fa حل معادلات دیفرانسیل-انتگرال جزئی سهموی با توابع پایه‌ای شعاعی گاوسی و درجه دوم چندگانه معکوس جبر alg مقاله استخراج شده از پایان نامه Research Paper <span style="font-family:B Nazanin;"><span style="font-size:10.0pt;">در این مقاله، یک روش محاسباتی جدید بر مبنای توابع پایه‌ای شعاعی برای حل&nbsp; یک رده مهم از معادلات دیفرانسیل-انتگرال جزئی سهموی کسری پیشنهاد می‌شود. مشتق کسری استفاده شده در این نوع معادلات از نوع کاپوتو است. در روش پیشنهادی توابع پایه‌ای شعاعی گاوسی و درجۀ دوم چندگانه معکوس استفاده ‌شده است. ایده اصلی به‌کار رفته در روش مذکور این است که در ابتدا عملگر مشتق کسری کاپوتو که در حالت کلی یک عملگر انتگرال با هسته تکین است را به یک عملگر انتگرال غیر تکین معادل تبدیل می‌کنیم. سپس از توابع پایه‌ای شعاعی معرفی شده برای تقریب تابع جواب مجهول مسئله استفاده می‌کنیم. مزیت اصلی روش پیشنهاد شده، به‌دست آوردن جواب‌های تقریبی هموار برای مسئله بررسی شده است.</span></span><br> <span style="font-family:Times New Roman,serif;"><span style="font-size:10.0pt;"></span></span> <strong>Introduction</strong><br> Many mathematical formulations of physical phenomena contain integro-differential equations. These equations arise in fluid dynamics, biological models, chemical kinetics, ecology, control theory of financial mathematics, aerospace systems, industrial mathematics etc. It is worth mentioning that integro-differential equations are usually difficult to solve analytically, and so it is required to obtain an efficient approximate solution for them.<br> Fractional calculus deals with derivatives and integrals of arbitrary real or complex orders.&nbsp; This subject has attracted attention of many scientists in mathematics, physics and engineering. So, it has become a hot issue in recent years.<br> Fractional integro-differential equations arise in the mathematical modelling of various physical phenomena, such as heat conduction in materials with memory. Moreover, these equations are encountered in combined conduction, convection and radiation problems. There are only a few techniques for the solution of fractional integro-differential equations, since it is relatively a new subject in mathematics. Some of these methods are Legendre spectral tau method, Adomian decomposition method, piecewise polynomial collocation methods, spline collocation method, hybrid collocation method, hybrid functions approximation by block-pulse functions and Bernoulli polynomials, Taylor expansion approach, differential transform method and wavelet methods.<br> In recent years many problems in mathematics, physics and engineering have been numerically solved by radial basis functions (RBFs) methods.&nbsp; In this paper, we focus on the Gaussian and inverse multiquardic RBFs as two of the most important tools in engineering and sciences to solve a class of fractional parabolic integro-differential equations. This class of equations describes some phenomena in compression of viscoelastic media and nuclear reactor dynamics.<br> <strong>Material and methods</strong><br> In the proposed method, first the fractional derivative operator is transformed into a non-singular equivalent.&nbsp; Then, the Gaussian and inverse multiquardic RBFs together with the collocation method and Gauss-Legendre quadrature formula are used to transform the problem under consideration into the corresponding system of linear algebraic equations, which can be simply solved to achieve an approximate solution of the problem.<br> <strong>Results and discussion</strong><br> Some numerical examples are examined to demonstrate the efficiency and high accuracy of the present method. The obtained results demonstrate that there is a good agreement between the approximate solutions and the exact ones. Also we hope that the proposed method can provide numerical solutions with high accuracy for the problems under study for all fractional orders. Meanwhile, the best value for the shape parameter in the Gaussian and inverse multiquardic RBFs method can be obtained by employing an appropriate optimization method.<br> <strong>Conclusion</strong><br> The following conclusions were extracted from this research. <ul> <li>The established method transforms such problems into equivalent systems of algebraic equations by expanding the solution of the problem in terms of the RBFs and applying Gauss-Legendre integration formula.</li> <li>Only a few number of the RBFs is needed to obtain a high accurate numerical solution for such problems.</li> <li>The presented method can easily be developed for other classes of fractional partial integro-differential equations.<a href="./files/site1/files/71/2.pdf">./files/site1/files/71/2.pdf</a></li> </ul> معادلات دیفرانسیل-انتگرال جزئی سهموی کسری, توابع پایه‌ای شعاعی گاوسی, توابع پایه‌ای شعاعی درجه دوم چندگانه معکوس, روش هم‌محلی, روش انتگرال‌ گیری گاوس-لژاندر. کد موضوع‌بندی ریاضی [2010]: 26A33, 47Gxx, 45K05 Fractional parabolic partial integro-differential equations, Gaussian radial basis functions (RBFs), Inverse multiquardic RBFs, Collocation method, Gauss-Legendre quadrature formula. 11 26 http://mmr.khu.ac.ir/browse.php?a_code=A-10-801-1&slc_lang=fa&sid=1 F. S. Aghaei Maybodi فاطمه السادات آقایی میبدی fmaybodi1981@gmail.com 10031947532846004427 10031947532846004427 No Yazd University دانشگاه یزد، دانشکدۀ ریاضی M. H. Heydari محمد حسین حیدری heydari@sutech.ac.ir 10031947532846004428 10031947532846004428 Yes Shiraz University of Technology دانشگاه صنعتی شیراز، دانشکدۀ ریاضی F. M. Maalek Ghaeini فرید (محمد) مالک قائینی maalek@yazd.ac.ir 10031947532846004429 10031947532846004429 No Yazd University دانشگاه یزد، دانشکدۀ ریاضی M. H. Akrami محمد حسین اکرمی akrami@yazd.ac.ir 10031947532846004430 10031947532846004430 No Yazd University دانشگاه یزد، دانشکدۀ ریاضی