Cattle Health Monitoring System Using Arduino and IOT

Authors

  • Galande Sonali. A U.G. Student , HSBPVT’S GOI Faculty of Engineering, Kashti, Maharashtra, India Author
  • Koyate Aishwarya N. U.G. Student , HSBPVT’S GOI Faculty of Engineering, Kashti, Maharashtra, India Author
  • More Bhagyashri. S. U.G. Students, HSBPVT’S GOI Faculty of Engineering, Kashti, Maharashtra, India Author
  • Prof. Gajaphode P. K. Assistant Professor, HSBPVT’S GOI Faculty of Engineering, Kashti, Maharashtra, India Author

DOI:

https://doi.org/10.32628/IJSRSET

Keywords:

Arduino UNO, Sensors, IOT, ESP8266 Wi- Fi module

Abstract

Now a day’s human cannot imagine their life without technology. Surrounding us diverse technologies are helping people to live their lifestyles with more luxury. The era has modified and developed many projects such as Advanced Cattle health Monitoring System using Arduino and IOT. In the Wireless Sensor Based cattle health monitoring system, critical parameters affecting cattle health which includes body temperature, humidity,and heartbeat,are continuously monitored. In this framework, Arduino UNO microcontroller is utilized to sense the various activities of animals like body temperature,humidity and heartbeat. ESP8266 Wi-Fi module is used as transceiver. The thingspeak app is used to display the graph.

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References

S. Divakaran, L. Manukonda, N. Sravya, M.M. Morais and P. Janani, IOT clinic-Internet based patient monitoring and diagnosis system‖, In:2017 IEEE International Conference on Power, Control, Signals and Instrumentation Engineering (ICPCSI). IEEE, 2017. pp. 2858-2862.

D.A. Gurjar and N.A. Sarnaik, Heart attack detection by heartbeat sensing using Internet of Things: IoT‖, Heart, 2018, 5.03.

M.A. Mahant, N.A. Kulkarni, S.A. Mehta, S.R. Nigewan, V.R. Jain, M.A. Mahant and V.R. Jain, Modeled Sensor Database for Internet of Things‖, International Journal, 2017, 4, pp. 65-68.

A. Patil, C. Pawar, N. Patil and R. Tambe, Smart health monitoring system for animals‖ In: 2015 International Conference on Green Computing and Internet of Things (ICGCIoT). IEEE, 2015. pp. 1560-1564.

Y.S. Shih, H. Samani and C.Y. Yang, Internet of Things for human—Pet interaction‖, In: 2016 International Conference on System Science and Engineering (ICSSE). IEEE, 2016. pp. 1-4.

D. Smith, S. Lyle, A. Berry, N. Manning, M. Zaki and A. Neely, Internet of Animal Health Things Opportunities and Challenges‖, University of Cambridge, 2015.

Mekha, P., Dullayachai, K., & Changkamanon, A. (2017, March). Stock recording and cost analyzing system for chicken farm. In 2017 International Conference on Digital Arts, Media and Technology. (pp. 432-436). IEEE.

Goutal, C. M., Keir, I., Kenney, S., Rush, J. E., & Freeman, L. M. (2010). Evaluation of acute congestive heart failure in dogs and cats: 145 cases (2007–2008). Journal of veterinary emergency and critical care, 20(3), 330-337.

K. D. Smith. "A Wearable Cattle Health Monitoring System with an Emphasis on Motion- Based Behavior Assessment," Electrical and Computer Enginnering. Manhattan: Kansas State University, 2006.

Chong, C.Y.; Kumar, S.P.; Hamilton, B.A. sensor networks: Evolution, opportunities and challenges. Proc, IEEE 2003, 91, 1247-1256.

Kwon, O-B.; Kim,J-H. A basic Direction for building radio frequency identification logistics information system. M85; Korea rural economics institute: Seoul, Korea, December 2007.

Pyo, c-s.; Chea, J-S. Next- generation RFID/USN technology development prospects. Korea Inform. Commun. Soc.Inform. Common.2007, 24, 7-13.

http://www.instructables.com/id/How- tointerface-Humidity-and-Temperature-DTH11-http://www.micropik.com/PDF/DHT11.pdf

Kumar, Anuj, and Gerhard P. Hancke. "A Zigbee- based animal health monitoring system." IEEE sensors Journal 15.1 (2015): 610-617.

Mr. S.Jegadeesan& Dr.G.K.D.Prasanna Venkatesan has given an idea about Health monitoring system using ARM7 microcontroller and biological parameter in his paper “Distant Biometry In Cattle Farm Using Wireless SensorNetworks” published in 2017

monitoring system using ARM7 microcontroller and biological parameter in his paper “Distant Biometry In Cattle Farm Using Wireless Sensor Networks” published in 2017

S. Warren, D. Andresen, L. Nagl, S. Schoenig, B. Krishnamurthi, H. Erickson, T. Hildreth, D. Poole, and M. Spire. "Wearable and Wireless: Distributed, Sensor-Based Telemonitoring Systems for State of Health Determination in Cattle," 9th Annual Talbot Informatics Symposium, AVMA Annual Convention, Philadelphia Convention Center, Philadelphia, monitoring system using ARM7 microcontroller and biological parameter in his paper “Distant Biometry In Cattle Farm Using Wireless Sensor Networks” published in 2017

S. Warren, D. Andresen, L. Nagl, S. Schoenig, B. Krishnamurthi, H. Erickson, T. Hildreth, D. Poole, andmonitoring system using ARM7 micro-controller and biological parameter in his ntion Center, Philadelphia,

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Published

18-05-2024

Issue

Section

Research Articles

How to Cite

[1]
Galande Sonali. A, Koyate Aishwarya N., More Bhagyashri. S., and Prof. Gajaphode P. K., “Cattle Health Monitoring System Using Arduino and IOT”, Int J Sci Res Sci Eng Technol, vol. 11, no. 3, pp. 123–130, May 2024, doi: 10.32628/IJSRSET.

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