A Model of Hierarchical Knowledge Representation – Toward Knowware for Intelligent Systems

Liya Ding

doi:10.20965/jaciii.2007.p1232

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JACIII Vol.11 No.10 pp. 1232-1240

doi: 10.20965/jaciii.2007.p1232

(2007)

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A Model of Hierarchical Knowledge Representation – Toward Knowware for Intelligent Systems

Liya Ding

Faculty of Information Technology, Macau University of Science and Technology, Avenida Wai Long, Taipa, Macau SAR, China

Received:

November 5, 2006

Accepted:

August 8, 2007

Published:

December 20, 2007

Keywords:

hierarchical knowledge representation, automatic construction of knowledge hierarchy, knowware for intelligent systems

Abstract

We propose a model for multiresolutionary knowledge representation; define concepts of domain, application, and working hierarchies; and discuss inference mechanisms in the knowledge hierarchy. We also introduce an automatic construction of the knowledge hierarchy for the development of intelligent systems.

Cite this article as:

L. Ding, “A Model of Hierarchical Knowledge Representation – Toward Knowware for Intelligent Systems,” J. Adv. Comput. Intell. Intell. Inform., Vol.11 No.10, pp. 1232-1240, 2007.

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References

[1] L. Ding, “Design and development of knowware system,” Proc. the 2^nd Int. Conf. on Innovative Computing, Information and Control (ICICIC’2007), Kumamoto, Japan, Sep. 2007.
[2] L. Ding and S. Nadkarni, “Automatic construction of knowledgebased system using knowware system,” Proc. the 6^th Int. Conf. on Machine Learning and Cybernetics (ICMLC’2007), Hong Kong, pp. 789-794, Aug. 2007.
[3] L. Ding, “Knowware system for the development of intelligent systems,” the 7^th Int. Conf. on Intelligent Technologies (InTech’2006), Taipei, pp. 201-210, Dec. 2006.
[4] L. Ding and H. C. Lui, “A knowledge-based approach applied in intelligent hand written form processing,” Journal of Advanced Computational Intelligence, Vol.3, No.3, pp. 193-199, 1999.
[5] L. Ding, H. C. Lui, and Y. Guo, “A knowledge-based reviser applied in intelligent hand written form,” Proc. Intelligent Data Engineering and Learning, Xu, Chan, King, and Fu (Eds.), Springer, Hong Kong, pp. 339-346, 1998.
[6] L. Ding, H. H. Teh, P. Z. Wang, and H. C. Lui, “A Prolog-like inference system based on neural logic – an attempt towards fuzzy neural logic programming,” Fuzzy Sets and Systems, Vol.82, No.2, pp. 235-251, 1996.
[7] L. Ding, “A hierarchical information integration approach for timevarying input,” Proc. 1996 IEEE Int. Conf. on Systems, Man and Cybernetics, Beijing, China, pp. 1748-1752, 1996.
[8] L. Ding, Z. Shen, and M. Mukaidono, “A proposal on fuzzy prolog for knowledge representation,” Note of Multiple-valued Logic in Japan, Vol.10, No.6, pp. 1-10, Hiroshima, Japan, 1988 (in Japanese).
[9] R. Lu, “From hardware to software to knowware: IT’s third liberation?” IEEE Intelligent Systems, Vol.20, No.2, pp. 82-85, 2005.
[10] A. M. Meystel and P. P. Wang, “Computing with words: the problems and solutions,” in Computing with Words, P. P. Wang (Ed.), John Wiley & Sons, pp. 69-87, 2001.
[11] A. M. Meystel, “Principles with descriptive and veristic words: knowledge representation and knowledge processing of CW, ” in Computing with Words, P. P. Wang (Ed.), John Wiley & Sons, pp. 329-346, 2001.
[12] S. Nadkarni and L. Ding, “Knowware system as a decision support tool for small and medium tourism enterprises,” the UNWTO Ulysses Conference on Knowledge based Development through Tourism, Madrid, Spain, May 2007.
[13] R. Navigli and P. Velardi, “Ontology learning and its application to automated terminology translation,” IEEE Intelligent Systems, Vol.18, No.1, pp. 22-31, 2003.
[14] N. F. Noy and M. A. Musen, “Ontology versioning in an ontology management framework,” IEEE Intelligent Systems, Vol.19, No.4, pp. 6-13, 2004.
[15] M. A. Rodriguez and M. J. Egenhofer, “Determining semantic similarity among entity classes from different ontologies,” IEEE Trans. Knowledge and Data Engineering, Vol.15, No.2, pp. 442-456, 2003.
[16] Z. Shen, L. Ding, and M. Mukaidono, “Concept structure and its fuzzy logical properties,” Proc. International Fuzzy Engineering Symposium (IFES’91), Yokohama, Japan, pp. 129-140, 1991.
[17] M. Sugeno, “Text understanding in brain-style computing,” Journal of Japan Society for Fuzzy Theory and Intelligent Informatics (SOFT), Vol.17, No.1, pp. 19-28, 2005 (in Japanese).
[18] M. Sugeno, “Verbalizing computers: a way to everyday language computing,” Advances in Soft Computing-AFSS’2002, N. R. Pal and M. Sugeno (Eds.), Springer, pp. 117-120, 2002.
[19] Y. Sure, A. Gomez-Perez, W. Daelemans, M.-L. Reinberger, N. Guarino, and N. F. Noy, “Why evaluate ontology technologies? because it works!” IEEE Intelligent Systems, Vol.19, No.4, pp. 74-81, 2004.
[20] H. H. Teh, “Neural Logic Networks,” World Scientific, 1995.
[21] L. A. Zadeh, “From computing with numbers to computing with words – from manipulation of measurements to manipulation of perceptions,” in Computing with Words, P. P.Wang (Ed.), John Wiley & Sons, pp. 35-68, 2001.
[22] L. A. Zadeh, “Toward a theory of fuzzy information granulation and its centrality in human reasoning and fuzzy logic,” Fuzzy Sets and Systems, Vol.90, pp. 111-127, 1997.
[23] L. A. Zadeh, “Fuzzy logic = computing with words,” IEEE Trans. Fuzzy Systems, Vol.4, pp. 103-111, 1996.

This article is published under a Creative Commons Attribution-NoDerivatives 4.0 Internationa License.

[1] [1] L. Ding, “Design and development of knowware system,” Proc. the 2^nd Int. Conf. on Innovative Computing, Information and Control (ICICIC’2007), Kumamoto, Japan, Sep. 2007.

[2] [2] L. Ding and S. Nadkarni, “Automatic construction of knowledgebased system using knowware system,” Proc. the 6^th Int. Conf. on Machine Learning and Cybernetics (ICMLC’2007), Hong Kong, pp. 789-794, Aug. 2007.

[3] [3] L. Ding, “Knowware system for the development of intelligent systems,” the 7^th Int. Conf. on Intelligent Technologies (InTech’2006), Taipei, pp. 201-210, Dec. 2006.

[4] [4] L. Ding and H. C. Lui, “A knowledge-based approach applied in intelligent hand written form processing,” Journal of Advanced Computational Intelligence, Vol.3, No.3, pp. 193-199, 1999.

[5] [5] L. Ding, H. C. Lui, and Y. Guo, “A knowledge-based reviser applied in intelligent hand written form,” Proc. Intelligent Data Engineering and Learning, Xu, Chan, King, and Fu (Eds.), Springer, Hong Kong, pp. 339-346, 1998.

[6] [6] L. Ding, H. H. Teh, P. Z. Wang, and H. C. Lui, “A Prolog-like inference system based on neural logic – an attempt towards fuzzy neural logic programming,” Fuzzy Sets and Systems, Vol.82, No.2, pp. 235-251, 1996.

[7] [7] L. Ding, “A hierarchical information integration approach for timevarying input,” Proc. 1996 IEEE Int. Conf. on Systems, Man and Cybernetics, Beijing, China, pp. 1748-1752, 1996.

[8] [8] L. Ding, Z. Shen, and M. Mukaidono, “A proposal on fuzzy prolog for knowledge representation,” Note of Multiple-valued Logic in Japan, Vol.10, No.6, pp. 1-10, Hiroshima, Japan, 1988 (in Japanese).

[9] [9] R. Lu, “From hardware to software to knowware: IT’s third liberation?” IEEE Intelligent Systems, Vol.20, No.2, pp. 82-85, 2005.

[10] [10] A. M. Meystel and P. P. Wang, “Computing with words: the problems and solutions,” in Computing with Words, P. P. Wang (Ed.), John Wiley & Sons, pp. 69-87, 2001.

[11] [11] A. M. Meystel, “Principles with descriptive and veristic words: knowledge representation and knowledge processing of CW, ” in Computing with Words, P. P. Wang (Ed.), John Wiley & Sons, pp. 329-346, 2001.

[12] [12] S. Nadkarni and L. Ding, “Knowware system as a decision support tool for small and medium tourism enterprises,” the UNWTO Ulysses Conference on Knowledge based Development through Tourism, Madrid, Spain, May 2007.

[13] [13] R. Navigli and P. Velardi, “Ontology learning and its application to automated terminology translation,” IEEE Intelligent Systems, Vol.18, No.1, pp. 22-31, 2003.

[14] [14] N. F. Noy and M. A. Musen, “Ontology versioning in an ontology management framework,” IEEE Intelligent Systems, Vol.19, No.4, pp. 6-13, 2004.

[15] [15] M. A. Rodriguez and M. J. Egenhofer, “Determining semantic similarity among entity classes from different ontologies,” IEEE Trans. Knowledge and Data Engineering, Vol.15, No.2, pp. 442-456, 2003.

[16] [16] Z. Shen, L. Ding, and M. Mukaidono, “Concept structure and its fuzzy logical properties,” Proc. International Fuzzy Engineering Symposium (IFES’91), Yokohama, Japan, pp. 129-140, 1991.

[17] [17] M. Sugeno, “Text understanding in brain-style computing,” Journal of Japan Society for Fuzzy Theory and Intelligent Informatics (SOFT), Vol.17, No.1, pp. 19-28, 2005 (in Japanese).

[18] [18] M. Sugeno, “Verbalizing computers: a way to everyday language computing,” Advances in Soft Computing-AFSS’2002, N. R. Pal and M. Sugeno (Eds.), Springer, pp. 117-120, 2002.

[19] [19] Y. Sure, A. Gomez-Perez, W. Daelemans, M.-L. Reinberger, N. Guarino, and N. F. Noy, “Why evaluate ontology technologies? because it works!” IEEE Intelligent Systems, Vol.19, No.4, pp. 74-81, 2004.

[20] [20] H. H. Teh, “Neural Logic Networks,” World Scientific, 1995.

[21] [21] L. A. Zadeh, “From computing with numbers to computing with words – from manipulation of measurements to manipulation of perceptions,” in Computing with Words, P. P.Wang (Ed.), John Wiley & Sons, pp. 35-68, 2001.

[22] [22] L. A. Zadeh, “Toward a theory of fuzzy information granulation and its centrality in human reasoning and fuzzy logic,” Fuzzy Sets and Systems, Vol.90, pp. 111-127, 1997.

[23] [23] L. A. Zadeh, “Fuzzy logic = computing with words,” IEEE Trans. Fuzzy Systems, Vol.4, pp. 103-111, 1996.