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공남웅(NamWoong Kong),박인석(In Seok Park),김민수(Min Su Kim),최용준(Yong-Joon Choi),박부견(Poogyeon Park),윤종필(Jong Pil Yun) 대한전자공학회 2018 대한전자공학회 학술대회 Vol.2018 No.6
In order to develop the precise camber simulator, it is necessary to predict the value of roll force. Thus, this paper considers the problem of prediction of the roll force in hot rolling mill process via deep nerual network. The neural network is constructed as 4 hidden layers. The training data is obtained from the real hot rolling mill process: 20832 samples. Since, in general, the simulator and controller are designed by using MATLAB, the artificial neural network model is designed by using MATLAB.
몰드 오실레이터 이중구조 실린더의 정현파 진동 특성을 이용한 위치동기화 알고리즘 개발
김승훈,최두철,공남웅,김상우,Kim, Seung Hun,Choi, Doo Chul,Kong, NamWoong,Kim, Sang Woo 제어로봇시스템학회 2015 제어·로봇·시스템학회 논문지 Vol.21 No.8
Improvement in the control strategy for continuous casting is a crucial requirement to enhance the slab's quality and to increase productivity. The mold oscillator adopts the dual cylinders due to its heavy weight, so the synchronized motion of two cylinders is an important aspect when precise control is needed. The conventional method uses the master-slave control applied to the valve input reference, but the synchronization performance should still be improved. This paper proposes a novel synchronization algorithm for dual cylinders used in a mold oscillator. The master-slave concept is applied to the target reference position, that is, the slave target reference position is controlled to match the slave cylinder's position with the master cylinder's position. In the simulation based on a Simulink model, the proposed algorithm shows a better synchronization performance in aspect of the mean of the absolute error and the peak synchronization error.
몰드 오실레이터 이중구조 실린더의 정현파 진동 특성을 이용한 위치동기화 알고리즘 개발
김승훈(Seung Hun Kim),최두철(Doo Chul Choi),공남웅(NamWoong Kong),김상우(Sang Woo Kim) 제어로봇시스템학회 2015 제어·로봇·시스템학회 논문지 Vol.18 No.1
Improvement in the control strategy for continuous casting is a crucial requirement to enhance the slab’s quality and to increase productivity. The mold oscillator adopts the dual cylinders due to its heavy weight, so the synchronized motion of two cylinders is an important aspect when precise control is needed. The conventional method uses the master-slave control applied to the valve input reference, but the synchronization performance should still be improved. This paper proposes a novel synchronization algorithm for dual cylinders used in a mold oscillator. The master-slave concept is applied to the target reference position, that is, the slave target reference position is controlled to match the slave cylinder’s position with the master cylinder’s position. In the simulation based on a Simulink model, the proposed algorithm shows a better synchronization performance in aspect of the mean of the absolute error and the peak synchronization error.