Potential assessment of neuro-fuzzy strategy in prognostication of draft parameters of primary tillage implement

S.M. Shafaei, M. Loghavi, S. Kamgar, M.H. Raoufat
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引用次数: 25

Abstract

This study investigates potential of neuro-fuzzy strategy in prognostication of draft parameters of primary tillage implement. To this aim, computer simulation environment of adaptive neuro-fuzzy inference system (ANFIS) was employed to simulate field data of tillage operations with moldboard plow implement. The field trials were conducted at three levels of forward speed (2, 4 and 6 km/h) and three levels of plowing depth (10, 20 and 30 cm). The plowing depth and forward speed were marked as independent input variables and the draft parameters (draft force and specific draft force) were labeled as dependent output variables in the ANFIS simulation environment. The ANFIS results were compared to those obtained by the equation standardized by American Society of Agricultural and Biological Engineers (ASABE) based on statistical descriptor parameters. Results revealed that the outperforming ANFIS model with acceptable statistical descriptor parameters was more accurate than the ASABE model for prognostication of the draft parameters. The ANFIS modeling results presented that simultaneous increment of forward speed and plowing depth resulted in nonlinear increment of draft force from the lowest bound (<4 kN) to the highest bound (>20 kN). Meanwhile, forward speed increment along with plowing depth decrement resulted in nonlinear increment of specific draft force from the lowest bound (<32 kN/m2) to the highest bound (>120 kN/m2). Furthermore, interaction of forward speed and plowing depth on draft force was congruent. However, it was incongruent in case of specific draft force. According to potential of the ANFIS model assessed in this study, the proposed model can be served as an efficient alternative modeling tool for direct prognostication of the draft parameters of an implement during tillage operations associated with concurrent changes of forward speed and plowing depth.

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神经模糊策略在初耕机具牵伸参数预测中的潜力评价
本研究探讨了神经模糊策略在初耕机具牵伸参数预测中的应用潜力。为此,利用自适应神经模糊推理系统(ANFIS)的计算机仿真环境,对犁铧犁铧耕作作业的现场数据进行仿真。田间试验以3个水平的前进速度(2、4和6 km/h)和3个水平的耕深(10、20和30 cm)进行。在ANFIS仿真环境中,将犁耕深度和前进速度标记为独立输入变量,将牵伸力和比牵伸力标记为依赖输出变量。将ANFIS结果与美国农业与生物工程师学会(ASABE)基于统计描述符参数标准化的方程得到的结果进行比较。结果表明,具有可接受的统计描述符参数的性能优异的ANFIS模型比ASABE模型更准确地预测草稿参数。ANFIS建模结果表明,同时增加前进速度和犁耕深度会导致牵引力从最低界(<4 kN)非线性增加到最高界(>20 kN)。同时,前进速度随犁耕深度的减小而增大,比吃力从最低界(<32 kN/m2)到最高界(>120 kN/m2)呈非线性增加。前进速度和犁耕深度对牵引力的相互作用是一致的。但是,在具体征兵力量的情况下,这是不一致的。根据本研究评估的ANFIS模型的潜力,所提出的模型可以作为一种有效的替代建模工具,用于直接预测耕作作业中与前进速度和耕作深度同时变化相关的工具的draft参数。
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