Visible to the public Biblio

Filters: Keyword is simulation environment  [Clear All Filters]
2017-12-12
Reinerman-Jones, L., Matthews, G., Wohleber, R., Ortiz, E..  2017.  Scenarios using situation awareness in a simulation environment for eliciting insider threat behavior. 2017 IEEE Conference on Cognitive and Computational Aspects of Situation Management (CogSIMA). :1–3.

An important topic in cybersecurity is validating Active Indicators (AI), which are stimuli that can be implemented in systems to trigger responses from individuals who might or might not be Insider Threats (ITs). The way in which a person responds to the AI is being validated for identifying a potential threat and a non-threat. In order to execute this validation process, it is important to create a paradigm that allows manipulation of AIs for measuring response. The scenarios are posed in a manner that require participants to be situationally aware that they are being monitored and have to act deceptively. In particular, manipulations in the environment should no differences between conditions relative to immersion and ease of use, but the narrative should be the driving force behind non-deceptive and IT responses. The success of the narrative and the simulation environment to induce such behaviors is determined by immersion, usability, and stress response questionnaires, and performance. Initial results of the feasibility to use a narrative reliant upon situation awareness of monitoring and evasion are discussed.

2017-02-27
Lokesh, M. R., Kumaraswamy, Y. S..  2015.  Healing process towards resiliency in cyber-physical system: A modified danger theory based artifical immune recogization2 algorithm approach. 2015 IEEE International Conference on Computer Graphics, Vision and Information Security (CGVIS). :226–232.

Healing Process is a major role in developing resiliency in cyber-physical system where the environment is diverse in nature. Cyber-physical system is modelled with Multi Agent Paradigm and biological inspired Danger Theory based-Artificial Immune Recognization2 Algorithm Methodology towards developing healing process. The Proposed methodology is implemented in a simulation environment and percentage of Convergence rates shown in achieving accuracy in the healing process to resiliency in cyber-physical system environment is shown.