UMBC ebiquity

Policy-based Access Control for Task Computing Using Rei

Authors: Ryusuke Masuoka, Mohinder Chopra, Zhexuan Song, Yannis K Labrou, Lalana Kagal, and Tim Finin

Book Title: Proceedings of the Policy Management for the Web Workshop

Date: May 10, 2005

Abstract: In this paper, we describe a policy-based access control implementation for Task Computing using the Rei policy engine. Task Computing lets ordinary end-users accomplish complex tasks on the fly from an open, dynamic, and distributed "universe of network-accessible resources" in ubiquitous computing environments as well as those on the Internet. The Rei policy specification language is an expressive and extensible language based on Semantic Web technologies. The Rei policy engine reasons over Rei policies in OWL and domain knowledge to answer queries about the current permissions and obligations of an entity. To provide unobtrusive and flexible access control for Task Computing, a framework was created in which several Rei policy engines were endowed with Web Services APIs to dynamically process facts from clients, the private policies of service providers, shared policies, and common shared ontologies. The framework is implemented and deployed for Fujitsu Laboratories of America (FLA), College Park office and evaluated. Categories and Subject Descriptors

Type: InProceedings

Publisher: W3C

Series: WWW 2005

Pages: 37-43

Tags: policy, task computing, pervasive computing, mobile computing, policy, rei, security

Google Scholar: BYuQZqr9gikJ

Number of Google Scholar citations: 15 [show citations]

Number of downloads: 2458


Available for download as

size: 141516 bytes

Related Projects:

Past Project

 Securing the Semantic Web: A Trust Management Approach.