Wireless Sensor Networks for Agriculture the Stateoftheart in Practice and Future Challenges

Abstruse

Man survival is a huge job of their lives in the lodge. Agriculture is the nigh important part played by the survival of human being civilization. The technological advancement in wireless communication and reduction in size of sensor is innovatively projects in the diverse fields such equally ecology monitoring, precision farming, health intendance, armed forces, smart home, etc. This paper provides an insight into various needs of wireless sensor technologies, wireless sensor motes used in agronomics and challenges involved in deployment of Wireless Sensor Network (WSN). Smart Farming (SF) has been played a major office to heighten more production in the field of agriculture. This article non just focuses on smart farming but also compared with traditional methods in agriculture.

Keywords

• WSN
• Motes
• Irrigation
• Agriculture
• Smart farming
• Traditional farming

References

1. Maohua, W.: Possible adoption of precision agriculture for developing countries at the threshold of the new millennium. Comput. Electron. Agric. 30, 45–50 (2001)

   CrossRef  Google Scholar

2. O'Grady, G.J., O'Hare, G.M.P.: Modeling the smart farm. Inf. Process. Agric. iv, 179–187 (2017)

   Google Scholar

3. Nikolidakis, Due south.A., Kandris, D., Vergados, D.D., Douligeris, C.: Energy efficient automated control of irrigation in agriculture by using wireless sensor networks. Comput. Electron. Agric. 113, 154–163 (2015)

   CrossRef  Google Scholar

4. Yick, J., Mukherjee, B., Ghosal, D.: Wireless sensor network survey. Comput. Netw. 52, 2292–2330 (2008)

   CrossRef  Google Scholar

5. Ruiz-Garcia, L., Lunadei, L., Barreiro, P., Robla, J.I.: A review of wireless sensor technologies and applications in agriculture and food manufacture: state of the fine art and current trends. Sensors 9(6), 4728–4750 (2009)

   CrossRef  Google Scholar

6. Ojha, T., Misra, S., Raghuwanshi, N.S.: Wireless sensor networks for agriculture: the state-of-the-art in practice and time to come challenges. Comput. Electron. Agric. 118, 66–84 (2015)

   CrossRef  Google Scholar

7. Aqeel-ur-Rehman, Abbasi, A.Z., Islam, N., Shaikh, Z.A.: A review of wireless sensors and networks applications in agriculture. Comput. Stand. Interfaces 36, 263–270 (2014)

   Google Scholar

8. Jawad, H.Thou., Nordin, R., Gharghan, S.Thousand., Jawad, A.K., Ismail, M.: Free energy-efficient wireless sensor networks for precision agriculture: a review. Sensors 17(viii), 1781 (2017)

   CrossRef  Google Scholar

9. Misra, Southward., Kumar, M.P., Obaidat, M.S.: Connectivity preserving localized coverage algorithm for area monitoring using wireless sensor networks. Comput. Commun. 34(12), 1484–1496 (2011)

   CrossRef  Google Scholar

10. Misra, S., Vaish, A.: Reputation-based role assignment for role-based access command in wireless sensor networks. Comput. Commun. 34(3), 281–294 (2011)

    CrossRef  Google Scholar

11. Karapistoli, E., Sarigiannidis, P., Economides, A.A.: SRNET: a real-time, cross-based bibelot detection and visualization arrangement for wireless sensor networks. In: Proceedings of the Tenth Workshop on Visualization for Cyber Security, pp. 49–56 (2013)

    Google Scholar

12. Chouikhi, S., Elkorbi, I., Ghamri-Doudane, Y., Saidane, L.A.: A survey on fault tolerance in small and large scale wireless sensor networks. Comput. Commun. 69, 22–37 (2015)

    CrossRef  Google Scholar

13. Corke, P., Hrabar, Due south., Peterson, R., Saripalli, D., Rus, S., Sukhatme, G.: Autonomous deployment and repair of a sensor network using an unmanned aerial vehicle. In: IEEE international conference on robotics and automation, pp. 3602–3608 (2004)

    Google Scholar

14. Chang, C.-Y., Chen, Y.-C., Chang, H.-R.: Obstacle-resistant deployment algorithms for wireless sensor networks. IEEE Trans. Veh. Technol. 58(6), 2925–2941 (2009)

    CrossRef  Google Scholar

15. Baggio, A.: Wireless sensor networks in precision agronomics. In: ACM Workshop on Real-World Wireless Sensor Networks (REALWSN2005), Stockholm, Sweden, (2005)

    Google Scholar

16. Nanda, K., Babu, H., Selvakumar, D.: Smartmote—an innovative autonomous wireless sensor node compages. In: 2014 IEEE International Conference on Electronics, Computing and Advice Technologies (IEEE CONECCT), pp. 1–6 (2014)

    Google Scholar

17. Li, Z., Wang, N., Franzen, A., Godsey, C., Zhang, H., Li, X.: Practical deployment of an in-field soil property wireless sensor network. Comput. Stand up. Interfaces 36(2), 278–287 (2014)

    CrossRef  Google Scholar

18. Xiang, X.: Design of fuzzy drip irrigation control arrangement based on ZigBee wireless sensor network. In: International (CCTA 2010), pp. 495–501

    Google Scholar

19. Dursun, M., Ozden, S.: A wireless application of drip irrigation automation supported by soil moisture sensors. Sci. Res. Essays half dozen(7), pp. 1573–1582 (2011)

    Google Scholar

20. Liang, R., Ding, Y., Zhang, 10.: A real-fourth dimension prediction organization of soil moisture content using genetic neural network based on annealing algorithm. In: IEEE International Conference on Automation and Logistics (ICAL), pp. 2781–2785 (2008)

    Google Scholar

21. Goumopoulos, C., O'Flynn, B., Kameas, A.: Automated zone-specific irrigation with wireless sensor/actuator network and adaptable decision support. Comput. Electron. Agric. 105, 20–33 (2014)

    CrossRef  Google Scholar

22. Xiang, 10.: Design of fuzzy drip irrigation command organization based on ZigBee wireless sensor network. In: International (CCTA 2010), pp. 495–501 (2010)

    Google Scholar

23. Gutierrez, J., Villa-Medina, J.F., Nieto-Garibay, A., Porta-Gandara, M.A.: Automatic Irrigation System Using a Wireless Sensor Network and GPRS Module. IEEE Trans. Instrum. Meas. 63, 166–176 (2013)

    CrossRef  Google Scholar

24. Giusti, E., Marsili-Libelli, S.: A fuzzy conclusion support organisation for irrigation and water conservation in agronomics. Environ. Model. Softw. 63, 73–86 (2015)

    CrossRef  Google Scholar

Download references

Author information

Affiliations

1. Department of Reckoner Science Engineering science, KPR Found of Technology and Technology, Coimbatore, Republic of india

   T. Rajasekaran

2. Section of Information technology, Kongu Technology College, Erode, India

   S. Anandamurugan

Corresponding author

Correspondence to T. Rajasekaran .

Copyright data

© 2019 Springer Nature Singapore Pte Ltd.

Well-nigh this paper

Cite this paper

Rajasekaran, T., Anandamurugan, S. (2019). Challenges and Applications of Wireless Sensor Networks in Smart Farming—A Survey. In: Peter, J., Alavi, A., Javadi, B. (eds) Advances in Big Information and Cloud Computing. Advances in Intelligent Systems and Computing, vol 750. Springer, Singapore. https://doi.org/10.1007/978-981-13-1882-5_30

Download citation

• .RIS
• .ENW
• .BIB

• DOI : https://doi.org/x.1007/978-981-13-1882-5_30

• Published: 12 December 2018

• Publisher Proper name: Springer, Singapore

• Print ISBN: 978-981-thirteen-1881-8

• Online ISBN: 978-981-13-1882-5

• eBook Packages: Intelligent Technologies and Robotics Intelligent Technologies and Robotics (R0)

williamssquess1940.blogspot.com

Source: https://link.springer.com/chapter/10.1007%2F978-981-13-1882-5_30

Share this post