مدل‌سازي هزينه طراحي و اجراي سامانه هاي آبياري قطره اي

Early Stage Cost Modeling of Drip Irrigation Systems

اين پژوهش با هدف برآورد هزينه پروژه هاي آبياري قطره اي در مراحل اوليه طراحي با استفاده از تكنيك برنامه ريزي ژنتيك، با استفاده از داده‌هاي 100 پروژه آبياري قطره اي انجام شد. ا مهمترين ويژگي ها كه بيشترين تاثير را در هزينه ها داشتند با استفاده از نرم‌افزار Eureqa و بهره گيري از برنامه ريزي ژنتيك انتخاب شدند. در مرحله آخر مدل هاي مختلفي در هر بخش براي برآورد هزينه ارائه شده و بر اساس آماره هاي دقت و پيچيدگي، بهترين مدل در هر بخش معرفي شدند. نتايج آناليز همبستگي بين متغيرهاي مستقل با متغير وابسته (هزينه هر بخش) نشان داد كه در بخش TCP متغيرPP (توان پمپ مورد نياز)، در بخش TCF متغير L16mm (طول كل لترال)، در بخش TCI متغير SR (فاصله رديف گياهان) و در بخش TCT متغير HP (ارتفاع پمپاژ) به ترتيب با ضريب همبستگي (R) برابر با 0/77، 0/64، 0/36 و 0/43 بيشترين مقدار را بين بقيه متغيرها داشته و همگي در سطح اطمينان يك درصد معني‌دار شدند. همچنين نتايج مدل‌سازي هزينه سامانه آبياري قطره اي نشان داد كه در بخش TCP مدلي با معيار ارزيابي R برابر 0/45، MAE (ميانگين قدر مطلق خطا) برابر با 27236333 ريال و پيچيدگي 22 بهترين مدل بوده و اين معيارهاي ارزيابي براي بهترين مدل در بخش TCF برابر 0/85، 21198257 ريال و 13، در بخش TCI برابر0/77، 45483996 ريال و 11، و در بخش TCT اين معيارها به ترتيب 0/74، 77220845 ريال و 15 به دست آمد.

Introduction Allocation of budget to pressurized irrigation projects is supported by the government to manage, saving water resources and increase agricultural production and is considered as the ideal project of the country. Cost-effectiveness and awareness of the cost of an irrigation system is important and necessary for the government. Therefore, estimating the initial and final cost of the project, especially irrigation systems, is one of the project management tools that allow project managers to make more accurate decisions at different stages. Finding a model to identify the important factors affecting the final cost of an irrigation system, as well as formulating it for use throughout the country and regions with different characteristics, is what the present study seeks. Methodology The aim of this study was to estimate the cost of drip irrigation projects in the early stages of design using genetic programming technique, using data from 100 drip irrigation projects, in four sections including; cost of pumping station and central control system (TCP), cost of on-farm equipment (TCF), cost of installation and performing on-farm and pumping station (TCI) and total cost (TCT). First, a database containing 39 important and influential variables on the cost of the mentioned sections was prepared and the prices of the projects were updated for the base year of 2019. In the next step, the most important features that had the highest impact on the costs were selected using Eureqa Formulize software and using genetic programming. In the last stage, different models were presented in each section to estimate the cost and the best model in each section was introduced based on the statistics of accuracy and complexity. Results and Discussion The results of correlation analysis between independent variables and dependent variable (cost of each section) show that in TCP section PP variable (pump power required), in TCF section L16mm variable (total lateral length), in TCI section SR variable (plant row spacing) and in the TCT section, the HP variable (pumping height) with the correlation coefficient (R) equal to 0.766, 0.638, 0.355 and 0.429, respectively, had the highest value among the other variables and all were significant at the level of one percent confidence. Also, the results of cost modeling for drip irrigation system showed that in the TCP section, a model with an evaluation criterion of R equal to 0.449, MAE (average absolute error value) equal to 27236333 Rials and complexity of 22 was the best model. These evaluation criteria for the best model in the TCF section were equal to 0.848, 21198257 Rials and 13, in the TCI section equal to 0.770, 45483996 Rials and 11, and in the TCT section these criteria were 0.743, 77220845 Rials and 15, respectively. Conclusions In this study, the cost estimation of different parts of the drip irrigation system was modeled using genetic programming algorithm, and the obtained results showed that the presented models had excellent accuracies in each part. The results of this study can be a very useful tool for researchers, managers, students, consultants, contractors and those who are concerned in the water industry. By conducting similar research, it is possible to make an economic estimate with a high accuracy before the implementation stage. Acknowledgement This article is extracted from the Ph.D. dissertation, the first author of the article. For this purpose, the authors of the article would like to thank the Department of Irrigation and Reclamation Engineering, Faculty of Agriculture Engineering and Technology, College of Agriculture and Natural Resources, University of Tehran, Karaj, Iran for their excellent cooperation, providing the necessary facilities for this research and the preparation of relevant articles.