Algebra for Fuzzy Object Oriented Database Language

P.K. Panigrahi and A. Goswami

References

1. [1] R. Hull & R. King, Semantic database modeling: Survey,applications and research issues, ACM Computing Surveys,19 (3), 1987, 201–260. doi:10.1145/45072.45073
2. [2] L. Kershberg, Expert database systems, Proc. 2 nd Int.. Conf.,published by Banjamin/Cummings, Menlo Park, CA, 1989,215–238.
3. [3] J.D. Ulman & C. Zaniolo, Deductive databases: Achievementsand future directions, SIGMOD RECORD, 19 , 1990, 75–81. doi:10.1145/122058.122067
4. [4] A. Motro, Accommodating imprecision in database systems:Issues and solutions, SIGMOD RECORD, 19, 1990, 69–74. doi:10.1145/122058.122066
5. [5] L.A. Zadeh & J. Kacprzyk, Fuzzy logic for the management ofuncertainty (New York: Wiley, 1992).
6. [6] L.A. Zadeh, Knowledge representation in fuzzy logic, IEEETrans. on Knowledge amd Data Engineering, 1, 1989, 89–100. doi:10.1109/69.43406
7. [7] A. Yazici & M. Koyuncu, Fuzzy object-oriented databasemodeling coupled with fuzzy logic, Fuzzy Sets and Systems,89, 1997, 1–26. doi:10.1016/S0165-0114(96)00080-2
8. [8] R.R. Yager, Quantifiers in the formulation of multiple objectivedecision functions, Inform. Science, 31, 1983, 107–139. doi:10.1016/0020-0255(83)90029-4
9. [9] R. George, B.P. Buckles, & F.E. Petry, Integrating artificialintelligence and databases: Where do we manage uncertainty?Proc. IJCAI’91 Workshop on Integrating Artificial Intelligenceand Database Systems, Melbourne, August 1991, 77–84.
10. [10] W. Pedrycz & Z.A. Sosnowski, Fuzzy object-oriented systemdesign, Fuzzy Sets & Systems, 99, 1998, 121–134. doi:10.1016/S0165-0114(96)00403-4
11. [11] H. Lam, GTOOLS: An active graphical user interface toolset foran object-oriented KBMS, International Journal of ComputerScience and Engineering, 1992, 115–131 .
12. [12] S. Tsurt & C. Zaniolo, An implementation of GEM–Supportingsemantic data model on a relational back end, Proc. ACMSIGMOD Int. Conf. on Management of Data, 1984, 286–295.
13. [13] R. MacGregor, ARIEL: A semantic front-end to relationalDBMS’s, Proc. VLDB 85, April 1988, 175–186.
14. [14] F. Bancilhon, FAD: A powerful and simple database language,Proc. 13 th VLDB Conf., 1987, 97–105.
15. [15] L.A. Rowe & M.R. Stonebraker, The POSTGRES data model,Proc. 13 th VLDB Conf., 1987, 83–96.
16. [16] M.L. Carey, D.J. Dewitt & S.L. Vandenber, A data model andquery language for EXODUS, Proc. ACM-SIGMOD Conf.,1988, 413–423. doi:10.1145/971701.50252
17. [17] G. Mshaw & S.B. Zdonic, A query algebra for object-orienteddatabases, IEEE Trans. on Knowledge and Data Engineering,12, 1990, 154–162.
18. [18] J. Banerjee, Queries in object–oriented databases, Proc. 4 thInt. Conf. Data Engineering, 1988, 31–38. doi:10.1109/ICDE.1988.105443
19. [19] D. Hfishman, Iris: An object–oriented database managementsystem, ACM Trans. Office Information System, 5, 1987,49–69.
20. [20] E. Bertino, M. Negri, G. Pelagatti, & L. Sbattella, Object–oriented query languages: The notion and the issues, IEEETrans. on Knowledge and Data Engineering, 4 (3), 1992, 223–237. doi:10.1109/69.142014
21. [21] R. Ahad & B. Yao, RQL: A recursive query language, IEEETrans. on Knowledge and Data Engineering, 5 (3), 1993, 451-461. doi:10.1109/69.224197
22. [22] P. Elmore, G.M. Shaw, & S.B. Zdonik, The ENCORE object-oriented data model, Technical Report, Brown University, November 1989.
23. [23] Y. Stanley, W. Su, M. Guo, & H. Lam, Association algebra: Amathematical foundation for object–oriented databases, IEEETrans. on Knowledge and Data Engineering 5 (5), 1993, 775–798. doi:10.1109/69.243509
24. [24] S. Cluet, C. Delobel, C. Lecluse, & P. Richard, RELOOP: Analgebra based query language for an object oriented databasesystem, Data & Knowledge Engineering, 5, 1990, 333–352. doi:10.1016/0169-023X(90)90019-A
25. [25] L. Liu, A recursive object algebra based on aggregation abstraction for manipulating complex objects, Data and KnowledgeEngineering, 11, 1993, 21–60. doi:10.1016/0169-023X(93)90044-P
26. [26] V. Breazu-Tannen, P. Buneman, & A. Ohori, Static typechecking in object-oriented databases, IEEE Data Engineering,3, 1989, 5–12.
27. [27] D.A. Bell, J.W. Guan, & S. Kyoon Lee, Generalized unionand project operations for pooling uncertain and impreciseinformation, Data and Knowledge Engineering, 18, 1996, 89-117. doi:10.1016/0169-023X(95)00029-R
28. [28] Y. Takahashi, Fuzzy database query languages and their relational completeness theorem, IEEE Trans. on Knowledge andData Engineering, 5 (4), 1993, 122-125. doi:10.1109/69.204096
29. [29] X.-M. Lu & T.S. Dillon, An algebric theory of object-orientedsystem, IEEE Trans. on Knowledge and Data Engineering,6 (3), 1994, 412–419. doi:10.1109/69.334861
30. [30] M.P. Atkinson & O.P. Buneman, Types and persistence indatabase programming languages, ACM Computer Surveys,19 (2), 1987, 105–190. doi:10.1145/62070.45066
31. [31] M. Hammer & D.J. McLeod, Database description with SDM:A semantic data model, ACM Trans. on Database Systems,6 (3), 1987, 351–386. doi:10.1145/319587.319588
32. [32] E.A. Rundensteiner & L. Bic, Set operations in object-baseddata models, IEEE Trans. on Knowledge and Data Engineering,4 (3), 1992, 382–398. doi:10.1109/69.149933
33. [33] S.N. Khoshafian & G.P. Copeland, Object identity, Proc.OOPSLA’86, September 1986, 406–416.
34. [34] E.A. Rundensteiner, J. Gilbert, & M. Yin, A semantic integrity framework: Set restrictions for semantic groupings, Proc. IEEE Int. Conf. on Data Engineering, 1991, 477-501

Important Links:

• Abstract
• DOI: 10.2316/Journal.202.2004.1.202-1254
• From Journal (202) International Journal of Computers and Applications - 2004

Go Back