Citation:

Geetha A, Surya S, Sweetha J, Santhiya G, Sobika V, 2022. "AI ENABLED COMMUNICATION MODEL FOR SMART AQUACULTURE" ESP Journal of Engineering & Technology Advancements  2(3): 9-13.

Abstract:

Agribusiness is considered as the significant piece of ways of life for the human species as it's far the fundamental wellspring of food grains what is more, other unrefined materials expected for man or lady. It performs significant part in the advancement of country's financial framework and improvement. It additionally gives large venture openings to everybody. improvement in agrarian section is fundamental for the advancement of monetary nation of the country. The impacts of overall warming make additional extreme for planting in a wild environmental elements. in the customary cultivating approach, ranchers require five star phenomenal of soil with normal mineral qualities. It furthermore calls for running incentive for furrowing and disposal of weeds and furthermore wants a monstrous measure of region and water. on account of occasional vegetation, the yield doesn't fulfil the buyer wishes and the assumption for ranchers in efficiency. For those thought processes, a cultivating strategy which needs lesser necessities in cost part and furthermore it smooth to hold and control the significant components alongside light, water level temperature, and moistness during the year is needed. This proposed compositions presents a Hydroponic cultivating; the procedure of developing blossoms without utilizing daylight and soil. on this methodology, the vegetation are developed with their foundations revealed to the blend of minerals with water instead of underground soil. This procedure is a sort of indoor farming style that is unbiased of climate, and it likewise maintains a strategic distance from the cost of furrowing and difficult work works. Watering and controlling of moistness are achieved with the assistance of a microcontroller bundle associated with wi-fi sensor local area with net which detects the stickiness, temperature and water stage. With the assistance of this IoT innovation, the ongoing popularity of the plant's increment could be observed with the guide of the legitimate individual from a distant district.

References:

[1] C. Joshitha, P. Kanakaraja, K. S. Kumar, P. Akanksha and G. Satish, "An eye on hydroponics: The IoT initiative," 2021 7th International Conference on Electrical Energy Systems (ICEES), 2021, pp. 553-557, doi: 10.1109/ICEES51510.2021.9383694.
[2] R. Vidhya and K. Valarmathi, "Survey on Automatic Monitoring of Hydroponics Farms Using IoT," 2018 3rd International Conference on Communication and Electronics Systems (ICCES), 2018, pp. 125-128, doi: 10.1109/CESYS.2018.8724103.
[3] H. K. Srinidhi, H. S. Shreenidhi and G. S. Vishnu, "Smart Hydroponics system integrating with IoT and Machine learning algorithm," 2020 International Conference on Recent Trends on Electronics, Information, Communication & Technology (RTEICT), 2020, pp. 261-264, doi: 10.1109/RTEICT49044.2020.9315549.
[4] S. Baek, E. Jeon, K. S. Park, K. Yeo and J. Lee, "Monitoring of Water Transportation in Plant Stem With Microneedle Sap Flow Sensor," in Journal of Microelectromechanical Systems, vol. 27, no. 3, pp. 440-447, June 2018, doi: 10.1109/JMEMS.2018.2823380.
[5] Y. Wei, W. Li, D. An, D. Li, Y. Jiao and Q. Wei, "Equipment and Intelligent Control System in Aquaponics: A Review," in IEEE Access, vol. 7, pp. 169306-169326, 2019, doi: 10.1109/ACCESS.2019.2953491.
[6] Y. Takeuchi, "3D Printable Hydroponics: A Digital Fabrication Pipeline for Soilless Plant Cultivation," in IEEE Access, vol. 7, pp. 35863-35873, 2019, doi: 10.1109/ACCESS.2019.2905233.
[7] T. Kaewwiset and T. Yooyativong, "Electrical conductivity and pH adjusting system for hydroponics by using linear regression," 2017 14th International Conference on Electrical Engineering/Electronics, Computer, Telecommunications and Information Technology (ECTI-CON), 2017, pp. 761-764, doi: 10.1109/ECTICon.2017.8096350.
[8] D. Saraswathi, P. Manibharathy, R. Gokulnath, E. Sureshkumar and K. Karthikeyan, "Automation of Hydroponics Green House Farming using IOT," 2018 IEEE International Conference on System, Computation, Automation and Networking (ICSCA), 2018, pp. 1-4, doi: 10.1109/ICSCAN.2018.8541251
[9] Phutthisathian, N. Pantasen and N. Maneerat, "Ontology-Based Nutrient Solution Control System for Hydroponics," 2011 First International Conference on Instrumentation, Measurement, Computer, Communication and Control, 2011, pp. 258-261, doi: 10.1109/IMCCC.2011.260.
[10] Chaotao Liu, Zushu Li and Xiaohui Zeng, "Fuzzy control system for hydroponics cultivating," 2008 7th World Congress on Intelligent Control and Automation, 2008, pp. 7804-7808, doi: 10.1109/WCICA.2008.4594146.
[11] M. Fuangthong and P. Pramokchon, "Automatic control of electrical conductivity and PH using fuzzy logic for hydroponics system," 2018 International Conference on Digital Arts, Media and Technology (ICDAMT), 2018, pp. 65-70, doi: 10.1109/ICDAMT.2018.8376497.
[12] N. K. Bharti, M. D. Dongargaonkar, I. B. Kudkar, S. Das and M. Kenia, "Hydroponics System for Soilless Farming Integrated with Android Application by Internet of Things and MQTT Broker," 2019 IEEE Pune Section International Conference (PuneCon), 2019, pp. 1-5, doi: 10.1109/PuneCon46936.2019.9105847.
[13] C. Peuchpanngarm, P. Srinitiworawong, W. Samerjai and T. Sunetnanta, "DIY sensor-based automatic control mobile application for hydroponics," 2016 Fifth ICT International Student Project Conference (ICT-ISPC), 2016, pp. 57-60, doi: 10.1109/ICT-ISPC.2016.7519235.
[14] C. J. G. Aliac and E. Maravillas, "IOT Hydroponics Management System," 2018 IEEE 10th International Conference on Humanoid, Nanotechnology, Information Technology,Communication and Control, Environment and Management (HNICEM), 2018, pp. 1-5, doi: 10.1109/HNICEM.2018.8666372.
[15] J. Li, Z. Mao, Z. Cao, K. Tei and S. Honiden, "Self-adaptive Hydroponics Care System for Human-hydroponics Coexistence," 2021 IEEE 3rd Global Conference on Life Sciences and Technologies (LifeTech), 2021, pp. 204-206, doi: 10.1109/LifeTech52111.2021.9391909.
[16] K. Tatas, A. Al-Zoubi, A. Antoniou and D. Zolotareva, "iPONICS: IoT Monitoring and Control for Hydroponics," 2021 10th International Conference on Modern Circuits and Systems Technologies (MOCAST), 2021, pp.1-5,doi: 10.1109/MOCAST52088.2021.949338

Keywords:

Hydrophonics, Agriculture, human species, Agribusiness.