Research Terms
A system defining a power-aware redundant array of identical disks that includes multiple data-storing disks that store multiple data blocks in a skewed stripping pattern. The PARAID further includes a disk manager for selectively powering on the plurality of disks based upon user demand. A PARAID disk driver is provided and includes a PARAID level module to operate within a computing environment by segmenting data among the array of independent disks in a skewed striping pattern. The disk driver includes a gear-shifting logic and monitoring modules for selectively causing the PARAID to operate in a particular gear.
Mobile computing is the new norm. As people feel increasingly comfortable computing in public places such as coffee shops and transportation hubs, the risk of exposing sensitive information increases. While solutions exist to guard the communication channels used by mobile devices, the visual channel remains, to a significant degree, open. These solutions aim only to prevent the visual leakage of password entries. However, once the uses has been successfully authenticated, all accessed sensitive information is displayed in full view. No existing mechanism allows arbitrary data to be marked as sensitive. Shoulder surfing is becoming a viable threat in a world where sensitive information from images can be extracted with modest computing power.
In response, we present Cashtags: a system to defend against attacks on mobile devices based on visual observations. The system allows users to access sensitive information in public without the fear of visual leaks. This is accomplished by intercepting sensitive data elements before they are displayed on screen, then replacing them with non-sensitive information. In addition, the system provides a means of computing with sensitive data in a non-observable way.