Abstract
We propose an approach based on description logics for the representation and retrieval of visual information. We first consider objects as having shapes which are described by means of semi-algebraic sets.1 We propose a model which consists of three layers: (1) Shape Layer, which provides the geometric shapes of image objects; (2) Object Layer, intended to contain objects of interest and their description; and (3) Schema Layer, which contains the structured abstractions of objects, i.e., a general schema about the classes of objects represented in the Object Layer. We propose two abstract languages on the basis of description logics: one for describing knowledge of the object and schema layers, and the other, more expressive, for making queries. Queries can refer to the form dimension (i.e., information of the Shape Layer) or to the semantic dimension (i.e., information of the Object Layer). We show how this framework can be easily extended to accommodate the visual layer (e.g., color and texture).
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References
Abiteboul, S., Hull, R., and Vianu, V. (1995). Foundations of Databases. Reading, MA: Addison-Wesley.
Baader, F., Bucheit, M., Jeusfeld, M., and Nutt, W. (1994). Reasoning about Structured Objects: Knowledge Representation Meets Databases. In F. Baader, M. Bucheit, M. Jeusfeld, and W. Nutt (Eds.), Proceedings of the 1st Workshop of KRDB'94: Reasoning about Structured Objects: Knowledge Representation meets Databases, Stuhlsatzenhausweg, Germany, D-94-11 in DFKI Documents, available at URL:http://SunSite.Informatik.RWTH-Aachen.DE/Publications/CEUR-WS/Vol. 1/, CEUR, p. 2.
Baader, F. and Hanschke, P. (1991). A Scheme for Integrating Concrete Domains into Concept Languages. In Proceedings of the 12th International Joint Conference on Artificial Intelligent (IJCAI'91). Sydney, Australia, pp. 452–457.
Benedetti, R. and Risler, J.-J. (1990). Real Algebraic and Semi-Algebraic Sets. Hermann, editeurs des sciences et des arts, 293 rue Lecourbe, 75015 Paris, p. 340.
Bertino, E. and Catania, B. (1998).AConstraint-Based Approach to Shape Management in Multimedia Databases. Multimedia Systems, 6(1), 2–16.
Borgida, A. (1995). Description Logics in Data Management. IEEE Transactions on Knowledge and Data Engineering (IEEE TKDE), 7(7), 671–682.
Bouet, M., Khenchaf, A., and Briand, H. (1999). Shape Representation for Image Retrieval. In Proceedings of the Seventh ACM International Conference on Multimedia, Orlando, FL, USA, pp. 1–4.
Brachman, R.J. and Schmolze, J.G. (1985). An Overview of the KL-ONE Knowledge Representation System. Cognitive Science, 9(2), 171–216.
Bresciani, P. (1996). Some Research Trends in KR & DB (position paper). In F. Baader, M. Bucheit, M. Jeusfeld, and W. Nutt (Eds.), Proceedings of the 3rd Workshop of KRDB'96: Reasoning about Structured Objects: Knowledge Representation meets Databases, Budapest, Hungary, pp. 1–3, available at URL:http://SunSite.Informatik.RWTH-Aachen.DE/Publications/CEUR-WS/Vol. 4/, CEUR.
Buchheit, M., Jeusfeld, M.A., Nutt, W., and Staudt, M. (1994). Subsumption Between Queries to Object-Oriented Databases. In Proceedings of the 4th International Conference on Extending Database Technology (EDBT'94), Cambridge, UK. (Also in (1994) Information Systems 19(1), 33–54).
Collins, G.E. (1975). Quantifier Elemination for Real Closed Fields by Cylindrical Algebraic Decomposition. In Proceedings of the 2nd Conference on Automata Theory & Formal Languages, Kaiserslautern, Germany, pp. 134–183. LNCS, Vol. 33.
Del Bimbo, A. (1999). Visual Information Retrieval. Los Altos, CA: Morgan Kaufmann.
Donini, F.M., Lenzerini, M., Nardi, D., and Nutt, W. (1995a). The Complexity of Concept Languages. Technical Report RR-95-07, Deutsches Forschunggszentrum f#x00FC;r Künstliche Intelligenz (DFKI), Kaiserslautern, Germany.
Donini, F.M., Lenzerini, M., Nardi, D., and Schaerf, A. (1995b). Reasoning in Description Logics. In Foundation of Knowledge Representation. London: Cambrige University Press.
Goble, C.A., Haul, C., and Bechhofer, S. (1996). Describing and Classifying Multimedia Using the Description Logic GRAIL. In I.K. Sethi and R.C. Jain (Eds.), Storage and Retrieval for Image and Video Database IV (SPIE'96), San Jose, California, pp. 132–143.
Grumbach, S., Su, J., and Tollu, C. (1994). Linear Constraint Query Languages Expressive Power and Complexity. In D. Leivant (Ed.), Proceedings of the International Workshop on Logic and Computational Complexity (LCC'94), Indianapolis, IN, USA, pp. 426–446.
Kanellakis, P., Kuper, G., and Revesz, P. (1995). Constraint Query Languages. Journal of Computer and System Sciences (JCSS), 51(1), 26–52.
Meghini, C. (1996). Towards a Logical Reconstruction of Image Retrieval. In I.K. Sethi and R.C. Jain (Eds.), Storage and Retrieval for Image and Video Database IV (SPIE'96), San Jose, California, pp. 108–119.
Nebel, B. (1990). Reasoning and Revision in Hybrid Representation Systems.Vol. 422, Lecture Notes in Computer Science, p. 300, New York: Springer-Verlag.
Oria, V., Ozsu, M.T., Cheng, L.I., Iglinski, P.J., and Leontiev, Y. (1999). Modeling and Querying Shapes in Image Database System. In Proceedings of the Fifth International Workshop on Multimedia Information Systems (MIS'99), Indian Wells, Palm Springs Desert, CA, USA.
Schmidt-Schauß, M. and Smolka, G. (1991). Attributive Concept Descriptions with Complements. Artificial Intelligence, 48(1), 1–26.
Sebastiani, F., Meghini, C., and Straccia, U. (1997). The Terminological Image Retrieval Model. In A. Del Bimbo (Ed.), Proceedings of the 9th International Conference On Image Analysis And Processing (ICIAP'97), Florence, Italy, pp. 156–163.
Srivastava, D. (1993). Subsumption and Indexing in Constraint Query Languages with Linear Arithmetic Constraints. Annals of Mathematics and Artificial Intelligence, 8(3/4), 315–343.
Tarski, A. (1951). A Decision Method for Elementary Algebra and Geometry, Berkeleys, University of California Press.
Ullman, J.D. (1989). Principles of Database and Knowledge-Base Systems, Vols. I/II. Rockville, MD: Computer Science Press.
Vandeurzen, L., Gyssens, M., and Van Gucht, D. (1996). On Query Languages for Linear Queries Definable with Polynomial Constraints. In Proceedings of the Second International Conference on Principles and Practice of Constraint Programming (CP'96), Cambridge, Massachusetts, USA, pp. 468–481, LNCS, Vol. 1118, Berlin: Springer-Verlag.
Wesley, W., Hsu, C.C.-C., and Taira, R.K. (1996). A Knowledge-Based Approach for Retrieving Images by Content. IEEE Transactions on Knowledge and Data Engineering, 8(4), 522–532.
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Bertino, E., Elmagarmid, A.K. & Hacid, MS. A Knowledge-Based Approach to Visual Information. Journal of Intelligent Information Systems 19, 319–341 (2002). https://doi.org/10.1023/A:1020145906546
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DOI: https://doi.org/10.1023/A:1020145906546