Your search keyword '"Wang, Lumeng"' showing total 2 results

1. Optimization of offshore wind farm inspection paths based on K-means-GA.

Author

Peng, Zhongbo, Sun, Shijie, Tong, Liang, Fan, Qiang, Wang, Lumeng, and Liu, Dan

Subjects

OFFSHORE wind power plants, GENETIC algorithms, TRAVELING salesman problem, RENMINBI, OPERATING costs, K-means clustering

Abstract

As global demand for offshore wind energy continues to rise, the imperative to enhance the profitability of wind power projects and reduce their operational costs becomes increasingly urgent. This study proposes an innovative approach to optimize the inspection routes of offshore wind farms, which integrates the K-means clustering algorithm and genetic algorithm (GA). In this paper, the inspection route planning problem is formulated as a multiple traveling salesman problem (mTSP), and the advantages of the K-means clustering algorithm in distance similarity are utilized to effectively group the positions of wind turbines, thereby optimizing the inspection schedule for vessels. Subsequently, by harnessing the powerful optimization capability and robustness of genetic algorithms, further refinement is conducted to search for the optimal inspection routes, aiming to achieve cost reduction objectives. The results of simulation experiments demonstrate the effectiveness of this integrated approach. Compared to traditional genetic algorithms, the inspection route length has been significantly reduced, from 93 kilometers to 79.36 kilometers. Simultaneously, operational costs have also experienced a notable decrease, dropping from 141,500 Chinese Yuan to 125,600 Chinese Yuan. [ABSTRACT FROM AUTHOR]

Published

2024

2. Multi-threshold image segmentation of 2D OTSU inland ships based on improved genetic algorithm.

Author

Peng, Zhongbo, Wang, Lumeng, Tong, Liang, Zou, Han, Liu, Dan, and Zhang, Chunyu

Subjects

*INLAND water transportation, *IMAGE segmentation, *GENETIC algorithms, *METAHEURISTIC algorithms, *THRESHOLDING algorithms, *TIME complexity, *TARGET acquisition, *INLAND navigation

Abstract

Waterway transportation is a crucial mode of transportation, but ensuring navigational safety in waterways requires effective guidance of ships by the Water Resources Bureau. However, supervisors may only be interested in the ship portion of a complex image and need to quickly obtain relevant ship information. Therefore, this paper proposes a two-dimensional OTSU inland ships multi-threshold image segmentation algorithm based on the improved genetic algorithm. The improved algorithm enhances search accuracy and efficiency, improving image thresholding accuracy and reducing algorithm time complexity. Experimental verification shows the algorithm has excellent evaluation indexes and can achieve real-time segmentation of complex images. This method can not only address the challenges of complex inland navigation environments and difficult acquisition of target data sets, but also be applied to optimization problems in other fields by combining various metaheuristic algorithms. [ABSTRACT FROM AUTHOR]

Published

2023