An analysis on the preliminary benefits of aquaculture smart aeration control

IF 2.1 Q3 COMPUTER SCIENCE, INFORMATION SYSTEMS
Chi-Yuan Lin, Yu-Tang Shen, Yong-An Tsai, Chao-Chien Chen
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引用次数: 0

Abstract

Aquaculture in Taiwan is characterised by high breeding densities of up to five times higher than the normal breeding densities. Pollution in the breeding environment and its adjacent waters have exacerbated the occurrence of disease outbreaks in fish, shrimp and shellfish, which greatly impacted the economy. Therefore, the parameters pertaining to water quality status, especially dissolved oxygen are particularly important. In addition to the rising cost of labour, land, infrastructure and other materials, the capital needed to engage in aquaculture has risen, whereas the profits have decreased. This limits the growth of aquaculture and fisheries. To overcome this problem, it is essential to shift towards efficient and ecologically precise smart aquaculture. The application of industrialised and smart systems in the vertical diffusion and in-depth integration of aquaculture facilitates decision-making, improves the level of intelligence in breeding, and enhance aquaculture's contribution to Taiwan's economy.

Abstract Image

水产养殖智能曝气控制初步效益分析
台湾水产养殖的特点是养殖密度高,可达正常养殖密度的五倍。养殖环境及其邻近水域的污染加剧了鱼虾贝类疾病暴发的发生,对经济造成了极大的影响。因此,与水质状况有关的参数,特别是溶解氧尤为重要。除了劳动力、土地、基础设施和其他材料的成本上升外,从事水产养殖所需的资本增加了,而利润却减少了。这限制了水产养殖和渔业的增长。为了克服这一问题,必须转向高效和生态精确的智能水产养殖。工业化和智能系统在水产养殖垂直扩散和深度融合中的应用,有利于决策,提高养殖的智能化水平,增强水产养殖对台湾经济的贡献。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
IET Smart Cities
IET Smart Cities Social Sciences-Urban Studies
CiteScore
7.70
自引率
3.20%
发文量
25
审稿时长
21 weeks
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