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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 697Model and Simulation of the Quality Control System

Model and Simulation of the Quality Control System

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Abstract:

This paper analyses the quality study based on the whole life cycle actions of the product by transformation of the Technology Readiness Level (TRL) and Project Progress by Fourier ,and designs the quality control system used by PID controller which simulated by Matlab software. Results show that the model is stable and accords with real situation, the outputs of quality control system and PID controller meet monotonically nondecreasing property and deviation convergents.

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Periodical:

Applied Mechanics and Materials (Volume 697)

Pages:

488-492

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.697.488

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Online since:

November 2014

Authors:

Guo Cai Liu*, Hong Xun Pang, Xin Feng Xu

Keywords:

PID Control, Quality Control System, Simulation

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© 2015 Trans Tech Publications Ltd. All Rights Reserved

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[1] Simon, Leslie. Quality control and the war. Electrical engineering, 1942, Vol. 61, No. 9: 449-452.

[2] W.A. Shewhart. Economic control of quality of manufactured product. (1931).

[3] Shu Shi, Lu Li-bin, Zhu Hong-chang. The quality control model of satellite product assurance system. Systems Engineering-Theory & Practice, 2001, No: 88-95.

[4] Shu Shi, Lu Li-bin, Zhu Hong-chang. Quality Control Objective Function of Satellite Product Assurance System. Journal of Industrial Engineering and Engineering Management, 2000, Vol. 14, No. 2: 14-17.

[5] Shu Shi, Lu Li-bin, Zhu Hong-chang. The model of fuzzy comprehensive evaluation of satellite product assurance system. Aerospace Shanhhai, 2000, No 3: 9-13.

[6] Shu Shi, Lu Li-bin, Zhu Hong-chang. The neural networks model of satellite quality assurance system. Aerospace Shanhhai, 2001, No 1: 22-26.

[7] Zhao Jian-jie, Wang Da-ke, Li Kai. Nonlinear Feature Extraction in Modeling of quality prediction and fault diagnosis. Journal of northeastern university natural science, 2012, Vol. 33, No. 6: 793-796.

[8] Wan Bai-wu. Product quality model and quality control model for industries and their applications. Acta automatic sinica, 2002, Vol. 28, No. 6: 1019-1024.

[9] Li Huan-qin, Wan Bai-wu. Application of modular wavelet neural networks in industries product quality control. Control and decision, 2004, Vol. 19, No. 3: 295-298.

[10] Li Huan-qin, Wan Bai-wu. A wavelet neural network model for industrial product quality based on filled function algorithm. Acta automatic sinica, 2004, Vol. 30, No. 2: 283-287.

[11] Sai Yun-xiu. The study of project control and coordination. Beijing: Science Press, (2011).

[12] Zhang Jin-suo. Engineering project management . Beijing: Science Press, (2000).

[13] Liu Xing-tang, Wu Xiao-yan. Modeling and simulation technology of modernsystem. Xi'an: Northwestern Polytechnical University press, (2001).

[14] Liu Guo-cai, Wang Li-li, Zhang Zhi-meng. Product assurance in aerospace engineering in decomposition. The 10th National lunar science and Comparative Planetologymeteoritics and celestial Chemistry Symposium, 2012: 187-191.

[15] Gregory F. Dubos, Joseph H. Saleh, Robert Braun. Technology readiness level, schedule risk and slippage in spacecraft design: data analysis and modeling. AIAA SPACE 2007 conference & exposition 18-20 September 2007, Long Beach, California.

DOI: 10.2514/6.2007-6020

[16] Tze-San Lee, L. Dale Thomas. Cost growth models for nasa's programs: a summary. Journal of probability and statistical science, 2003, Vol. 1: 265-279.

[17] Bu Guang-zhi. An approach to technology readiness assessment of armament system of systems. Systems Engineering-Theory & Practice, 2011, Vol. 31, No. 2000: 1994-52.

[18] Ding Ru, He Jian-bin, Peng Hao. Technology Readiness Assessment Method for Large-scale Weapon System. Journal of Academy of Armored Force Engineering, 2011, Vol. 25, No. 4: 19-21.

[19] Yu Kun-yan, Xiong Ming, Liu Sheng-biao. Application of Technology Maturity in Military Vehicle Equipment Project of US Army and Its Enlightenment. Journal of Academy of Military Transportation, 2012, Vol. 14, No. 4: 80-84.

[20] Liu Xu-rong, Hou Yan, Ai Ke-wu. Study on the US and UK assessment of technology maturity of weapon equipment. Journal of the Academy of Equipment Command & Technology, 2005, Vol. 16, No. 6: 48-52.