HiGate (High Grade Anti-Tamper Equipment) Prototype and Application to e-Discovery

These days, most data is digitized and processed in various ways by computers. In the past, computer owners were free to process data as desired and to observe the inputted data as well as the interim results. However, the unrestricted processing of data and accessing of interim results even by computer users is associated with an increasing number of adverse events. These adverse events often occur when sensitive data such as personal or confidential business information must be handled by two or more parties, such as in the case of e-Discovery, used in legal proceedings, or epidemiologic studies. To solve this problem, providers encrypt data, and the owner of the computer performs decoding in the memory for encrypted data. The computer owner can be limited to performing only certain processing of data and to observing only the final results. As an implementation that uses existing technology to realize this solution, the processing of data contained in a smart card was considered, but such an implementation would not be practical due to issues related to computer capacity and processing speed. Accordingly, the authors present the concept of PC-based High Grade Anti-Tamper Equipment (HiGATE), which allows data to be handled without revealing the data content to administrators or users. To verify this concept, an e-Discovery application on a prototype was executed and the results are reported here.

[1]  Nasir D. Memon,et al.  Digital Forensics , 2009, IEEE Secur. Priv..

[2]  Ron Steinfeld,et al.  Content Extraction Signatures , 2001, ICISC.

[3]  Stefan Hanloser,et al.  e-discovery , 2008, Datenschutz und Datensicherheit - DuD.

[4]  Ryôichi Sasaki,et al.  Proposal of Digital Forensic System Using Security Device and Hysteresis Signature , 2007, Third International Conference on Intelligent Information Hiding and Multimedia Signal Processing (IIH-MSP 2007).

[5]  Ryôichi Sasaki,et al.  Proposal of the e-Discovery System for Sanitizing Disclosure Information and for Securing Evidence , 2007, Future Generation Communication and Networking (FGCN 2007).