Full title in original language:
Review of cybersecurity frameworks: context and shared concepts
Education level:
University University (18+ years)Topic / subtopic:
Cybercrime Cybercrime preventionTarget audience:
Students,
Teachers / Lecturers
Type of resource:
Publication / Article
Languages:
English
Region of relevance:
Global
Access:
restricted access: requiring payment
Individual authors:
Riza Azmi, Willam Tibben, Khin Than Win
Publication year:
2018
Published by:
Journal of Cyber Policy / Taylor & Francis
Copyright holder:
© Taylor & Francis
Contact name and address:
Taylor & Francis
Contact website:
Key themes:
cybercrime, cybercrime prevention, crime, cybersecurity, cyber security, cyberspace
Links:
Short description:
In an effort to develop strong cyber resilience, international organisations, academic institutions, corporations and countries have been actively working to develop cybersecurity frameworks (CSFs). Such efforts emphasize various perspectives depending on the organisation’s intention, while their contents involve the same concept. The aim of this paper is to incorporate the many varied perspectives on CSFs and gather them into a concise view by contrasting different intentions and distilling shared concepts. To do so, this study uses the document analysis method alongside two cycles of coding (descriptive coding and pattern coding) to excerpt 12 extant CSFs. The various intentions can be cascaded with respect to four areas: 1) the promoted action, 2) the driver, 3) the framework milieu and 4) the audience. The frameworks can also be examined according to three common concepts: 1) shared actions, 2) cyber pillars and 3) the framework life cycle. A total of seven shared actions are distilled from the frameworks, while the human, organisational, infrastructure, technology and law and regulation pillar are the most frequently discussed excerpts from the CSFs. Moreover, there are three processes for securing cyberspace: profiling, delivering and assuring. The shared concepts presented in this paper may also be useful for developing a general model of a CSF.