Design of Low Power WSN Node in Wild Environment
American Journal of Networks and Communications
Volume 6, Issue 2, April 2017, Pages: 47-53
Received: Apr. 11, 2017; Published: Apr. 12, 2017
Views 1826      Downloads 78
Lu Guoxiu, Department of Information Science, Beijing University of Technology, Beijing, China
Article Tools
Follow on us
This paper proposes a wireless sensor node design method with anti-jamming and low power consumption, to achieve in the field of data collection and data processing. The overall block diagram of the node and the hardware design and software flow design are given. The field environment acquisition system is used as the application scenario. The wireless sensor network node designed by this method can effectively realize the function of the system and ensure the low power consumption and stability of the network. Experiments show that, through hardware design and software design, such nodes are deployed in wireless sensor network (wsn) particularly low power consumption, interference, stability, etc. This method can solve the problem of satisfying the deployment of WSN in the field environment for longer periods of time. It is hoped that the design of this paper will provide some reference value and significance for the later wireless sensor network deployment.
Wireless Sensor Network(WSN), Node Design, Low Power Consumption
To cite this article
Lu Guoxiu, Design of Low Power WSN Node in Wild Environment, American Journal of Networks and Communications. Vol. 6, No. 2, 2017, pp. 47-53. doi: 10.11648/j.ajnc.20170602.12
Cui Xunxue, Zhao Zhan, WANG Cheng. Application and Design Technology of Wireless Sensor Network [M]. Beijing: National Defense Industry Press, 2009, 15-16.
Yan Zhenya, Zheng Baoyu. Wireless sensor networks [J]. Computer Engineering and Applications, 2005, 41 (15): 20-23.
Vrushabendra C, Sic lingam K, Znati T. Wireless sensor networks [N]. Springer, 2004.
Mainwaring A, Pilaster J, Szczuka R, et al. Wireless sensor networks for habitat.
ZigBee PRO Protocol Stack [EB/0L]. [2014].
http://www. Jennica. com/products/protocol stacks/zigbee_pro.
jennet user guide [EB/OL]. [2014].
XIANG H, LEI B. Design of temperature/humidity control system of ammunition storehouse based on intellectual sensor SHT15 [J]. International Electronic Elements, 2006, 1: 019.
Steer D. C, Baptlsta A, et al. Research challenges in environmental observation and forecasting system. Proc.6 ACM/IEEE MobiCOM [C]. NewYork, 2000, 8: 292-299.
D. Culler, D. Estrin, M. Srivastave. Overview of Sensor Networks [J]. IEEE Com Puter, 2004: 41-49.
Jiang Ting, Zhao Chongjin. Purple Bee Technology and Its Application [M]. Beijing: Beijing University of Posts and Telecommunications Press, 2006. 25-27.
IEEE. IEEE Standard for 802.15.4 [EB]., 2003.
Science Publishing Group
NEW YORK, NY 10018
Tel: (001)347-688-8931