IRMA-International.org: Creator of Knowledge
Information Resources Management Association
Advancing the Concepts & Practices of Information Resources Management in Modern Organizations
navleft navright Research IRM Open Access IRMA Journals IRM Books Proceedings Membership

The IRMA Community

Calls for Papers
Online Symposium
Newsletters

Research IRM

Click a keyword to search titles using our InfoSci-OnDemand powered search:

Mesh Morphing and Smoothing by Means of Radial Basis Functions (RBF): A Practical Example Using Fluent and RBF Morph

Mesh Morphing and Smoothing by Means of Radial Basis Functions (RBF): A Practical Example Using Fluent and RBF Morph
View Sample PDF
Author(s): Marco Evangelos Biancolini (University of Rome, Italy)
 Copyright: 2012
 Pages: 34
 Source title: Handbook of Research on Computational Science and Engineering: Theory and Practice
Source Author(s)/Editor(s): J. Leng (Visual Conclusions, UK)and Wes Sharrock (University of Manchester, UK)
 DOI: 10.4018/978-1-61350-116-0.ch015

Purchase

Abstract

Radial Basis Functions (RBF) mesh morphing, its theoretical basis, its numerical implementation, and its use for the solution of industrial problems, mainly in Computer Aided Engineering (CAE), are introduced. RBF theory is presented showing the mathematical framework for a basic RBF fit, its MathCAD implementation, and its usage. The equations required for a 2D case comparing RBF smoothing and pseudosolid smoothing based on Finite Elements Method (FEM) structural solution are given; RBF exhibits excellent performance and produces high quality meshes even for very large deformations. The industrial application of RBF morphing to Computational Fluid Dynamics (CFD) is covered presenting the RBF Morph software, its implementation, and a description of its working principles and performance. Practical examples include: physical problems that use CFD, shape parameterisation strategy, and modelling guidelines for setting-up a well posed RBF problem. Future directions explored are: transient shape evolution, fluid structure interaction modelling, and shape parameterization in multi-physics, multi-objective design optimization.

Related Content

R. N. Ravikumar, S. Aarthi, Yulduz Urazbaeva, Zamira Atamuratova, Sadullayeva Moxinur, Jakhongir Shaturaev. © 2026. 32 pages.
Arjun Bali, Siddharth Kashiramka, Anshuman Guha, Prashant Gupta. © 2026. 30 pages.
Vishal Jain, Archan Mitra, Sanchita Paul. © 2026. 32 pages.
Krithikaa Venket. © 2026. 26 pages.
Nuraisa Novia Hidayati, Agung Santosa, Elvira Nurfadhilah, Andi Djalal Latief, Kokoy Siti Komariah, Asril Jarin, Siska Pebiana, Yuyun Wabula, Radhiyatul Fajri, Tri Sampurno. © 2026. 50 pages.
Piyush Amol Bhosale, Shravani Kulkarni, Amna Kausar, Aditya Shrivastav, Susanta Das. © 2026. 26 pages.
Vishal Jain, Archan Mitra. © 2026. 22 pages.
IRMA Offers Over 2,500 Full Text Open Access Research Papers for Free Download Click to Start Searching Free IRM Research!

IRMA Sponsors

Sponsor IGI Global

Sponsor eContentPro

Encyclopedia of Information Science and Technology, Fourth Edition
Body Bottom
About Us | Contact | Sitemap | Legal | Policies
Copyright ©2026, Information Resources Management Association. 701 East Chocolate Avenue, Hershey, PA 17033.