مقدار انرژی پیوسته مولکول 3-آمینو-4-نیترامین فورازان با تکنیکهای بهینهسـازی مدرن
Subject Areas : Data Envelopment Analysis
Ahmet Sahiner
1
(
Department of Mathematics, Faculty of Sciences and Arts, Suleyman Demirel University , 32260, Isparta, Turkey
)
Fatih Ucun
2
(
Department of Physics, Faculty of Sciences and Arts, Suleyman Demirel University, 32260, Isparta, Turkey
)
Sumeyya Koman
3
(
Department of Mathematics, Faculty of Sciences and Arts, Suleyman Demirel University , 32260, Isparta, Turkey
)
Keywords: هوش مصنوعی. مجموعه های فازی. نظریه تابع چگالی. مدل سازی بهینه سازی نیتروامین فورازان,
Abstract :
تغییـر مقـدار انـرژی سـازگار مولکـول (C2N4O3H2) با دو زاویه پیچشـی ابتدا بـا اسـتفاده از نظریـه تابع چگالـی (DFT) با تابع همبسـتگی -Lee-young par و31-6 مجموعـه پایـه بـر مجموعـهای در برنامه گاوسـی محاسـبه شـد. و پـس از آن، ایـن دادههـا گسسـته به دسـت آمـده با اسـتفاده از منطق مدلسـازی فـازی (FLM) و شـبکه عصبـی مصنوعـی (ANN) پیوسـته سـاخته شـد. این امـر بـه مـا اجـازه پیش بینـی در مورد دادههای تسـت نشـده و، به دسـت آوردن مقـدار انرژی بهینهسـازی شـده وابسـته بـه دو زاویـه چرخش با هزینه محاسـباتی منطقـی، کارایـی زیـاد و دقـت بـالا را میدهـد . نتایـج بـه دسـت آمـده بـا نتایج DFT بـا اسـتفاده از تجزیه و تحلیل رگرسـیون مقایسـه شـدند.
Fiolhais, C., Nogueira, F., & Marques, M. A. (Eds.). (2003). A primer in density functional theory (Vol. 620). Springer Science & Business Media.
Frisch, M. J., Trucks, G. W., Schlegel, H. B., Scuseria, G. E., Robb, M. A., Cheeseman, J. R., ... & Nakatsuji, H. (2009). Gaussian 09, revision D. 01.
Frish, A., Nielsen, A. B., & Holder, A. J. (2001). Gauss View User Manual, Gaussian Inc. Pittsburg, PA.
Gross, E. K. U., & Dreizler, R. M. (1990). Density functional theory: an approach to the quantum many-body problem.
Hehre, W. J., Ditchfield, R., & Pople, J. A. (1972). Self—consistent molecular orbital methods. XII. Further extensions of Gaussian—type basis sets for use in molecular orbital studies of organic molecules. The Journal of Chemical Physics, 56(5), 2257-2261.
Hehre, W. J., Lathan, W. A., Ditchfield, R., Newton, M. D., & Pople, J. A. (1970). GAUSSIAN 70, program no. 236. QCPE, Indiana University, Bloomington, Indiana, USA.
Jones, R. O. (2015). Density functional theory: Its origins, rise to prominence, and future. Reviews of modern physics, 87(3), 897
Klapötke, T. M., Schmid, P. C., & Stierstorfer, J. (2015). Crystal structures of furazanes. Crystals, 5(4), 418-432.
Koch, W., Holthausen, M. C., & Kaupp, M. (2001). BUCHER-A Chemist's Guide to Density Functional Theory. Angewandte Chemie-German Edition, 113(5), 989-989.
Kohn, W., Sham, L. J. (1965). Self-Consistent equations including exchange and correlation effects, Physical Reviev 140 ,A1133-A1138.
Lotfi Zadeh, A. (1975). The concept of a linguistic variable and its application to approximate reasoning—I. Information sciences, 8(3), 199-249.
Lotfi Zadeh, A. (1965). Fuzzy sets. Information and control, 8(3), 338-353.
Lotfi Zadeh, A. (1975). The concept of a linguistic variable and its application to approximate reasoning—II. Information sciences, 8(4), 301-357.
Lotfi Zadeh, A. (1975). The concept of a linguistic variable and its application to approximate reasoning-III. Information sciences, 9(1), 43-80.
Mamdani, E. H. (1974, December). Application of fuzzy algorithms for control of simple dynamic plant. In Proceedings of the Institution of Electrical Engineers . 121(12) ,1585-1588.
NeuralWare, U. N. (1993). A Tutorial for NeuralWorks Professional II/Plus and NeuralWorks Explorer, NeuralWare. Inc., Pittsburgh, Pennsylvania.
Parr, R. G., & Yang, W. (1989). Density Functional Theory of Atoms and MoleculesOxford Univ. Press, New York.
Reveles, J. U., & Köster, A. M. (2004). Geometry optimization in density functional methods. Journal of computational chemistry, 25(9), 1109-1116.
Ruusunen, M., & Leiviskä, K. (2004). Fuzzy modelling of carbon dioxide in a burning process. Control Engineering Practice, 12(5), 607-614.
Sahiner, A., Gokkaya, H., & Ucar, N. (2013). NONLINEAR MODELLING OF THE LAYER NIICROHARDNESS OF Fe-Mn BINARY ALLOYS. JOURNAL OF THE BALKAN TRIBOLOGICAL ASSOCIATION, 19(4), 508-519.
SAHINER, A., UCAR, N., & YILMAZ, N. (2013, September). New Optimization Techniques in Mechanical Characterization for β− Sn Single Crystals. In THE ABSTRACT BOOK (Vol. 7, No. 1, p. 174).
Şahiner, A., Yilmaz, N., & Demirozer, O. (2014). Mathematical modeling and an application of the filled function method in entomology. International Journal of Pest Management, 60(3), 232-237.
Sholl, D. S., Steckel, J. A. (2009). Density Functional Theory: A Practical Introduction, Wiley-VCH, John Wiley and Sons Inc., Weinheim, New York.
Suganthi, L., Iniyan, S., & Samuel, A. A. (2015). Applications of fuzzy logic in renewable energy systems–a review. Renewable and Sustainable Energy Reviews, 48, 585-607.
Sugeno, M., & Takagi, T. (1983). Multi-dimensional fuzzy reasoning. Fuzzy sets and systems, 9(1-3), 313-325.
Takagi, T., & Sugeno, M. (1985). Fuzzy identification of systems and its applications to modeling and control. IEEE transactions on systems, man, and cybernetics, (1), 116-132.
Tumac, D. (2016). Artificial neural network application to predict the sawability performance of large diameter circular saws. Measurement, 80, 12-20.
Young, D. (2001). Computational Chemistry, Wiley-Interscience, Appendix A. A.2.4, Gaussian.
