Conference - Do-Hyun Chun, Myung-Il Roh, Hye-Won Lee, Seung-Ho Ham, "A Block Lifting Method with Wire Ropes Based on Deep Reinforcement Learning", Proceedings of ICDM 2022, Si-Heung, Korea, 2022.04.28-29

Extra Form
Abstract	The block erection using a gantry crane is an important process for the production of the ships in a shipyard. The motion of the block should be controlled accurately under the external forces to prevent collision with the structures and the excessive loads on wire ropes. However, it is difficult to control the block during the lifting because the movement of the block is indirectly controlled with various objects such as trolleys, hooks, equalizers, and wire ropes. Therefore, we proposed the Deep Reinforcement Learning (DRL)-based block lifting method in this study. The DRL-based block lifting method can control the block under the change of the center of gravity and modelling uncertainty. Furthermore, the DRL-based block lifting method can provide robust control with an unexpected motion of the block due to the unexpected external disturbance. The position, orientation and angular velocity of the block and hoisting speed of wire ropes were set as the input state of the neural network of DRL. The hosting speed of wire ropes was controlled as the output action of DRL. The functions to minimize the change of orientation and to stabilize the speed of the block were set as the reward of DRL. In this study, the deep deterministic policy gradient (DDPG) method of DRL, which is a kind of off-policy actor-critic method, was applied to solve the problem with continuous state space and continuous multi-action space. To verify the DRL-based block lifting method proposed in this study, it was compared with traditional control algorithms for various simulation examples. As a result, the proposed method could effectively control the block with the modelling uncertainty. Also, the proposed method could respond to the unexpected motion of the block effectively due to the unexpected external disturbance.
Publication Date	2022-04-28

Abstract

The block erection using a gantry crane is an important process for the production of the ships in a shipyard. The motion of the block should be controlled accurately under the external forces to prevent collision with the structures and the excessive loads on wire ropes. However, it is difficult to control the block during the lifting because the movement of the block is indirectly controlled with various objects such as trolleys, hooks, equalizers, and wire ropes. Therefore, we proposed the Deep Reinforcement Learning (DRL)-based block lifting method in this study. The DRL-based block lifting method can control the block under the change of the center of gravity and modelling uncertainty. Furthermore, the DRL-based block lifting method can provide robust control with an unexpected motion of the block due to the unexpected external disturbance. The position, orientation and angular velocity of the block and hoisting speed of wire ropes were set as the input state of the neural network of DRL. The hosting speed of wire ropes was controlled as the output action of DRL. The functions to minimize the change of orientation and to stabilize the speed of the block were set as the reward of DRL. In this study, the deep deterministic policy gradient (DDPG) method of DRL, which is a kind of off-policy actor-critic method, was applied to solve the problem with continuous state space and continuous multi-action space. To verify the DRL-based block lifting method proposed in this study, it was compared with traditional control algorithms for various simulation examples. As a result, the proposed method could effectively control the block with the modelling uncertainty. Also, the proposed method could respond to the unexpected motion of the block effectively due to the unexpected external disturbance.

Publication Date

2022-04-28

Do-Hyun Chun, Myung-Il Roh, Hye-Won Lee, Seung-Ho Ham, "A Block Lifting Method with Wire Ropes Based on Deep Reinforcement Learning", Proceedings of ICDM(International Conference on Decarbonization and Digitalization in Marine Engineering) 2022, Si-Heung, Korea, 2022.04.28-29

List of Articles
번호	분류	제목	Publication Date
506	Domestic Conference	김주성, 노명일, 함승호, 김기수, “구획 내 기체의 압축을 고려한 선박의 동적 침수 해석 방법 연구”, 2016년도 한국CAD/CAM학회 하계학술발표회, 부산, pp. 131, 2016.08.25-26	2016-08-25
505	Domestic Conference	황지현, 이규열, 노명일, 차주환, 함승호, 김보람, "해양 플랜트 상부 시스템들의 프로세스 기본 설계 방법론", 2009년도 한국CAD/CAM학회 학술발표회, 평창, pp. 677-685, 2009.02.04-06	2009-02-04
504	Domestic Conference	황존규, 노명일, 김기수, 함승호, "시스템 엔지니어링 기반 해양플랜트 분리 시스템의 설계 검증 방법 연구", 2017년도 한국CDE학회 동계학술발표회, 평창, pp. 555, 2017.02.08-10	2017-02-09
503	Domestic Conference	홍정우, 함승호, 이혜원, 노명일, 하솔, "크레인 붐의 유연성를 고려한 Subsea 장비의 인양 시뮬레이션", 2014년도 대한조선학회 추계학술발표회, 창원, pp. 958-962, 2014.11.06-07	2014-11-07
502	Domestic Conference	홍정우, 함승호, 이혜원, 노명일, 하솔, "유연 다물체 동역학 기반의 박판 블록 리프팅 시뮬레이션", 2015년도 대한조선학회 춘계학술발표회, 제주, pp. 809-813, 2015.05.21-23	2015-05-22
501	Domestic Conference	홍정우, 노명일, 함승호, 이혜원, 김주성, 정동훈, "유연 다물체계 동역학을 이용한 해양 시추선의 수직 라이저 거동 해석", 2015년도 대한조선학회 추계학술발표회, 거제, pp. 848-852, 2015.11.05-06	2015-11-06
500	Domestic Conference	함승호, 차주환, 이규열, 박광필, 노명일, "이산 사건 및 역학 기반 이산 시간 혼합형 모델링에 의한 잠수함의 잠항 부상 시뮬레이션", 2008년도 대한조선학회 추계학술발표회, 창원, pp. 163-171, 2008.11.13-14	2008-11-13
499	Domestic Conference	함승호, 차주환, 이규열, 노명일, 박광필, 서흥원, "다물체간 상호 작용 및 해양파에 의한 운동 응답을 고려한 부유체의 실시간 시뮬레이션", 2008년도 대한조선학회 춘계학술발표회, 제주, pp. 1669-1676, 2008.05.29-30	2008-05-29
498	Domestic Conference	함승호, 이혜원, 홍정우, 하솔, 노명일, "Discrete Euler-Lagrange Equation을 적용한 해상 크레인과 중량물의 운동 해석", 2014년도 대한조선학회 추계학술발표회, 창원, pp. 944-949, 2014.11.06-07	2014-11-07
497	Domestic Conference	함승호, 노명일, 하솔, "다물체 동역학 및 VR 기술을 접목한 조선 생산 및 해양 설치 시뮬레이션", 2015년도 조선해양생산연구회 생산시스템분과 하계논문발표회, 대전, 2015.07.22-23	2015-07-22

번호

분류

제목

Publication Date

506

Domestic Conference

김주성, 노명일, 함승호, 김기수, “구획 내 기체의 압축을 고려한 선박의 동적 침수 해석 방법 연구”, 2016년도 한국CAD/CAM학회 하계학술발표회, 부산, pp. 131, 2016.08.25-26 file