Biblio

Cyber security return on investment (RoI) or return on security investment (RoSI) is extremely challenging to measure. This is partly because it is difficult to measure the actual cost of a cyber security incident or cyber security proceeds. This is further complicated by the fact that there are no consensus metrics that every organisation agrees to, and even among cyber subject matter experts, there are no set of agreed parameters or metric upon which cyber security benefits or rewards can be assessed against. One approach to demonstrating return on security investment is by producing cyber security reports of certain key performance indicators (KPI) and metrics, such as number of cyber incidents detected, number of cyber-attacks or terrorist attacks that were foiled, or ongoing monitoring capabilities. These are some of the demonstratable and empirical metrics that could be used to measure RoSI. In this abstract paper, we investigate some of the cyber KPIs and metrics to be considered for cyber dashboard and reporting for RoSI.

Taiwan has become the frontline in an emerging cyberspace battle. Cyberattacks from different countries are constantly reported during past decades. The incident of Advanced Persistent Threat (APT) is analyzed from the golden triangle components (people, process and technology) to ensure the application of digital forensics. This study presents a novel People-Process-Technology-Strategy (PPTS) model by implementing a triage investigative step to identify evidence dynamics in digital data and essential information in auditing logs. The result of this study is expected to improve APT investigation. The investigation scenario of this proposed methodology is illustrated by applying to some APT incidents in Taiwan.

The rise of malware attack and data leakage is putting the Internet at a higher risk. Digital forensic examiners responsible for cyber security incident need to continually update their processes, knowledge and tools due to changing technology. These attack activities can be investigated by means of Digital Triage Forensics (DTF) methodologies. DTF is a procedural model for the crime scene investigation of digital forensic applications. It takes place as a way of gathering quick intelligence, and presents methods of conducting pre/post-blast investigations. A DTF framework of Window malware forensic toolkit is further proposed. It is also based on ISO/IEC 27037: 2012 - guidelines for specific activities in the handling of digital evidence. The argument is made for a careful use of digital forensic investigations to improve the overall quality of expert examiners. This solution may improve the speed and quality of pre/post-blast investigations. By considering how triage solutions are being implemented into digital investigations, this study presents a critical analysis of malware forensics. The analysis serves as feedback for integrating digital forensic considerations, and specifies directions for further standardization efforts.

Taiwan has become the frontline in an emerging cyberspace battle. Cyberattacks from different countries are constantly reported during past decades. The incident of Advanced Persistent Threat (APT) is analyzed from the golden triangle components (people, process and technology) to ensure the application of digital forensics. This study presents a novel People-Process-Technology-Strategy (PPTS) model by implementing a triage investigative step to identify evidence dynamics in digital data and essential information in auditing logs. The result of this study is expected to improve APT investigation. The investigation scenario of this proposed methodology is illustrated by applying to some APT incidents in Taiwan.