensic Science
Issues, Methods, and Challenges
Vassil Roussev
University of New Orleans
SYNTHESIS LECTURES ON INFORMATION SECURITY, PRIVACY, & TRUST #19
ABSTRACT
Digital forensic science, or digital forensics, is the application of scientific tools and methods to identify, collect, and analyze digital (data) artifacts in support of legal proceedings. From a more technical perspective, it is the process of reconstructing the relevant sequence of events that have led to the currently observable state of a target IT system or (digital) artifacts.
Over the last three decades, the importance of digital evidence has grown in lockstep with the fast societal adoption of information technology, which has resulted in the continuous accumulation of data at an exponential rate. Simultaneously, there has been a rapid growth in network connectivity and the complexity of IT systems, leading to more complex behavior that needs to be investigated.
The goal of this book is to provide a systematic technical overview of digital forensic techniques, primarily from the point of view of computer science. This allows us to put the field in the broader perspective of a host of related areas and gain better insight into the computational challenges facing forensics, as well as draw inspiration for addressing them. This is needed as some of the challenges faced by digital forensics, such as cloud computing, require qualitatively different