Open Access
MATEC Web Conf.
Volume 341, 2021
The VII International Scientific and Practical Conference “Information Technologies and Management of Transport Systems” (ITMTS 2021)
Article Number 00014
Number of page(s) 9
Published online 21 July 2021
  1. P.M. Babu, K. Sreenivas, Fatigue analysis and design optimization of a digger arm, IJMERR, v. 3(4), pp. 527-532 (2014). [Google Scholar]
  2. A.M. Babu, Static force analysis of mini hydraulic backhoe excavator and evaluation of bucket capacity, digging force calculations, IJERA, v. 9, pp. 25-32 (2015). [Google Scholar]
  3. A.S. Lomate, S. Biradar, K.K. Dhumal, A. Waychal, Design and Shape Optimization of Excavator Bucket, IRJET, v. 3(8), pp. 1423-1429 (2016) [Google Scholar]
  4. P. Padman, S.Battuwar, K. Kini, A. Kulkarni, Optimization of the Boom of an Excavator, IJIRSET, v. 7(9), pp. 9662-9673 (2018). [Google Scholar]
  5. R.B. Sarode, S.S. Sarawade, Structural Optimization of Excavator Bucket Link, IOSR, v. 3, pp. 10-16 (2016). [Google Scholar]
  6. B.P. Patel, J.M. Prajapati, Evaluation of bucket capacity, digging force calculations and static force analysis of mini hydraulic backhoe excavator, machine design, 4(1), pp. 59-66 (2012). [Google Scholar]
  7. S. Blouin, A. Hemami, M. Lipsett, Review of resistive force models for earthmoving processes, Journal of Aerospace Engineering, 14(3), pp. 102-111 (2001). [Google Scholar]
  8. B. Park, Development of a virtual reality excavator simulator, (Virginia Tech, Blacksburg, 2002). [Google Scholar]
  9. K. Awuah-Offei, S. Frimpong, Efficient cable shovel excavation in surface mines, Geotech Geol Eng, v. 29, pp. 19-26 (2011). [Google Scholar]
  10. B. П. Павлов, Алгоритм расчета силы и энергоемкости резания грунта по траектории большой кривизны, Вестник Воронежского государственного технического университета, 7(1), (2011). [Google Scholar]
  11. S. Singh, Learning to predict resistive forces during robotic excavation, IEEE, v. 2, pp. 2102-2107 (1995). [Google Scholar]
  12. N. Bennett, A. Walawalkar, M. Heck, C. Schindler, Integration of digging forces in a multi-body-system model of an excavator, P I MECH ENG K-J MUL, v. 230(2) (2015). [Google Scholar]
  13. I. Palomba, D.Richiedei, A. Trevisani, E. Sanjurjo, A. Luaces, J. Cuadrado, Estimation of the digging and payload forces in excavators by means of state observers, MSSP, v. 134, 106356 (2019). [Google Scholar]
  14. Young Bum Kim, Junhyoung Ha, Hyuk Kang, Pan Young Kim, Jinsoo Park, F.C. Park, Dynamically optimal trajectories for earthmoving excavators, Automation in Construction, v. 35, pp. 568-578 (2013). [Google Scholar]
  15. Tao Ni, H. Zhang, Changzhi Yu, Dingxuan Zhao, Songyue Liu, Design of highly realistic virtual environment for excavator simulator, Computers & Electrical Engineering, v. 39(7), pp. 2112-2123 (2013). [Google Scholar]
  16. Jin Chen, Xiaoping Pang, Xiaoping Pang, Digging performance characterization for hydraulic excavator considering uncertainty during digging operation. Proceedings of the Institution of Mechanical Engineers, SAGE, v. 232(5), pp. 857-871 (2017). [Google Scholar]
  17. J.V. Perumpral, R.D.Grisso, C.S. Desai, A soil-tool model based on limit equilibrium analysis, ASABE, v. 26(4), pp. 991-995 (1983). [Google Scholar]
  18. D.R.P. Hettiaratchi, B.D. Witney, A.R. Reece, The calculation of passive pressure in two-dimensional soil failure, Journal of Agricultural Engineering Research, v. 11(2), pp. 89-107 (1966). [Google Scholar]
  19. E. McKyes, O.S. Ali, The cutting of soil by narrow blades, Journal of Terramechanics, v. 14(2), pp. 43-58 (1977). [Google Scholar]
  20. Kuteni Jad Al Karim Hamad, Dissertation (RSL, Moscow, 2020). [Google Scholar]
  21. K. Shimoyama, A. Oyama, K. Fujii, Development of multi-objective six sigma approach for robust design optimization, JAIS, v. 5(8), pp. 1-27 (2008). [Google Scholar]
  22. F. Flores, A.Kecskeméthy, A. Pöttker, Workspace analysis and maximal force calculation of a face-shovel excavator using kinematical transformers, 12th IFToMM World Congress, Besancon, pp. 1-6 (2007). [Google Scholar]
  23. Volvo Construction Equipment Group, Ref. No. 21 2 435 1621 English, global Printed in Korea 2000.09-1 KOR Volvo, Seou. [Google Scholar]
  24. A. Erklig, E. Yeter, The Improvements of the Backhoe-Loader Arms, MNSMS, v. 03(04), pp. 142-148 (2013). [Google Scholar]

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