Name: Prof. Ryspek Usubamatov
Educational Qualification: Ph.D, Engg., Diploma
Designation: Professor
Department: Faculty of Transport and Manufacturing Engineering, Kyrgyz State Technical University,
Kyrgyz State Technical University
Email: ryspek0701@gmail.com
Research Interests: Prof. Ryspek Usubamatov’s research interest includes Productivity Theory for Industrial Engineering, Optimization of machining processes and structural designs of manufacturing machines and systems by criterion of maximum productivity, Methodology of investigation of productivity and reliability for industrial machines and systems, Economic efficiency of manufacturing systems, CNC/CAD/CAM, Multi-axis Gear Machining on CNC Machining Centres, Gyroscope theory based on new fundamental principles, Mathematical models for gyroscope motions based on action of the centrifugal, common inertial and Coriolis forces generated by the mass elements of the spinning rotor as well as the change in the angular momentum, Wind turbine of high efficiency, Rotor type designs of internal combustion engines, Wind turbine of high efficiency and Rotor type designs of internal combustion engines.
Biography: Prof. Ryspek Usubamatov is designated as a professor at Faculty of Transport and Manufacturing Engineering, Kyrgyz State Technical University, Kyrgyzstan. From 2006 – 2016, he was associated with University Malaysia Perlis (UniMAP), Malaysia as Professor of Manufacturing Engineering School and the Faculty of Engineering Technology.
1. R. Usubamatov, Z.M. Zain, A.M. Ahmed, Productivity rate of machine tools depending on the change of machining modes, IMechE, B, 2011, August 2011 Vol. 225, No. 8 pp. 1447-1456
2. R. Usubamatov, A. Usubamatova, M.Z.A. Muin, Analysis of part jamming in a feeder of automatic machines, Assembly Automation Vol.: 31, No. 2, 2011, pp.130-136.
3. R. Usubamatov, Analysis of inertial forces acting on gyroscope precession, International review of aerospace engineering, Vol. 4, No. 2, 2011, p. 103-108.
4. R. Usubamatov, K.W. Leong, "Analyses of peg-hole jamming in automatic assembly machines", Assembly Automation, Vol. 31, No. 4, 2011, pp.358 - 362
5. R. Usubamatov, A. Y. Qasim, Z,. M. Zain, New vane type wind turbine of high efficiency, Journal of Science and Technology, Pertanika, 2012, pp.175-188.
6. R. Usubamatov, A.M.A. Alwaise, Z.M.Zain, "Productivity and optimization of section-based automated lines of parallel-serial structure with embedded buffers", International Journal of Advanced Manufacturing Technology, 2012, DOI 10.1007/s00170-012-4204-2.
7. R. Usubamatov, K.A.Ismail, J.M. Sah, “Mathematical models for productivity and availability of automated lines”, The International Journal of Advanced Manufacturing Technology: Volume 66, Issue 1 (2013), pp. 59-69.
8. R Usubamatov, S. A. Adam, A. Harun, ,"Analyzing the jamming of parts on the shaft in assembly processes”, Assembly Automation, 2012, Vol. 32 Iss: 4, pp. 340-346.
9. R. Usubamatov, A. Riza, M.N. Murad, A method for assessing productivity in unbuffered assembly line, Journal of manufacturing technology management, Vol. 24, No. 1-2, 2013, pp. 123-139, DOI. Org./ 10.1108/17410381311287526.
10. R. Usubamatov, A. B. Harun and A. B. Sanuddin, Optimisation of machining parameters by criterion of maximum productivity, International Journal of Production Research, Vol. 52, Issue 10, 2014, pp. 2946-2953, DOI: 10.1080/00207543.2013.857440.
11. R. Usubamatov, Z. A. Rashid, Gas Flow into Rotary Valve Intake and Exhaust Mechanism in Internal Combustion Engine, World Academy of Science, Engineering and Technology, International Journal of Mechanical, Industrial Science and Engineering Vol:7 No:4, 2013, pp. 86-91.
12. R. Usubamatov, Z. A. Rashid , Gas Flow into Rotary Valve Intake and Exhaust Mechanism in Internal Combustion Engine, SWISS Journal of Applied Science Vol 2, Issue 3 , 2013, pp. 30-42.
13. R. Usubamatov, T.C. Sin, Analysis of Productivity Attributes for Manufacturing Systems, SWISS Journal of Applied Sciences, Vol 2, Issue 3 , 2013, pp. 15-29.
14. R. Usubamatov, A. A. Alsalameh, R. Ahmad and A.R. Riza, Analysis of buffered assembly line productivity, Assembly Automation, Vol. 34/1, 2014, pp. 34–40 Emerald Group Publishing Limited [DOI 10.1108/AA-11-2012-086]
15. R. Usubamatov, T.C. Sin and M. F. B. Md. A.Hamzas. Productivity Theory for Industrial Automated Lines, ASME 2013 International Mechanical Engineering Congress and Exposition, Paper No. IMECE2013-62722, pp. V02BT02A036; 10 pages, Vol.2B: Advanced Manufacturing, San Diego, California, USA, November 15–21, 2013, doi:10.1115/IMECE2013-62722.
16. R. Usubamatov, K.A.Ismail, J.M.Sah, Analysis of Coriolis Acceleration, Journal of Advanced Science and Engineering Research, Vol. 4, No 1, 2014, pp. 1-8.
17. R. Usubamatov, and T. C. Sin, Mathematical Models for Productivity Rate of Automated Lines with Reliability Attributes of Mechanisms, Journal of Applied Mechanics and Materials Vol. 695 (2015) pp 521-525.
18. R. Usubamatov, N. Z. Yahaya, Double cutter face milling of spiral bevel gears, International Journal of Engineering Research and Technology, Vol. 3, Issue. 11, 2014, pp. Vol. 3, Issue. 11, 2015, pp. 8-14.
19. R. Usubamatov, Gyroscope Tests and New Effects, International Journal of Mining, Metallurgy & Mechanical Engineering (IJMMME), Vol. 3, Issue 1, 2015, pp. 1-5.
20. R. Usubamatov, Gyroscope’s Torques and Motions, International Journal of Advancements in Mechanical and Aeronautical Engineering, Volume 2, Issue 1, ISSN : 2372-4153, 2015, pp. 1-5.
21. R. Usubamatov, Physics of Gyroscope Motion bout One Axis, International Journal of Advancements in Mechanical and Aeronautical Engineering, Volume 2, Issue 1, ISSN : 2372-4153, 2015, pp. 55-60.
22. R. Usubamatov, Properties of Gyroscope Motion About One Axis, International Journal of Advancements in Mechanical and Aeronautical Engineering, Volume 2, Issue 1, ISSN : 2372-4153, 2015, pp.39-44.
23. R. Usubamatov, Mathematical model for gyroscope effects, AIP Conference Proceedings 1660, 050018 (2015); doi: 10.1063/1.4915651.
24. R. Usubamatov, Z.M. Zain, T.C. Sin, and S Kapaeva, Optimization of multi-tool machining processes with simultaneous action, The International Journal of Advanced Manufacturing Technology. 2015, DOI 10.1007/s00170-015-6920-x
25. R. Usubamatov and R. Bhuvenesh, Method of Assessing the Number of Technicians in Service of Manufacturing System, J. Manuf. Sci. Prod. 2015; aop, DOI 10.1515/jmsp-2015-0005
26. R. Usubamatov, T.C. Sin, R. Ahmad, "Mathematical models for productivity rate of automated lines with different failure rates for stations and mechanisms, The International Journal of Advanced Manufacturing Technology. 2016, 82, pp. 681–695, DOI 10, 007/s00170-015-7005-6
27. R. Usubamatov, Z.M. Zain, T.C. Sin, and S Kapaeva, Optimization of multi-tool machining processes with simultaneous action, The International Journal of Advanced Manufacturing Technology. 2016, 82: pp.1227–1239, DOI 10.1007/s00170-015-6920-x
28. R. Usubamatov & T. C. Sin & R. Ahmad, Mathematical models for the productivity rate of automated lines with different failure rates for stations and mechanisms, , The International Journal of Advanced Manufacturing Technology 2016, 82: pp. 681–695.
29. R. Usubamatov, Mathematical model for motions of gyroscope suspended from flexible cord, Cogent Engineering, 2016, 3; 1245901.
30. R. Usubamatov, Mathematical models for principles of gyroscope theory, American Institute of Physics, 1798, 020133 (2017); doi: 10.1063/1.4972725
31. R. Usubamatov, T. Sartov, A Mathematical Model for Productivity Rate of APSL
Segmented on Sections with Buffers of Limited Capacity, The International Journal of Advanced Manufacturing Technology, 2017, DOI 10.1007/s00170-017-0442-7
32. R. Usubamatov, New analytical approach for finding the gyroscope forces and its properties,
Asian Journal of Scientific Research, 10, 2017, pp: 380-386.
33. R. Usubamatov, Productivity Theory for Industrial Engineering, Robotics & Automation Engineering Journal, November 16, 2017, 1(4) MS.ID.555569, pp. 001-002.
34. R. Usubamatov, Mathematical Models for Inertial Forces Acting on a Spinning Sphere, International Journal of Scientific and Engineering Research, Vo. 8, Issue 12, December 2017.
35. R. Usubamatov, Mathematical models for gyroscope properties, Mathematics in engineering, science and aerospace, Vol.8, No.3, pp.359-371, 2017.
36. R. Usubamatov, Inertial Forces Acting on Gyroscope, Journal of Mechanical Science and Technology, 32 (1), 2018, pp. 101-108
37. R. Usubamatov and A. Omorova. A Mathematical Model for Top Nutation Based on Inertial Forces of Distributed Masses, Mathematical Problems in Engineering, vol. 2018, Article ID 6132891, 10 pages, 2018. doi:10.1155/2018/6132891.
Serial no:IIEBM0505