Smart Aquaponics with Automatic Sensors Cleaning for Zero Waste Integrated Farming System using Internet of Things

被引:0
作者
Abidin, Zainul [1 ]
Zainuri, Akhmad [1 ]
Putra, Atha Darari [1 ]
Maulana, Eka [1 ]
机构
[1] Univ Brawijaya, Fac Engn, Dept Elect Engn, Malang, Indonesia
来源
2024 INTERNATIONAL ELECTRONICS SYMPOSIUM, IES 2024 | 2024年
关键词
automatic sensors cleaning; integrated farming system; internet of things; smart aquaponics; zero waste;
D O I
10.1109/IES63037.2024.10665792
中图分类号
TM [电工技术]; TN [电子技术、通信技术];
学科分类号
0808 ; 0809 ;
摘要
Integrated Farming System (IFS) is an agricultural system that integrates agricultural, crop, livestock and fish sub-sector activities. The linkages between sub-sector activities support zero waste concept. As a part of IFS, aquaponics is defined as a cooperation between plants and fish. In order to optimize the aquaponics, a smart aquaponics system is proposed. This system is equipped with Internet of Things (IoT) real-time monitoring system for air temperature, air humidity, water temperature, water level, water pH, and water Total Dissolve Solid (TDS). Furthermore, an automation system was also added for scheduled feeding, pump and aerator settings, water sampling, and sensors cleaning. The aquaponics system can work very well and the automatic sensors cleaning allows the TDS and pH sensors to get more accurate data and have more possibility of longer lifetime.
引用
收藏
页码:120 / 125
页数:6
相关论文
共 11 条
[1]   Optimal Sizing of Solar Panel and Battery Storage for A Smart Aquaponic System [J].
Ali, Mohd Farhan Mohd ;
Ibrahim, Ahmad Asrul ;
Zaman, Mohd Hairi Mohd .
19TH IEEE STUDENT CONFERENCE ON RESEARCH AND DEVELOPMENT (SCORED 2021), 2021, :186-191
[2]   Is Aquaponics Beneficial in Terms of Fish and Plant Growth and Water Quality in Comparison to Separate Recirculating Aquaculture and Hydroponic Systems? [J].
Atique, Faiqa ;
Lindholm-Lehto, Petra ;
Pirhonen, Juhani .
WATER, 2022, 14 (09)
[3]   The integrated farming system is an environmentally friendly and cost-effective approach to the sustainability of agri-food systems in the modern era of the changing climate: A comprehensive review [J].
Bhagat, Rakshit ;
Walia, Sohan Singh ;
Sharma, Kartik ;
Singh, Rajbir ;
Singh, Gurshaminder ;
Hossain, Akbar .
FOOD AND ENERGY SECURITY, 2024, 13 (01)
[4]  
Gudur M. V., 2022, 2022 IEEE 3 GLOB C A, P1, DOI [10.1109/GCAT55367.2022.9972203, DOI 10.1109/GCAT55367.2022.9972203]
[5]   Aquaponics: A Sustainable Path to Food Sovereignty and Enhanced Water Use Efficiency [J].
Ibrahim, Lubna A. ;
Shaghaleh, Hiba ;
El-Kassar, Gamal Mohamed ;
Abu-Hashim, Mohamed ;
Elsadek, Elsayed Ahmed ;
Alhaj Hamoud, Yousef .
WATER, 2023, 15 (24)
[6]   Achieving Food and Livelihood Security and Enhancing Profitability through an Integrated Farming System Approach: A Case Study from Western Plains of Uttar Pradesh, India [J].
Kashyap, Poonam ;
Prusty, Ashisa K. ;
Panwar, Azad S. ;
Paramesh, Venkatesh ;
Natesan, Ravisankar ;
Shamim, M. ;
Verma, Nisha ;
Jat, Phool Chand ;
Singh, Mahendra Pal .
SUSTAINABILITY, 2022, 14 (11)
[7]  
Mahkeswaran R, 2020, P A I C C AUT ROBOT, P607, DOI [10.1109/iccar49639.2020.9108041, 10.1109/ICCAR49639.2020.9108041]
[8]   Influences of Aquaponics System on Growth Performance, Antioxidant Parameters, Stress Parameters and Gene Expression of Carassius auratus [J].
Mao, Hanping ;
Wang, Bin ;
Zhao, Jian ;
Wang, Yafei ;
Du, Xiaoxue ;
Shi, Qiang .
FISHES, 2023, 8 (07)
[9]  
Ntulo M. P., 2021, 2021 INT C EL COMP C, P1, DOI [10.1109/ICECCME52200.2021.9590982, DOI 10.1109/ICECCME52200.2021.9590982]
[10]   Crop-livestock-integrated farming system: a strategy to achieve synergy between agricultural production, nutritional security, and environmental sustainability [J].
Shanmugam, P. M. ;
Sangeetha, S. P. ;
Prabu, P. C. ;
Varshini, S. V. ;
Renukadevi, A. ;
Ravisankar, N. ;
Parasuraman, P. ;
Parthipan, T. ;
Satheeshkumar, N. ;
Natarajan, S. K. ;
Gopi, Marappan .
FRONTIERS IN SUSTAINABLE FOOD SYSTEMS, 2024, 8
12