Explicit and semi-implicit twostep hybrid method for solving special second-order IVPs / Nur Azila Yahya

This research is divided into two main sections. Firstly, fourth order I2HM (4I2HM) and fifth order I2HM (5I2HM) are derived. Secondly, explicit and semi-implicit fifth order two-step hybrid method with first same as last (FSAL) feature are constructed and written as 5E2HMF and 5SI2HMF respectively....

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Main Author: Yahya, Nur Azila
Format: Thesis
Language:English
Published: 2014
Online Access:http://ir.uitm.edu.my/id/eprint/16399/
http://ir.uitm.edu.my/id/eprint/16399/1/TM_NUR%20AZILA%20YAHYA%20CS%2014_5.pdf
id uitm-16399
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spelling uitm-163992019-02-21T02:03:56Z http://ir.uitm.edu.my/id/eprint/16399/ Explicit and semi-implicit twostep hybrid method for solving special second-order IVPs / Nur Azila Yahya Yahya, Nur Azila This research is divided into two main sections. Firstly, fourth order I2HM (4I2HM) and fifth order I2HM (5I2HM) are derived. Secondly, explicit and semi-implicit fifth order two-step hybrid method with first same as last (FSAL) feature are constructed and written as 5E2HMF and 5SI2HMF respectively. In order to analyze the stability of the new method, the second-order linear homogeneous test equation will be used. The numerical experiments are carried out using a wide range of problems. The criterion used in the numerical comparisons is absolute error and maximum error. The results are also compared to ODE23 and ODE45 which are the MATLAB’s ODE solver functions. The interval of absolute stability for 4I2HM is found to be bigger than interval of periodicity for 4E2HM which is given by (0, 4.47). For fifth order methods, the interval of absolute stability for 5I2HM is found to be wider than interval of absolute stability for 5E2HM which is given by (0, 5.04). Next, for FSAL methods, the interval of absolute stability for 5E2HMF is found to be wider than the interval of absolute stability for 5SI2HMF which is given by (0, 3.96). The numerical results obtained showed that, the proposed methods are better than ODE23 and ODE45. The 4I2HM and 4E2HM showed that, both methods performed equally well. In addition, the 5I2HM and 5E2HM showed that, both methods have almost equal performances. Lastly, the 5E2HMF and 5SI2HMF showed that, both methods performed equally well. Hence, the new proposed methods can serve as alternative methods for solving special second-order IVPs. 2014 Thesis NonPeerReviewed text en http://ir.uitm.edu.my/id/eprint/16399/1/TM_NUR%20AZILA%20YAHYA%20CS%2014_5.pdf Yahya, Nur Azila (2014) Explicit and semi-implicit twostep hybrid method for solving special second-order IVPs / Nur Azila Yahya. Masters thesis, Universiti Teknologi MARA.
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language English
description This research is divided into two main sections. Firstly, fourth order I2HM (4I2HM) and fifth order I2HM (5I2HM) are derived. Secondly, explicit and semi-implicit fifth order two-step hybrid method with first same as last (FSAL) feature are constructed and written as 5E2HMF and 5SI2HMF respectively. In order to analyze the stability of the new method, the second-order linear homogeneous test equation will be used. The numerical experiments are carried out using a wide range of problems. The criterion used in the numerical comparisons is absolute error and maximum error. The results are also compared to ODE23 and ODE45 which are the MATLAB’s ODE solver functions. The interval of absolute stability for 4I2HM is found to be bigger than interval of periodicity for 4E2HM which is given by (0, 4.47). For fifth order methods, the interval of absolute stability for 5I2HM is found to be wider than interval of absolute stability for 5E2HM which is given by (0, 5.04). Next, for FSAL methods, the interval of absolute stability for 5E2HMF is found to be wider than the interval of absolute stability for 5SI2HMF which is given by (0, 3.96). The numerical results obtained showed that, the proposed methods are better than ODE23 and ODE45. The 4I2HM and 4E2HM showed that, both methods performed equally well. In addition, the 5I2HM and 5E2HM showed that, both methods have almost equal performances. Lastly, the 5E2HMF and 5SI2HMF showed that, both methods performed equally well. Hence, the new proposed methods can serve as alternative methods for solving special second-order IVPs.
format Thesis
author Yahya, Nur Azila
spellingShingle Yahya, Nur Azila
Explicit and semi-implicit twostep hybrid method for solving special second-order IVPs / Nur Azila Yahya
author_facet Yahya, Nur Azila
author_sort Yahya, Nur Azila
title Explicit and semi-implicit twostep hybrid method for solving special second-order IVPs / Nur Azila Yahya
title_short Explicit and semi-implicit twostep hybrid method for solving special second-order IVPs / Nur Azila Yahya
title_full Explicit and semi-implicit twostep hybrid method for solving special second-order IVPs / Nur Azila Yahya
title_fullStr Explicit and semi-implicit twostep hybrid method for solving special second-order IVPs / Nur Azila Yahya
title_full_unstemmed Explicit and semi-implicit twostep hybrid method for solving special second-order IVPs / Nur Azila Yahya
title_sort explicit and semi-implicit twostep hybrid method for solving special second-order ivps / nur azila yahya
publishDate 2014
url http://ir.uitm.edu.my/id/eprint/16399/
http://ir.uitm.edu.my/id/eprint/16399/1/TM_NUR%20AZILA%20YAHYA%20CS%2014_5.pdf
first_indexed 2023-09-18T22:55:59Z
last_indexed 2023-09-18T22:55:59Z
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