Your search keyword '"Marazakis, Manolis"' showing total 3 results

1. A Data-Centric Security Analysis Of ICGrid

Author

Luna, Jesus, Flouris, Michail, Marazakis, Manolis, Bilas, Angelos, Dikaiakos, Marios D., Gjermundrod, Harald, Kyprianou, Theodoros, Gorlatch, Sergei, editor, Fragopoulou, Paraskevi, editor, and Priol, Thierry, editor

Published

2008

2. Data-Centric Privacy Protocol for Intensive Care Grids.

Author

Luna, Jesus, Dikaiakos, Marios, Marazakis, Manolis, and Kyprianou, Theodoros

Subjects

CRITICAL care medicine, DATA security, MEDICAL protocols, GRIDS (Cartography), STORAGE fragmentation (Computer science), ACCESS control, INTENSIVE care units

Abstract

Modern e-Health systems require advanced computing and storage capabilities, leading to the adoption of technologies like the grid and giving birth to novel health grid systems. In particular, intensive care medicine uses this paradigm when facing a high flow of data coming from intensive care unit’s (ICU) inpatients just like demonstrated by the ICGrid system prototyped by the University of Cyprus. Unfortunately, moving an ICU patient’s data from the traditionally isolated hospital’s computing facilities to data grids via public networks (i.e., the Internet) makes it imperative to establish an integral and standardized security solution to avoid common attacks on the data and metadata being managed. Particular emphasis must be put on the patient’s personal data, the protection of which is required by legislations in many countries of the European Union and the world in general. In this paper, we extend our previous research with the following contributions: 1) a mandatory access control model to protect patient’s metadata; 2) a major security revision to our previously proposed privacy protocol by contributing with a “quality of security” quantitative metric to improve fragmented data’s assurance; and finally, 3) a set of early results to demonstrate that our protocol not only improves a patient personal data’s security and privacy but also achieves a performance comparable with existing approaches. [ABSTRACT FROM PUBLISHER]

Published

2010

3. Data Privacy considerations in Intensive Care Grids.

Author

Solomonides, Tony, Silverstein, Jonathan C., Saltz, Joel, Legré, Yannick, Kratz, Mary, Foster, Ian, Breton, Vincent, Beck, J. Robert, Luna, Jesus, Dikaiakos, Marios D., Kyprianou, Theodoros, Bilas, Angelos, and Marazakis, Manolis

Abstract

Novel eHealth systems are being designed to provide a citizen-centered health system, however the even demanding need for computing and data resources has required the adoption of Grid technologies. In most of the cases, this novel Health Grid requires not only conveying patient's personal data through public networks, but also storing it into shared resources out of the hospital premises. These features introduce new security concerns, in particular related with privacy. In this paper we survey current legal and technological approaches that have been taken to protect a patient's personal data into eHealth systems, with a particular focus in Intensive Care Grids. However, thanks to a security analysis applied over the Intensive Care Grid system (ICGrid) we show that these security mechanisms are not enough to provide a comprehensive solution, mainly because the data-at-rest is still vulnerable to attacks coming from untrusted Storage Elements where an attacker may directly access them. To cope with these issues, we propose a new privacy-oriented protocol which uses a combination of encryption and fragmentation to improve data's assurance while keeping compatibility with current legislations and Health Grid security mechanisms. [ABSTRACT FROM AUTHOR]

Published

2008