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An Chen,Yannan Wu,Ning Chen 위기관리 이론과 실천 2012 Journal of Safety and Crisis Management Vol.2 No.2
Mechanism design theory (MDT) which gained Nobel Prize in 2007 provides a formal way to mechanism design in Economics. It not only emphasizes on the phenomenon of modern economics, also gives an idea on the engineering side of economic theory, in particular, the implications for economic policy making. Despite the success of MDT in economics, it is difficultly migrated to management field. In managerial practices, especially emergent situation, people cannot make free choice and voluntary exchange due to the fact that some policies are sing-directed or half-compulsory. While the managerial mechanism is actively investigated for specific usages, a less studied issue is to study the unified framework of managerial mechanism which is of major importance to managers. This paper aims to provide a unified framework of managerial mechanism with an attempt to provide some insights into the fundamental of managerial mechanism design. Firstly, we discuss the difference between economical and managerial mechanism design from the perspectives of background, basic hypothesis, and weak obligation characteristic. Afterwards, we propose a unified framework of managerial mechanism design theory, composed of an order seven-tuple and some fundamental design modes. Lastly, we give a case study to show the applicability of the proposed mechanism design theory in emergency management.
Improved Model Predictive Control for H-bridge Cascaded STATCOM
Xu Rong,Yu Yong,Wu Jian,Yang Rongfeng,Xu Dianguo,Chen He,Yu Yannan,Ni Ronggang 전력전자학회 2015 ICPE(ISPE)논문집 Vol.2015 No.6
H-bridge cascaded static synchronous compensator (STATCOM) is often used to compensate the harmonic and reactive current derived from non-linear load. In order to improve the performance of STATCOM, an improved model predictive control (MPC) method is put forward in this paper. In the proposed MPC, the difference equations which are derived from the transfer functions of controlling variables and controlled variables in STATCOM are used as the predictive control model, the error between the output of STATCOM and predictive model is used to design feedback correction controller and rolling optimization controller. Meanwhile, the introduced repetitive controller is used to eliminate the inherent steady error. The actual H-bridge cascaded STATCOM is constructed and a series of verification tests are executed. The experimental results prove that the output voltage and current of H-bridge cascaded STATCOM with the proposed MPC have smaller distortion and better sinusoidal shape than those of the traditional Proportion Integral (PI) control. Moreover, the performance of H-bridge cascaded STATCOM is great in high power experiment.