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2016 | 23 | Special Issue S1 |

Tytuł artykułu

An anti-collision method of slip barrel for automatic ship loading in bulk terminal

Autorzy

Warianty tytułu

Języki publikacji

EN

Abstrakty

EN
During the loading operation of a ship loader in bulk terminal, in order to bring bulk cargo, such as coal and ore, precisely into every corner of the cabin and not to raise dust at the same time, the slip barrel mechanism usually is placed fully inside the ship cabin near the cargo as close as possible. However, if too close, it will increase the risk of collision between slip barrel and cargo, which poses a security risk to loading operation. This article proposes an anti-collision method for slip barrel in the process of automatic ship loading in bulk terminal. This method can accurately position the cargo of cabin which is blocked by slip barrel and shovel, and provide a reliable guarantee for the automatic loading operation. Firstly, this method use an array of laser radar mounted on the maintenance platforms to perceive the collision objects around the slip barrel, including the cargo and cabin. Meanwhile, it provides a compensation algorithm to reduce the effect of anti-collision recognition brought by dust and various obstacles during the operation. According to the calculated effective distance between the cargo and slip barrel, the automatic control system of ship loading can adjust the loading operation on a real-time basis. In the end, this article analyze and illustrate the reliability and validity of this method by the case of the application in automatic ship loading system in Tianjin coal terminal

Słowa kluczowe

Wydawca

-

Rocznik

Tom

23

Opis fizyczny

p.144-151,fig.,ref.

Twórcy

autor
  • Higher Technical College, Shanghai Maritime University, Shanghai, China

Bibliografia

  • 1. Nadilo Branko, “BULK CARGO TERMINAL IN PLOCE PORT International cooperation on the project,” GRADEVINAR, Vol. 66, No. 10, pp. 953-964 (2014)
  • 2. Bugaric, U.; Petrovic, D., “Increasing the capacity of terminal for bulk cargo unloading,” SIMULATION MODELLING PRACTICE AND THEORY, Vol. 15 No. 10 pp. 1366-1381 (2007)
  • 3. Mi Chao, Zhang Zhiwei, He Xin, Huang Youfang, Mi Weijian. “Two-Stage Classification Approach for Human Detection in Camera Video Bulk Ports,” Polish Maritime Research, Vol. 22, No. 86, pp. 163-170 (2015).
  • 4. Song, Gyeeui , “A Study on Improvement of Handling Dirty Bulk Cargo in Busan Port,” JOURNAL OF KOREA PORT ECONOMIC ASSOCIATION, Vol. 26, No. 3, pp.114-129 (2010)
  • 5. Froyland, Gary; Koch, Thorsten; Megow, Nicole; “Optimizing the landside operation of a container terminal,” OR SPECTRUM, Vol. 30, No. 1 pp. 53-75 (2008)
  • 6. Mi Chao, Zhang Zhiwei, Huang Youfang, Shen Yang, “A FAST AUTOMATED VISION SYSTEM FOR CONTAINER CORNER CASTING RECOGNITION,” Journal of Marine Science and Technology-Taiwan, Vol. 24, No. 1, pp. 54-60 (2016)
  • 7. Choe, Ri; Kim, Jeongmin; Ryu, Kwang Rye, “Online preference learning for adaptive dispatching of AGVs in an automated container terminal,” APPLIED SOFT COMPUTING, Vol. 38, pp. 647-660 (2016)
  • 8. Mi Chao, Huang Youfang, Liu Haiwei, Shen Yang, Mi Weijian. “Study on Target Detection & Recognition Using Laser 3D Vision System for Automatic Ship Loader,” Sensor & Transducers, Vol. 158, No.11, pp. 436-442 (2013).
  • 9. Zupancic, Nina; Horvat, Aleksander; Skobe, Simona, “Environmental impact of dusting from the Koper port bulk cargo terminal on the agricultural soils,” ACTA GEOGRAPHICA SLOVENICA-GEOGRAFSKI ZBORNIK, Vol. 55, No.1, pp. 140-158 (2015)
  • 10. Mi Chao, He Xin, Liu Haiwei, Huang Youfang, Mi Weijian. “Research on a Fast Human-Detection Algorithm for Unmanned Surveillance Area in Bulk Ports,” Mathematical Problems in Engineering, (2014).
  • 11. Liu Pengfei, Lin Bin, Zhang Xiaofeng, “Safety and Stability Analysis of the Ship loader during Shipping,” ADVANCES IN MATERIALS MANUFACTURING SCIENCE AND TECHNOLOGY XV, Vol. 777, pp. 189-193 (2014)
  • 12. Mi Chao, Shen Yang, Mi Weijian, Huang Youfang. “Ship Identification Algorithm Based on 3D Point Cloud for Automated Ship Loaders,” Journal of Coastal Research, Vol. 73, pp. 28-34 (2015).
  • 13. Gang Zhou. “Automobile Anti-collision Millimeter-Wave Radar Signal Processing,” Intelligent Human-Machine Systems and Cybernetics (IHMSC), Vol. 2, pp. 484-486 (2015)
  • 14. Frederic Maire. “Vision based anti-collision system for rail track maintenance vehicles,” Advanced Video and Signal Based Surveillance, pp. 170–175 (2007)
  • 15. Mi Chao, Liu Haiwei, Huang Youfang, Mi Weijian, Shen Yang, Fatigue alarm systems for port machine operators, ASIA LIFE SCIENCES, Vol. 25, No.1, pp. 31-41 (2016)
  • 16. Mi Chao, Liu Haiwei, Zhao Ning, Shen Yang. “A ship cargo hold inspection approach using laser vision systems,” Telkomnika, pp. 330-337 (2013).
  • 17. Rodriguez-Cuenca Borja, Garcia-Cortes Silverio, Ordonez Celestino, “An approach to detect and delineate street curbs from MLS 3D point cloud data,” AUTOMATION IN CONSTRUCTION, Vol. 51, pp. 103-112 (2015)
  • 18. Diaz-Vilarino Lucia, Conde Borja, Lagueela Susana, “Automatic Detection and Segmentation of Columns in As-Built Buildings from Point Clouds,” REMOTE SENSING, Vol.7, No. 11, pp. 15651-15667 (2015)
  • 19. Tsz Ching Ng, Gu Xianfeng, Lui Lok Ming, “Computing Extremal Teichmuller Map of Multiply-Connected Domains Via Beltrami Holomorphic Flow,” JOURNAL OF SCIENTIFIC COMPUTING, Vol. 60, No. 2, pp. 249275 (2014)
  • 20. Wei Xiangzhi, Joneja Ajay, “On computing the shortest path in a multiply-connected domain having curved boundaries,” COMPUTER-AIDED DESIGN, Vol. 48, pp. 39-41 (2014)
  • 21. Paille Gilles-Philippe, Poulin Pierre, Levy Bruno, “Fitting Polynomial Volumes to Surface Meshes with Voronoi Squared Distance Minimization,” COMPUTER GRAPHICS FORUM, Vol. 32, No. 5, pp. 103-112 (2013)
  • 22. Luo Ding, Kuang Cuifang, Liu Xu, “Fiber-based chromatic confocal microscope with Gaussian fitting method,” OPTICS AND LASER TECHNOLOGY, Vol. 44, No. 4, pp. 788-793 (2012)
  • 23. Chan-Hon-Tong Adrien, Achard Catherine, Lucat Laurent, “Simultaneous segmentation and classification of human actions in video streams using deeply optimized Hough transform,” PATTERN RECOGNITION, Vol. 47, No. 12, pp. 3807-3818 (2014)
  • 24. Jiang, Haibo; Tang, Kai; He, Xinlin, “Experimental Studies on Reduction of Evaporation from Plain Reservoirs in Drought Areas by Benzene Board Covering Technology,” JOURNAL OF COASTAL RESEARCH, Vol. 73, pp. 177182 (2015)
  • 25. Lazarowska, Agnieszka, “Swarm Intelligence Approach to Safe Ship Control”, POLISH MARITIME RESEARCH. Vol. 22, No. 4, pp. 34-40 (2015)

Typ dokumentu

Bibliografia

Identyfikatory

Identyfikator YADDA

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