Niki Pissinou
- [1] S. Abiteboul and R. Hull. Ifo: A formal semantic database model. ACM Transactions on Database Systems, 12(4): 525-565, 1987. Google Scholar
Digital Library
- [2] I. Ahn. Towards an implementation of database management systems with temporal support. In K. R. Dittrich, editor, Proceedings of the ACM SIGMOD International Conference on Management of Data, pages 174-192, 1986.Google Scholar
- [3] I. Ahn and R. Snodgrass. Partitioned storage for temporal databases. Information Systems, 13(4): 369-391, 1988. Google ScholarDigital Library
- [4] J. F. Allen. An interval-based representation of temporal knowledge. In Proceedings of the International Joint Conference on Artificial Intelligence, pages 191-204, Vacouver, B.C., 1981. VLDB Endowment.Google Scholar
- [5] T. L. Anderson. Modeling time at the conceptual level. In Proceedings of the Conference on Object-Oriented Programming Systems, Languages, and Applications, Jerusalem, 1982. 2nd International Conference on Databases.Google Scholar
- [6] G.J. Ariav and J. Clifford. A system architecture for temporally oriented data management. In Proceedings of the International Conference on Information Systems, pages 177-186, Tucson, Arizona, November 1984.Google Scholar
- [7] G. J. Ariav, J. Clifford, and M. Jarke. Panel of time and databases. In Proceedings of the ACM SIGMOD International Conference on Management of Data, pages 243-245, May 1983. Google ScholarDigital Library
- [8] F. Bancilhon, G. Barbedette, V. Benzaken, C. Delobel, S. Gamerman, C. Lecluse, P. Pfeffer, P. Richard, and F. Velez. The design and implementation of o2, an object-oriented database system. In K. R. Dittrich, editor, Advances in Object-Oriented Database Systems, pages 1-22. Springer-Verlag, 1988. Google ScholarDigital Library
- [9] J. Banerjee, H. Chou, J. Garza, W. Kim, D. Woelk, N. Ballou, and H. Kim. Data model issues for object-oriented applications. ACM Transactions on Office Information Systems, 5(1): 3-26, January 1987. Google ScholarDigital Library
- [10] J. Ben-Zvi. The Time Relational Model. PhD thesis, University of California, Los Angeles, Los Angeles CA, (unpublished), 1982. Google ScholarDigital Library
- [11] J. A. Jr. Bubenko. The temporal dimension in information modeling. Technical Report RC-6187-26479, IBM Thomal J. Watson Research Center, November 1976.Google Scholar
- [12] J. Clifford and A. U. Tansel. On an algebra for historical relational database: Two views" clifford james and tansel a. u. In Proceedings of the ACM SIGMOD International Conference on Management of Data, 1985. Google ScholarDigital Library
- [13] J. Clifford and D. S. Warren. Formal semantics for time in databases. ACM Transactions on Database Systems, 6(2): 114-154, 1983. Google ScholarDigital Library
- [14] E. F. Codd. A relational model for large shared data banks. Communications of the ACM, 13(6): 377-387, 1970. Google ScholarDigital Library
- [15] S. De, S. Pan, and A. Whinston. Temporal semantics and natural language processing in a decision support system. Information Systems, 12(1): 29-47, 1987. Google ScholarDigital Library
- [16] R. Elmasri, M. Jaseemuddin, and V. Kouramajian. Partitioning of time index for optical disks. In IEEE Database Engineering, February 1992. Google ScholarDigital Library
- [17] R. Elmasri, Y. Kim, and G. Wuu. Efficient implementation techniques for the time index. In IEEE Database Engineering, pages 102-109, April 1991. Google ScholarDigital Library
- [18] R. Elmasri, G. Wuu, and Y.J. Kim. The time index: An access structure for temporal data. In Proceedings of the International Conference on Very Large Databases, 1990. Google ScholarDigital Library
- [19] S. K. Gadia. Towards a multihomogenous model for a temporal database. In Proceedings of the ACM SIGMOD International Conference on Management of Data, 1986.Google Scholar
- [20] S. K. Gadia and J. Vaishnav. A query language for a homogenous temporal database. In Proceedings of the 4th Annual ACM SIGACT-SIGMOD Symposium on Principles of Database Systems, 1985. Google ScholarDigital Library
- [21] A. Gunadhi and A. Segev. Query processing algorithms for temporal intersection joins. In Proceedings of the 7th IEEE International Conference on Data Engineering. Kobe, Japan, April 1991. Google ScholarDigital Library
- [22] S. Jones and P. J. Mason. Handling the time dimension in a data base. In S. M. Deen and P. Hammersley, editors, Proceedings of the International Conference on Data Bases, pages 65-83, June 1980.Google Scholar
- [23] S. Jones, P. J. Mason, and R. Stamper. Legol 2.0: a relational specification language for complex rules. Information Systems, 4(4): 293-305, November 1979.Google Scholar
- [24] R. Katz and T. Lehman. Database support for versions and alternatives of large design files. Transactions on Software Engineering, 1984.Google ScholarDigital Library
- [25] W. Kim and H. Chou. Versions of schema for object-oriented databases. In Proceedings of the International Conference on Very Large Databases. VLDB Endowment, September 1988. Google ScholarDigital Library
- [26] M. R. Klopprogge. Term: An approach to include the time dimension in the entity-relationship model. In Proceedings of the Second International Conference on the Entity Relationship Approach, October 1981. Google ScholarDigital Library
- [27] C. Kolovson and M. Stonebraker. Indexing techniques for historical databases. In IEEE Database Engineering, February 1989. Google ScholarDigital Library
- [28] V. Lum, P. Datam, R. Erbe, J. Guenauer, P. Pistor, G. Walch, H. Werner, and J. Woodfill. Designing dbms support for the temporal dimension. In Proceedings of the ACM SIGMOD International Conference on Management of Data, pages 115-130, June 1984. Google ScholarDigital Library
- [29] K. Makki and N. Pissinou. A new storage organization for temporal databases. International Journal of Systems and Sciences (to appear), 1994. Google ScholarDigital Library
- [30] E. McKenazie. Bibliography: Temporal databases. In ACM SIGMOD Record, volume 15, pages 40-52, December 1986.Google Scholar
- [31] N. Pissinou. A conceptual framework for time in object databases. Technical Report CRI-90-26, Computer Research Institute, University of Southern California, Los Angeles CA, 1990.Google Scholar
- [32] N. Pissinou. Time in object databases, a proposal for the ph.d. thesis (and an nsf proposal) by niki pissinou. Technical report, Computer Research Institute, University of Southern California, Los Angeles CA, May 1990. Google ScholarDigital Library
- [33] N. Pissinou. Extending the 3dis to support time. Technical Report CRI-91-1, Computer Research Institute, University of Southern California, Los Angeles CA, 1991.Google Scholar
- [34] N. Pissinou. Time in Object Databases. PhD thesis, Department of Computer Science, University of Southern California, Los Angeles, California, December 1991. Google ScholarDigital Library
- [35] N. Pissinou and K. Makki. T-3dis: An approach to temporal object databases. In Proceedings of the International Conference on Information and Knowledge Management, 1992.Google Scholar
- [36] N. Pissinou and K. Makki. A framework for temporal object database models. In Advances in Computer Sciences (to appear). Springer-Verlag, 1993.Google Scholar
- [37] N. Pissinou and K. Makki. Separating semantics from representation in a temporal object databases. In Proceedings of the ACM International Conference on Information and Knowledge Management, Washington, DC, November 1993. Google ScholarDigital Library
- [38] N. Pissinou and K. Makki. A unified model and methodoly for temporal object databases. International Journal on Intelligent and Cooperative Information Systems, 2(2), 1994.Google Scholar
- [39] J. F. Roddick and J. D. Patrick. Temporal semantics in information systems - a survey, lnformation Systems, 17(3), October 1992. Google ScholarDigital Library
- [40] E. Rose and A Segev. A temporal object oriented data model with temporal constraints. In Proceedings of the 10th International Conference on Entity-Relationship Approach, pages 205-229. San Mateo, CA, 1991.Google Scholar
- [41] D. Rotem and A. Segev. Physical design of temporal databases. In IEEE Database Engineering, February 1987. Google ScholarDigital Library
- [42] A. Segev and A Gunadhi. Event-join optimization in temporal databases. In 15th International Conference on Very Large Data Bases, pages 205-215. 1989. Google ScholarDigital Library
- [43] A. Segev and A. Gunadhi. Efficient indexing methods for temporal relations. IEEE Transactions on Knowledge & Data Engineering, June 1993. Google ScholarDigital Library
- [44] A. Segev and A. Shoshani. Logical modeling of temporal data. In Proceedings of the ACM SIGMOD International Conference on Management of Data, pages 454-466, 1987. Google ScholarDigital Library
- [45] A. Shoshani and K. Kawagoe. Temporal data management. In Proceedings of the International Conference on Very Large Databases, pages 79-88, August 1986. Google ScholarDigital Library
- [46] R. Snodgrass. The temporal query language tquel. In Proceedings of the ACM Conference on Principles of Database Systems, pages 204-213, April 1984. Google ScholarDigital Library
- [47] R. Snodgrass and I. Ahn. Temporal databases. IEEE Computer, 19(9): 35-42, September 1986. Google ScholarDigital Library
- [48] V. Tsotras and B. Gopinath. Optimal versioning of objects. In IEEE Database Engineering, pages 358- 365, 1992. Google ScholarDigital Library
- [49] J. H. Vaishanav. A homogeneous temporal extension of quel. Technical report, Texas Tech University, 1986.Google Scholar
- [50] G. Wuu and U. Dayal. A uniform model for temporal object-oriented databases. In IEEE Database Engineering , pages 584-593. Arizona, February 1992. Google ScholarDigital Library
- [51] S. Zdonik. Object management system concepts. In Proceedings of the ACM-SIGOA Conference on Office Information Systems, 1984. Google ScholarDigital Library
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- On temporal modeling in the context of object databases
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