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References [1] Yu Wang, Baolin Liu, Qin Zhou, Yunabiao Hu, Guomin Li (2013): Design of a Sonic Drill Based on Virtual Prototype Technology, Transactions of the Canadian Society for Mechanical Engineering, Vol. 37, No. 2, pp. 185 - 196 [2] Lucon P.A. (2013), Resonance: The Science Behind the Art of Sonic Drilling, Dissertation, Montana State University 2013; pp. 224 [3] Bar-Cohen Y., Sherrit S., Dolgin B., Pal D., Peterson T., Kroh J., Krahe R. (2001): Ultrasonic/Sonic Drilling/ Coring (USDC) for In Situ Planetary Applications, Annual International Symposium on

REFERENCES Digital Control Incorporated 2013. DigiTrak F5 directional drilling locating system Operator’s Manual. EDGEFX2019. Automatic Bus Location Announcement System using Microcontroller and GPS, https://www.edgefx.in/gps-based-automatic-bus-location-announcement-system/ , access (10.10.2019). Figurski, M., Szołucha, M., Mielnik, P., Gałuszkiewicz, M., Wrona, M., Szymański, P. 2011. Wpływ zakłóceń na pomiary GPS; GPS kontra zagłuszanie , Geodeta: magazyn informacyjny, 1, 46-51. Gonçalves, A., Soares M., et all,2015. Navigation systems in hdd - a case

YC, Hsiao CK, Ciou JS, Tsai YJ, Tu YK. Effects of implant drilling parameters for pilot and twist drills on temperature rise in bone analog and alveolar bones. Med Eng Phys, 2016;38:1314-1321. 8. Pandey RK, Panda SS. Drilling of bone: A comprehensive review. J Clin Orthop Trauma, 2013;4:15-30. 9. Augustin G, Zigman T, Davila S, Toma Udilljak T, Staroveski T, Brezak D et al. Cortical bone drilling and thermal osteonecrosis. J Clin Biomech, 2012;27:313-325. 10. Noble B. Bone microdamage and cell apoptosis. Eur Cell Mater, 2003;6:46-56. 11. Anitua E, Alkhraisat MH

References [1] Khochman, L, Hadjadj, A.E., “New Méthodologie Sélection of Shilling Machines”, Arian Journal of Information Technologie , 5 (12), pp. 1310-1312, 2006. [2] Mehennaoui, S., Khochemane, L., “Optimization of setting parameters of a rotary drilling rig using Sim Hydraulics Toolbox”, J. Contemporary Engineering Sciences , vol.8, no.3, pp. 115-120, 2015. [3] Derdour, F. Z., Kezza, M., “The optimization of the operation parameters of a rotary percussion shilling machine using the Taguchi methods”, World Journal of Engineering , vol. 15, lssue 1, pp.62

simple and efficient algorithm for the static and dynamic analysis of flexible marine risers. – Computers and Structures, vol.29, No.4, pp.541-555. Gulyayev V.I. and Borshch O.I. (2011): Free vibrations of drill strings in hyper deep vertical bore-wells . – Journal of Petroleum Sciences and Engineering, vol.78, pp.759-764. Gulyayev V.I., Gaidaichuk V.V., Solovjov I.L. and Gorbunovich I.V. (2009): The buckling of elongated rotating drill strings . – Journal of Petroleum Sciences and Engineering, vol.67, pp.140-148. Kaewunruen S., Chiravatchradej J. and Chucheepsakul

Resources Management, 24(1), 139-152. Kwasniewski, J., Kravtsov, Y., Dominik, I., Dorobczynski, L., Lalik, K. (2013). Self-Excited Acoustical System for Stress Measurement in Mass Rocks. Journal of Low-Frequency Noise, Vibration and Active Control, 32(1-2), 133-144. Mendyka, P., Kotwica, K., Stopka, G., Gospodarczyk, P., Bołoz, Ł. (2016). The design and analysis of drilling and bolting rigs for narrow vein exploitation. International Multidisciplinary Scientific GeoConference: SGEM: Surveying Geology & Mining Ecology Management, 2, 881-888. Mendyka, P., Kotwica, K

REFERENCES Bołoz Ł., Leonel F. Castañeda: Computer-aided support for the rapid creation of parametric models of milling units for longwall shearers, Management Systems in Production Engineering, 26(4), pp. 193-199. Gospodarczyk P, Kotwica K., Mendyka P., Stopka G., Bołoz Ł.: The design and analisys of drilling and bolting rigs for narrow vein exploitation, “ Exploration and mining, mineral processing. International Multidisciplinary Scientific GeoConference SGEM, vol. 2” Sofia 2016, p. 881-888 Feliks J.: Badania i modelowanie wibracyjnych grudkowników rynnowych

-15. Rosentrater K.A., Otieno A.W., Melampati P.: Determining machining parameters of corn byproduct filled plastics. Intl. J. Mod. Engr. 9(1) (2008), 13-18. Bhadra R., Muthukumarappan K., Rosentrater K.A.: Characterization of chemical and physical properties of distillers dried grain with solubles (DDGS) for value added uses. ASABE Annual International Meeting, Minneapolis, Minnesota, 2007. Shanafield J.W.: Drilling Studies on Compression-molded, DDGS-filled Phenolic Tiles, Master's Thesis, Northern Illinois University, DeKalb, 2011. Lokensgard E.: Industrial Plastics: Theory

References [1] Buza G.: Lézersugaras technológiák II . Edutus Főiskola, Budapest, 2012. 79. [2] Kurosawa M.: Laser drilling high-density printed circuit boards . (accessed on: 2019. 05. 28.) https://www.industrial-lasers.com/drilling/article/16485325/laser-drilling-highdensityprinted-circuit-boards [3] Xiaodong N.: Laser Welding. Published by Sciyo Janeza Trdine 9, 51000 Rijeka, Croatia, 2010. 54. [4] Meszlényi Gy., Bitay E.: Az egyimpulzusos lézersugaras fúrás folyamatának elemzése . Bányászati és kohászati lapok, Kohászat, 151/5–6. (2018) 40–44. [5

References 1. Moldovan F, Bățagă T. Optimization of surgical bone drilling processes in repairing complete bone fractures. Acata Medica Marisiensis. 2019;65(1):30. 2. Hosseini-Suny K, Momeni H, Janabi-Sharifi F. A Modified adaptive controller design for teleoperation systems. Robotics and Autonomous Systems. 2010;58:676–683. 3. Unger B, Sepehri N, Rampersad V, Pisa J, Gousseau M, Hochman JB. Elements of virtual temporal bone surgery: Manipulandum format may be more important to surgeons than haptic device force capabilities. Laryngoscope Investig Otolaryngol