The Method of High Accuracy Calculation of Robot Trajectory for the Complex Curves

[1] J. Stillwell. Mathematics and its History. Springer-Verlag, New York. 2010.10.1007/978-1-4419-6053-5 Search in Google Scholar

[2] Ryaben’kii, V., Tsynkov, S.: A Theoretical Introduction to Numerical Analysis. CRC Press, (2006).10.1201/9781420011166 Search in Google Scholar

[3] Trefethen, L. N.: Approximation Theory and Approximation Practice (Applied Mathematics). Society for Industrial and Applied Mathematics Philadelphia, PA, (2012). Search in Google Scholar

[4] Iske. A.: Approximation Theory and Algorithms for Data Analysis (Texts in Applied Mathematics). Springer, New York, (2018). Search in Google Scholar

[5] Powell. M.; Approximation Theory and Methods. Cambridge. CUP, (2015). Search in Google Scholar

[6] Anastassiou, G. A., Kester, M.: Discrete Approximation Theory. WSPC, (2016).10.1142/10175 Search in Google Scholar

[7] Duong, X. T., Li, J., Song, L., Yan, L.: Frame decomposition and radial maximal semigroup characterization of Hardy spaces associated to operators, Journal of Approximation Theory, 243, pp. 45-85, (2019). Search in Google Scholar

[8] O. Ciaurri, et all. “Apostol-Euler-Dunkl polynomials with applications to series involving zeros of Bessel functions”. Journal of Approximation Theory, vol. 235, 2018, pp. 20-45.10.1016/j.jat.2018.06.001 Search in Google Scholar

[9] K. Schiefermayr. “The growth of polynomials outside of a compact set-The Bernstein-Walsh inequality revisited”. Journal of Approximation Theory, vol. 223, 2017, pp. 9-18.10.1016/j.jat.2017.07.007 Search in Google Scholar

[10] F. E. Cobos, et all. “Approximation and Entropy Numbers of Embeddings Between Approximation Spaces”. Constructive Approximation, vol. 47(3), 2018 pp. 453-486.10.1007/s00365-017-9383-5 Search in Google Scholar

[11] MX. Yuan, Z. Chen, B. Yao, XC. Zhu. “Time Optimal Contouring Control of Industrial Biaxial Gantry: A Highly Efficient Analytical Solution of Trajectory Planning”. In Proc. of the IEEEASME Transactions On Mechatronics, 2017, pp. 247-257.10.1109/TMECH.2016.2592518 Search in Google Scholar

[12] M. Baranov, P. Bozek, V. Prajova, T. Ivanova, D. Novokshonov, A. Korshunov. “Constructing and calculating of multistage sucker rod string according to reduced stress.:” Acta Montanistica Slovaca, vol. 22, pp. 107-115, Feb. 2017. Search in Google Scholar

[13] T. Vopat, J. Peterka, V. Šimna. “The influence of different types of copy milling on the surface roughness and tool life of end mills.”25^th DAAAM international symposium on intelligent manufacturing and automation, 2014. Procedia engineering, vol 100, pp. 868-876, 2015.10.1016/j.proeng.2015.01.443 Search in Google Scholar

[14] J. Peterka. “A new approach to calculating the arithmetical mean deviation of a profile during copy milling.” Strojniskivestnik-journal of mechanical engineering2004. vol 50, pp. 594-597, Dec. 2004.10.1017/S0028688504000335 Search in Google Scholar

[15] K. Sentyakov, J. Peterka, V. Smirnov, P. Bozek and V. Sviatskii. “Modeling of boring mandrel working proces with vibration damper.” Materials, 13, pp. 1-13, Apr. 202010.3390/ma13081931721603232325969 Search in Google Scholar

[16] S. Vaclav, J. Peterka, P. Pokorny, P. “Objective method for assembly.” in Annals of DAAAM for 2007 & Proceeding of the 18^th Inter. DAAAM Symp.: Intelligent Manufacturing & Automation: Focus on Creativity, Responsibility, and Ethics of Engineering, 2007, pp. 797-798. Search in Google Scholar

[17] S. Vaclav, J. Jurko, S. Lecky. “Allowance treatment static designed couple and repeatable precision in assembly.” in MTEM, 2017, vol. 137, Art. Numb. UNSP 04007.10.1051/matecconf/201713704007 Search in Google Scholar

[18] M. Nemeth, A. Nemethova and G. Michalconok. “Determination Issues of Data Mining Process of Failures in the Production Systems.” in 8^th Comp. Scien. On-Line Conf. (CSOC). Artificial Intelligence Methods in Intelligent Algorithms Book Series: Advance in Intelligent Systems and Computing. 2019, vol. 985, pp. 200-207. Search in Google Scholar

[19] A. Nemethova, M. Nemeth, G. Michalconok and A. Bohm. “Identification of KDD Problems from Medical Data.” in 8^th Computer Science On-Line Conference (CSOC). Artificial Intelligence Methods in Intelligent Algorithms Book Series: Advance in Intelligent Systems and Computing. 2019, vol. 985, pp. 191-19910.1007/978-3-030-19810-7_19 Search in Google Scholar

[20] T. Martinec, J. Mlýnek, M. Petru. “Calculation of the robot trajectory for the optimum directional orientation of fibre placement in the manufacture of composite profile frames.” Rob. And Comp-Integr. Man., vol. 35, pp. 42-54, Oct. 2015.10.1016/j.rcim.2015.02.004 Search in Google Scholar

[21] Zhang Zhiyong, He Dongjian, Tang Jing Lei, Meng Lingshuai. “Picking Robot Arm Trajectory Planning Method.” Sensors & Transducers, vol. 162, pp. 11-20, Jan. 2014. Search in Google Scholar

[22] B. Siciliano et al. Robotics (Modeling, planning and control), Springer, Berlin, 2009, chapter 4: Trajectory planning, pp. 161-189. Search in Google Scholar

[23] A. Gaspareto, P. Boscariol, A. Lanzutti, R. Vidoni. “Trajectory Planning in Robotics.” Math. Comput. Sci, vol. 6, pp. 269-279, Aug. 2012.10.1007/s11786-012-0123-8 Search in Google Scholar

[24] R. Benotsman, S. E. Kacemi, M. Redhabennachenhou. “Calculation methodology for trajectory planning of a 6-axis manipulator arm.” in Annals of faculty engineering Hunedoara – Inter. Journal of Eengin. Tome xvi, vol. XVI, pp. 27-32, Aug. 2018. Search in Google Scholar

[25] P. Bozek, P. Pokorny, J. Svetik, A. Lozhkin, I. Arkhipov. “The calculations of Jordan curves trajectory of robot movement.” IJARS, vol. 7, doi:10.11.77/1729881416663665, 2016. Search in Google Scholar

[26] P. Bozek, Z. Ivandic and others. “Solutions to the characteristic equation for industrial robot’s elliptic trajectories.” Tehniheski vjesnik - Technical Gazette, vol. 23, pp. 1017-1023, 2016. Search in Google Scholar

[27] K. Joonyoung. “Trajectory Generation of a Two-Wheeled Mobile Robot in an Uncertain Environment.” in IEEE Trans. on indust. electronics, 2020, vol. 67/7, pp. 5586-5594.10.1109/TIE.2019.2931506 Search in Google Scholar

[28] M. Bottin, G. Rosati.“Trajectory Optimization of a Redundant Serial Robot Using Cartesian via Points and Kinematic Decoupling.” in Robotics, vol. 8/4, Art. N. 101, 2019.10.3390/robotics8040101 Search in Google Scholar

[29] N. Efimov. Quadratic forms and matrices. Fizmatlit, Moscow, 2012. Search in Google Scholar

[30] A. Lozhkin. Applied planemetry with singular transformations. IE UrO RAS, Ekaterinburg, 2009. Search in Google Scholar

[31] A. Lozhkin, A., N. Dyukina. Structurization of analytical geometry on the base of symmetries. LAP, Saarbruken, 2012. Search in Google Scholar

[32] F. Cao, J.L. Lisaniandothers. A theory of shape identification.Springer, Berlin Heidelberg, 2008. Search in Google Scholar

[33] P. Božek, A. Lozhkin, A. Gorbushin. “Geometrical Method for Increasing Precision of Machine Building Parts” In Proc. Procedia Engineering. vol. 149, 2016, pp 576-58010.1016/j.proeng.2016.06.708 Search in Google Scholar

[34] M. Beno, M. Zvoncan, M. Kovac, J. Peterka. “Circular interpolation and positioning accuracy deviation measurement on five axis machine tools with different structures.” Tehnicki vjesnik-technical gazette, vol20, pp. 479-484, Jun 2013. Search in Google Scholar

[35] J. Peterka, P. Pokorny, S. Vaclav. “CAM strategies and surface accuracy.” in Annals of DAAAM and Proc. of the Intern. DAAAM Symp. 2008. Annals of DAAAM for 2008 and 19^th Intern. DAAAM Symposium, Intelligent Manufacturing and Automation: Focus on Next Generation of Intelligent Systems and Solutions, Trnava, 2008, pp.1061-1062. Search in Google Scholar

[36] M. Kovac, J. Peterka. “Selected 5-axis Strategies for High-speed milling of Thin-walled Parts.” Applied Mechanics and Materials. Vol. 467, pp. 466-469, Dec. 2013.10.4028/www.scientific.net/AMM.467.466 Search in Google Scholar

[37] P.S. Aleksandrov. Lectures on analytical geometry, supplemented by the necessary information from the algebra. Ripol-classic, Moscow, 2002. Search in Google Scholar

[38] C.G. Gibson. Elementary geometry of differentiable curves: an undergraduate introduction. Cambridge, CUP, 2001.10.1017/CBO9781139173377 Search in Google Scholar

[39] A.A. Savelov. Plane curves. Systematics, properties, applications: reference manual. Editorial URSS, Moscow, 2010. Search in Google Scholar

[40] J. Hrbcek, P. Bozek and others. “Control system for the haptic paddle used in mobile robotics.“ IJARS, vol. 14, doi.org/10.1177/1729881417737039, 2017. Search in Google Scholar

[41] R. Pirnik, M. Hruboš and others. “Integration of inertial sensor data into control of the mobile platform.“ in Advances in Intelligent and Soft Computing, SDOT 2015, vol. 511, pp. 271-282.10.1007/978-3-319-46535-7_21 Search in Google Scholar

[42] E. Pivarciova, P. Božek and others. “Analysis of control and correction options of mobile robot trajectory by an inertial navigation system”. IJARS, vol. 15, pp. 1-15, 2018.10.1177/1729881418755165 Search in Google Scholar

[43] M. Nemeth, G. Michalconok and A. Peterkova. “The analysis of emerging failures of process control systems based on data mining.” in INES 2017 – IEEE 21st Int. Conf. on Intelligent Engineering Systems, Proceedings, 2017, pp. 55-59.10.1109/INES.2017.8118528 Search in Google Scholar

[44] W. Puchala, W. Bialy, G. Bobkowski. “Possible Applications of Computer Maintenance Management Systems.” in Scientific Journals of the Maritime University of Szczecin – Zeszyty Naukowe Akademii Morskiej w Szczecinie. 2009, vol. 19, pp. 10-15. Search in Google Scholar

[45] P. Bozek. Robot path optimization for spot welding applications in automotive industry. Tehnički Vjesnik - Technical Gazette. Vol. 20, No. 5, pp. 913-917, 2013. Search in Google Scholar

[46] A. Nemethova, D. Borkin and G. Michalconok. “Comparison of Methods for Time Series Data Analysis for Further Use of Machine Learning Algorithms.” in Proceed. of the Comput. Methods in Syst. and Soft. Springer, Cham, 2019, pp. 90-99.10.1007/978-3-030-31362-3_10 Search in Google Scholar

[47] R. Urban, M. Štroner, T. Křemen, J. Braunand, M. Möser, M. A novel approach to estimate systematic and random error of terrain derived from UAVs: a case study from a post-mining site Acta Montanistica Slovaca Volume 23 Issue 3 pp. 325-336, 2018. Search in Google Scholar

[48] M. Stroner, T. Kremen, J. Braun, R. Urban, P. Blistan, L. Kovanic. Comparison of 2.5D Volume Calculation Methods and Software Solutions Using Point Clouds Scanned Before and After Mining, Acta Montanistica Slovaca, Volume 24, Issue 4, 2019, pp. 296-306. Search in Google Scholar