Session
Computer Science and Communication Engineering
Description
State-of-the-art security frameworks have been extensively addressing security issues for web resources, agents and services in the Semantic Web. The provision of Stream Reasoning as a new area spanning Semantic Web and Data Stream Management Systems has eventually opened up new challenges. Namely, their decentralized nature, the metadata descriptions, the number of users, agents, and services, make securing Stream Reasoning systems difficult to handle. Thus, there is an inherent need of developing new security models which will handle security and automate security mechanisms to a more autonomous system that supports complex and dynamic relationships between data, clients and service providers. We plan to validate our approach on a typical application of stream data, on Wireless Sensor Networks (WSNs). In particular, WSNs for water quality monitoring will serve as a case study. The paper describes the initial findings and research plan for building a consistent security model for stream reasoning systems.
Keywords:
semantic web, stream reasoning, data stream management system, wireless sensor netowork
Session Chair
Zhilbert Tafa
Session Co-Chair
Ramiz Hoxha
Proceedings Editor
Edmond Hajrizi
ISBN
978-9951-437-60-8
First Page
13
Last Page
16
Location
Durres, Albania
Start Date
27-10-2017 1:20 PM
End Date
27-10-2017 2:30 PM
DOI
10.33107/ubt-ic.2017.80
Recommended Citation
Aliti, Admirim; Jajaga, Edmond; and Sevrani, Kozeta, "A need for an integrative security model for semantic stream reasoning systems" (2017). UBT International Conference. 80.
https://knowledgecenter.ubt-uni.net/conference/2017/all-events/80
Included in
A need for an integrative security model for semantic stream reasoning systems
Durres, Albania
State-of-the-art security frameworks have been extensively addressing security issues for web resources, agents and services in the Semantic Web. The provision of Stream Reasoning as a new area spanning Semantic Web and Data Stream Management Systems has eventually opened up new challenges. Namely, their decentralized nature, the metadata descriptions, the number of users, agents, and services, make securing Stream Reasoning systems difficult to handle. Thus, there is an inherent need of developing new security models which will handle security and automate security mechanisms to a more autonomous system that supports complex and dynamic relationships between data, clients and service providers. We plan to validate our approach on a typical application of stream data, on Wireless Sensor Networks (WSNs). In particular, WSNs for water quality monitoring will serve as a case study. The paper describes the initial findings and research plan for building a consistent security model for stream reasoning systems.