شماره ركورد :
986562
عنوان مقاله :
تحليل حساسيت روش پردازش تصاوير در برآورد منحني دانه بندي رسوبات سطحي بستر رودخانه نسبت به اندازه سطح رسوبي
عنوان به زبان ديگر :
Sensitivity analysis of image processing technique to estimate gradation curve of river bed-surface sediments to the size of image
پديد آورندگان :
حسن نژاد شريفي، فرزام دانشگاه بين المللي امام خميني (ره) - دانشكده فني و مهندسي - گروه مهندسي آب , صمدي، امير دانشگاه بين المللي امام خميني (ره) - دانشكده فني و مهندسي - گروه مهندسي آب , عزيزيان، اصغر دانشگاه بين المللي امام خميني (ره) - دانشكده فني و مهندسي - گروه مهندسي آب
تعداد صفحه :
10
از صفحه :
133
تا صفحه :
142
كليدواژه :
پردازش تصاوير , رسوبات سطحي بستر , دانه بندي با الك , منحني دانه بندي
چكيده فارسي :
اطلاعاتي كه از منحني دانه بندي ذرات بستر استخراج مي شود، كاربردهاي فراواني در زمينه مهندسي رودخانه مانند مدل سازي انتقال رسوبات، تغيير وضعيت رسوبگ ذاري يا فرسايش بستر رودخانه و تغييرات ريخت شناسي رودخانه دارد. در اين پژوهش در بازه معيني از مسير رودخانه شلمان رود (واقع در استان گيلان) براي دستيابي به منحني هاي دانه بندي رسوبات سطحي بستر به دو روش دانه بندي با الك و پردازش تصاوير، در 25 نقطه معين واقع در راستاي طولي بستر رودخانه، ضمن تهيه تصاوير ديجيتالي از فراز رسوبات با استفاده از دوربين 10 مگاپيكسلي، نمونه برداري سطحي از مصالح رسوبي انجام شد. براي سنجش حساسيت روش پردازش تصوير به اندازه سطح رسوبي مورد پردازش، از دو قاب چوبي در ابعاد 40 در 40 سانتي متر و 70 در 70 سانتي متر استفاده گرديد. همچنين براي پردازش تصاوير از نرم افزار 4.2 FHWA Hydraulic Toolbox استفاده گرديد. نتايج تحليل هاي آماري انجام شده بين منحني هاي حاصل از دو روش (آزمايشگاهي و نرم افزاري) نشان داد كه روش پردازش تصاوير با استفاده از برنامه مذكور از دقت بسيار زيادي در برآورد منحني دانه بندي ذرات رسوبي برخوردار است. همچنين اين روش در حالتي كه سطح مورد پردازش در تصاوير ورودي به نرم افزار، كوچك تر انتخاب شود و ذرات به مركز تصوير نزديك تر باشد، از دقت بيشتري برخوردار است.
چكيده لاتين :
Some characteristics of rivers that are dependent upon particle-size distribution such as riverbed grain-size (e.g., D50, D84 or D90), can be estimated using different methods which the commonest is sieving analysis. Nowadays, recent innovations in image processing techniques make it possible to determine the gradation curve through digital photographic methods. Images are processed using a default or selective algorithm in most image processing softwares including GIAS, ImageJ, and similar programs for Windows (e.g., Scion Image and ImageTool) and other operating systems. Up to the present time, numerous studies were conducted using image processing of sediment particles for a variety of purposes that mostly is introducing the image processing as a replacement for traditional methods of particle size determination (i.e., sieve analysis, Wolman pebble count, etc.) in order to save time, money, energy and labor force. According to the importance of image processing and itsapplication in river engineering and drawing sediment gradation curve and also difficulties in field surveys to take appropriate images of sediments at different points of the area, it seems necessary to know the appropriate dimensions of sediment surface in order to accurate processing of their particles. In our study, the accuracy of image processing technique (using FHWA Hydraulic Toolbox software) to carry out an appropriate evaluation of grain-size of surface layer sediments of Shalmanroud riverbed were evaluated by processing sedimentary layers of two images with different size. In addition, usage possibility of the results obtained using this method has evaluated for determining representative diameters of sediment particles in some measuring methods for bed load. After some visits from Shalmanroud River to select an appropriate study site, a 7.5 kilometer length of the river was chosen and some photos of riverbed sediments and required samples were taken for more examination. At 25 points along the river reach with uniform sediment, some photos were taken from about one meter above riverbed surface at each point using a 10-megapixel Canon's PowerShot G12 digital camera and the available equipments. At each point, two images were captured from above the sediments that one is related to surface particles inside a 70cm×70cm wooden frame and the other is related to surface sediment particles inside a 40cm×40cm wooden frame (which is fixed in the middle of the larger frame). Then, the surface particles were gathered and stored in special storage bags for the sieve analysis. At each point in the field, the UTM coordinates were measured using the Garmin handheld GPS. The samples were delivered to the soil mechanics laboratory for sieve analysis. In order to plot grain-size curve of sieve analysis, cumulative percentage retained on each sieve was determined. Next, to achieve more accurate estimate of the grain-size distribution using image processing technique, the FHWA Hydraulic Toolbox software was used. Digital image processing consists of eight separate fundamental steps. 1 - Former M.Sc. Student of Hydraulic Structures, Water Engineering Department, Faculty of Engineering and Technology, Imam Khomeini International University, Qazvin, Iran. 2& 3- Assistant Professor,Water Engineering Department, Faculty of Engineering and Technology, Imam Khomeini International The results of image processing had been entered into Excel, and then particle-size distribution curves were immediately obtained. Then, the values of representative diameters, i.e., D16, D50, D75 and D84 were read from the particle-size distribution curves (laboratory and software). After that, to examine the correlation and linear regression between the sieve result and the result of image processing, correspondence analysis was run in Excel software and the values of the correlation coefficients for D16, D50, D75 and D84 diameters were computed 0.93, 0.936, 0.905 and 0.824, respectively (obtained from processing of images using a 40cm×40cm wooden frame). In a similar way, those values were obtained for results of image processing using the 70cm×70cm wooden frame as follows: 0.864, 0.876, 0.877 and 0.823, shows a strong correlation between lab test results and image processing results. The results revealed that the estimated diameters using the 40cm×40cm frame are closer to the experimental values than what the 70cm×70cm frame estimated. It was also revealed that in the case of using 40cm×40cm wooden frame, the estimation accuracy increases as the diameters increase; whereas the converse results were obtained with the larger frame. It was revealed that the error of estimate for finer particles was larger for particles smaller than D50than that of particles larger than D50. Image analysis using FHWA Hydraulic Toolbox software is sensitive to the size of the frame so that in the case of using the smaller frame (40cm×40cm), the estimates of the particle size are likely to be more accurate and show positive relationship with particle size while this relationship turns negative when a larger frame is used. Regarding the wide range of particle sizes (from very fine gravel to small pebble) on Shalmanroud Riverbed and also the higher accuracy of image processing in estimating larger particles (in case of using the smaller frame), it is highly recommended to use Meyer-Peter and Muller formula for computation of
سال انتشار :
1395
عنوان نشريه :
پژوهش آب ايران
فايل PDF :
7313759
عنوان نشريه :
پژوهش آب ايران
لينک به اين مدرک :
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