The ocean is the second most vital space for human production and life, and it is a backbone of the ecosystem of the earth. There is a strong correlation between the ocean’s spatial distribution and environment; similarly, there is a strong correlation between spatial distribution and economic sustainability. This study proposes a strategy for analyzing the relationship between marine spatial layout and economic sustainability based on a correlation combination weighting model. The essential conditions of marine industry development are examined utilizing soft computing methodologies to analyze important theories of marine industry layout. The entropy method is used to compute the weight of the marine economic evaluation index. By maximizing the difference, we can get the upper and lower boundaries of the weight of the marine industry development combination. To study the association between ocean spatial arrangement and economic sustainability, the correlation assessment results are obtained using the combination weighting model. The correlation analysis results of the experimental data are used to determine the appropriate spatial layout of the marine industry, which has some practical implications for the long-term development of the marine industry layout economy and the coordination and interaction of land-sea systems.
Energy is an important foundation for the normal development and operation of society. With the rapid development of human society, energy consumption is increasing, energy supply is becoming more and more tenser, and energy consumption is excessively dependent on traditional fossil energy, which will cause serious pollution to the environment. In this regard, this article combines the actual needs of wireless sensor network nodes with limited energy consumption and conducts extensive research on the utilization rate of new energy in a city. By viewing related literature, relevant information on the Internet are collected and collated and then comprehensively analyzed. The main research purpose of this paper is to explore the law of new energy utilization rate in a certain city, determine the methods and paths that can realize the large-scale utilization of new energy, and provide reference materials for urban construction managers. Next, based on the study of coal energy, this article learns that the coal energy output of a certain province accounts for more than 99% of the total energy output. During the period of industrial restructuring, long-term industrial development was carried out under the traditional large-scale model. The development model of high energy consumption and high pollution had a serious impact on the ecological environment, leading to economic development at the expense of the environment in exchange for economic growth. The model is no longer applicable to the existing economic system. This article uses wireless sensing-based research on the utilization of new energy and applies it to the study of coal energy economic development, aiming to promote its better development.
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