A knowledge-based fuzzy logic model was developed on experimental data and used to predict the draft, side and vertical forces and soil disturbance area by disc tillage tool operation. The laboratory research work was conducted to evaluate the performance of the disc tool at three working speeds (1.25 m/s, 1.98 m/s and 2.47 m/s, respectively) and depths (0-5 cm, 5-10 cm and 10-15 cm, respectively) on paddy soil under soil-bin environment. Further, draft (Fx), side (Fz) and vertical (Fy) forces of disc and soil disturbance area were assessed and predicted towards working speeds and depths. A fuzzy prediction model with two input variables (speed and depth) and four output variables was developed and the Mamdani inference approach was used. Draft, side and vertical forces of disc and soil disturbance area were positively responded 0.97, 0.95 and 0.84 and 0.99, respectively. The prediction results showed a close relationship between measured and predicted data. Similarly, the measured and predicted results revealed that the draft, side, vertical forces, and soil disturbance area slightly increased, while increasing the speed and depth of the disc tool. Furthermore, disc forces and soil disturbed area were highly significant (p<0.05) for higher speed towards depth. It was concluded that the fuzzy model may be introduced for predicting the disc forces and soil disturbance area during the disc tillage tool operation with high accuracy.
Keywords: disc tillage tool, ANN fuzzy model, 3D forces, sensor, soil bin, soil disturbance area
DOI: 10.25165/j.ijabe.20201304.5115

Citation: Chandio F A, Li Y M, Xu L Z, Ma Z, Ahmad F, Cuong D M, et al. Predicting 3D forces of disc tool and soil disturbance area using fuzzy logic model under sensor based soil-bin. Int J Agric & Biol Eng, 2020; 13(4): 77–84.

disc tillage tool, ANN fuzzy model, 3D forces, sensor, soil bin, soil disturbance area

Olatunji O M. Modeling the effect of weight, draught and speed on the depth of cut of disc plough during ploughing. M.Tech. Thesis, Department of Agricultural and Environmental Engineering, Rivers State University of Science and Technology, Port Harcourt, Nigeria, 2007; 102p.

Claude C. Farm Machinery. 10th Edn., Granada Publishing Ltd., Technical Book Division Frogmore, St. Albans, Berts., A. 122NF, 1984; pp.10–24.

Six J, Elliott E T. Paustian, K. Soil macroaggregate turnover and microaggregate formation: a mechanism for C sequestration under no tillage agriculture. Soil Biol and Biochem, 2000; 32(14): 2099–2103.

Al-Kaisi M M, Yin X. Tillage and crop residue effects on soil carbon and carbon dioxide emission in corn-soybean rotations. J Environ Qual, 2005; 34: 437–445.

Odey S O, Manuwa S I. Development of Profilometer for Measuring Area of Soil Disturbance by Narrow Tillage Tools. IJRES, 2018; 6(1): 26–32, 39.

Odey S O, Ovat F A, Orok O O. Draughts, Power Requirements and Soil Disruption of Subsoilers. Int. J. of Em Eng Res & Tech, 2018; 6(9): 24–38, 40.

Odey S O, Manuwa S I. Design Steps of Narrow Tillage Tools for Draught Reduction and Increased Soil Disruption. A Review. Agric Eng. Int: CIGR Journal, 2016; 18(1): 91–102.

Odey S O, Manuwa S I, Ewetumo T. Instrumentation assembly for measuring draughts of subsoilers in outdoor soil bin facility. IJRES, 2018; 6(2): 1–10.

Godwin R J, O’Dogherty M J, Saunders C, Balafoutis A T. A force prediction model for mouldboard ploughs incorporating the effects of soil characteristic properties, plough geometric factors and ploughing speed. Biosyst Engg, 2007; 97: 117–129.

O’Dogherty M J. The design of octagonal ring dynamometers. J Agric Engg Res, 1996; 63: 9–18.

Zhang J I, Kushwaha R L. A modified model to predict soil cutting resistance. Soil & Till Res, 1995; 34(3): 157–168.

Godwin R J. A review of the effect of implement geometry on soil failure and implement forces. Soil & Till Res, 2007; 97: 331–340.

Sahu R K, Raheman H. An approach for draft prediction of combination tillage implements in sandy clay loam soil. Soil & Till Res, 2006; 90: 145–155.

Tagar A A, Ji C, Ding Q, Adamowski J, Chandio F A, Mari I A. Soil failure patterns and draft as influenced by consistency limits: An evaluation of the remolded soil cutting test. Soil & Till Res, 2014; 137: 58–66.

Lindwall C W, LarneF J, Johnston A M, Moyer J R. Crop management in conservation tillage systems. In: Unger, P W (Ed.), Managing Agricultural Residues. CRC Press, BocaRaton, USA, 1994; pp.185–209.

Hanna H M, Melvin S W, Pope R O. Tillage implements operational effects on residue cover. Appl Engin in Agric, 1995; 11: 205–210.

Kepner R A, Bainer R, Barger E L. Principle of farm machinery. Delhi: CBS Publishers and Distributors, 1987; 582p.

Rahman S, Chen Y. Laboratory investigation of cutting forces and soil disturbance resulting from different manure incorporation tools in a loamy sand soil. Soil Till Res, 2001; 58: 19–29.

Irshad A M, Farman A C, Ji C, Arslan C, Asma S, Tagar A A, Fang H. Performance and evaluation of disc tillage tool forces acting on straw incorporation soil. Pak. J. Agri. Sci, 2014; 51(4): 855–860.

Malasli M Z, Celik A. Disc angle and tilt angle effects on forces acting on a single-disc type no-till seeder opener. Soil & Till Res., 2019; 194: 104304. https://doi.org/10.1016/j.still.2019.104304.

Okayasu T, Morishita K, Terao H, Mitsuoka M, Inoue E, Fukami K O. Modeling and prediction of soil cutting behavior by a plow. In: CIGR-Ag Eng. Agriculture & Engineering for a Healthier Life, 23, Valencia, 2012; 84-615-9928-4.

Carman K. Prediction of soil compaction under pneumatic tires a using fuzzy logic approach. J. Terrramech, 2008; 45(4): 103–105.

Zadeh L A. Fuzzy sets. Inform. Control, 1965; 8: 338–353.

Abbaspour-Gilandeh Y, Rasooli-Sharabiani V, Khalilian A. Effects of tillage methods on soil fragmentation in loamy-clay soils. Am. J. Agric. Biol. Sci, 2009; 4(2): 131–136.

Allahverdi N. Expert Systems: An artificial intelligence application. Atlas Press, Istanbul, 2002; 248p.

Lakhiar I A, Gao J, Sayed T B, Chandio F A, Buttar N A, Qurashi W A. Monitoring and control systems in agriculture using intelligent sensor techniques: A review of the aeroponic system. Hindawi, J. of Sensors, 2018; 2: 8672769, 18p. https://doi.org/10.1155/2018/8672769 3.

Marakoglu T, Carman K. Fuzzy knowledge-based model for prediction of soil loosening and draft efficiency in tillage. J. Terrramech, 2010; 47:173–178.

Abbaspour-Gilandeh Y, Sedghi R. Predicting soil fragmentation during tillage operation using fuzzy logic approach. J. Terrramech, 2015; 57: 61–69.

Bentaher H, Hamza E, Kantchev G, Maalej A, Arnold W. Three-point hitch mechanism instrumentation for tillage power optimization. Biosyst Engg, 2008; 100: 24–30.

Ademosun O C, Akande L O, Manuwa S I, Ewetumo T. Development of liquid animal manure injector equipment with instrumentation for draught measurement of tillage tools. J of Agri; Engg and Techn (JAET), 2014; 22(1): 9–18.

Saleh, B, Ayman A A. Artificial neural network model for evaluation of the ploughing process performance. Int. J. of Control, Automation and System, 2013; 2(2): 1–11.

Akbarnia A, Mohammadi A, Farhani F, Alimardani R. Simulation of draft force of winged share tillage tool using artificial neural network model. Agric Eng Int: CIGR J, 2014; 16(4): 57–65.

Ahmad F, Weimin D, Qishuo D, Hussain M, Jabran K. Forces and straw cutting performance of double disc furrow opener in no-till paddy soil. PLoS One, 2015; 10: e0119648. doi: 10.1371/journal.pone.0119648.

Li B, Xia R, Liu F Y, Chen J, Han W T, Han B. Determination of the draft force for different subsoiler points using discrete element method. Int J Agric & Biol Eng, 2016; 9(3): 81–87.

Ahmad F, Weimin D, Qishou D, Rehim A, Jabran K, 2017. Comparative performance of various disc-type furrow openers in no-till paddy field conditions. Sustainability, 2017; 9: 1143. doi: 10.3390/su9071143.

Jia H L, Jiang X M, Yuan H F, Zhuang J, Zhao J L, Guo M Z. Stalk cutting mechanism of no-tillage planter for wide/narrow row farming mode. Int J Agric & Biol Eng, 2017; 10(2): 26–35.

Abbaspour-Gilandeh Y, Rasooli-Sharabiani V, Khalilian A. Effects of tillage methods on soil fragmentation in loamy-clay soils. Am. J Agric Biol Sci, 2009; 4(2): 131–136.

Vozka P, Borots C, Doghert M J O, Godwin R J. Performance of alternative tillage systems. Paper presented at XXXII CIOSTA – CIGR Section V Conference in Nitra, September 2007, Slovak University of Agriculture, Nitra, Slovakia, 2007; pp.17–19.