Sushil Jajodia
George Mason University
670 Papers
9.5K Citations
Sushil Jajodia is an academic researcher from George Mason University. The author has contributed to research in topics: Computer science & Access control. The author has an hindex of 101, co-authored 664 publications. Previous affiliations of Sushil Jajodia include National Institute of Standards and Technology & United States Naval Research Laboratory.
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Papers
Securing Topology Maintenance Protocols for Sensor Networks
TL;DR: A metaprotocol (Meta-TMP) is proposed to represent the class of topology maintenance protocols for sensor networks and provides a better understanding of the characteristics and of how a specific TMP works, and it can be used to study the vulnerabilities of a particular TMP.
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Providing Users’ Anonymity in Mobile Hybrid Networks
TL;DR: The privacy exposure and the protection of the system in the presence of malicious neighboring peers, global WiFi eavesdroppers, and omniscient mobile network operators, which possibly collude to breach user’s anonymity or disrupt the communication are formally quantified.
Towards Intelligent Cyber Deception Systems
Fabio De Gaspari,Sushil Jajodia,Luigi V. Mancini,Giulio Pagnotta +3 more
- 01 Jan 2019
TL;DR: This chapter discusses intelligent cyber deception systems that can dynamically plan the deception strategy and use several actuators to effectively implement the cyber deception measures.
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Integrity for distributed queries
Sabrina De Capitani di Vimercati,Sara Foresti,Sushil Jajodia,Giovanni Livraga,Stefano Paraboschi,Pierangela Samarati +5 more
- 29 Dec 2014
TL;DR: This work considers join queries over multiple data sources, maintained at separate (trusted) storage servers, where join computation is performed by an inexpensive, but potentially untrusted, computational cloud.
A new polyinstantiation integrity constraint for multilevel relations
Ravi Sandhu,Sushil Jajodia,T. Lunt +2 more
- 12 Jun 1990
TL;DR: A new polyinstantiation integrity constraint for multilevel relations based on the intuitive idea that every entity in a relation can have at most one tuple for every access class is proposed.
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