EDP Sciences logo
Subscriber Authentication Point
Search
Menu
All issues Volume 30 / No 3 (1996) RAIRO-Theor. Inf. Appl., 30 3 (1996) 231-260 References
Free Access
Issue
RAIRO-Theor. Inf. Appl.
Volume 30, Number 3, 1996
Page(s) 231 - 260
DOI https://doi.org/10.1051/ita/1996300302311
Published online 01 February 2017
  1. 1. A. V. AHO and J. D. ULLMAN, Universality of data retrieval languages, In Proceedings of the Sixth ACM Symposium on Principles of Programming Languages, pp. 110-120, San Antonio, Texas, ACM Press, 1979. [MR: 583416] [Google Scholar]
  2. 2. J. P. BURGESS, Basic tense logic, In D. M. Gabbay and F. Guethner, editors, Handbook of Philosophical Logic, Vol. II, pp. 89-134, D. Reidel Publishing Company, 1984. [MR: 844597] [Zbl: 0875.03046] [Google Scholar]
  3. 3. B. F. CHELLAS, Modal Logic: An Introduction, Cambridge University Press, 1980. [MR: 556867] [Zbl: 0431.03009] [Google Scholar]
  4. 4. J CHOMICKI, Temporal query languages: A survey. In D. M. Gabbay and H. J. Ohlbach, editors, Proceedings of ICTL'94: The First International Conference on Temporal Logic, 827 of LNAI, pp. 506-534, Gustav Stresemann Institut, Bonn, Germany, Springer-Verlag, 1994. [MR: 1319637] [Zbl: 0949.68524] [Google Scholar]
  5. 5. J. CLIFFORD, A. CROKER and A. TUZHILIN, On completeness of historical relational query languages, ACM Transactions on Database Systems, 1994, 19 (1), pp.64-116. [Google Scholar]
  6. 6. J. CLIFFORD and A. U. TANSEL, On an algebra for historical relational databases: Two views, In S. Navathe, editor, Proceedings of the 1985 ACM SIGMOD International Conference on Management of Data, pp. 247-265. ACM Press, 1985. [Google Scholar]
  7. 7. J. CLIFFORD and D. S. WARREN, Formal semantics for time in databases, ACM Transactions on Database Systems, 1983, 8 (2), pp. 214-254. [Zbl: 0509.68115] [Google Scholar]
  8. 8. E. F. CODD, A relational model of data for large shared data banks, Communications of the Association for Computing Machinery, 1970, 13 (6), pp. 377-387. [Zbl: 0207.18003] [Google Scholar]
  9. 9. U. DAYAL and G. T. J. WUU, A uniform approach to processing temporal queries, In Proceedings of the 18th Very Large Data Bases Conference, pp. 407-418, Vancouver, British Columbia, Canada, 1992. Morgan Kauffman, Los Altos, Calif. [Google Scholar]
  10. 10. D. GABBAY and P. MCBRIEN, Temporal logic & historical databases, In Proceedings of the 17th Very Large Data Bases Conference, pp. 423-430, Barcelona, Spain, September 1991. Morgan Kauffman, Los Altos, Calif. [Google Scholar]
  11. 11. S. K. GADIA, A homogeneous relational model and query languages for temporal databases, ACM Transactions on Database Systems, 1988, 13 (4): pp. 418-448. [MR: 1072198] [Zbl: 0668.68118] [Google Scholar]
  12. 12. F. GOLSHANI, Specification and design of expert database Systems, In Larry Kerschberg, editor, Expert Database Systems, p. 369-381, The Benjamin/Cummings Publishing Company, 1986. [Zbl: 0633.68110] [Google Scholar]
  13. 13. M. A. W. HOUTSMA and P. M. G. APERS, Algebraic optimization of recursive queries, Data & Knowledge Engineering, 1992, 7, pp. 299-325. [Google Scholar]
  14. 14. C. S. JENSEN et al., A consensus glossary of temporal database concepts, SIGMOD RECORD, 1994, 23 (1) pp. 52-64. [Google Scholar]
  15. 15. C. S. JENSEN and L. MARK, Queries on change in an extended relational model, IEEE Transactions on Knowledge and Data Engineering, 1992, 4, (2): pp. 192-200. [Google Scholar]
  16. 16. P. P. KALUA and E. L. ROBERTSON, Benchmark queries for temporal databases, Technical Report TR379, Computer Science Department, Indiana University, Bloomington, Indiana 47405, USA, March 1993. [Google Scholar]
  17. 17. N. KLINE, An update of the temporal database bibliography, SIGMOD RECORD, 1993, 22 (4), pp. 66-80. [Google Scholar]
  18. 18. N. A. LORENTZOS and R. G. JOHNSON, TRA: A model for a temporal relational algebra, In C. Rolland, F. Bodart, and M. Leonard, editors, Temporal Aspects in Information Systems, pp. 95-109, North-Holland, Amsterdam, 1988. [Google Scholar]
  19. 19. D. MAIER, The Theory of Relational Databases, Computer Science Press, 1983. [MR: 691493] [Zbl: 0519.68082] [Google Scholar]
  20. 20. E. MCKENZIE and R. SNODGRASS, Extending the relational algebra to support transaction time, In U. Dayal and I. Traiger, editors, Proceedings ofthe 1987 ACM SIGMOD International Conference on Management of Data, pp.467-478, ACM Press, 1987. [Google Scholar]
  21. 21. L. Jr. EDWIN MCKENZIE and R. SNODGRASS, Evaluation of relational algebras incorporating the time dimension in databases, ACM Computing Surveys, 1991, 23 (4), pp, 501-543. [Google Scholar]
  22. 22. S. B. NAVATHE and R. AHMED, TSQL: A language interface for history databases. In C. Rolland, F. Bodart, and M. Leonard, editors, Temporal Aspects in Information Systems, pp. 109-122. North-Holland, Amsterdam, 1988. [Google Scholar]
  23. 23. M. A. ORGUN and H. A. MÜLLER, A temporal algebra based on an abstract model, In M. E, Orlowska and M. Papazoglou, editors, Advances in Database Research: Proceedings of the 4th Australian Database Conference, pp, 301-316, Brisbane, Queensland, Australia, February 1-2 1993. World Scientific, Singapore. [Google Scholar]
  24. 24. M. A. ORGUN and W. W. WADGE, A relational algebra as a query language for Temporal Datalog, In A. M. Tjoa and I. Ramos, editors, Proceedings of DEXA'92: The Third International Conference on Database and Expert Systems Applications, pp. 276-281, Valencia, Spain, September 2-4 1992, Springer-Verlag Wien. [Google Scholar]
  25. 25. M. A. ORGUN, On temporal deductive databases, Computational Intelligence, 1996, 12 (2), To appear. [MR: 1401902] [Google Scholar]
  26. 26. N. L. SARDA, Algebra and query language for a historical data model, The Computer Journal, 1990, 33 (1), pp. 11-18. [Google Scholar]
  27. 27. R. T. SNODGRASS, S. GOMEZ and L. Jr. EDWIN MCKENZIE, Aggregates in the temporal query language TQuel, IEEE Transactions on Knowledge and Data Engineering, 1993, 5 (5), pp. 826-842. [Google Scholar]
  28. 28. J. E. STOY, Denotational Semantics : The Scott-Strachey Approach to Programming Language Theory, MIT Press, 1977. [MR: 488969] [Zbl: 0503.68059] [Google Scholar]
  29. 29. A.U. TANSEL, A statistical interface forhistorical relational databases, In Proceedings of the International Conference on Data Engineering, pp. 538-546, Los Angeles, Calif., February 1987, IEEE Computer Society Press. [Google Scholar]
  30. 30. A. U. TANSEL, A historical query language, Information Sciences, 1991, 53, pp. 101-133. [Zbl: 0717.68025] [Google Scholar]
  31. 31. A. U. TANSEL et al., editors, Temporal Databases: Theory, Design, and Implementation, Benjamin/Cummings Publishing Company, Redwood City, CA, 1993. [Google Scholar]
  32. 32. A. TUZHILIN and J. CLIFFORD, A temporal relational algebra as a basis for temporal relational completeness, In D. McLeod, R. Sacks-Davis, and H. Schek, editors, Proceedings of the 16th International Conference on Very Large Data Bases, pp. 13-23, Brisbane, Australia, August 13-16 1990. Morgan Kaufmann Publishers Inc., Los Altos, Calif. [Google Scholar]
  33. 33. J. D. ULLMAN, Principles of Database and Knowledge-Base Systems, volume 1. Computer Science Press, 1988. [Google Scholar]
  34. 34. A. A. YAGHI, An Intensional Implementation Technique for Functional Languages, PhD thesis, Department of Computer Science, University of Warwick, Coventry, England, 1984. [Google Scholar]

Current usage metrics show cumulative count of Article Views (full-text article views including HTML views, PDF and ePub downloads, according to the available data) and Abstracts Views on Vision4Press platform.

Data correspond to usage on the plateform after 2015. The current usage metrics is available 48-96 hours after online publication and is updated daily on week days.

Initial download of the metrics may take a while.