Biblio
Network analysts have long used two-dimensional security visualizations to make sense of overwhelming amounts of network data. As networks grow larger and more complex, two-dimensional displays can become convoluted, compromising user cyber-threat perspective. Using augmented reality to display data with cyber-physical context creates a naturally intuitive interface that helps restore perspective and comprehension sacrificed by complicated two-dimensional visualizations. We introduce Mobile Augmented Reality for Cybersecurity, or MARCS, as a platform to visualize a diverse array of data in real time and space to improve user perspective and threat response. Early work centers around CovARVT and ConnectAR, two proof of concept, prototype applications designed to visualize intrusion detection and wireless association data, respectively.