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Materials and Manufacturing Processes Volume 22, 2007 - Issue 5
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Original Articles

Evolving Nonlinear Time-Series Models of the Hot Metal Silicon Content in the Blast Furnace

Henrik Saxén Faculty of Technology, Heat Engineering Laboratory, Åbo Akademi University, Åbo, FinlandCorrespondence[email protected]
,
Frank Pettersson Faculty of Technology, Heat Engineering Laboratory, Åbo Akademi University, Åbo, Finland
&
Kiran Gunturu Faculty of Technology, Heat Engineering Laboratory, Åbo Akademi University, Åbo, Finland
Pages 577-584 | Received 21 Jun 2006, Accepted 13 Jan 2007, Published online: 30 May 2007

REFERENCES

  • Principe , J.C. ; Euliano , N.R. ; Lefebvre , W.C. Neural and Adaptive Systems: Fundamentals Through Simulations ; John Wiley & Sons : New York , 1999 .
  • Aldrich , C. Exploratory Analysis of Metallurgical Process Data with Neural Network and Related Methods ; Elsevier , 2002 .
  • Jolliffe , T. Principal Component Analysis, , 2nd Ed. ; Springer Verlag : New York , 2002 .
  • Sridhar , D.V. ; Bartlett , E.B. ; Seagrave , R.C. Information theoretic subset selection for neural networks . Computers and Chemical Engineering 1998 , 22 , 613 – 626 .
  • Bogler , Z. Selection of quasi-optimal inputs in chemometrics modeling by artificial neural network analysis . Analytical Chimica Acta 2003 , 490 , 31 – 40 .
  • Sarle , W.S. How to measure importance of inputs . Available at ftp://ftp.sas.com/pub/neural/importance.html , 2000 .
  • Frean , M. The upstart algorithm. a method for constructing and training feed-forward neural networks . Neural Computation 1991 , 2 , 198 – 209 .
  • Fahlman , S.E. ; Lebiere , C. The cascade-correlation learning architecture . In Advances in Neural Information Processing Systems ; Touretzky , D.S. , Ed.; 1990 ; Vol. 2 , Morgan Kaufmann : San Francisco , CA , 524 – 532 .
  • Le Chun , Y. ; Denker , J.S. ; Solla , S.A. Optimal brain damage . In Advances in Neural Information Processing Systems ; Touretzky , D.S. , Ed.; 1990 ; Vol. 2 , Morgan Kaufmann : San Francisco , CA , 598 – 605 .
  • Thimm , G. ; Fiesler , E. Evaluating pruning methods . 1995 International Symposium on Artificial Neural Networks (ISANN'95) ; Hsinchu : Taiwan , ROC , 1995 ; A2 20 – 25 .
  • Engelbrecht , P. A new pruning heuristic based on variance analysis of sensitivity information . IEEE Trans. Neural Networks 2001 , 12 , 1386 – 1399 .
  • Saxén , H. ; Pettersson , F. Method for the selection of inputs and structure of feedforward neural networks . Computers and Chemical Engineering 2006 , 30 , 1038 – 1045 .
  • Fogel , D.B. An information criterion for optimal neural network selection . IEEE Trans. Neural Networks 1991 , 2 , 490 – 497 .
  • Maniezzo , V. Genetic evolution of the topology and weight distribution of neural networks . IEEE Transactions on Neural Networks 1994 , 5 , 39 – 53 .
  • Gao , F. ; Li , M. ; Wang , F. ; Wang , B. ; Yue , P. Genetic algorithms and evolutionary programming hybrid strategy for structure and weight learning for multilayer feedforward neural networks . Ind. Eng. Chem. Res. 1999 , 38 , 4330 – 4336 .
  • Pettersson , F. ; Hinnelä , J. ; Saxén , H. Evolutionary neural network modelling of blast furnace burden distribution . Materials and Manufacturing Processes 2003 , 18 , 385 – 399 .
  • Billings , S.A. ; Zheng , G.L. Radial basis function network configuration using genetic algorithms . Neural Networks 1995 , 8 , 877 – 890 .
  • Deb , K. Multiobjective Optimization Using Evolutionary Algorithms ; John-Wiley : Chichester , 2001 .
  • Coello Coello , C.A. ; Van Veldhuizen , D.A. ; Lamont , G.B. Evolutionary Algorithms for Solving Multiobjective Problems ; Kluwer Academic Publishers : New York , 2002 .
  • Li , X. A real-coded predator-prey genetic algorithm for multi-objective optimization . Second International Conference on Evolutionary Multi-Criterion Optimization . Fonseca , C.M. , Fleming , P.J. , Zitzler , E. , Deb , K. , Thiele. L. , Eds.; Lecture Notes in Computer Science, LNCS 2632 ; 2003 ; Springer : New York , 207 – 221 .
  • Pettersson , F. ; Chakraborti , N. ; Saxén , H. A genetic algorithms based multiobjective neural net applied to noisy blast furnace data . Applied Soft Computing 2007 , 7 , 387 – 397 .
  • Price , K. ; Storn , R. Differential evolution: numerical optimization made easy . Dr Dobbs Journal 1997 , 22 , 18 – 24 .
  • Fonseca , C.M. Multiobjective Genetic Algorithms with Applications to Control Engineering Problems. PhD thesis, Department of Automatic Control and Systems Engineering, University of Sheffield, Sheffield , UK , 1995 .
  • Ljung , L. ; Söderström , T. Theory and Practice of Recursive Identification ; The MIT Press : London , 1983 .
  • Biswas , A.K. Principles of Blast Furnace Ironmaking ; Cootha Publishing House : Brisbane , 1981 .
  • Omori , Y. Blast Furnace Phenomena and Modelling ; The Iron and Steel Institute of Japan, Elsevier : London , 1987 .
  • Phadke , M.S. ; Wu , S.M. Identification of multiinput–multioutput transfer function and noise model of a blast furnace from closed-loop data . IEEE Trans. Automatic Control 1974 , 19 , 944 – 951 .
  • Unbehauen , H. ; Diekmann , K. Application of MIMO identification to a blast furnace . IFAC Identification and System Parameter Estimation 1982 , 235 .
  • Chung , Y.H. ; Chou , R.J. ; Chang-Chiang , G.M. ; Chen , G.-L. An autoregressive model for the system dynamics of blast furnace . Journal of the China Institute of Chemical Engineers 1986 , 17 , 107 – 111 .
  • Chao , Y.C. ; Su , C.W. ; Huang , H.P. The adaptive autoregressive models for the system dynamics and prediction of blast furnace . Chemical Engineering Communications 1986 , 44 , 309 – 330 .
  • Chen , J. Predictive system based on combining an adaptive predictor and a knowledge base as applied to a blast furnace . Journal of Forecasting 1993 , 12 , 93 .
  • Saxén , H. Short term prediction of silicon content in pig iron . Canadian Metallurgical Quarterly 1994 , 33 , 319 – 326 .
  • Saxén , H. ; Östermark , R. State realization with exogenous variables – a test on blast furnace data . European Journal of Operational Research 1996 , 89 , 34 – 52 .
  • Östermark , R. ; Saxén , H. VARMAX-modeling of blast furnace process variables . European Journal of Operational Research 1996 , 90 , 85 – 101 .
  • Zuo , G. ; Ma , J. ; Björkman , B. A neural network model for predicting the silicon content of the hot metal at No . 2 blast furnace of SSAB Luleå. Ironmaking Conference Proceedings 1996 , 55 , 211 – 221 .
  • Chen , J. A predictive system for blast furnaces by integrating a neural network with qualitative analysis . Engineering Applications of Artificial Intelligence 2001 , 14 , 77 – 85 .
  • Waller , M. ; Saxén , H. On the development of predictive models with applications to a metallurgical process . Ind. & Eng. Chem. Res. 2000 , 39 , 982 – 988 .
  • Waller , M. ; Saxén , H. Application of nonlinear time series analysis to the prediction of silicon content of pig iron . ISIJ International 2002 , 42 , 316 – 318 .
  • Gao , C.H. Time-dependent fractal characteristics on time series of silicon content in hot metal of blast furnace. ISIJ International 2005, 45, 1269–1271.
  • Bhattacharya , T. Prediction of silicon content in blast furnace hot metal using partial least squares . ISIJ International 2005 , 45 , 1943 – 1945 .
  • Pettersson , F. ; Saxén , H. ; Hinnelä , J. A genetic algorithm evolving charging programs in the ironmaking blast furnace . Materials and Manufacturing Processes 2005 , 20 , 351 – 361 .
  • Helle , M. ; Pettersson , F. ; Chakraborti , N. ; Saxén , H. Modeling noisy blast furnace data using genetic algorithms and neural networks . Steel Research International 2006 , 77 , 75 – 81 .
  • Chia-Feng , J. A hybrid of genetic algorithm and particle swarm optimization for recurrent network design . IEEE Transactions on Systems, Man, and Cybernetics B 2004 , 34 , 997 – 1006 .
  • Blanco , A. ; Delgado , M. ; Pegalajar , M.C. A real-coded genetic algorithm for training recurrent neural networks . Neural Networks 2001 , 14 , 93 – 105 .

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