Bet04 (In proceedings)
|
Author(s) | Lorenzo Bettini |
Title | « Data Privacy in Tuple Space Based Mobile Agent Systems » |
In | 2nd Int. Workshop on Security Issues in Coordination Models, Languages, and Systems (SecCo) |
Series | ENTCS |
Editor(s) | R.Focardi and G.Zavattaro |
Number | 568 |
Year | 2004 |
Publisher | Elsevier |
URL | http://rap.dsi.unifi.it/~bettini/bibliography/files/cryptoagents.pdf |
Abstract |
Recently, distributed variants of tuple spaces have been proposed to exploit the Linda model for programming distributed applications over wide area networks, possibly exploiting code mobility. However, the flexibility of the shared tuple space model opens possible security holes; it basically provides no access protection to the shared data. In this paper we investigate some possible scenarios where mobile agents can benefit from our cryptographic tuple space based framework, CryptoKlava, and sketch how to possibly implement such agents in order to keep the privacy of items collected by the mobile agent during its itinerary. The functionalities of the framework are general enough to be applied to other Java frameworks using multiple distributed tuples spaces possibly dealing with code mobility. |
@inproceedings{Bet04,
number = {568},
author = {Bettini, Lorenzo},
series = {ENTCS},
booktitle = {2nd Int. Workshop on Security Issues in Coordination Models,
Languages, and Systems (SecCo)},
editor = {R.Focardi and G.Zavattaro},
url = {http://rap.dsi.unifi.it/~bettini/bibliography/files/cryptoagents.pdf},
title = {{Data Privacy in Tuple Space Based Mobile Agent Systems}},
abstract = {Recently, distributed variants of tuple spaces have been proposed
to exploit the Linda model for programming distributed
applications over wide area networks, possibly exploiting code
mobility. However, the flexibility of the shared tuple space model
opens possible security holes; it basically provides no access
protection to the shared data. In this paper we investigate some
possible scenarios where mobile agents can benefit from our
cryptographic tuple space based framework, CryptoKlava, and sketch
how to possibly implement such agents in order to keep the privacy
of items collected by the mobile agent during its itinerary. The
functionalities of the framework are general enough to be applied
to other Java frameworks using multiple distributed tuples spaces
possibly dealing with code mobility.},
publisher = {Elsevier},
year = {2004},
}
This document was generated by bib2html 3.3.
(Modified by Luca Paolini, under the GNU General Public License)