Abstract
Four strategies for computing the grounding sets are suggested. An original model for grounding of simple modalities is briefly outlined and the need for its contextualization is discussed. References are made to works in which soft computing methods are presented to make effective implementation of these strategies possible for the case of software agents.
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References
Harnad, S.: The symbol grounding problem. Physica D 42, 335–346
Katarzyniak, R.: The language grounding problem and its relation to the internal structure of cognitive agents. Journal of Universal Computer Science 11(2), 357–374 (2005)
Katarzyniak, R.: On some properties of grounding simple modalities. Systems Science 31(3), 59–86 (2005)
Katarzyniak, R.: On some properties of grounding non-uniform sets of modal conjunctions, Int. Journal of Applied Mathematics and Computer Science 16(3), 399–412 (2006)
Katarzyniak, R.: On some properties of grounding uniform sets of modal conjunctions. Journal of Intelligent & Fuzzy Systems 17(3), 209–218 (2006)
Katarzyniak, R.: Some notes on grounding singletons of modal conjunctions. Systems Science 32(1), 45–55 (2005)
Katarzyniak R.: Grounding modal language of communication in agent systems, EXIT Warsaw 2007 (to be published in Polish)
Katarzyniak, R., Nguyen, T.N.: Reconciling inconsistent profiles of agent’s knowledge states in distributed multiagent systems using consensus methods. Systems Science 26(4), 93–119 (2000)
Katarzyniak, R., Pieczyńska-Kuchtiak, A.: Grounding and extracting modal responses in cognitive agents: ’and’ query and states of incomplete knowledge. Int. J. Applied Mathematics and Computer Science 14(2), 249–263 (2004)
Nguyen, N.T.: Susceptibility to Consensus of Conflict Profiles. In: Terano, T., Nishida, T., Namatame, A., Tsumoto, S., Ohsawa, Y., Washio, T. (eds.) New Frontiers in Artificial Intelligence. LNCS (LNAI), vol. 2253, pp. 327–332. Springer, Heidelberg (2001)
Nguyen, N.T.: Using distance functions to solve representation choice problem. Fundamenta Informaticae 48(4), 295–314
Nguyen, N.T.: Consensus system for conflict solving in distributed systems. Information Sciences 147(1-4), 91–122 (2002)
Nguyen, N.T., Małowiecki, M.: Consistency Measures for Conflict Profiles. In: Peters, J.F., Skowron, A., Grzymała-Busse, J.W., Kostek, B., Świniarski, R.W., Szczuka, M. (eds.) Transactions on Rough Sets I. LNCS, vol. 3100, pp. 169–186. Springer, Heidelberg (2004)
Roy, D., Reiter, E.: Connecting language to the world. Artificial Intelligence 167(1-2), 1–12 (2005)
Vogt, P.: Anchoring of semiotic symbols. Robotics and Autonomous Systems 43, 109–120 (2003)
Vogt, P.: The Physical Grounding Symbol Problem. Cognitive Systems Research 3, 429–457 (2002)
Wygralak, M.: Questions of cardinality of finite fuzzy sets. Fuzzy Sets and Systems 102, 185–210 (1999)
Ziemke, T., Rethinking Grounding, W., Riegler, A., Peschl, M., von Stein, A.: Understanding Representation in the Cognitive Sciences, pp. 177–190. Plenum Press, New York (1999)
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Katarzyniak, R.P., Nguyen, N.T., Jain, L.C. (2007). Soft Computing Approach to Contextual Determination of Grounding Sets for Simple Modalities. In: Apolloni, B., Howlett, R.J., Jain, L. (eds) Knowledge-Based Intelligent Information and Engineering Systems. KES 2007. Lecture Notes in Computer Science(), vol 4692. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-540-74819-9_29
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DOI: https://doi.org/10.1007/978-3-540-74819-9_29
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