Sujata Bhavikatti; Sadanand P; Mukta Patil; Pradeep Vibhuti; Shailaja S.Mudengudi

Automated Roof Top Plant Growth Monitoring System in Urban Areas

Full Text (PDF, 381KB), PP.14-23

Views: 0 Downloads: 0

Author(s)

Sujata Bhavikatti ¹ Sadanand P ¹ Mukta Patil ¹ Pradeep Vibhuti ¹ Shailaja S.Mudengudi ¹

1. Department of Information Science and Engineering, Dayananda Sagar College of Engineering, Tontadarya College of Engineering, Gadag, Karnataka, India

* Corresponding author.

DOI: https://doi.org/10.5815/ijem.2019.06.02

Received: 29 Jul. 2019 / Revised: 18 Sep. 2019 / Accepted: 15 Oct. 2019 / Published: 8 Nov. 2019

Index Terms

Roof top gardening, Robot, Sensor, Height.

Abstract

Innovation is progressing at a quick pace so it is required to utilize it in an each fields to have the coveted and appropriate yield. Present day's robots are winding up plainly more well-known and are progressively depend upon embrace schedule, regularly dull errands which are costly to do utilizing generously compensated labor. Because of the expanded populace and urbanization less space found for cultivating particularly in urban regions. There is a need of self-creating of slightest individual prerequisites. To fulfill ordinary demand in green vegetables and love towards their indoor and outside plants can be expert through urban rooftop gardening. This paper clarifies essential assignments of checking and detailing the development status of plants in urban rooftop gardening. We execute the customary checking of plants development. Height of the plant is one of the parameter to decide the growth of the plant. The tallness of the plant is more than the predetermined typical height in the program; robot shows that as overgrown, if there is no development discovered robot will show that as vacant slot. For identifying the development of the plant we utilize Sharp GP2D12 sensor, three white line sensors of ATMEGA 2560 FIREBIRD V to take after the arena of cultivation slots.

Cite This Paper

Sujata Bhavikatti, Sadanand P, Mukta Patil, Pradeep Vibhuti, Shailaja S.Mudengudi. "Automated Roof Top Plant Growth Monitoring System in Urban Areas", International Journal of Engineering and Manufacturing(IJEM), Vol.9, No.6, pp.14-23, 2019. DOI: 10.5815/ijem.2019.06.02

Reference

[1] Madhumitha A and Sanjeeve Kumar S [1] have proposed Zigbee Based Monitoring System for Intelligent Green Roof Ecosystems International Journal of Innovative Research in Science, Engineering and Technology Volume 5, Special Issue 11, May 2016

[2] Bandri Manoj et.al Urban Rooftop Farm Monitoring System (URFMS) using WSN in Environmental Sustainability: Concepts, Principles, Evidences and Innovations - ISBN: 978-93-83083-75-6

[3] Gayatri Sakya and Ankit Gautam Smart Agriculture System using Adhoc Networking among Firebird V Bots in 6th International Conference on Innovative Research in Engineering Science and Management (ICIRESM-16) at The Institutions of Electronic and Telecommunication Engineers (IETE), Lodhi Road, New Delhi, Delhi, India on 9th October 2016 ISBN: 978-81-932712-8-5

[4] Anusha P and Dr. Shobha K R, Design and Implementation of Wireless Sensor Network for Precision Agriculture in International Journal of Scientific Engineering and Applied Science (IJSEAS) - Volume-1, Issue-4, July 2015 ISSN: 2395-3470.

[5]e-yantran IIT bombay learning resources from http://tbt2016.e-yantra.org/

[6]http://www.nex-robotics.com/products/fire-birdv-robots/fire-bird-v-atmega2560-roboticresearch -platform. html.

[7] Fire Bird V ATMEGA2560 Hardware Manual 2010-12-21.pdf.

[8] https://www.arduino.cc/en/Main/ArduinoBoard Mega250

[9]http://www.atmel.com/Images/Atmel-2549-8-bit-AVR-Microcontroller-ATmega640-1280-1281-2560-25 61_datasheet.pdf

[10]Rohit Kelkar et.al Automation of Library System Using Firebird V in International Journal of Engineering Research in Electronics and Communication Engineering (IJERECE) Vol 3, Issue 8, August 2016

[11]Xiaoxue Yang, "Design and Implementation of Intelligent Urban Irrigation System", IEEE 2nd International Conference on Software Engineering and Service Science (ICSESS), pp. 461 -46, July 2011.

[12]Prem, & Vazhacharickal, Prem. (2014).” BALCONY AND TERRACE GARDENS IN URBAN GREENING AND LOCAL FOOD PRODUCTION: SCENARIOS FROM MUMBAI METROPOLITAN REGION (MMR), INDIA”. 4. 149-162.

[13]Vairamoorthy, Pandiyaraju & Perumal, P.Shunmuga & Arputharaj, Kannan & Lakshmanan, Sairamesh. (2017). Smart terrace gardening with intelligent roof control algorithm for water conservation. Pakistan Journal of Agricultural Sciences. 54. 451-455. 10.21162/PAKJAS/17.4903.

[14] M, SharathKumar & R, Surendranath & Kumar, N.. (2012). Terrace garden a boon for greening India.

[15]T T, Anitson & Saji, Jaison & Dubey, Rahul & Saravanakumar, K. (2017). Food Computer Automated Gardening System.

[16] Đuzić, Nermin & Đumić, Dalibor. (2017). Automatic Plant Watering System via Soil Moisture Sensing by means of Suitable Electronics and its Applications for Anthropological and Medical Purposes. Collegium Antropologicum. 41. 169-172.

International Journal of Engineering and Manufacturing (IJEM)