IoT Based Agriculture and Transportation Surveillance
Angad H. Singh, Sandip institute of Engineering and Management; Dr. D. P. Patil ,Sandip institute of Engineering and Management; Shashank R. Thombare ,Sandip institute of Engineering and Management; Suraj R. Jadhav ,Sandip institute of Engineering and Management
IoT, Arduino, DHT11, ESP8266, GPS, GSM
This paper gives details about monitoring the different parameters of a greenhouse farming namely temperature, soil moisture & humidity and it also describes how transportation surveillance is important for a proper business through internet of things (IOT). Majority farmers can not accurately detect the level of temperature, humidity, light and water level of the field. The monitoring is observed through the website. The proposed system is an embedded system which is used for microclimatic parameters of a greenhouse which helps in improving of quality of crops or specific plant species results maximum production over crop growth. It also diminishes the difficulties involved in the system by reducing human interrupt to the best possible level. The sensor like DHT11 sense the changing parameters and sends it to the digital pin of the Arduino microcontroller. From the Arduino the sensed parameters such as humidity and temperature values are uploaded to the website at regular interval of time through ESP8266 Wi-Fi module. The sensed parameters can be graphically or virtually made available to monitor by the website which results in becoming the system user friendly, fast in speed, reliable and low cost which eliminates existing setup drawbacks. The transport surveillance system uses GPS & GSM modules which enables the farmer to know the exact location of the vehicle carrying produce from the farm.
-
[1] S.V. Devika. Arduino Based Automatic Plant Watering System. Int. Journal of Advanced Research in Computer Science and Software Engineering Vol. 4, Issue 10, (Part - 3) October 2014, pp.449-456 Vishwanath Naik.s. IoT based Green House Monitoring system. International Journal of Electronics and Communication Engineering & Technology(IJECET) Volume 6, Issue 6, June 2015
[2] Ruchika Taneja Smart Agriculture Monitoring Through Iot. International Journal for Scientific Research and development (IJSRD) Vol.3, Issue No.05, 2015
[3] Prof .C.R. Dongarsane Greenhouse Automation Using Iot. The International Research Journal of Engineering And Technology (IRJET), Volume (01), Issue (01), Jan- 2017
[4] Sayali P.Shelar. A Survey –Smart Green House Android Application. . International Journal of Recent Trends in Engineering And Research, Volume (03), Issue (01), Jan- 2017
[5] R. Nicole, “Title of paper with only first word capitalized,” J. Name Stand. Abbrev. in press.
[6] Y. Yorozu, M. Hirano, K. Oka, and Y. Tagawa, “Electron spectroscopy studies on magneto-optical media and plastic substrate interface,” IEEE Transl. J. Magn. Japan, vol. 2, pp. 740-741, August 1987 [Digests 9th Annual Conf. Magnetics Japan, p. 301, 1982].
[7] M. Young, The Technical Writer’s Handbook. Mill Valley, CA: University Science, 1989.
[8] Adedjouma A.S., Adjovi G., Agaï L. and Degbo B., 2006. A system of remote control car lock with a GSM based geo-location by GPS and GSM. African Journal of Research in Computer Science and Applied Mathematics, Vol.1, pp.1-8.
[9] Agostinho, L., Olivi, L., Feliciano, G. Paolieri, F., Rodrigues, D., Cardozo, E., and Guimaraes, E. (2011). A cloud computing environment for supporting networked robotics applications. In Dependable, Autonomic and Secure Computing (DASC), 2011 IEEE Ninth International Conference on pages 1110 – 1116.
[10] Baille A., Kittas C. et Katsoulas N., 2001. Influence of whitening on greenhouse microclimate and crop energy partitioning. Journal of Agricultural and Forest Meteorology, Vol. 107, pp. 293-306
[11] Benghanem M., 2009. Measurement of meteorological data based on wireless data acquisition system monitoring. Journal of Applied Energy, Vol. 86, pp. 2651-2660
[12] Bouchikhi B., Eddahhak A., El Harzli M. et El Bari N., 2004. The sensors and their role in the measurement of climatic parameters for the management of irrigation water in greenhouse agriculture. International days of Science and Technologies, Cadiz,Tangier
[13] Bouchikhi B., El Harzli M., 2005. Design and realization of acquisition system and climatic parameters control under the greenhouse. Phys & Chem. News, Vol. 22, pp. 45-54
[14] Dae-Heon P. and Jang-Woo P., 2011. Wireless sensor network-based greenhouse environment monitoring and automatic control system for dew condensation prevention. Journal of Sensors, Vol. 11, pp.3640-3651.
[15] Dussion M. F., 1989. Greenhouse and energy. French Agency for Energy Management, p. 96.
[16] Eddahhak A., 2009. Development of a system for monitoring the climate and managing the drip fertilizing irrigation in greenhouse by using LabVIEW software. National PhD, Faculty of Sciences, Meknes, Moulay Ismail University,Morocco
[17] Eddahhak A., Lachhab A., Ezzine L. and Bouchikhi B., 2007. Performance evaluation of a developing greenhouse climate control with a computer system. AMSE Journal Modelling C, Vol. 68, No. 1, pp. 53-64.
[18] El-Fadl A., El Kherrak H., Claustriaux J. et Mounhim H., 1996. Computer aided management of greenhouse climate and influence on the culture of melon in the region of Souss. Choukr-Allah R. (ed.). Protected cultivation in the Mediterranean region. Notebooks Options Mediterranean Vol. 31, pp. 99-108.
[19] El Harzli M., 2009. Study and realization of a multifunctional sensor, heat flux, temperature and humidity. Application to the greenhouse control. National PhD , Faculty of Sciences, Meknes, Moulay Ismail University, Morocco
[20] Hayat Khiyal M. S., Khan A. and Shehzadi E., 2009. SMS Based Wireless Home Appliance Control System (HACS) for Automating Appliances and Security. Issues in Informing Science and Information Technology, Vol. 6, pp.887-8
[21] Lajara R., Alberola J. and Pelegrí-Sebastiá J., 2011. A Solar Energy Powered Autonomous Wireless Actuator Node for Irrigation Systems. Journal of Sensors. Vol.11, pp.329-340. Laszewski, G., Younge, A., He, X., Kunze, M., Tao, J., Fu, C., and Wang, L. Cloud computing: a perspective study. New Generation Computing, 28(2):137–146.
[22] Li X. H., Cheng X., Yan K. and Gong P.,2010. A monitoring system for vegetable greenhouses based on a wireless sensor network. Journal of Sensors,Vol.10,pp.8963-8980
[23] Ji-chun Zhao; Ju-feng Zhang; Yu Feng; Jian-xin Guo, "The study and application of the IOT technology in agriculture," Computer Science and Information Technology (ICCSIT), 2010 3rd IEEE International Conference on, vol.2, no., pp.462,465, 9-11 July 2010.
[24] Uday A, Waykole & Dhiraj G. Agarwal 1st International Conference on Recent Trends in Engineering & Technology, Mar-2012.
Paper ID: GRDJEV03I060003
Published in: Volume : 3, Issue : 6
Publication Date: 2018-06-01
Page(s): 21 - 27
Published in: Volume : 3, Issue : 6
Publication Date: 2018-06-01
Page(s): 21 - 27