Greenhouse Agricultural Machinery Indoor Positioning Method

The agricultural machinery positioning, dynamic tracking and working area calculation in greenhouse were focused on, and an optimum indoor positioning algorithm was proposed based on multi-source data fusion theory. The above method firstly relied on inertia navigation measurement technology to estimate initial value of target positioning; then wireless RSSI ranging technology and weighted centroid algorithm were adopted to obtain positioning measurements; and optimum calculation was conducted with Kalman filtering algorithm to eliminate errors in the end, which were common in present measurement using single measurement technology and caused by data drift, signal obstruction, electromagnetic interference and other factors, in order to acquire accurate positioning information, realize real-time dynamic tracking and calculate working area. In Matlab simulation analysis, the positioning algorithm evaluation indexes were established to assess positioning effect and it was found that the proposed algorithm had better positioning accuracy and stability than single wireless RSSI indoor positioning algorithm. In the field test, the results showed that indoor positioning accuracy was not more than 0.125m and error was less than 0.4%, which could effectively meet demands of agricultural machinery positioning and real-time dynamic tracking in greenhouse.

Keywords: greenhouse, agricultural machinery, positioning, working track, multi source data fusion, Kalman filtering

1 LUTIIY К A, E GRANT D, HENDERSON T C. Leveraging RSSI for robotic repair of disconnected wireless sensor networks[ C] // Proceedings of 2007 IEEE International Conference on Robotics and Automation, 2007 : 10 - 14.

KWON О H, SONG II J, SANGJOON P. The effects of stitching orders in patch-and-stitch WSNs localization algorithms [J ]. IEEE Transactions on Parallel and Distributed Systems,2009 ,20(9) ; 1380 - 1391.

XU Yubin, DENG Zhian, MA Lin. WLAN indoor positioning algorithm based on KDDA and SVR [ J ]. Journal of Electronic & Information Technology, 201 1 ,33(4) ;896 -901. (in Chinese)

DENG Binwei, HUANG Guangming. Mobile-assisted localization algorithm for wireless sensor network [J ]. Chinese Journal of Scientific Instrument, 201 l ,32(3) :564 -570. (in Chinese)

WANG Xin, FU Han, CHEN Du, et al. Anti-interference optimal design of grain combine harvester multiple target working speed control mode[ J ]. Materials Processing and Manufacturing III ,2013 ,21 (7 ) ; 23 -26.

WANG Jun, LI Shuqiang, LIU Gang. Three-dimensional localization method of agriculture wireless sensor networks based on crossover particle swarm optimization[ J/OL]. Transactions of the Chinese Society for Agricultural Machinery, 2014, 45(5) :233 - 238. ( in Chinese)

SONG Zhenlong, JIANG Gangyi, HUANG Chao, rt al. WLAN indoor positioning algorithm based on skewness-kurtosis testing [j]. Journal on Communication, 2012,33(5) :99 - 105. ( in Chinese)

http; // www. j-csam. org/jcsam/ch/reader/view_abstract. aspx? file_no = 20131243& flag = 1. DOI: 10. 6041/j. issn. 1000- 1298.2013.12.043.

WANG Jizhang, PENG Yuli, LI Pingping. Energy transmission model of WSN in greenhouse based on event-driven and data fusion [ J/OL]. Transactions of the Chinese Society for Agricultural Machinery, 2013,44( 12) ;257 -261. ( in Chinese)

KEN Chunhua, CIIEN Can, WANG lanxi, et al. Research on a positioning correction method with inertial measurement in combination with distance[ J]. Chinese Journal of Scientific Instrument,2013 ,34( 1 1 ) :2513 -2519. (in Chinese)

46( 5) ;7 — 12. http: //www. j-csam. org/jcsam/ch/reader/view_abstract. aspx? file_no = 20150502&flag = 1. 1)01: 10. 6041 /j. issn. 1000-1298.2015.05.002.

ZHANG Meina, YIN Wenqing, LIN Xiangze, et al. A method for calculating navigation parameters via НТК — DGPS fusing inertial sensor for agricultural vehicle] J/OL]. Transactions of the Chinese Society for Agricultural Machinery ,2015 , 46(5) 1 - 12. (in Chinese)

2.4 GHz fRiIf#M«=f±[J/OL]. &ML«34K,2014,45( 10) :264 - 271. http: // www. j-csam. org/jcsam/ch/reader/view_abstract. aspx? file_no = 20141041 & flag = 1. DOI; 10. 6041/j. issn. 1000-1298. 2014.10.041.

HAN Wanting, WANG i. Signal transmission characteristics of 2. 4 GHz wireless sensor network in tomato greenhouse J/OL].

Transactions of the Chinese Society for Agricultural Machinery, 2014,45( 10) ;264 -271. (in Chinese)

XIONG Zhiguang, Sill Weiren, XU Lei, et al. Trilateration localization algorithm based on weighted disposal [ J ]. Computer Engineering and Applications, 2010, 46(22) :99 - 102. (in Chinese)

WANG Yuan, LIN Jinguo, ZHUO Xiaodong. Study of indoor location scheme based on ZigBee combined with weighted qualitative method[ J]. Machine Tool & Hydraulics, 2012,40( 1 ) ; 61 -64. (in Chinese)

ZHANG Huimin, CHAI Vi, XU Lei. Weighted centroid relative localization algorithm in wireless sensor network [J ]. Computer Engineering and Applications,2010,46(28) ;22 -24. (in Chinese)

YIN Xiaohong, ZHAO Han, WU Yanming, et al. Canscade tracking control for AGV based on Kalman filter[ J ]. Transactions of the Chinese Society lor Agricultural Machinery, 2010,41 (2) ;I8() - 184. ( in Chinese)