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Research on Modularized Design and Allocation of Infectious Disease Prevention and Control Equipment in China

Published online by Cambridge University Press:  15 November 2016

Xin Zhao
Affiliation:
Institute of Medical Equipment, Academy of Military Medical Sciences, Tianjin, China
Yun-dou Wang*
Affiliation:
Institute of Medical Equipment, Academy of Military Medical Sciences, Tianjin, China
Xiao-feng Zhang
Affiliation:
Institute of Medical Equipment, Academy of Military Medical Sciences, Tianjin, China
Shu-tian Gao
Affiliation:
Institute of Medical Equipment, Academy of Military Medical Sciences, Tianjin, China
Li-jun Guo
Affiliation:
Institute of Medical Equipment, Academy of Military Medical Sciences, Tianjin, China
Li-na Sun
Affiliation:
School of Foreign Languages, China University of Petroleum, Beijing, China.
*
Correspondence and reprint requests to Professor Yundou Wang, Institute of Medical Equipment, 106 Wandong Road, Tianjin, China 300171 (e-mail: 13312039963@126.com).

Abstract

For the prevention and control of newly emergent or sudden infectious diseases, we built an on-site, modularized prevention and control system and tested the equipment by using the clustering analysis method. On the basis of this system, we propose a modular equipment allocation method and 4 applications of this method for different types of infectious disease prevention and control. This will help to improve the efficiency and productivity of anti-epidemic emergency forces and will provide strong technical support for implementing more universal and serialized equipment in China. (Disaster Med Public Health Preparedness. 2017;11:375–382)

Type
Concepts in Disaster Medicine
Copyright
Copyright © Society for Disaster Medicine and Public Health, Inc. 2016 

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References

1. Herbert, A. Simon, the architecture of complexity. Proc Am Philos Soc. 1962;106(6):467-482.Google Scholar
2. Baldwin, CY, Clark, KB. Managing in an age of modularity. Harv Bus Rev . 1997;75(5):84-93.Google Scholar
3. ORANDO Systems Inc. Mobile Medical, Biological, DVI, Clinical, CSR and Analytical Laboratories with Biosafety Level 1, 2 and 2 for Hi-Risk Viruses, like A-H1N1 Swine Flu, H5N1 AVIAN Flu/Bird Flu and other Agents. http://www.orlando-systems.com/romania.html. Published May 2005. Accessed October 15, 2012.Google Scholar
4. Pierce Manufacturing, Inc. Mount an effective, sustained response to bio-agents. http://www.vitalprobes.com/docs/MMTL_brochure.pdf. Published November 2005. Accessed October 15, 2012.Google Scholar
5. Hall, AD. Three-dimensional morphology of system engineering. IEEE Transactions of Systems Science and Cybernetics. 1969;5(2):156-160.CrossRefGoogle Scholar
6. China CDC. Advice notice of “The Work Specification of National CDC Response to Public Health Emergency (Draft)” [in Chinese]. http://www.chinacdc.cn/n272442/n272530/n3479265/n3479308/20389.html. Published November 22, 2007. Accessed December 7, 2012.Google Scholar
7. Zhang, Y, Gong, L. Principle and Technology of Data Mining. Beijing: Publishing House of Electronics Industry; 2004.Google Scholar
8. Baldwin, CY, Clark, KB. Design Rules: The Power of Modularity. Cambridge, MA: The MIT Press; 2000.CrossRefGoogle Scholar
9. China Infectious Disease Control Law [in Chinese]. http://www.gov.cn/ziliao/flfg/2005-08/05/content_20946.htm. Published December 1, 2004. Last updated August 5, 2005.Google Scholar