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Journal articles on the topic 'Aquaculture System'

Author: Grafiati
Published: 4 June 2021
Last updated: 26 July 2025

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1

Tummala, Suguna. "Aquaponics Systems: Future Food Production System." International Journal of Current Microbiology and Applied Sciences 10, no. 11 (2021): 397–406. http://dx.doi.org/10.20546/ijcmas.2021.1011.045.

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Aquaculture being the important source of global animal protein, is the potential food production sector. The ever increasing population worldwide, urbanization, human activities, environmental degradation, social and economic problems drive the need for new, innovative and improved solutions for food production. One pioneering approach that promises to address these problems is Aquaponics. Aquaponics is the integration of recirculatory aquaculture system and hydroponics in one production system. An aquaponic system is established at Fisheries Research Station, Sri Venkateswara Veterinary Univ
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2

Roy, Priyanka. "The Convergence of Renewable Energy and Aquacultural Engineering for a Sustainable Food System." International Journal for Research in Applied Science and Engineering Technology 13, no. 1 (2025): 844–53. https://doi.org/10.22214/ijraset.2025.66428.

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Renewable energy and aquacultural engineering combine to provide a disruptive approach to developing a sustainable and resilient food supply. This area of aquacultural engineering would automate feeding systems, oxygenation, recirculating aquaculture systems, and water quality monitoring by integrating renewable energy sources such as sun, wind, hydropower, and bioenergy. In order to improve the efficiency of freshwater and marine aquaculture systems, energy from renewable sources will reduce waste and maximize the usage of IoT and AI toward resource efficiency. For the agricultural sector, im
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3

Sahu, Surbhi, S. K. Mahajan, Sona Dubey, Poonam Shakya, Akshay Garg, and R. P. Singh. "A Review on Organic Fish Farming and Its Future Prospects." International Journal of Environment and Climate Change 15, no. 4 (2025): 392–404. https://doi.org/10.9734/ijecc/2025/v15i44819.

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Conversion to organic aquaculture is a process of developing farming practices that encourage and maintain a viable and sustainable aquatic ecosystem. The time between the start of organic management and certification of the production is known as the conversion period. Aquaculture production methods can vary widely according to the biology of the organisms, the technology used, geographical conditions, ownership structure, time span, etc. These aspects should be considered when the length of conversion is specified. The minimum conversion period set for the aquaculture production system is tw
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1*, Dr. G. Ganesh 1Dr. N. Rajanna 1Dr. J. Shashank 1Dr.J. Sai Kiran 1Dr.A. Raju 2Dr. M. Shyam Prasad. "BACKYARD RECIRCULATION AQUACULTURE SYSTEM." Science World a monthly e magazine 1, no. 9 (2022): 404–6. https://doi.org/10.5281/zenodo.7417337.

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Recirculation Aquaculture System (RAS) is a technology where in water is recycled and reused after filtration and removal of suspended matter and metabolites. The method is used for high-density culture of various species of fish utilizing minimum land area and water. It is an intensive approach (higher densities and more rigorous management) than other aquaculture production systems. Instead of the traditional method of growing fish outdoors in open ponds and raceways, in this system fish are typically reared in indoor tanks in a “controlled” environment. Recirculating systems fil
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Peng, Yisheng, Xulin Li, Kalan Wu, Yougui Peng, and Guizhu Chen. "Effect of an integrated mangrove-aquaculture system on aquacultural health." Frontiers of Biology in China 4, no. 4 (2009): 579–84. http://dx.doi.org/10.1007/s11515-009-0056-z.

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6

Jayaraj, Kiran K., Prakash Saravanan, and Gourav Dhar Bhowmick. "Performance Evaluation of Aquaponics-Waste-Based Biochar as a Cathode Catalyst in Sediment Microbial Fuel Cells for Integrated Multitrophic Aquaculture Systems." Energies 16, no. 16 (2023): 5922. http://dx.doi.org/10.3390/en16165922.

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The sustainable development of aquaculture faces a significant challenge due to the need for the frequent treatment of aquacultural waste. This research presents a pioneering solution by concurrently utilizing aquacultural waste to produce biochar and enhancing a sediment microbial fuel cell (SMFC)’s treatment efficacy for waste generated from the integrated multitrophic aquaculture (IMTA) system. The water quality parameters of the aquacultural pond water were analyzed, and synthetic wastewater was prepared to validate the system’s efficiency. Over a period of more than 50 days, the SMFC was
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7

Garba, A. A. "Economic realities and management systems in aquaculture production." Journal of Aquatic Sciences 36, no. 1 (2021): 107–17. http://dx.doi.org/10.4314/jas.v36i1.10.

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This study reviewed and unveiled the economic sizes and managing systems in aquaculture production. The focus had been on developing new technologies and management systems in aquaculture production that can produce fish food on an economically competitive basis while still maintaining environmental health. The technique of recirculating aquaculture system (RAS) had been discussed. Economic issues such as: adequately available quality water, economic sizes, management issues, financial capabilities, various investment options, species selection, cost of production, capitalization cost of unit
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8

Sharma, Prabhakar, and Arunabha Mitra. "Integrated Aquaculture-Hydroponics System with Paddy Nursery on Aquaculture Pond." Asian Journal of Water, Environment and Pollution 5, no. 3 (2008): 65–72. http://dx.doi.org/10.3233/ajw-2008-5_3_10.

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Large areas of land remain uncultivated after the rainy season due to lack of irrigation facilities in many countries. There are also low lying areas, which remain waterlogged for the major part of the year. The returns from these areas in terms of agricultural crops and revenues are very poor. Adoption of integrated farming technology by incorporating aquacultural ponds in these areas has been found to increase the total yield and fetch higher financial return. Through aquacultural-hydroponic system, by using floating nurseries on aquacultural ponds, many benefits can be obtained, e.g., doubl
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9

Bayır, Abdulkadir, Selma Saoula, Ammar Almansour, et al. "CRISPR-Based Genetic Improvement of Aquaculture Species." Fishes 10, no. 2 (2025): 84. https://doi.org/10.3390/fishes10020084.

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The clustered regularly interspaced short palindromic repeat-associated protein (CRISPR-Cas) system is considered a potential game-changer in the aquaculture sector. The CRISPR-Cas9 system is derived from an adaptive mechanism of the immune system of some prokaryotes. The CRISPR/Cas9 system potentially accelerates the rate of sustained genetic gain for the aquaculture and seafood production sectors. Unlike conventional genome-editing techniques, CRISPR/Cas9 is more cost-effective, user-friendly, and extremely precise. It enables overcoming large-scale challenges in aquaculture. Traits such as
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10

Johnson, Teresa, Kate Beard, Damian Brady, et al. "A Social-Ecological System Framework for Marine Aquaculture Research." Sustainability 11, no. 9 (2019): 2522. http://dx.doi.org/10.3390/su11092522.

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Aquaculture has been responsible for an impressive growth in the global supply of seafood. As of 2016, more than half of all global seafood production comes from aquaculture. To meet future global seafood demands, there is need and opportunity to expand marine aquaculture production in ways that are both socially and ecologically sustainable. This requires integrating biophysical, social, and engineering sciences. Such interdisciplinary research is difficult due to the complexity and multi-scale aspects of marine aquaculture and inherent challenges researchers face working across disciplines.
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Khanjani, Mohammad Hossein, Alireza Mohammadi, and Maurício Gustavo Coelho Emerenciano. "Microorganisms in biofloc aquaculture system." Aquaculture Reports 26 (October 2022): 101300. http://dx.doi.org/10.1016/j.aqrep.2022.101300.

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12

Tuwo, A., I. Yasir, J. Tresnati, et al. "A Microcosm Multitrophic Aquaculture System." IOP Conference Series: Earth and Environmental Science 370 (December 2, 2019): 012012. http://dx.doi.org/10.1088/1755-1315/370/1/012012.

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13

Binti, Jannatul Ferdous. "Biofloc aquaculture system: Bangladesh perspective." International Journal of Fisheries and Aquatic Studies 12, no. 5 (2024): 112–16. http://dx.doi.org/10.22271/fish.2024.v12.i5b.2972.

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14

1Maloth, Mohan 2Sarita Kumari Das 2S. Venkatesh Goud. "Aquaculture pond water aeration system." Science World a monthly e magazine 2, no. 8 (2022): 1387–91. https://doi.org/10.5281/zenodo.6993792.

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Dissolved oxygen DO concentration is one of the most important water quality parameters affecting the quality of wastewater and aquaculture pond water. Various types of aeration systems have been developed over the years to maintain the desired level of DO concentration in the wastewater in an effort to improve the energy efficiency of the oxygen mass transfer process<strong>.</strong> In intensive aquaculture system increased fertilization, excessive feeding and high stocking density the natural aeration is insufficient and will be a limiting factor for production. Therefore, artificial aerat
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Resende, Luís, Juan Flores, Cláudia Moreira, et al. "Effective and Low-Maintenance IMTA System as Effluent Treatment Unit for Promoting Sustainability in Coastal Aquaculture." Applied Sciences 12, no. 1 (2021): 398. http://dx.doi.org/10.3390/app12010398.

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Integrated multitrophic aquaculture (IMTA) is a versatile technology emerging as an ecological and sustainable solution for traditional monoculture aquacultures in terms of effluent treatment. Nevertheless, IMTA is still poorly applied in aquaculture industry due to, among other reasons, the lack of effective, low-investment and low-maintenance solutions. In this study, one has developed a practical and low maintenance IMTA-pilot system, settled in a semi-intensive coastal aquaculture. The optimisation and performance of the system was validated using Ulva spp., a macroalgae that naturally gro
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16

Jia, Junle, Chun Luo, Zhengyi Hou, et al. "Fisheries Water Quality Monitoring Improvement System." Journal of Physics: Conference Series 2632, no. 1 (2023): 012016. http://dx.doi.org/10.1088/1742-6596/2632/1/012016.

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Abstract In this paper, the system of dynamic identification and monitoring of water bodies and intelligent allocation of pharmaceutical discharge is designed. At present, aquaculture technology in our country is relatively traditional, and the water environment-bearing capacity will often be ignored. This paper aims to realize the efficiency of equipment in the multiple stages of aquaculture through the design system, the remote control of motion software device, and strive to combine intelligent equipment and the basic process of aquaculture, so as to make the aquaculture industry gradually
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17

ogunkalu, Oluwatosin Abidemi. "Climate Smart Aquaculture for Poverty Alleviation." Scholars Journal of Agriculture and Veterinary Sciences 10, no. 12 (2023): 172–76. http://dx.doi.org/10.36347/sjavs.2023.v10i12.001.

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Climate change is one of the main obstacles to ensuring food security and it is crucial to know how the effects of climate change will affect the world's agricultural industry. Climate may change as a result of biological, geographical, and human forces (anthropogenic), Astronomical phenomena, alien influences, and volcanic eruptions are examples of nature activities. Aquaculture system ensure continuous yield of seafood product. For aquacultures to achieve success, aquaculture practice must be supported by climate smart innovation to achieve sustainable production, alleviate poverty, achieve
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18

Ali, Ehtesham, Mohd Faizal Jamlos, Muna E. Raypah, et al. "A Comprehensive Review of Sensor-Based and Spectroscopy-Based Systems for Monitoring Water Quality in Freshwater Aquaculture System." Journal of Advanced Research in Applied Sciences and Engineering Technology 56, no. 3 (2024): 37–54. https://doi.org/10.37934/araset.56.3.3754.

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Ensuring precise water conditions is essential for the economic viability and preservation of aquatic resources in aquaculture, necessitating effective water quality monitoring systems. This research work investigates and reviews water quality monitoring systems for freshwater aquaculture, focusing on electronic sensor-based and spectroscopy-based methods through a comparative analysis. The review categorizes and evaluates machine learning (ML)-based sensor and spectroscopy methods, emphasizing the performance of sensitive spectral bands linked to diverse water quality parameters. Furthermore,
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19

Bao, Y. J., C. Y. Ji, B. Zhang, and J. L. Gu. "Representation of freshwater aquaculture fish behavior in low dissolved oxygen condition based on 3D computer vision." Modern Physics Letters B 32, no. 34n36 (2018): 1840090. http://dx.doi.org/10.1142/s0217984918400900.

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Dissolved oxygen (DO) plays an important role in industrialized freshwater aquaculture. Such deficiencies such as the high cost of water-quality monitoring system and the failure to accurately monitor or describe aquaculture water-quality existed in freshwater aquaculture water-quality monitoring system. Here, a kind of representation method applied to characterize industrialized aquaculture fish behavior in different degrees of DO deficiency is based on three-dimensional (3D) Computer Vision. 3D coordinate values of aquaculture fishes in water acquired from 3D Computer Vision Device by proces
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20

Abeysinghe, D. H., A. Shanableh, and B. Rigden. "Biofilters for water reuse in aquaculture." Water Science and Technology 34, no. 11 (1996): 253–60. http://dx.doi.org/10.2166/wst.1996.0287.

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Aquaculture is a rapidly expanding industry in Australia and around the world. The majority of aquaculture operations employ flow through systems whereby residual feed and metabolic products are discharged to a nearby water body. In many countries, the discharge of nutrients rich aquaculture waters has contributed to the degradation of water quality in receiving water bodies. Aquaculture's dependency on water resources ultimately makes water recycling an attractive waste management option. Submerged flow biofilters, utilising a filter media with specific surface area of approximately 141m2/m3,
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21

Mugwanya, Muziri, Mahmoud A. O. Dawood, Fahad Kimera, and Hani Sewilam. "Biofloc Systems for Sustainable Production of Economically Important Aquatic Species: A Review." Sustainability 13, no. 13 (2021): 7255. http://dx.doi.org/10.3390/su13137255.

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The increasing global population has led to an increase in food demand; consequently, aquaculture is one of the food production sectors that has offered opportunities to alleviate hunger, malnutrition, and poverty. However, the development of a sustainable aquaculture industry has been hindered by the limited availability of natural resources as well as its negative impact on the surrounding environment. Hence, there is an urgent need to search for better aquacultural production systems that, despite their high productivity and profitability, utilize fewer resources such as water, energy, land
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22

Lu, Duian, Jie Cheng, Zhenzhou Feng, Li Sun, Wei Mo, and Degang Wang. "Emergy Synthesis of Two Oyster Aquaculture Systems in Zhejiang Province, China." Sustainability 14, no. 21 (2022): 13876. http://dx.doi.org/10.3390/su142113876.

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China is rich in oyster resources and has a long history of oyster aquaculture. Various forms of oyster aquaculture coexist in the coastal regions of China, which are dominated by raft aquaculture and long-line aquaculture. The objective of this study is to assess the environmental sustainability of the oyster aquaculture systems located in Jiantiao Bay, Zhejiang province, China. Emergy synthesis is used in the study to quantify the contributions of the natural and economic inputs to the oyster aquaculture systems, in order to better understand the sustainability. The results show that the raf
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Mopoung, Sumrit, Vijitr Udeye, Supaluck Viruhpintu, Nonglak Yimtragool, and Visarut Unhong. "Water Treatment for Fish Aquaculture System by Biochar-Supplemented Planting Panel System." Scientific World Journal 2020 (August 28, 2020): 1–8. http://dx.doi.org/10.1155/2020/7901362.

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Rice husk biochars were prepared by carbonization at 400–600°C. The products were analyzed by FTIR, SEM-EDS, BET, and approximate analysis in order to find final products with the best properties and the lowest carbonization temperature. It has been found that the biochar prepared at 500°C, which has 37.86 ± 0.11% yield, 341.0776 m2/g of BET surface area, and 0.136639 cm3/g of micropore volume, is suitable for use as a root supplement in the aquaponic system. The aquaponic systems consist of aquaculture and a hydroponic system with and without biochar supplement. The control experiment consist
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Xu, Bing, and Yan Zhang. "GIS-Based Meteorological Information System for Aquaculture." Applied Mechanics and Materials 448-453 (October 2013): 3591–95. http://dx.doi.org/10.4028/www.scientific.net/amm.448-453.3591.

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Under the influence of the global climate change and the increasingly intensified major meteorological disasters in recent years, aquaculture has a stronger demand for meteorological information service. Various meteorological disasters (typhoon, storm, flood, low temperature, etc.) will change the environment of water aquaculture and cause great economic losses to aquaculture. With aquaculture in Zhanjiang of China as the research subject, a meteorological information system has been designed to serve aquaculture. The B/S-based three-layer structure was chosen based on the MS.NET development
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Amale, Devdas. "Aquaculture Monitoring and Control System Based On IOT." INTERANTIONAL JOURNAL OF SCIENTIFIC RESEARCH IN ENGINEERING AND MANAGEMENT 08, no. 04 (2024): 1–5. http://dx.doi.org/10.55041/ijsrem32363.

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- This project offers a comprehensive solution for monitoring and regulating aquaculture conditions using cutting-edge Internet of Things (IoT) technology. By leveraging ESP8266 NodeMCU and Arduino UNO, alongside a range of sensors including the DS18B20 waterproof temperature sensor, water level sensor, and turbidity sensor, it ensures real-time monitoring of vital parameters in aquatic environments. Precise control of water circulation and management is made possible through the integration of motor drivers with submersible pumps. The Blynk App serves as the user-friendly control interface, g
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Chiquito-Contreras, Roberto G., Luis Hernandez-Adame, Gerardo Alvarado-Castillo, et al. "Aquaculture—Production System and Waste Management for Agriculture Fertilization—A Review." Sustainability 14, no. 12 (2022): 7257. http://dx.doi.org/10.3390/su14127257.

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Aquaculture is the fastest growing animal food production sector worldwide and is becoming the main source of aquatic animal foodstuff for human consumption. However, the aquaculture sector has been strongly criticized for its environmental impacts. It can cause discharge and accumulation of residual nutrients in the areas surrounding the production farms. This is because, of the total nutrients supplied to production ponds, only 30% are converted into product, while the rest is usually discharged into the environment to maintain water quality in aquaculture culture systems, thereby altering t
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Kun-Lin Tsai, Kun-Lin Tsai, Li-Woei Chen Kun-Lin Tsai, Li-Jun Yang Li-Woei Chen, Hung-Jr Shiu Li-Jun Yang, and Han-Wei Chen Hung-Jr Shiu. "IoT based Smart Aquaculture System with Automatic Aerating and Water Quality Monitoring." 網際網路技術學刊 23, no. 1 (2022): 179–86. http://dx.doi.org/10.53106/160792642022012301018.

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&lt;p&gt;Aquaculture is a vital economic and food source in numerous countries. However, because of environmental limitations and the impact of aquatic diseases, aquaculture requires considerable manpower, involves high material costs, and relies on the experience of aquaculturists to increase production capacity. Water quality is among the most crucial elements in aquaculture. Accordingly, in this paper, we propose an IoT-based smart aquaculture system (ISAS) for detecting the water quality of an aquafarm and providing automatic aeration to increase the survival rate of aquatics. In the ISAS,
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Zhang, Hanwen, Yanwei Liu, Fukun Gui, and Xu Yang. "A Universal Aquaculture Environmental Anomaly Monitoring System." Sustainability 15, no. 7 (2023): 5678. http://dx.doi.org/10.3390/su15075678.

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The current aquaculture environment anomaly monitoring system is limited in function, making it difficult to provide overall technical support for the sustainable development of aquaculture ecosystems. This paper designs a set for an IoT-based aquaculture environment monitoring device. The device is capable of collecting five aquaculture environment factors such as water temperature, pH, salinity, dissolved oxygen and light intensity throughout the day by wireless data transmission via 4G DTU with a communication success rate of 92.08%. A detection method based on time series sliding window de
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Ubina, Naomi A., Shyi-Chyi Cheng, Hung-Yuan Chen, Chin-Chun Chang, and Hsun-Yu Lan. "A Visual Aquaculture System Using a Cloud-Based Autonomous Drones." Drones 5, no. 4 (2021): 109. http://dx.doi.org/10.3390/drones5040109.

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This paper presents a low-cost and cloud-based autonomous drone system to survey and monitor aquaculture sites. We incorporated artificial intelligence (AI) services using computer vision and combined various deep learning recognition models to achieve scalability and added functionality, in order to perform aquaculture surveillance tasks. The recognition model is embedded in the aquaculture cloud, to analyze images and videos captured by the autonomous drone. The recognition models detect people, cages, and ship vessels at the aquaculture site. The inclusion of AI functions for face recogniti
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Vo, Thi Thu Em, Hyeyoung Ko, Jun-Ho Huh, and Yonghoon Kim. "Overview of Smart Aquaculture System: Focusing on Applications of Machine Learning and Computer Vision." Electronics 10, no. 22 (2021): 2882. http://dx.doi.org/10.3390/electronics10222882.

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Smart aquaculture is nowadays one of the sustainable development trends for the aquaculture industry in intelligence and automation. Modern intelligent technologies have brought huge benefits to many fields including aquaculture to reduce labor, enhance aquaculture production, and be friendly to the environment. Machine learning is a subdivision of artificial intelligence (AI) by using trained algorithm models to recognize and learn traits from the data it watches. To date, there are several studies about applications of machine learning for smart aquaculture including measuring size, weight,
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Karepesina, Musa, Nur Asyah Saimima, Desry Natalia Manuhutu, Naiboki Salampessy, and Hajirun Lanuhu. "Analisis Karakterisitik Lingkungan dan Pengembangan Budidaya Ikan Sistem KJA Di Dusun Wael Kabupaten Seram Bagian Barat." Jurnal Akuakultur Sungai dan Danau 9, no. 1 (2024): 87. http://dx.doi.org/10.33087/akuakultur.v9i1.206.

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Research on the analysis of environmental characteristics of KJA system fish farming in Wael Sub Village, West Seram Regency aims to analyze internal and external environmental factors of aquaculture development with KJA system in Wael Hamlet and formulate strategies and priorities for the development of aquaculture with KJA system in Wael Sub Village, West Seram Regency. To analyze the potential for aquaculture development using the EAA (Ecosystem Approach to Aquaculture) method approach. Aquaculture development according to FAO (2010), has shifted from conventional approaches to the ecosyste
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Sarwar, Adnan, and M. Tariq Iqbal. "IoT-Based Real-Time Aquaculture Health Monitoring System." European Journal of Electrical Engineering and Computer Science 6, no. 4 (2022): 44–50. http://dx.doi.org/10.24018/ejece.2022.6.4.455.

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Aquaculture fastest growing business worldwide especially in developing countries. Fisheries are marine species and required an oceanic environment where fisheries could grow and live naturally. Off-shore aquaculture businesses need a real-time water quality monitoring system. So, aquafarmers could maintain the required environment for a sustainable and profitable business. This work represents an IoT-based realtime health management system designed for aquaculture and considered the most required health metrics for aquaculture. The proposed system used four primary sensors: water level, tempe
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Liu, Yi Ying. "The Aquaculture Multi-Parameter Monitoring System." Applied Mechanics and Materials 43 (December 2010): 192–95. http://dx.doi.org/10.4028/www.scientific.net/amm.43.192.

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This paper introduces an aquaculture multi-parameter monitoring system. The hardware structure of the system is introduced, the software design of the system is described in detail and the flow charts of the key functions are presented. By using the Profibus-DP field bus, more monitoring stations are joined together to constitute a distributed monitoring and controlling network, which has functions like accurate signal collecting, real-time signal analyzing and processing and automatic alarm. The system can not only improve the accuracy and stability of parameter monitoring, but also enlarge t
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Nasir, Omar Abdulhaleem, and Sharifah Mumtazah. "IOT-BASED MONITORING OF AQUACULTURE SYSTEM." MATTER: International Journal of Science and Technology 6, no. 1 (2020): 113–37. http://dx.doi.org/10.20319/mijst.2020.61.113137.

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Zhang, Yu, Jing Hua, and Yu Bin Wang. "Application Effect of Aquaculture IOT System." Applied Mechanics and Materials 303-306 (February 2013): 1395–401. http://dx.doi.org/10.4028/www.scientific.net/amm.303-306.1395.

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The aquaculture IOT system consists of the water quality monitoring stations which are based on a wireless sensor network (WSN), meteorological station, water quality control station, on-site and remote monitoring center and the central cloud processing platform. If we apply this system effectively, we can modify the existing breeding mode at the cost of mass energy use and gain direct economic benefits. We got relative initial data from the field research in Yixing of Jiangsu province, and compared different aquaculture situation between farmers who used the system and who didn’t in 2011 thro
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36

Liao, I. Chiu, and Ya‐Ke Hsu. "Development of aquaculture financial planning system." Aquaculture Economics & Management 7, no. 1-2 (2003): 55–65. http://dx.doi.org/10.1080/13657300309380331.

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37

Phelps, Ronald P., and Claudio L. Stiebel. "Salmonella in a wastewater-Aquaculture system." Bioresource Technology 37, no. 3 (1991): 205–10. http://dx.doi.org/10.1016/0960-8524(91)90184-l.

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Shufen, Huang, Cheng Wei, and Xu Shuiyin. "A LabView-based Smart Aquaculture system." Journal of Physics: Conference Series 1550 (May 2020): 042037. http://dx.doi.org/10.1088/1742-6596/1550/4/042037.

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VIMS, James A. Lanier, and Elaine V. Collines NODC. "The National Aquaculture Information System (Nais)." Proceedings of the annual meeting - World Mariculture Society 7, no. 1-4 (2009): 63–67. http://dx.doi.org/10.1111/j.1749-7345.1976.tb00053.x.

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40

Hor, K. W., S. M. Salleh, Abdullah, et al. "Technology Model of Aquaculture Production System." Journal of Physics: Conference Series 914 (October 2017): 012040. http://dx.doi.org/10.1088/1742-6596/914/1/012040.

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符, 丹丹. "Design of Aquaculture Environment Monitoring System." Journal of Sensor Technology and Application 13, no. 04 (2025): 640–50. https://doi.org/10.12677/jsta.2025.134062.

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Maurer, Michaela, Verena Pietzner, Holger Winkler, and Corinna Hößle. "Aquaculture: How German Preservice Teachers’ Perception Interacts with Values, Knowledge, and Conceptions of Environmental Concern When Making Purchasing Decisions." Education Sciences 13, no. 7 (2023): 665. http://dx.doi.org/10.3390/educsci13070665.

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Responsibly using resources is an essential goal of the 2030 agenda. An overall need for 180 tonnes of fish per year is pushing the limits of sustainable fishing. Teachers can focus on this topic to enhance the environmental awareness of sustainability issues in learners (e.g., sustainable consumption, production, and supporting sustainable judgements). For this purpose, we developed a questionnaire on the topic of aquaculture using LimeSurvey and administered this survey to preservice teachers. The survey contained five open questions relating to aquaculture terms, a semantic differential wit
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43

Karepesina, Musa, Nur Fatimah Sangadji, Nur Asyah Saimima, Desilina Arif, and Damaris Payung. "ANALISIS PENGEMBANGAN PERIKANAN BUDIDAYA SISTEM KJA DI DUSUN WAEL KABUPATEN SERAM BAGIAN BARAT." PAPALELE (Jurnal Penelitian Sosial Ekonomi Perikanan dan Kelautan) 8, no. 1 (2024): 1–14. http://dx.doi.org/10.30598/papalele.2024.8.1.1.

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Research analysis of aquaculture development with KJA system in Wael sub village, West Seram Regency aims to analyze the internal and external environmental factors of development and formulate strategies and development priorities. The research was located in Wael sub village, West Seram Regency, with consideration of the locus selection because there are several KJA system fish farming businesses, and was conducted from October to December 2023. Aquaculture development analysis data were obtained through SWOT analysis, while the priority strategy for aquaculture development in Wael sub villa
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44

Jun, Myoungjae, Choonsung Shin, and Hieyong Jeong. "Operation of Unmanned Automated Aquaculture Feeding System." Korean Institute of Smart Media 13, no. 11 (2024): 9–21. https://doi.org/10.30693/smj.2024.13.11.9.

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Unmanned automatic feeding systems are being actively distributed to automate land-based aquaculture farms. Currently, feed supply in aquaculture is primarily based on a fixed period and amount, depending on the predetermined feed quantity set by the operator, which does not consider the dynamic feed supply needs of fish. This can lead to under- or oversupply of feed, affecting the fish growth rate and water quality in aquaculture. To address this, a method is proposed in this paper to identify fish hunger levels using machine vision and predict the dissolved oxygen concentration in real time
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45

Bachtiar, Mohammad Iqbal, Rachmad Hidayat, and Rizki Anantama. "Internet of Things (IoT) Based Aquaculture Monitoring System." MATEC Web of Conferences 372 (2022): 04009. http://dx.doi.org/10.1051/matecconf/202237204009.

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Aquaculture is one of the fastest growing manufacturing businesses in many parts of the world as the demand for fish and processed fish feed is increasing day by day. Aquaculture is also known as aquaculture, breeding, rearing, collecting fish, seaweed, seaweed and many other organisms. It is also defined as a breeding species that thrives in an aquatic environment under controlled conditions. This study is developing an aquaculture system that can remotely monitor water acidity, temperature, and turbidity levels using the Internet of Things (IoT). Sensors are installed in this system to recei
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46

Mizan Munif, Mohd, Husna Jamal Abdul Nasir, and Muhammad Imran Ahmad. "Optimizing ant colony system algorithm with rule-based data classification for smart aquaculture." Indonesian Journal of Electrical Engineering and Computer Science 33, no. 1 (2024): 261. http://dx.doi.org/10.11591/ijeecs.v33.i1.pp261-268.

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&lt;span&gt;Aquaculture is one of many industries where the use of artificial intelligence (AI) techniques has increased dramatically in recent years. Internet of things (IoT), AI, and big data are just a few of the technologies being used in smart aquaculture to increase productivity, efficiency, and system sustainability of aquaculture systems. Data classification, which involves finding patterns and relationships in huge datasets, is one of the most important tasks in smart aquaculture. The ant colony system (ACS) has been used to solve a number of optimization issues, including data classi
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47

Munif, Mohd Mizan, Husna Jamal Abdul Nasir, and Muhammad Imran Ahmad. "Optimizing ant colony system algorithm with rule-based data classification for smart aquaculture." Indonesian Journal of Electrical Engineering and Computer Science 33, no. 1 (2024): 261–68. https://doi.org/10.11591/ijeecs.v33.i1.pp261-268.

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Aquaculture is one of many industries where the use of artificial intelligence (AI) techniques has increased dramatically in recent years. Internet of things (IoT), AI, and big data are just a few of the technologies being used in smart aquaculture to increase productivity, efficiency, and system sustainability of aquaculture systems. Data classification, which involves finding patterns and relationships in huge datasets, is one of the most important tasks in smart aquaculture. The ant colony system (ACS) has been used to solve a number of optimization issues, including data classification. To
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48

Hwang, Min-Jin, Jeongmin Cha, and Eun-Sik Kim. "The Water Quality Management for Recirculating Aquaculture System by Applying Nano Adsorption Technology." Journal of Nanoscience and Nanotechnology 21, no. 7 (2021): 3975–79. http://dx.doi.org/10.1166/jnn.2021.19202.

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In a fish farm, the water quality is important to ensure fish growth and farm productivity. However, the study of the quality of water using in aquaculture has been ignored until now. Although there are several methods to treat water, nanomaterials have not yet been applied for indoor fish farming because it may difficult to supply a sufficient amount of water, and the operating parameters have not been developed for recirculating aquaculture systems. Nanotechnology can be applied to treat water, specifically through adsorption and filtration, to produce drinking water from surface water and t
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Bao, Weijun, Songming Zhu, Shuirong Guo, et al. "Assessment of Water Quality and Fish Production in an Intensive Pond Aquaculture System." Transactions of the ASABE 61, no. 4 (2018): 1425–33. http://dx.doi.org/10.13031/trans.12799.

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Abstract. Pond aquaculture plays a major role in world aquaculture production, especially in China. To make pond aquaculture more precise, ecologically sound, and efficient, in this study, an intensive pond aquaculture system (IPAS) was designed and built to produce freshwater fish that are commonly reared in China. Aquatic plants and filter-feeding, omnivorous fish were used to rehabilitate the aquaculture water quality, and the particle size distribution (PSD) model of suspended solids in the pond raceways was investigated. The results showed that the water quality in the purification pond w
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Liu, Yi, Xinmeng Wang, Wenguang Wu, Jun Yang, Ningning Wu, and Jihong Zhang. "Experimental Study of the Environmental Effects of Summertime Cocultures of Seaweed Gracilaria lemaneiformis (Rhodophyta) and Japanese Scallop Patinopecten yessoensis in Sanggou Bay, China." Fishes 6, no. 4 (2021): 53. http://dx.doi.org/10.3390/fishes6040053.

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The shellfish–algae mode of integrated multitrophic aquaculture (IMTA) is a sustainable aquaculture method that benefits the environment and the carbon cycle. However, most current shellfish–algae aquaculture modes are based on the expansion of kelp aquaculture. Due to the low tolerance of kelp to high temperatures, integrated shellfish–algae aquaculture areas often become shellfish monocultures in summer, which may lead to both high mortality rate of shellfish and to economic loss while causing serious environmental harm via eutrophication, decreases in dissolved oxygen (DO), and decreases in
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