![]() ![]() Likewise, pile shape and characteristics while unloading are calculated and displayed - using computer models of the gates (self-unloading) or the hatches (gearless) being used. ![]() More than one loader at a time may be simulated. ![]() These calculations are made according to the method of filling, the cargo's angle of repose, the trim and heel of the vessel, and the size and position of the loader heads (whether stationary or moving). Using a highly accurate model of the hold, the program simulates and displays the size, shape, and characteristics of the piles when loading cargo. The software accounts for loading and unloading equipment, loading method, pile size and location, heel, trim, and cargo hold dimensions.Ĭargo stowage and unloading are planned in the same interface by dragging and dropping between the cargo list window and the hold window. The graphical cargo management and stowage planning tools support both self-unloading and gearless bulk carrier ships. above and in the following may be implemented in software and carried out. This paper presents a genetic algorithm (GA) software system for solving the container vessel stowage problem. Our Bulk stowage planning module accurately models holds, hopper size and placement, and cargo piles. A stowage plan is an allocation plan that allocates/assigns containers to be. ![]()
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