Z
Zachary N. J. Peterson
Researcher at California Polytechnic State University
Publications - 32
Citations - 5835
Zachary N. J. Peterson is an academic researcher from California Polytechnic State University. The author has contributed to research in topics: File system & Versioning file system. The author has an hindex of 17, co-authored 32 publications receiving 5439 citations. Previous affiliations of Zachary N. J. Peterson include Johns Hopkins University & California State University.
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Proceedings ArticleDOI
Provable data possession at untrusted stores
Giuseppe Ateniese,Randal Burns,Reza Curtmola,Joseph Herring,Lea Kissner,Zachary N. J. Peterson,Dawn Song +6 more
TL;DR: The provable data possession (PDP) model as discussed by the authors allows a client that has stored data at an untrusted server to verify that the server possesses the original data without retrieving it.
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Provable Data Possession at Untrusted Stores.
Giuseppe Ateniese,Randal Burns,Reza Curtmola,Joseph Herring,Lea Kissner,Zachary N. J. Peterson,Dawn Song +6 more
TL;DR: Ateniese et al. as discussed by the authors introduced the provable data possession (PDP) model, which allows a client that has stored data at an untrusted server to verify that the server possesses the original data without retrieving it.
Journal ArticleDOI
Remote data checking using provable data possession
Giuseppe Ateniese,Randal Burns,Reza Curtmola,Joseph Herring,Osama Khan,Lea Kissner,Zachary N. J. Peterson,Dawn Song +7 more
TL;DR: A model for provable data possession (PDP) that can be used for remote data checking: A client that has stored data at an untrusted server can verify that the server possesses the original data without retrieving it.
Journal ArticleDOI
Ext3cow: a time-shifting file system for regulatory compliance
TL;DR: Ext3cow provides a time-shifting interface that permits a real-time and continuous view of data in the past that takes advantage of the fine-grained control of on-disk and in-memory data available only to a file system, resulting in minimal degradation of performance and functionality.
Proceedings ArticleDOI
Securing electronic medical records using attribute-based encryption on mobile devices
Joseph A. Akinyele,Matthew W. Pagano,Matthew Green,Christoph U. Lehmann,Zachary N. J. Peterson,Aviel D. Rubin +5 more
TL;DR: The system allows healthcare organizations to export EMRs to locations outside of their trust boundary and is designed to maintain EMR availability even when providers are offline, i.e., where network connectivity is not available.