The Industrial Control System Cyber Defence Triage Process Allan Cook, Helge Janicke, Richard Smith, Leandros Maglaras Cyber Technology Institute, De Montfort University, Leicester, LE1 9BH, UK Abstract The threat to Industrial Control Systems (ICS) from cyber attacks is widely acknowledged by governments and literature. Operators of ICS are looking to address these threats in an eﬀective and cost-sensitive manner that does not expose their operations to additional risks through invasive testing. Whilst existing standards and guidelines oﬀer comprehensive advice for reviewing the security of ICS infrastructure, resource and time limitations can lead to incomplete assessments or undesirably long countermeasure implementation schedules. In this paper we consider the problem of undertaking eﬃcient cyber se- curity risk assessments and implementing mitigations in large, established ICS operations for which a full security review cannot be implemented on a constrained timescale. The contribution is the Industrial Control System Cyber Defence Triage Process (ICS-CDTP). ICS-CDTP determines areas of priority where the impact of attacks is greatest, and where initial investment reduces the organisation’s overall exposure swiftly. ICS-CDTP is designed to be a precursor to a wider, holistic review across the operation following estab- lished security management approaches. ICS-CDTP is a novel combination of the Diamond Model of Intrusion Detection, the Mandiant Attack Lifecycle, and the CARVER Matrix, allowing for an eﬀective triage of attack vectors and likely targets for a capable antagonist. ICS-CDTP identiﬁes and focuses on key ICS processes and their exposure to cyber threats with the view to maintain critical operations. The article deﬁnes ICS-CDTP and exempliﬁes its application using a ﬁctitious water treatment facility, and explains its evaluation as part of a large-scale serious game exercise. Keywords: ICS, SCADA, cyber, security, triage, risk Preprint submitted to Computers and Security May 12, 2017