Environmental Erosion Research
پژوهش هاي فرسايش محيطي
E.E.R.
Literature & Humanities
http://magazine.hormozgan.ac.ir
1
admin
2251-7812
2717-3968
10.52547/jeer
6561
8888
45855/11/3/90
fa
jalali
1400
9
1
gregorian
2021
12
1
11
4
online
1
fulltext
fa
ارزیابی عددی میزان دقت و حساسیت الگوریتم داده کاوی و اپریوری در تعیین تاثیر پلها بر وضعیت ریخت شناسی رودخانه ( مطالعه موردی : رودخانه شلمان رود)
Numerical Evaluation of the Accuracy and Sensitivity of Data Mining and a priori Algorithm in Determining the Effect of Bridges on the Morphological Status of the River (Case Study: Shalman River)
مدیریت و کنترل اثرات فرسایش محیطی
مستخرج از پایاننامه / رساله / طرح پژوهشی
<strong><span style="font-family:2 Compset;"><span style="font-size:12.0pt;">مورفولوژی رودخانه، علم شناخت سامانه رودخانه از نظر شکل و شکل مسطحِ، مشخصه­های هیدرولیکی، راستا و نیمرخ طولی بستر و روند و سازوکار تغییرات این مشخصات است. از طریق بررسی ریختشناسی رودخانه، میتوان شرایط کنونی و توان تغییرات احتمالی آن را در آینده بهتر درک کرد. </span></span></strong><strong><span style="font-family:2 Compset;"><span style="font-size:12.0pt;">خصوصیات </span></span></strong><strong><span style="font-family:2 Compset;"><span style="font-size:12.0pt;">مورفولوژی</span></span></strong><strong><span style="font-family:2 Compset;"><span style="font-size:12.0pt;"> با گذشت زمان تغییر می­کند و تحت ­تأثیر عواملی همچون بده و سرعت جریان، میزان انتقال و خصوصیات رسوب، جنس مواد تشکیلدهند</span></span></strong><strong><span style="font-family:2 Compset;"><span style="font-size:12.0pt;">ه</span></span></strong><strong><span style="font-family:2 Compset;"><span style="font-size:12.0pt;"> بستر و کنارهها، شرایط زمینشناسی و عوامل دیگر است. از طرفی، </span></span></strong><strong><span style="font-family:2 Compset;"><span style="font-size:12.0pt;">سازههای هیدرولیکی انواع مختلفی دارد و استفاده از آنها به نوع منبع آب و هدف مورد استفاده وابسته است. در هر صورت، به طور کلی از مهمترین سازههای هیدرولیکی میتوان به پل­ها اشاره کرد. احداث پل­ها در مسیر رودخانه­ها به بروز تغییرات در رفتار مورفولوژیکی آنها منجر می­شود؛ بنابراین،</span></span></strong> <strong><span style="font-family:2 Compset;"><span style="font-size:12.0pt;">در این پژوهش </span></span></strong><strong><span style="font-family:2 Compset;"><span style="font-size:12.0pt;">با توجه به اهمیت بررسی ساخت سازه­های هیدرولیکی بر بستر رودخانه­ها، مدلسازی تأثیر این سازه­ها بر رفتار مورفولوژی رودخانه شلمان­رود در استان گیلان بررسی شد. <span style="color:black;">بهمنظور ایجاد مدل، در ابتدا الگوریتم به آنالیز دادههای ارائهشده میپردازد تا انواع خاصی از الگوها یا روندها را جستجو کند. سپس از نتایج این آنالیز بهدفعات استفاده میشود تا پارامترهای مطلوب برای ایجاد مدل دادهکاوی حاصل شود. همچنین برای مقایسه روش مورد استفاده در این پژوهش، از روش داده­کاوی استفاده شد. به طور کلی، نتایج نشان می­دهد که استفاده از الگوریتم داده­کاوی اپریوری در مدل­سازی تأثیر سازه­های هیدرولیکی احداث شده بر بستر دو رودخانه شلمان­رود و پل­رود روشی مناسب می­باشد؛ زیرا هر سه شاخص دقت، حساسیت و ویژگی این الگوریتم از الگوریتم وکا بالاتر است.</span></span></span></strong>
<strong>1- Introduction</strong><br>
Changes in river pattern is one of the most important issues of river engineering that affects the activities and structures of the river bank. It is important to study the morphological changes of river channels in order to find appropriate control solutions to solve the dynamic problems of these areas. The morphology of the riverbed pattern over time is a function of various factors such as geological formations, flood discharge, changes caused by human factors, vegetation, topography and tectonic movements. Statistical studies of river patterns have presented the morphology of a number of geostatistical rules. In this regard, the sinusoidal pattern of the riverbed depends on the dominant role of processes and a set of factors that are applied over time. A hydraulic structure refers to a structure in which all or part of the body of water is in contact with water in a way that changes the natural flow of water. These structures are used for purposes such as transmission, energy dissipation and flow cessation. There are different types of hydraulic structures and their use depends on the type of water source and the purpose used. In any case, in general, stair is one of the most important hydraulic structures. The construction of bridges in the course of rivers causes changes in the morphological behavior of rivers.<br>
<strong>2- Methodology</strong><br>
The two most important rivers in Gilan province are Plorud and Shalmanrud located in the east of Gilan. Data mining algorithm was used to model the effect of hydraulic structures. The algorithm determines the method used to search for the pattern in the data and is, in fact, like a mathematical procedure for solving a particular problem. Data mining algorithms refer to a set of inferences and calculations that provide a model of the data. In order to create a model, the algorithm first analyzes the presented data to search for specific types of patterns or trends. It then uses the results of this analysis several times to achieve the desired parameters to create a data mining model. In the next step, these parameters are used to extract accurate operational patterns and statistical processes in the entire data set. One of the most efficient algorithms used in the data mining process is the use of a priori algorithm. For modeling through a priori algorithm, six parameters of distance from bottom to bottom, cross-sectional area, full cross-section width, maximum full cross-sectional depth, average full cross-sectional depth and width-to-depth ratio were used. Another algorithm used to investigate the effect of constructed structures on the morphological behavior of measured rivers is Veca algorithm. The Weka algorithm consists of a set of methods such as categorization, clustering, and association rules and feature selection. In categorization, each data is assigned to a predefined class, but in clustering there is no information about the classes in the data. Therefore, considering the importance of investigating construction of hydraulic structures on riverbeds, modeling the effect of hydraulic structures on the morphological behavior of Shalmanrud River in Guilan province will be evaluated in this study.<br>
<strong>3- Result</strong><br>
Of the 53 rules obtained, 12 were more attractive and accurate based on the data. Comparison of the rules obtained by using the a priori algorithm showed that among the six indicators measured in data mining operations, the indicators of maximum depth of section with average confidence of 92% and 25% of the participation rates in the extractive laws are in the first place; width to depth ratio with an average confidence of 88% and 24% participation rate in extractive laws is in the second rank; cross-sectional area index with an average confidence of 85% and 21% participation rate in extraction laws is in the third place; full cross-sectional index with an average 79% confidence and 15% participation rate in extractive laws is in the fourth rank; average depth of full section with an average confidence of 77% and 10% participation rate in extraction laws is in the fifth rank and downstream distance index with an average confidence of 75% 55 Percentage of participation in extraction laws is in the sixth place. Based on this algorithm, ten rules were extracted from the data set used. The first rule with an accuracy of 0.883 includes river morphology, width-to-depth ratio, cross-sectional area and maximum full cross-sectional depth. The second law with an accuracy of 0.867 includes river morphology, cross-sectional area, full cross-sectional width and distance from the downstream. The third rule with 0.769 accuracy includes river morphology, cross-sectional area, full cross-sectional width and maximum full cross-sectional depth. Based on the results obtained from the accuracy and usefulness of the indicators, the width-to-depth ratio index has the most beneficial mode in the extraction rules.<br>
<strong>4- Discussion and Conclusion</strong><br>
In order to determine which of the two tested algorithms is more effective, the accuracy, sensitivity and specificity of the two algorithms used were measured along with the accuracy, sensitivity and specificity that can be used for each of the available algorithms. These indices were calculated to determine the accuracy of the classification for each of the categories. In fact, this criterion indicates the success rate of the classifier method in identifying samples related to each category. The call rate with the attribute, which is calculated as the a priori criterion for each of the available categories, shows the percentage of reliability of the output of the classifier method. In general, the results indicated the appropriateness of using the a priori data mining algorithm in modeling the impact of hydraulic structures on the bed of the two rivers Shalmanerood and Plerood because all three indicators of accuracy, sensitivity and specificity of this algorithm were higher than the Weka algorithm.
ارزیابی عددی, ریختشناسی, شبکه عصبی مصنوعی, شلمان رود, موانع جریان
Artificial neural network, Flow barriers, Morphology, Numerical evaluation, Shalman River
1
15
http://magazine.hormozgan.ac.ir/browse.php?a_code=A-10-732-1&slc_lang=fa&sid=1
Ramtin
Sobhkhiz Foumani
رامتین
صبح خیز فومنی
Sobhkhizarman@yahoo.co.uk
10031947532846006522
10031947532846006522
No
University of Qom, Qom, Iran
گروه عمران، دانشکده فنی مهندسی، دانشگاه قم، قم، ایران
Alireza
Mardookhpour
علیرضا
مردوخ پور
alireza.mardookhpour@liau.ac.ir
10031947532846006523
10031947532846006523
Yes
Lahijan Branch, Islamic Azad University, Lahijan, Iran
گروه عمران، دانشگاه آزاد اسلامی واحد لاهیجان، لاهیجان
Mona
Momeni
مونا
مومنی
mona.momeni807@gmail.com
10031947532846006524
10031947532846006524
No
Lahijan Branch, Islamic Azad University, Lahijan, Iran
گروه عمران، دانشگاه آزاد اسلامی واحد لاهیجان، لاهیجان، ایران