Design and Experiment of Remote Management System for Subsoiler

Along with the further subsoiling operations, the precise detection of subsoiling quality and subsoiling area became a new problem and new demand. Existing subsoiling and land preparation machine have no monitor devices. So the subsoiling quality and effective area were measured by hand. The process was inefficient and the result was easily affected by man made factors. Based on the Beidou navigation system and the network information technology, a subsoiler scheme which could implement remote collecting, transmission, and monitoring information was presented. The subsoiler operation information was transmitted reliably by using mobile communication technology and internet technology. In the monitoring terminal, the Web technology and the Browser/Server network structure were used to apply the integration of bottom control network and Internet. Then the remote management system of subsoiler was established. Data communication service program used the multithreading technology and ActiveMQ message queue technology to do the highly concurrent data processing and optimize the processing capacity of database. System front end page program used the real time data query cache technology and Memcached memory object caching system, effectively reduced the database load and ensured the data real time requirements. System mainly included subsoiling depth detection sensor, vehicle terminal, monitor server and application service. The main functions of the system included basic data management, subsoiling machine orientation regulation, subsoiling quality regulation, subsoiling machine information maintenance, etc. The subsoiling operation quality testing equipments were installed in October 2015 in Jilin province. System ran continuously for two months. During these two months, the data transmission was accurate, stable and no packet loss. The maximum transmission delay time was just 35 s. Users can visit the web site of the system to get the real time condition information and work area; also can carry on the statistical analysis of effective work area. The experiment results showed that the system can satisfy the actual requirement of the remote monitoring and management for subsoiler.

Keywords: subsoiling operation, remote management system, network information technology, Beidou navigation system

 

ZHOU Jun, ZHANG Peng, SONG Baihua. Analysis and modeling of GPS positioning error for navigation of agricultural machinery [j]. Transactions of the Chinese Society for Agricultural Machinery,2010, 41(4) : 189 - 192. (in Chinese)

LI Yongjian, ZHAO Zuoxi, GAO Junwen. Design and research of agricultural navigation positioning system based on GPS and SINS [J]. Journal of Agricultural Mechanization Research, 2014, 36(3) ; 16 -22. (in Chinese)

HU Lian, LUO Xiwen, ZHANG Lin, et al. Development of 1PJ -4.0 laser leveler installed on a wheeled tractor for paddy field [j]. Transactions of the Chinese Society for Agric ultural Machinery, 2014, 45(4) : 146 - 150. (in Chinese)

JI Chaofeng, LIU Gang, ZHANG Man, et al. Automatic guidance system of agricultural vehicle based 011 CAN bus [J]. Transactions of the Chinese Society for Agricultural Machinery, 2009, 40(9) : 28 -32. (in Chinese)

HU Lian, LUO Xiwen, ZHANG Zhigang,et al. Design of distributed navigation control system for rice transplanters based on controller area network[J]. Transactions of the CSAE, 2009, 25(12) : 88 -92. (in Chinese)

WU Xiaopeng,ZHAO Zuoxi. Development of automatic steering control system based on Dongfanghong tractor[J]. Transactions of the Chinese Society for Agricultural Machinery, 2009,40( Supp. ) : 1 -5. (in Chinese)

ISO 11783 -7-.2002. Tractors and machinery for agriculture and forestry-serial control and communications data network [S]. 2004.

CHEN Bin. Research and design of steering control system for Dongfanghong - X804 tractor [ D], Guangzhou: South China Agricultural University,2009. (in Chinese)

Crossbow Technology, Inc. AHRS500GA - Series User’s Manual; Revision B[MJ. New York; Me Graw Hill, 2007 ;21 -25.

J1 Ying, LIU Zhaoxiang, LIU Gang,et al. Positions research of vehicle navigation system based on Kalman filterf J . Transactions of the Chinese Society for Agricultural Machinery ,2009,40(9): 13 - 17. (in Chinese)

Ti Inc. SN65HVD1050 data sheet[ EB/OL]. (2010-01 - 19) [2016 ~ 01 -22]. http: //focus, ti. com/docs/prod/folders/ print/sn65hvdl050. html.

Luminary Micro, Inc. LM3S8962 microcontroller data sheet [ EB/OL]. (2010 - 01 _ 19) [2016 “01 “22]. http: // www.1uminarymicro. com.

NXP Inc. KMA199E product data sheet [ DB/OL] . (2012 -2 - 10) [2016 - 1 -22 ]. http; //www. nxp. com/acrobat_download/ datasheets/ KMA199E.1. pdf.

Analog Devices, Inc. ADIS16300 Datasheet [ EB/OL]. (2009 -04) [2010 -01 -28]. http: // www. analog, com/static/ imported-files/data_sheets/ADIS163(K). pdf.

DARK M J, STOMBAUGH T S, SHEARER S A. Controller area network based distributed control for automous vehicles [J]. Transactions of the ASAE, 2005, 48(2) s 479 - 490.

WU Xiaopeng. Steering control system design for Dongfanghong - X804 tractor ID]. Guangzhou: South China Agricultural University,2011. (in Chinese)

AN Qiu, J1 Changying, ZHOU Jun, et al. Distributed control network for CAN-based autonomous agricultural robot [ J ]. Transactions of the Chinese Society for Agricultural Machinery, 2008, 39(6) : 123 - 126. (in Chinese)