International Journal of Economic Behavior and Organization
Volume 5, Issue 6, December 2017, Pages: 149-161
Received: Dec. 27, 2017;
Published: Dec. 28, 2017
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Shi Guofu, School of Management and Economics, Dalian University of Technology, Dalian, China
Liu Xiaobing, School of Management and Economics, Dalian University of Technology, Dalian, China
Xu Yizhuang, Department of Audit, Dalian Shipbuilding Heavy Industry Co. Ltd., Dalian, China
Yao Nailong, No.1 Dock Assembly Department, Dalian Shipbuilding Heavy Industry Co. Ltd., Dalian, China
How to evaluate the level of the production efficiency and the changes of productivity is important for the shipyard improvement and survive. The efficiency of the shipyard is comprehensively affected by the managing, technical activities and product mix. The causes of inefficiency are hidden somewhere inside of the production system. From these points of view, the Efficiency Measurement Model of the general assembly shipbuilding production is developed based on the production system breakdown structures. By this model, the organization efficiency, activity efficiency and product efficiency can be measured by corresponding efficiency indicators reflecting the efficiency level or the productivity changes all over the production system. The empirical application shows this model is a suitable approach to analyze the efficiency of the general assembly shipbuilding production system in finding the inner causes of inefficiency and the proper measures to improve the production efficiency.
Measurement and Evaluation Model of Shipbuilding Production Efficiency, International Journal of Economic Behavior and Organization.
Vol. 5, No. 6,
2017, pp. 149-161.
Xu Miaomiao. 2017., Shipbuilding’s battle in cutting overcapacity. China ship survey, (2):11-14+108-109.
Li yan and He Canfei., 2014. Research progress in manufacturing industry productivity. Process in Geography, 33(3):390-410.
Tan Song and Cao Bo., 2016. How to lean from Japan and South Korea ship enterprise experience during the transformation of Chinese ship enterprises under “bear market 2.0”. China ship survey, (11):84-89.
Zhang Minghua., 2005. The study on lean shipbuilding system. Harbin Engineering University, 13-27.
Chen Qiang., 2001. Center shipbuilding model study and application. Haerbin Engineering University, 44-90.
Yu Fengping., 2010. Research on General Assembly Shipbuilding mode. Dalian university of technology, 30-115.
Manlis N. Kritikos., 2017. A full ranking methodology in data envelopment analysis based on a set of dummy decision making units. Expert system with applications, (77):211-225.
Lei Chen, Ying-Ming Wang and Fujun Lai., 2017. Semi-disposability of undesirable outputs in data envelopment analysis for environmental assessments. European journal of operational research, 260:655-664.
Jianfeng Ma, Linan Qi and Lizhi Deng., 2017. Efficiency measurement and decomposition in hybrid two-stage DEA with additional inputs. Expert system with applications, 79:348-357.
Chen C M and Zhu J., 2011. Efficient resource allocation via efficiency bootstraps: An application to R&D project budgeting. Operations Research, 59(3):729-741.
Vincent Charles and Fabien Cornillier., 2017. Value of the stochastic efficiency in data envelopment analysis. Expert system with applications, (81):349-357.
David Blazek and Robin C. Sickles., 2010. The impact of knowledge accumulation and geographical spillovers on productivity and efficiency: The case of U.S. shipbuilding during WWⅡ. Economic modeling, 1484-1497.
Zhang hao and Xu Xuanguo. Analysis and evaluation on management efficiency of shipbuilding enterprises based on the DEA. Journal of Systems & Management, 2007, 21(4):91-94.
Yue Na., 2011. The research of technical efficiency of China's shipbuilding Enterprises based on DEA. Dalian maritime university: 18-31.
Chen Yong, Su Kun and Tao Yonghong., 2011. Empirical research on shipping industrial efficiency in the Yangtze River delta region with Data Envelopment Analysis Method. Shipbuilding of China, 52(4):246-252.
Zhang Li, Xu Zhicheng and Liu Yiqing., 2011. Study on the production process optimization of small and medium shipyards based on the DEA method. Ship & ocean engineering, 40(3):73-76.
Ge Yongda and Zhang Hao, Su Xiang., 2012. Analysis of the Working Team Activity Responsibility cost for shipbuilding enterprise based on the DEA. Ship engineering, 34(2):70-73.
Jung-sun LEE., 2013. Directions for the Sustainable Development of Korean Small and Medium Sized Shipyards. The Asian journal of shipping and logistics, 29 (3):335-360.
Jing Wei and Jing Xuehuai., 2014. Assessment on Chinese shipping industrial efficiency based on super-efficiency DEA. Ship & boat, 5:49-55.
Jaehun Park, Dongha Lee and Joe Zhu., 2014. An integrated approach for ship block manufacturing process performance evaluation: Case form a Korean shipbuilding. International journal production Economics, (156):214-222.
Tao Yonghong, Zou jia and Su Kun., 2013. Shipbuilding performance based on the Sto NED methods within China, Korea and Japan. Journal of Jiangsu University of science and technology (Natural science edition), (01):86-93.
Zhou Chengyin, Huang Longlong and Xie Xin., 2014. Research of China shipbuilding development index. Shipbuilding technology, 132(7):8-10.
Qu Yuge., 2014. The productivity growth and convergence analysis on shipbuilding industry in China. Journal of Hebei University of economics and business, 35(3):116-120.
Timothy J Coelli, D S Prasada Rao, Christopher J. O Donnell and George E, Wang Zhongyu (translate)., 2008. An introduction to efficiency and productivity analysis. Beijing: Chinese Renmin University press, (2):72-80.
Bi Gongbing, Liang Liang and Yang Feng., 2010. DEA-efficiency evaluation model for simple network production. Systems Engineering-Theory & Practice, 30(3):496-500.
Liu Xisong and Li Yue., 2004. Application of activity-based costing in enterprise of our country. Logistics SCI TECH, 113(28):98-101.
Liu Huajun and Yang Qian., 2014. The Spatial Disparities and Influence Factors of China's Total Factor Productivity Growth under the Constraints of resource and Environment. Journal of Management Science, 27(5), 133-144.
Myung-IiRoh and Kyu-Yeul Lee., 2010. Optimal scheduling of block listing in consideration of the minimization of traveling distance while unloaded and wire and shackle replacement of a gantry crane. Journal of marine science technology, (15):190-200.
Seung-kyung Lee, Bongseok Kim, Minhoe Huh, Sungzoon Cho, Sungkyu Park and Daehyung Lee., 2013. Mining transportation logs for understanding the after-assembly block manufacturing process in the shipbuilding industry. Expert systems with applications, 40:83-95.
Zhang Jiachun., 2006. Study of shipbuilding cost Accounting & cost controlling based on the interim Productions. Nanjing: Nanjing university of Aeronautics and Astronautics, 21-50.
Yuan Peng., 2008. Evolvements of the Regional Disparity in Labor Productivity of Chinese Manufacturing. Journal of Management Science, 21(2), 94-104.