Acta Scientific Computer Sciences

Short Communication Volume 3 Issue 8

Fundamental Principles of Productivity Theory for Industrial Engineering

Ryspek Usubamatov*

Kyrgyz State Technical University After I. Razzakov, Bishkek, Kyrgyzstan

*Corresponding Author: Ryspek Usubamatov, Kyrgyz State Technical University After I. Razzakov, Bishkek, Kyrgyzstan.

Received: June 17, 2021; Published: July 19, 2021

More than 300 years scientist, researchers, and engineers are solving the problems how to increase the labor productivity, productivity of economic system, and quality of the products fabricated. Analysis of known publications demonstrate the partial and simplified solutions of industrial problems. It can be explained by the complexity of the problem that based on principles of different physical nature of production process that should be formulated by the complex and holistic mathematical expressions. Contemporary production processes are based on technology, production machine deign and system that present the conglomerate of mechanical, electrical, and electronic units, reliability of them, system of maintaining, management, ergonomics, etc. Each of them today is defined and computed by own theories which combining in one holistic theory was problematic for the long time [1,2]. All these diversities of machines and systems with different designs are solving the pivoted problems of economics to increase the productivity rate of manufacturing processes with high-quality products and to increase labor productivity of economic system [3,4].


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  2. Groover M P. “Fundamentals of Modern Manufacturing: Materials, Processes, and Systems”. 5th ed, John Wiley and Sons (2013).
  3. Kalpakjian S and Schmid SR. “Manufacturing Engineering and Technology”. 7th ed. Pearson: Cambridge; UK (2013).
  4. Koenig DT. “Manufacturing Engineering: Principles for Optimization”. 3rd ed. ASME (2007): 1-30.
  5. Mehta BR and Reddy JY. “Industrial Process Automation Systems”. Butterworth-Heinemann. 1st ed. Elsevier: USA (2014).
  6. Rao RV. “Advanced Modelling and Optimization of Manufacturing Processes”. 1st ed. Springer Series in Advanced Manufacturing (2011).
  7. Schey J. “Introduction to Manufacturing Processes”. 3 ed. McGraw Hill Education. New York: USA (2012).
  8. Thompson R. “Manufacturing Processes for Design Professionals”. Thames and Hudson. London; UK (2007).
  9. Usubamatov R. “Productivity theory for industrial engineering”. Tylor and Francis. New York; London (2018).


Citation: Ryspek Usubamatov. “Fundamental Principles of Productivity Theory for Industrial Engineering". Acta Scientific Computer Sciences 3.8 (2021): 36-37.


Copyright: © 2021 Ryspek Usubamatov. This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.


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