Design and Application of Agricultural Integrated Management System Based on TLINK
Article Sidebar
Main Article Content
Abstract
With the continuous advancement of science and technology, the era of the Internet of Everything has arrived. Agricultural management is becoming more and more intelligent and refined. Agricultural Internet of Things technology is vital in data collection, transmission, user management, etc. To achieve a highly integrated and low-cost smart agriculture with data display. This paper designs an intelligent agricultural management system based on low-cost ESP8266 WIFI Internet of Things technology, aiming to transform traditional agricultural management into a smart, remote, and data-user collaborative mode. The system integrates sensor nodes such as temperature, humidity, light, and carbon dioxide to replace traditional industrial sensors for real-time agricultural environmental data collection, which can realise the automation of irrigation, ventilation, temperature control, lighting, etc. It can start the ecological control system through local voice control. WIFI data transmission, data management through the TLINK cloud platform, PC or mobile phone APP, online remote data viewing and control at any time for agricultural management. The experimental results show that the system has good stability, reliability, high integration, strong environmental adaptability, accurate data, and less packet loss. It dramatically reduces the cost of intelligent agricultural management and construction difficulty, bringing users higher economic benefits.
Article Details
This work is licensed under a Creative Commons Attribution 4.0 International License.
Journal of Studies in Science and Engineering is licensed under a Creative Commons Attribution License 4.0 (CC BY-4.0).
References
A. Soussi, E. Zero, R. Sacile, D. Trinchero, and M. Fossa, "Smart Sensors and Smart Data for Precision Agriculture: A Review," Sensors, vol. 24, no. 8, p. 2647, 2024.
M. S. Farooq, S. Riaz, A. Abid, K. Abid, and M. A. Naeem, "A Survey on the Role of IoT in Agriculture for the Implementation of Smart Farming," Ieee Access, vol. 7, pp. 156237-156271, 2019.
M. Ayaz, M. Ammad-Uddin, Z. Sharif, A. Mansour, and E.-H. M. Aggoune, "Internet-of-Things (IoT)-based smart agriculture: Toward making the fields talk," IEEE access, vol. 7, pp. 129551-129583, 2019.
P. Kumar et al., "Role of artificial intelligence, sensor technology, big data in agriculture: next-generation farming," in Bioinformatics in agriculture: Elsevier, 2022, pp. 625-639.
Y. Lan, S. J. Thomson, Y. Huang, W. C. Hoffmann, and H. Zhang, "Current status and future directions of precision aerial application for site-specific crop management in the USA," Computers and electronics in agriculture, vol. 74, no. 1, pp. 34-38, 2010.
B. Kasenzu, "Role of Precision Agriculture Technologies in Enhancing Farm Productivity in Kenya," American Journal of Agriculture, vol. 6, no. 2, pp. 1-12, 2024.
R. K. Sidhu, R. Kumar, P. S. Rana, and M. Jat, "Automation in drip irrigation for enhancing water use efficiency in cereal systems of South Asia: Status and prospects," Advances in agronomy, vol. 167, pp. 247-300, 2021.
A. Monteiro and S. Santos, "Sustainable approach to weed management: The role of precision weed management," Agronomy, vol. 12, no. 1, p. 118, 2022.
M. A. Muhammad, Y. Panuju, H. Prayitno, R. A. Pradipta, and G. I. Akbar, "Internet of Things Ultraviolet Sterilizer Receiver Box: How to Design and Construct?," International Journal of Electronics and Communications System, vol. 1, no. 2, 2021.
S. S. Shareef and H. L. Rauf, "Integrating Internet of Things Technologies for Dynamic Sustainability in Architectural Design," Emerging Technologies and Engineering Journal, vol. 1, no. 1, pp. 26-42, 2024.
L. De Nardis, A. Mohammadpour, G. Caso, U. Ali, and M.-G. Di Benedetto, "Internet of things platforms for academic Research and Development: A critical review," Applied Sciences, vol. 12, no. 4, p. 2172, 2022.
M. Junaid et al., "Smart agriculture cloud using AI based techniques," Energies, vol. 14, no. 16, p. 5129, 2021.
E. Kapua. (2024, 06 November). Eclipse Kapua Platform. Available: https://projects.eclipse.org/projects/iot.kapua
FIWARE. (2024, 12 January). FIWARE. Available: https://www.fiware.org/
K. Project. (2024, 06 November). Kaa 0.10 Open Source Platform. Available: https://www.kaaiot.com/kaa-open-source
Lelylan. (2024, 06 November). Lelylan. Open Source Internet of Things. Available: https://github.com/lelylan/lelylan
Macchina.io. (2024, 06 November). Macchina. io—IoT Edge Device Software Development and Secure Remote Access Solutions. Available: https://macchina.io/index.html
OpenMTC. (2024, 06 November). OpenMTC. Available: http://www.open-mtc.org/
TLINK.io. (2024, 06 November). TLINK.io Tutorial. Available: https://www.tlink.io/help.htm?menu=2
M. S. Mekala and P. Viswanathan, "A Survey: Smart agriculture IoT with cloud computing," in 2017 international conference on microelectronic devices, circuits and systems (ICMDCS), 2017, pp. 1-7: IEEE.
Z. Xu, W. Wu, Y. Cai, X. Liu, and Y. Jiang, " A New Wearable Brace Monitoring Multiple Physiological Parameters Based on the Nb-Iot Technique," Journal of Mechanics in Medicine and Biology, vol. 22, no. 08, p. 2240041, 2022.
X. Zhao, B. Li, L. Zhang, Y. Wang, Y. Zhang, and R. Chen, "FPGA implementation of high-efficiency ECC point multiplication circuit," Electronics, vol. 10, no. 11, p. 1252, 2021.
A. H. Ali, R. F. Chisab, and M. J. Mnati, "A smart monitoring and controlling for agricultural pumps using LoRa IOT technology," Indonesian Journal of Electrical Engineering and Computer Science, vol. 13, no. 1, pp. 286-292, 2019.
G. Dinesh, A. K. Gupta, M. Nagaseshireddy, P. D. Prasanna, M. S. Varshini, and K. Gowtham, "LoRa-Powered Smart Agriculture System for Monitoring and Controlling," in 2024 IEEE Wireless Antenna and Microwave Symposium (WAMS), 2024, pp. 1-6: IEEE.
K. Elhattab and K. Abouelmehdi, "Intelligent agriculture system using low energy and based on the use of the internet of things," Bulletin of Electrical Engineering and Informatics, vol. 13, no. 2, pp. 1286-1297, 2024.
L. Niu, "Design of intelligent agricultural environmental big data collection system based on ZigBee and NB-IoT," in 2023 IEEE 2nd International Conference on Electrical Engineering, Big Data and Algorithms (EEBDA), 2023, pp. 1299-1304: IEEE.
İ. Ünal, "Integration of ZigBee based GPS receiver to CAN network for precision farming applications," Peer-to-Peer Networking and Applications, vol. 13, no. 5, pp. 1394-1405, 2020.
M. A. J. Hidayat and A. Z. Amrullah, "Sistem kontrol dan monitoring tanaman hidroponik berbasis Internet of things (IoT) menggunakan NodeMCU ESP32," Jurnal Saintekom: Sains, Teknologi, Komputer Dan Manajemen, vol. 12, no. 1, pp. 23-32, 2022.
T. Sutikno, A. N. Wahyudi, T. Wahono, W. Arsadiando, and H. S. Purnama, "Smart irrigation system using node microcontroller unit ESP8266 and Ubidots cloud platform," Computer Science and Information Technologies, vol. 5, no. 2, pp. 168-175, 2024.
A. A. Abd Halim, R. Mohamad, F. Y. A. Rahman, H. Harun, and N. M. Anas, "IoT based smart irrigation, control, and monitoring system for chilli plants using NodeMCU-ESP8266," Bulletin of Electrical Engineering and Informatics, vol. 12, no. 5, pp. 3053-3060, 2023.
A. Buxoo and A. P. Murdan, "A Smart Approach to Parking Management using LoRa Communication," in 2024 1st International Conference on Smart Energy Systems and Artificial Intelligence (SESAI), 2024, pp. 1-6: IEEE.
M. S. A. Alrubaye, A. As’arry, M. A. Azman, M. Z. M. Yusoff, K. A. M. Rezali, and A. Zolfagharian, "Monitoring and Prediction of Air Quality System using Internet of Things (IoT)," Journal of Advanced Research in Applied Sciences and Engineering Technology, vol. 48, no. 1, pp. 61-76, 2024.
N. S. Mohammed and N. H. Selman, "Home energy management and monitoring using ubidots platform," Al-Furat Journal of Innovations in Electronics and Computer Engineering, vol. 1, no. 3, pp. 14 - 21, 2023.
A. K. Singh, "Smart Farming: Applications of IoT in Agriculture," in Handbook of Smart Materials, Technologies, and Devices: Applications of Industry 4.0: Springer, 2022, pp. 1655-1687.
A. A. Rahim, R. Mohamad, N. I. Shuhaimi, and W. C. Buclatin, "Real-time soil monitoring and irrigation system for taro yam cultivation," Indonesian Journal of Electrical Engineering and Computer Science, vol. 32, no. 2, pp. 1042-1049, 2023.
S. Çeven, E. Küçükkülahli, A. Albayrak, and Y. Biçen, "Development of IoT Based Battery Management System," in 2021 2nd International Informatics and Software Engineering Conference (IISEC), 2021, pp. 1-5: IEEE.
L. Meili and B. Yankang, "Embedded automatic control system for temperature, humidity and light intensity in agricultural greenhouses," in Proceedings of the 2nd International Symposium on Computer Science and Intelligent Control, 2018, pp. 1-5.