Study of the Wireless Sensor Networks Radio Frequency Signal Loss Based on Different Planting Density Corn Environment

Tai Hao Li; He Pan

doi:10.4028/www.scientific.net/AMM.427-429.2771

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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 427-429Study of the Wireless Sensor Networks Radio...

Study of the Wireless Sensor Networks Radio Frequency Signal Loss Based on Different Planting Density Corn Environment

Abstract:

In order to rationally arranged cornfield wireless sensor network nodes, fields of corn are studied in the loss of signal of 2.4GHZ wireless sensor radio frequency signal, and selecting 3 levels of planting density carries out the field random test with the transmission distance and antenna height as influencing factors, environmental impact factors and antenna height exist linear relationship, establishing the mathematical model.

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Periodical:

Applied Mechanics and Materials (Volumes 427-429)

Pages:

2771-2773

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.427-429.2771

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Online since:

September 2013

Authors:

Tai Hao Li*, He Pan

Keywords:

Corn Field, Planting Density, Signal Loss, Wireless Sensor Network (WSN)

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* - Corresponding Author

References

[1] Luo Xiwen, Zang Ying, Zhou Zhiyan. Research progress of agricultural information collection technology in precision agriculture [J]. Journal of agricultural engineering, 2011, 22 (1): 167-173.

Google Scholar

[2] Wen Tao. RF signal propagation test of wireless sensor network under the different node deployment [J]. Journal of Chinese agricultural engineering mode, 2010, 26 (6): 211-214.

Google Scholar

[3] Akyldiz I F, Su W, Sankarasubramaniam Y, et al. A survey on sensor networks[J]. IEEE Comm Mag, 2002, 40(8): 102-114.

Google Scholar

[4] Sikka P, Corke P, Valencia P, et al. Wireless ad hoc sensor and actuator networks on the farm [C]. IEEE the Fifth International Conference on Information Processing in Sensor Networks. New York: ACM, 2011: 492-499.

DOI: 10.1109/ipsn.2006.243938

Google Scholar

[5] Li Siyu, Gao Hongju, Jiang Jianzhao. Antenna height on the effect of 2. 4GHz wireless channel propagation characteristics [J]. Journal of agricultural engineering, 2010 (25): 184 -189.

Google Scholar

[6] Hebel M A, Tate R, Watson D G. Results of wireless sensor network transceiver testing for agricultural applications [C]. 2010 ASABE Annual International Meeting, 2011 (3): 276 -283.

DOI: 10.13031/2013.23186

Google Scholar

[7] MENGYS, LEEYH, HGBC. Empirical near ground path loss modeling in forest a ground path loss modeling in a forest a VHFand UHF bands [J]. IEEE transactions on antennas and propagation, 2011, 57(5): 1461-1468.

DOI: 10.1109/tap.2009.2016703

Google Scholar

[8] Liu Hui, Wang Maohua, Meng Zhijun. The test of short-range radio propagation properties in the environment field [J]. Jiangsu newspaper, 2010, 31 (1): 1-5.

Google Scholar