Optimum Design of Ship Cabin Equipment Layout Based on SLP Method and Genetic Algorithm

Li, Jinghua; Guo, Hui; Zhang, Shichao; Wu, Xiaoyuan; Shi, Liuling

doi:10.1155/2019/9492583

Cited by 7 publications

(2 citation statements)

References 41 publications

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“…Attempts are also made to use multi-objective optimization methods to design the ship room arrangement. For example, a method combining systematic layout planning and a genetic algorithm to optimize the cabin placement within ships is presented in [13], [14], [15], whereas application of the particle swarm algorithm to optimize the ship's vertical passage layout problem is presented in [16].…”

Section: Literature Reviewmentioning

confidence: 99%

Optimization Model to Manage Ship Fuel Consumption and Navigation Time

Rudzki

Gomulka

Hoang

2022

Polish Maritime Research

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Owners of vessels are interested in the lowest possible operating costs. These costs are mainly related to fuel consumption during navigation. To manage it rationally, the main decision-making problem is selecting the proper parameters of the ship’s propulsion system during navigation. In practice, operators of ships equipped with controllable pitch propellers controlled in manual mode make a selection of the commanded outputs based on their own knowledge, intuition, and all accessible information regarding sea conditions. In many cases, their decisions are unreasonable or incorrect. Therefore, it would be desirable to support their decision-making in selecting the commanded outputs. For this reason, we have decided to develop a decision support system in the form of an expert system. This computer-aided system supports the selection of the commanded outputs of the ship’s propulsion system. The most important component of this system is the two-criteria optimization model, allowing the rational management of the ship fuel consumption and navigation time.

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Section: Literature Reviewmentioning

confidence: 99%

Optimization Model to Manage Ship Fuel Consumption and Navigation Time

Rudzki

Gomulka

Hoang

2022

Polish Maritime Research

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“…In practical applications, it is more effective to combine several methods. Hu [14] and Zheng [15] comprehensively applied SLP and GA to the layout design of ship cabins and established mathematical models for an optimal solution; Li [16] introduced SLP to the problem of cabin equipment layout and combined it with GA to optimize the design.…”

Section: Fig 1 Brief Summary Of Recent Researchmentioning

confidence: 99%

Optimal Design of a Ship Multitasking Cabin Layout Based on the Interval Optimization Method

Hou

Chen

et al. 2021

J. Marine. Sci. Appl.

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Searching for the optimal cabin layout plan is an effective way to improve the efficiency of the overall design and reduce the ship's operation costs. Multitasking states of the ship is several statuses when facing different missions during voyage, such as the status of marine supply, emergency escape, etc. Human flow and logistics between cabins will change as the state changes. An ideal cabin layout plan, which directly impact upon the above two factors, can meet the different requirements of several statuses to a higher degree. There are inevitable deviations in the quantification of human flow and logistics, also, the uncontrollability exists in the flow situation during actual operation. Coupling of these deviations and uncontrollability shows typical uncertainties, which must be considered in the design process. It is vital to integrate demands of human flow and logistics in multiple states into an uncertainty parameter scheme. This research involves the uncertainty of adjacent strength and circulating strength obtained after quantifying the human flow and logistics. Interval numbers are used to integrate them, the two-layer nesting system of interval optimization is introduced, and different optimization algorithms are substituted for solving calculations. Comparing and analyzing the calculation results with deterministic optimization, the conclusions obtained can provide feasible guidance for cabin layout design.

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E-commerce warehouse layout optimization: systematic layout planning using a genetic algorithm

Chuang

2022

Electron Commer Res

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Optimum Design of Ship Cabin Equipment Layout Based on SLP Method and Genetic Algorithm

Cited by 7 publications

References 41 publications

Optimization Model to Manage Ship Fuel Consumption and Navigation Time

Optimization Model to Manage Ship Fuel Consumption and Navigation Time

Optimal Design of a Ship Multitasking Cabin Layout Based on the Interval Optimization Method

E-commerce warehouse layout optimization: systematic layout planning using a genetic algorithm

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