Opulent Futuristic Smart Sensing Garden
DOI:
https://doi.org/10.26438/ijcse/v8i2.3538Keywords:
PIC16F877A, Timer, Moisture sensor, Water level sensor, IR sensor, GSM, Solar panelAbstract
The project proposed here is an automatic public garden system which uses a PIC16F877A controller. The PIC controller is used to control the entire system. The hardware components required for this project are PIC16F877A, timer, battery, DC motor, humidity sensor, relay, solar panel, water level sensor, voice module, IR sensor. The project is an automatic design in which PIC controller controls the entire public garden system like gate, water system, lights and dustbin. Initially, the controller switches ON the entry gate that is opened for certain time, after some time the exit gate will also open. A voice indication is given to alert the public for closing time of garden then both gates will be closed. An IR sensor is fixed in the exit gate which is used to exit the people stuck inside the garden after closing time. Lights are automatically turned ON and OFF using timer. Based on humidity sensor the DC motor will supply water by using water sprinklers. If the water level in tank is beyond a certain fixed level the motor will automatically ON and fills the tank by using water level sensor. For disposal of garbage we introduce a smart garbage system which has two dustbins in which if one dustbin is filled by trash it gets automatically closed and another dustbin will be opened. The filled dustbin is indicated by LED and a message is send to the corresponding authorities for disposal. The overall power supply to the garden is generated and provided internally using a renewable energy.
References
[1] Pawar P M , Pawar S D, Vare J A, “Public garden automation”, Journal of Information, Knowledge and Research in Electronic and Communication, Vol. 4, Issue 02, pp:1446-1449, (2016.
[2] Mr. Mahadev Vilas, Mr. MahanavarSagar, Mr. Ingale Gaurav, Prof. Gawali D.S, “Public Garden Automation Using GSM Technology”, International Journal for Research Trends and Innovation, Vol. 2, Issue 3, pp:100-102, 2017.
[3] S.Abirami, M.Hemalatha, “IOT Based Indoor garden Monitoring System”, International Journal of Contemporary Research in Computer Science and Technology, Vol. 3, Issue 3, pp: 27-29, (2017).
[4] Norakmarbinti Arbain sulaiman, Muhamad Dan Darrawi bin Sadli, “An IoT-based Smart Garden with Weather Station system” IEEE paper 2019, pp: 38-43, 2018.
[5] Ramkumar E, Nagarani S, Roger Rozario A P, Arjunman Banu S, “Tomen: A Plant Monitoring and Smart Gardening System uning IoT”, International Journal of Pure and Applied Mathematics, Vol.199, Special issue, pp:703-709, 2018.
[6] R.B.Thombare, Sawakhande Pranita, Dinde Swati, Patil Swati, “Smart Public Garden by Using Arduino”, International Conference on recent Innovation in Science, Engineering and Management, pp:679-683, 2018.
[7] Mallikarjunaiah H B, Prasanna Kumar, “Soil Characteristic Analysis Using IOT RM”, International journal of computer science and engineering, Vol.7, Special issue 15, 2019.
[8] Soham Datta, Amrita saha, Debabrata paul, Roni jana, Amartya roy, “Realtime Monitoring of Soil Moisture for Automatic plant Watering System”, International journal of computer science and engineering, Vol.7,Special issue 8, 2019
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