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Decisional DNA-based embedded systems: A new perspective

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Nowadays, knowledge-based embedded systems have become a new trend on embedded systems. They are capable of knowledge acquisition, reusing, evolving and sharing. However, due to the lack of standardized solutions and development platforms, it is not only very hard to share knowledge among different knowledge-based embedded systems, but this also causes huge waste by redesign, redevelopment, and knowledge re-acquiring. In this paper, we propose the Decisional DNA-based Embedded Systems as a new approach to meet this demand. Decisional DNA is a domain-independent, flexible and standard knowledge representation structure. We apply Decisional DNA to embedded systems to make them acquire, reuse, evolve and share knowledge in an easy and standard way. As a result, we propose the features, architecture and application types for the embedded systems.
Czasopismo
Rocznik
Strony
21--26
Opis fizyczny
Bibliogr. 20 poz., rys.
Twórcy
autor
autor
  • The University of Newcastle, Newcastle, Australia
Bibliografia
  • [1] Georges A., Buytaert D., Eeckhout L., Statistically Rigorous Java Performance Evaluation, Proceedings of the 2007 OOPSLA Conference, Vol. 42, No. 10, October 2007, 57-76.
  • [2] Kinney Ch.E., Edwards D.B., A Fuzzy Logic Vision and Control System Embedded with Human Knowledge for Autonomous Vehicle Navigation, Fuzzy Sets and Systems - IFSA 2003, Springer Berlin/Heidelberg, Vol. 2715, 2003, 526-534.
  • [3] Pereira C.E., Carro L., Distributed Real-time Embedded Systems: Recent Advances, Future trends and Their Impact on Manufacturing Plant Control, Annual Reviews in Control, Vol. 31, No. 1, 2007, 81-92.
  • [4] Sanin C., Szczerbicki E., Using XML for Implementing Set of Experience Knowledge Structure, International Conference on Knowledge-Base and Intelligent Information and Engineering Systems - KES, Springer, Melbourne, Australia, 2005, 946-952.
  • [5] Sanin C., Szczerbicki E., Experience-based Knowledge Representation SOEKS, Cybernetics and Systems, Vol. 40, No. 2, 2009, 99-122.
  • [6] Sanin C., Szczerbicki E., Extending Set of Experience Knowledge Structure into a Transportable Language Extensible Markup Language, International Journal of Cybernetics and Systems, Vol. 37, No. 2-3, 2006, 97-117.
  • [7] Sanin C., Szczerbicki E., An OWL Ontology of Set of Experience Knowledge Structure, Journal of Universal Computer Science, Vol. 13, No. 2, 2007, 209-223
  • [8] Sanin C., Mancilla-Amaya L., Szczerbicki E., Cayford Howell P., Application of a Multi-domain Knowledge Structure: The Decisional DNA, Intel. Sys. For Know. Management, SCI 252, 2009, 65-86.
  • [9] Jelovic D., Why Java Will Always Be Slower than C++, http://www.jelovic.com/articles/whyjava_is_slow.htm, Retrieved 20 October, 2009.
  • [10] Mulchandani D., Java for Embedded Systems, IEEE Internet Computing, Vol. 2, No. 3, 1998, 30-39.
  • [11] Javed F., Venkatachalam P.A., Hani A.F.M., Knowledge Based System with Embedded Intelligent Heart Sound Analyzer for Diagnosing Cardiovascular Disorders, Journal of Medical Engineering & Technology, Vol. 31, No. 5, 2007, 341-350.
  • [12] Steve H., Embedded Systems Design, EDN series for design engineers, 2nd ed., Elsevier Science, December 2002, p. 2.
  • [13] Ko K.H., Pochiraju K., Manoochehri S., An Embedded System for Knowledge-based Cost Evaluation of Molded Parts, Knowledge-Based Systems, Vol. 20, No. 3, 2007, 291-299.
  • [14] Lloyd J.W., Logic for Learning: Learning Comprehensible Theories from Structure Data, Springer, Berlin, 2003.
  • [15] Micriμm, μC/OS-II Kernel, http://www.micrium.com/page/ products/rtos/os-ii, Retrieved 13 October, 2009.
  • [16] Sanin M.C.A., Smart Knowledge Management System, PhD Thesis, Faculty of Engineering and Built Environment -School of Mechanical Engineering, University of Newcastle, E. Szczerbicki, Doctor of Philosophy Degree, Newcastle, 2007.
  • [17] Bergamaschi R.A., Bhattacharya S., Wagner R., Fellenz C., Muhlada M., Lee W.R., White F., Daveau J.-M., Automating the Design of SOCs Using Cores, IEEE Design and Test of Computers, Vol. 18, No. 5, 2001, 32-45.
  • [18] Rajsuman R., System-on-a-Chip: Design and Test, Artech House, Inc., Norwood, MA, 2000.
  • [19] SanDisk, About SanDisk, http://www.sandisk.com/about-sandisk.aspx, Retrieved 6 October, 2009.
  • [20] Wolf W., Computers as Components, Morgan Kaufmann, San Francisco, USA, 2001.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BATD-0001-0044
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