ISSN 0021-3454 (print version)
ISSN 2500-0381 (online version)

vol 64 / January, 2021

DOI 10.17586/0021-3454-2017-60-9-850-857

UDC 681.51


D. Dobriborsci
ITMO University, Saint Petersburg, 197101, Russian Federation; Enjeneer

S. A. Kolyubin
ITMO University, Saint Petersburg, 197101, Russian Federation; Associate Professor

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Abstract. A parallel kinematics robot manipulator for dynamic manipulation tasks is developed and tested experimentally. Such systems are widely used in aviation and driving simulations, control automation, e. g. for quick sorting tasks. Advantages of robotic manipulators with parallel kinematics are their high speed and positioning accuracy when working in a limited workspace. Based on the described results, a Stewart robotic platform with two degrees of freedom equipped with a vision system was built. The system integration is implemented in MatLab/Simulink. A mathematical model of the system is presented. Two algorithms of output adaptive control are extended to the class of discrete systems are tested, comparative analysis of the algorithms is performed.
Keywords: adaptive control, robotics, manipulator, consecutive compensator, discrete systems, technical vision

  1. Lynch K.M. Nonprehensile Robotic Manipulation: Controllability and Planning, Pittsburgh, РА, The Robotics Inst., 1996, 222 p.
  2. Ming-Tzu Ho, Yusie Rizal, Li-Ming Chu Intern. Journal of Advanced Robotic Systems, 2013, vol. 10, art. 287.
  3. Cheng C.-C., Chou C.-C. Proc. of the 1st Intern. Symp. on Intelligent Computing Systems, Merida, Mexico, 2016, no. 597, рр. 97–107.
  4. Oravec M., Jadlovska A. Proc. of the 13th IEEE Intern. Symp. on Applied Machine Intelligence and Informatics, Herl’any, Slovakia, 2015, рp. 165–170.
  5. Bullinger E., Allgöwer F. European Control Conf., Karlsruhe, Germany, 1999.
  6. Gromov V.S., Vlasov S.M., Borisov O.I., Pyrkin A.A. Scientific and Technical Journal of Information Technologies, Mechanics and Optics, 2016, no. 4(16), рр. 749–752. (in Russ.)
  7. Shavetov S.V., Vedyakov A.A., Bobtsov A.A. Scientific and Technical Journal of Information Technologies, Mechanics and Optics, 2014, no. 2(90), рр.164–166. (in Russ.)
  8. Aphiratsakun N., Otaryan N. Proc. of the 13th Intern. Conf. on Electrical Engineering/Electronics, Computer, Telecommunications and Information Technology, Thailand, 2016.
  9. Mochizuki S., Ichibara H. I-PD Controller Design based on Generalized KYP Lemma for Ball and Plate System, Zurich, 2013.
  10.  Pyrkin A.A., Bobtsov A.A., Kolyubin S.A., Borisov O.I., Gromov V.S. Proc. of the 22nd Mediterranean Conf. on Control and Automation, 2014, рp. 1281–1286.
  11. Bobtsov A.A., Pyrkin A.A., Kolyubin S.A. Intern. Journal of Adaptive Control and Signal Processing, 2014, no. 7–8(28).
  12.  Borisov O.I., Gromov V.S., Pyrkin A.A., Bobtsov A.A., Nikolaev N.A. IFAC-PapersOnLine, 2016, no. 6(49).
  13. Nicosia S., Tornambe A. Syst. Control Lett., 1989, no. 13(4), рр.331–337.