Swagatika Panda1,*, Nikhil Sahu2, Yash Jain3, Sasmita Behera4,*
Swagatika Panda and Sasmita Behera
1 Veer Surendra Sai University of Technology, Sambalpur, Odisha, India
Email: [email protected]
2 Veer Surendra Sai University of Technology, Sambalpur, Odisha, India
Email:[email protected]
3 Veer Surendra Sai University of Technology, Sambalpur, Odisha, India
Email: [email protected]
4 Veer Surendra Sai University of Technology, Sambalpur, Odisha, India
Email: [email protected]
*Corresponding Author: Swagatika Panda, Email:[email protected]; Sasmita Behera, Email:[email protected]
Green space usually comes at a price when living in a city. The state of air pollution is escalating globally. A sustainable solution to this problem is to plant more trees, but it's not as simple as it seems. Selecting the right plants that will thrive in the local climate is also important. It has long been known that plants can help in the reduction of pollutants in the air. We introduce a novel solution, Ecorelaf: A Plantation Prediction Application, which leverages the integration of Artificial Intelligence and the Internet of Things (AIoT) for effective environmental monitoring and conservation. Through a network of sensors and IoTs strategically placed to monitor pollution levels, Ecoreleaf collects valuable data on air quality, which is then seamlessly transmitted to a centralized database. Which then calculates the AQI according to the various pollutant levels.Moreover, future levels of the air quality index (AQI) can be predicted using data on air quality.[13] Our Objective is to combine the pollution data i.e. AQI of an area to design a model which predicts suitable plants for that area. ECORELEAF is a user-friendly application designed for keeping Environmental Monitoring and Conservation in mind to bridge the gap between information and action.
IOT, Environmental Monitoring, Air quality, Real time analysis, Conservation
Swagatika Panda, Nikhil Sahu, Yash Jain, Sasmita Behera (2024). ECORELEAF: An IOT based Eco-Solution. Journal of Artificial Intelligence and Systems, 6, 124–134. https://doi.org/10.33969/AIS.2024060109.
[1] Toma C, Alexandru A, Popa M, Zamfiroiu A. IoT Solution for Smart Cities' Pollution Monitoring and the Security Challenges. Sensors (Basel). 2019 Aug 2; 19(15):3401. Doi: 10.3390/s19153401. PMID: 31382512; PMCID: PMC6696184.
[2] H. N. Saha et al., "Pollution control using Internet of Things (IoT)," 2017 8th Annual Industrial Automation and Electromechanical Engineering Conference (IEMECON), Bangkok, Thailand, 2017, pp. 65-68, doi: 10.1109/IEMECON.2017.8079563.
[3] Roseline, R., Devapriya, M. and Sumathi, P. (2013) Pollution Monitoring Using Sensors and Wireless Sensor Networks: A Survey. International Journal of Application or Innovation in Engineering & Management, 2, 119-124.
[4] S. Muthukumar, W. Sherine Mary, S. Jayanthi, R. Kiruthiga and M. Mahalakshmi, "IoT Based Air Pollution Monitoring and Control System," 2018 International Conference on Inventive Research in Computing Applications (ICIRCA), Coimbatore, India, 2018, pp. 1286-1288, doi: 10.1109/ICIRCA.2018.8597240.
[5] Anand Jayakumar A, Praviss Yesyand T K, Venkstesh Prashanth K K, Ramkumar K, “IoT Based Air Pollution Monitoring System,” International Research Journal of Engineering and Technology (IRJET), vol. 8, no. 3, pp. 2458-2462, March, 2021.
[6] Raja Vara Prasad Y. et al. (2011) Real Time Wireless Air Pollution Monitoring System. ICTACT Journal on Communication Technology, 2, 370-375.
[7] C. Xiaojun, L. Xianpeng and X. Peng, "IOT-based air pollution monitoring and forecasting system," 2015 International Conference on Computer and Computational Sciences (ICCCS), Greater Noida, India, 2015, pp. 257-260, doi: 10.1109/ICCACS.2015.7361361.
[8] Ben Coxworth. Portable sensor lets users monitor air pollution on their smartphone. https://newatlas.com/citisense-air-quality-monitor/25512/.
[9] I.F. Akyildiz, W. Su, Y. Sankarasubramaniam, E. Cayirci. (2002) Wireless sensor networks: a survey. Computer Networks, 38, pp. 393-422, doi: https://doi.org/10.1016/S1389-1286(01)00302-4.
[10] D. Culler, D. Estrin and M. Srivastava, "Guest Editors' Introduction: Overview of Sensor Networks," in Computer, vol. 37, no. 8, pp. 41-49, Aug. 2004, doi: 10.1109/MC.2004.93.
[11] Nowak, D. J., Crane, D. E. (2007). Trees, Air Quality, and Human Health: A review. Environmental Pollution, 147(3), 391-407.
[12] S. Manna, S. S. Bhunia and N. Mukherjee, "Vehicular pollution monitoring using IoT," International Conference on Recent Advances and Innovations in Engineering (ICRAIE-2014), Jaipur, India, 2014, pp. 1-5, doi: 10.1109/ICRAIE.2014.6909157.
[13] S. Dhingra, R. B. Madda, A. H. Gandomi, R. Patan and M. Daneshmand, "Internet of Things Mobile–Air Pollution Monitoring System (IoT-Mobair)," in IEEE Internet of Things Journal, vol. 6, no. 3, pp. 5577-5584, June 2019, doi: 10.1109/JIOT.2019.2903821.
[14] Caubel JJ, Cados TE, Kirchstetter TW. A New Black Carbon Sensor for Dense Air Quality Monitoring Networks. Sensors. 2018; 18(3):738. https://doi.org/10.3390/s18030738.
[15] H. Gupta, D. Bhardwaj, H. Agrawal, V. A. Tikkiwal and A. Kumar, "An IoT Based Air Pollution Monitoring System for Smart Cities," 2019 IEEE International Conference on Sustainable Energy Technologies and Systems (ICSETS), Bhubaneswar, India, 2019, pp. 173-177, doi: 10.1109/ICSETS.2019.8744949.