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Estimation of time of concentration using triangulated irregular network method / Ewe Teik Tsia_

Estimation of time of concentration using triangulated irregular network method_Ewe Teik Tsia_REDAC_2015_MYMY

Abstract Di Malaysia, Manual Saliran Mesra Alam (MSMA) telah mencadangkan dua kaedah pengiraan untuk mendapatkan luas antara isokron yang telah diamalkan secara meluas pada masa ini. Mereka adalah kaedah Grid dan kaedah Konvensional. Tetapi, kaedah-kaedah ini menimbulkan masalah yang tersendiri. Walaupun kaedah Grid adalah lebih terperinci dan tepat apabila dibandingkan dengan kaedah Konvensional, ia adalah amat membosankan dan memakan masa. Kaedah Konvensional sebaliknya adalah lebih mudah untuk digunakan. Tetapi, keputusannya tidak konsisten. Keputusannya adalah sangat subjektif kerana ia bergantung kepada pengalaman dan penilaian setiap pengguna. Justeru, kaedah pengiraan baru yang dikenali kaedah Rangkaian Penyegitiga Tidak Teratur (TIN) telah direka dan dibangunkan dalam kajian ini untuk meningkatkan pengiraan kaedah Masa-Luas. Kaedah ini adalah berasaskan komputer dan dengan itu algoritma kaedah TIN dibangunkan. Algoritma kaedah TIN telah dijelaskan dalam kajian ini. Satu tapak kajian telah dibina dan lapan set data hujan dikumpul. Semua hasil pengiraan daripada setiap kaedah disahkan dengan data tapak yang dikumpul untuk membandingkan ketepatannya. Siasatan ke atas kecekapan dan kebolehpercayaan kaedah-kaedah ini juga dijalankan dalam kajian ini. Perbandingan ini menunjukkan bahawa kaedah TIN mempunyai ketepatan yang lebih tinggi. Dalam perbandingan pekali korelasi antara kaedah yang ada, kaedah TIN mempunyai ketepatan purata 0.988, kaedah Grid mempunyai ketepatan purata 0.936 dan kaedah Konvensional mempunyai ketepatan purata 0.948. Apabila mengira peratus perbezaan mereka terhadap data yang dicerap, kaedah TIN mempunyai perbezaan purata 14.29%, kaedah Grid mempunyai perbezaan purata 25.67% dan kaedah konvensional mempunyai perbezaan purata 24.52%. Apabila menggunakan aliran puncak bagi perbezaan terhadap data yang diperhatikan, keputusan menunjukkan bahawa kaedah TIN mempunyai perbezaan purata 3.48%, kaedah Grid adalah 5.88% dan kaedah konvensional ialah 7.72%. Akhir sekali, dengan menggunakan jumlah isipadu aliran, kaedah TIN hanya mempunyai 0.19% perbezaan dengan data yang diperhati, kaedah Grid mempunyai 0.43% dan kaedah Konvensional mempunyai perbezaan sebanyak 4.80%. Kaedah TIN menunjukkan ketepatan dan kebolehpercayaan yang lebih tinggi berbanding dengan dua kaedah yang lain. Selain itu, kajian ini juga menunjukkan bahawa algoritma kaedah TIN yang baru dibangunkan adalah lebih mudah untuk digunakan, memakan masa yang kurang dan lebih dipercayai. _______________________________________________________________________ In Malaysia, Manual Saliran Mesra Alam (MSMA) has proposed two calculation methods to obtain areas between the isochrones that have been widely practiced at the moment. They are Grid method and Conventional method. However, these methods pose certain problems of their own. Although the Grid method is more detail and accurate when compared to the Conventional method, but that is extremely tedious and time consuming. Conventional method on the other hand is simpler to use. But, the results are not consistent. The results are very subjective because it depends on each user’s experience and judgement. Therefore, a new calculation method named Triangulated Irregular Network (TIN) method has been designed and developed in this research to improve the Time-Area method calculation. This method is computer based and thus the algorithm of TIN method was developed. The algorithm of the TIN method is explained in this research. A study site was constructed and eight sets of rainfall data were collected. All the results from each calculation method were verified with the collected site data to compare their accuracy. Investigation upon their efficiency and reliability were also presented in this research. The comparison showed that TIN method has higher accuracy. In the correlation coefficient comparison among the methods, TIN method has average accuracy of 0.988, Grid method has average accuracy of 0.936 and Conventional method has average accuracy of 0.948. When calculating their difference against the observed data in percentage, TIN method has average difference of 14.29%, Grid method has average difference of 25.67% and Conventional method has average difference of 24.52%. When using the peak flow comparison for the difference against the observed data, the results shows that TIN method has average difference of 3.48%, Grid method has average difference of 5.88% and Conventional method has average difference of 7.72%. Lastly, the methods were compared using the total flow volume. It was demonstrated that the TIN method has different of 0.19%, Grid method has different of 0.43% and Conventional method has different of 4.80% when compared to the observed data. The TIN method has the highest accuracy and reliability among the three methods. Besides, this research also showed that the newly developed TIN method algorithm is easier to use, less time consuming and more reliable.

Contributor(s): Teik Tsia Ewe - Author Primary Item Type: Thesis Identifiers: Accession Number : 875008850 Language: English Subject Keywords: isochrones; extremely; comparison Sponsor - Description: Pusat pengajian Kejuruteraan Awam - REDAC First presented to the public: 10/1/2015 Original Publication Date: 8/11/2020 Previously Published By: Universiti Sains Malaysia Place Of Publication: REDAC (River Engineering and Urban Drainage Research Centre) Citation: Extents: Number of Pages - 197 License Grantor / Date Granted:   / ( View License ) Date Deposited 2020-08-11 15:50:03.634 Submitter: Mohamed Yunus Yusof

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