Achieving Zero Information-Loss in a Classical Database Environment.
Gautam Bhargava, Shashi K. Gadia:
Achieving Zero Information-Loss in a Classical Database Environment.
VLDB 1989: 217-224@inproceedings{DBLP:conf/vldb/BhargavaG89,
author = {Gautam Bhargava and
Shashi K. Gadia},
editor = {Peter M. G. Apers and
Gio Wiederhold},
title = {Achieving Zero Information-Loss in a Classical Database Environment},
booktitle = {Proceedings of the Fifteenth International Conference on Very
Large Data Bases, August 22-25, 1989, Amsterdam, The Netherlands},
publisher = {Morgan Kaufmann},
year = {1989},
isbn = {1-55860-101-5},
pages = {217-224},
ee = {db/conf/vldb/BhargavaG89.html},
crossref = {DBLP:conf/vldb/89},
bibsource = {DBLP, http://dblp.uni-trier.de}
}
Abstract
The research in temporal databases has, so far, concentrated on the history of an object as it exists in the real world.
Instead, in this paper we view the history of an object as it is recorded in a database.
Such a history is obtained by extrpoating the outcome of the updates (insert, modify, and delete) made to the object at discrete instants.
Our model supports two kinds of query-users: the system-user, and the classical-user.
For the classical-user, the interface to the database is identical to the usual interface in classical snapshot databases.
We extend the classical relational model so that a transaction, i.e.,anupdate or a (retrieval) query is recorded in such a way that its effectcan be determined at any time in the future; thus, our model is a zero information-loss model (Theorem 1). The logical structure imposed upon the model allows us to give a powerful algebra or the system-user to query the circumstantial information surrounding updates and queries.
In addition, a single execution of a query can be identified with the relation it retrieves; thus, a user can query queries, query queries on queries, ad infinitum.
The model represents an application of temporal databases to mainstreamdatabases.
It can be used in auditing, and as a foundation for building secure systems.
Copyright © 1989 by the VLDB Endowment.
Permission to copy without fee all or part of this material is granted provided that the copies are not made or
distributed for direct commercial advantage, the VLDB
copyright notice and the title of the publication and
its date appear, and notice is given that copying
is by the permission of the Very Large Data Base
Endowment. To copy otherwise, or to republish, requires
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Online Paper
CDROM Version: Load the CDROM "Volume 1 Issue 5, VLDB '89-'97" and ...
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Printed Edition
Peter M. G. Apers, Gio Wiederhold (Eds.):
Proceedings of the Fifteenth International Conference on Very Large Data Bases, August 22-25, 1989, Amsterdam, The Netherlands.
Morgan Kaufmann 1989, ISBN 1-55860-101-5
References
- [Ga1]
- Shashi K. Gadia:
A Homogeneous Relational Model and Query Languages for Temporal Databases.
ACM Trans. Database Syst. 13(4): 418-448(1988)
- [Ga2]
- Shashi K. Gadia:
The Role of Temporal Elements in Temporal Databases.
IEEE Data Eng. Bull. 11(4): 19-25(1988)
- [GB]
- ...
- [GY1]
- ...
- [Ga2]
- Shashi K. Gadia, Chuen-Sing Yeung:
A Generalized Model for a Relational Temporal Database.
SIGMOD Conference 1988: 251-259
- [LJ]
- Nikos A. Lorentzos, Roger G. Johnson:
Extending relational algebra to manipulate temporal data.
Inf. Syst. 13(3): 289-296(1988)
- [Sn]
- Richard T. Snodgrass:
The Temporal Query Language TQuel.
ACM Trans. Database Syst. 12(2): 247-298(1987)
- [Ta]
- Abdullah Uz Tansel:
Adding time dimension to relational model and extending relational algebra.
Inf. Syst. 11(4): 343-355(1986)
Copyright © Tue Mar 16 02:22:00 2010
by Michael Ley (ley@uni-trier.de)
