Adapting digital forensics processes for quantum computing : Insights from established industry guidelines supplemented by qualitative interviews

Svenblad, Tobias

January 2024

This thesis explores the evolving landscape of digital forensics in the context of quantum computing advancements, which challenge the foundational integrity of digital evidence. The focus is on the globally recognized digital forensic guidelines, NIST SP 800-86 and ISO/IEC 27037:2012, and their capacity to safeguard evidence against the unique capabilities of quantum systems. This thesis identifies vulnerabilities within existing forensic models through a comprehensive document analysis and expert interviews and proposes strategic modifications to enhance their robustness. Key findings suggest that traditional digital forensic methodologies, while robust under current technological standards, must address quantum data’s multi-state, entanglement, and no-cloning properties, which can fundamentally alter digital evidence. The thesis advocates for a paradigm shift in forensic processes to incorporate quantum-resistant techniques that ensure the integrity and admissibility of evidence. Additionally, it highlights the necessity for ongoing education and collaborative research to effectively adapt digital forensics to this new technological era. This research contributes to the theoretical framework and practical applications of digital forensics, aiming to future-proof forensic practices against the disruptive nature of quantum computing.

Digital forensics

quantum computing

forensic guidelines

NIST SP 800-86

ISO/IEC 27037:2012

evidence integrity

quantum-resistant techniques

quantum superposition

quantum entanglement

no-cloning theorem

forensic process adaptation

quantum forensics

digital evidence

quantum era challenges

forensic methodology

Information Systems, Social aspects