IOT based Solar Powered with USB Port of Smart Home Gardening System for Greener Plants

IOT based Solar Powered with USB Port of Smart Home Gardening System for Greener Plants

© 2022 by IJETT Journal
Volume-70 Issue-8
Year of Publication : 2022
Authors : Adam Wong Yoon Khang, Ahmad Fairuz Bin Muhammad Amin, Thiagu A/L Dewaras, Johar Akbar Bin Mohamat Gani
DOI : 10.14445/22315381/IJETT-V70I8P227

How to Cite?

Adam Wong Yoon Khang, Ahmad Fairuz Bin Muhammad Amin, Thiagu A/L Dewaras, Johar Akbar Bin Mohamat Gani, "IOT based Solar Powered with USB Port of Smart Home Gardening System for Greener Plants," International Journal of Engineering Trends and Technology, vol. 70, no. 8, pp. 256-263, 2022. Crossref,

The Internet of Things (IoT) is part of the application domain that provides mechanisms and methods to interconnect processes and technology to automate real-life activities such as home gardening. However, in urban areas, people interested in gardening are always busy with their daily life, causing the plants to be left without proper care, leading to abnormal growing conditions. Henceforth, this paper describes a system that proposes a home gardening turned intelligence that results in a fully automated home gardening via an Arduino Uno as the key controller. In addition, an android application is designed so that users can observe the parameters of the plant in real-time, such as power level, soil moisture level, water level and plant height. Thus, using the IoT coupled with solar power USB charger for remotely supervising the solar battery level and parameters of the plant anytime and anywhere. As a result, this system can significantly enhance the performance, monitoring and preservation of the garden plants. In the meantime, users will also be able to handle their plants with minimum human intervention regarding health and growth based on resource-efficient energy usage.

USB, Urban, MIT, Arduino, IoT

[1] M. Domb, “Smart Home Systems Based on Internet of Things,” Internet of Things (Iot) for Automated and Smart Applications. London, in:Y. Ismail (Ed.), United Kingdom: Intechopen, pp. 1-152, 2019.
[2] Nižetić, Sandro Et Al., “Internet of Things (Iot): Opportunities, Issues and Challenges Towards a Smart and Sustainable Future,” Journal of Cleaner Production, vol. 274, pp. 1-132, 2020.
[3] Mouha, R, “Internet of Things (Iot),” Journal of Data Analysis and Information Processing, vol.9, no.2, pp.77-101, 2021.
[4] Salih Kom, Rashid Ta, Radovanovic D, Bacanin N. A Comprehensive Survey on the Internet of Things with the Industrial Marketplace, Mdpi Journal of Sensors, vol.22, no.3, pp.1-31, 2022.
[5] Richard Thompson, “Gardening for Health: A Regular Dose of Gardening,” Journal of Clinical Medicine (London, England), vol. 18, no.3, , pp. 201-205, 2018.
[6] Borowski, Piotr F, “Management of Energy Enterprises in Zero-Emission Conditions: Bamboo as an Innovative Biomass for the Production of Green Energy By Power Plants,” Mdpi Journal of Energies, vol.15, no.5, pp.1-16, 2022.
[7] Singh, Aditi Et Al., “Traditional Nutritional and Health Practices Targeting Lifestyle Behavioral Changes In Humans,” Journal of Lifestyle Medicine, vol.10, no.2, pp.67-73, 2020.
[8] Ansari S, Ayob A, Lipu Msh, Saad Mhm, Hussain A, “A Review of Monitoring Technologies for Solar Pv Systems Using Data Processing Modules and Transmission Protocols: Progress, Challenges and Prospects,” Journal of Sustainability, vol. 13, no.15, pp. 2- 34, 2021.
[9] Penzenstadler B, Khakurel J, Plojo Cj, Sanchez M, Marin R, Tran L, Resilient Smart Gardens—Exploration of A Blueprint,” Journal of Sustainability, vol.10, no.8, pp.1-25, 2018.
[10] Dwivedi, Y. K., Ismagilova, E., Hughes, D. L., Carlson, J., Filieri, R., Jacobson, J., & Wang, Y., “Setting the Future of Digital and Social Media Marketing Research: Perspectives and Research Propositions,” International Journal of Information Management, vol.59 , pp.23-32, 2021.
[11] Imran Ali Lakhiar, Gao Jianmin, Tabinda Naz Syed, Farman Ali Chandio, Noman Ali Buttar, Waqar Ahmed Qureshi, “Monitoring and Control Systems in Agriculture Using Intelligent Sensor Techniques: A Review of the Aeroponic System,” Journal of Sensors, vol.2018 , pp. 1-18, 2018.
[12] Mohd Javaid, Abid Haleem, Ravi Pratap Singh, Rajiv Suman, “Substantial Capabilities of Robotics in Enhancing Industry 4.0 Implementation,” Journal of Cognitive Robotics, vol, pp. 58-75, 2021.
[13] Jim Torresen, “A Review of Future and Ethical Perspectives of Robotics and Ai,” Journal of Frontiers inn Robotics and Ai, vol.4 , pp. 1-10, 2018.
[14] Tanha Talaviya, Dhara Shah, Nivedita Patel, Hiteshri Yagnik, Manan Shah, “Implementation of Artificial Intelligence in Agriculture for Optimisation of Irrigation and Application of Pesticides and Herbicides,” Journal of Artificial Intelligence in Agriculture, vol. 4 , pp.58-73, 2020.
[15] Boretti and S. Florentine, “Atmospheric Co2 Concentration and Other Limiting Factors in the Growth of C3 and C4 Plants,” Mdpi Journal of Plants, vol. 8, no.4, pp. 1-11, 2014.
[16] Mesbahi, M.R., Rahmani, A.M. & Hosseinzadeh, M, Reliability and High Availability in Cloud Computing Environments: A Reference Roadmap, Journal of Hum. Cent. Comput. Inf. Sci, vol. 8, no.20 , pp.1-31, 2018.
[17] Roderick Tingzon and Meljohn Aborde, “Digital Garden System Using Arduino,” Journal for Engineering, Technology, and Sciences, vol.87, no.1, pp. 138-167, 2022.
[18] Tabuenca, Bernardo & García-Alcántara, Vicente & Gilarranz-Casado, Carlos & Barrado-Aguirre, Samuel, “Fostering Environmental Awareness With Smart Iot Planters In Campuses,” Mdpi Journal of Sensors, vol. 20, no.2227, pp. 1-19, 2020.
[19] Othaman, N. N. C, Isa, M. N. Md, Hussin, R, Zakaria, S. M. M. S, Isa, M. M, “Iot Based Soil Nutrient Sensing System for Agriculture Application,” International Journal of Nanoelectronics & Materials. 14(Special Issue) , pp. 279-288, 2021.
[20] T. Alison, T. Kelly, C. Matthew, E. D. Eldin, F. Andrew, A.S. Pedro, P., William, “Comparing Nadir and Multi-Angle View Sensor Technologies for Measuring In-Field Plant Height of Upland Cotton,” Mdpi Journal of Remote Sensing, vol. 11, no.6, pp. 1-19, 2021.
[21] Aluthgama Acharige, Raneesha & Halgamuge, Malka & Wirasagoda, Hemika & Syed, Ali, “Adoption of the Internet of Things (Iot) in Agriculture and Smart Farming Towards Urban Greening: A Review,” International Journal of Advanced Computer Science and Applications, vol.10, no.4, pp.11-28, 2019.
[22] S. Trilles, A. González-Pérez, and J. Huerta, “A Comprehensive Iot Node Proposal Using Open Hardware,” A Smart Farming Use Case to Monitor Vineyards, Mdpi Journal of Electronics, vol.7, no.12, pp. 1-31, 2018.
[23] Aleksandr Ometov, Viktoriia Shubina, Lucie Klus, Justyna Skibińska, Salwa Saafi, Pavel Pascacio, Laura Flueratoru, Darwin Quezada Gaibor, Nadezhda Chukhno, Olga Chukhno, Asad Ali, Asma Channa, Ekaterina Svertoka, Waleed Bin Qaim, Raúl Casanova-Marqués, Sylvia Holcer, Joaquín Torres-Sospedra, Sven Casteleyn, Giuseppe Ruggeri, Giuseppe Araniti, Radim Burget, Jiri Hosek, Elena Simona Lohan, “A Survey on Wearable Technology: History, State-of-the-Art and Current Challenges,” Elsevier Journal of Computer Networks, vol. 193, pp.1-37, 2021.
[24] Patton, E. W., Tissenbaum, M., & Harunani, F, Mit App Inventor: Objectives, Design, and Development, 1st Ed., In S. C. Kong & H. Abelson (Eds.), Book Springer of Computational Thinking Education, Singapore: Springer, pp. 31-49, 2019.
[25] Dolf Gielen, Francisco Boshell, Deger Saygin, Morgan D. Bazilian, Nicholas Wagner, Ricardo Gorini, “the Role of Renewable Energy In the Global Energy Transformation,” Elsevier Journal of Energy Strategy Reviews, vol.24 , pp.38-50, 2019.
[26] Tamoor, Muhammad & Zakaullah, Paris & Mobeen, Mehwish & Zaka, Muhammad, “Solar Powered Automated Irrigation System in Rural Area and Their Socio Economic and Environmental Impact,” International Journal of Sustainable Energy and Environmental Research, vol.10, no.1, pp.17-28, 2021.
[27] T. Y. Kyaw and A. K. Ng, “Smart Aquaponics System for Urban Farming,” Journal of Energy Procedia, vol.143, pp.342–347, 2017.
[28] T. Thamaraimanalan, S. P. Vivekk, G. Satheeshkumar, and P. Saravanan, “Smart Garden Monitoring System Using Iot,” Asian Journal of Applied Science and Technology, vol.2, no.2, pp.186–192, 2018.
[29] K. Rawala, and G. Gabranib, “ Iot Based Computing to Monitor Indoor Plants by Using Smart Pot,” In 3rd International Conference on Innovative Computing and Communication, pp. 1-4, 2020.
[30] Akinwole O.O, Adeoye O.S, "Designing Embedded Systems with Arduino Microcontrollers: A Way Forward for Technological Advancement in Nigeria" SSRG International Journal of Electrical and Electronics Engineering 7.3 (2020): 1-5. Crossref,