Design and Development of Wheat Production Information Management System Based on Internet of Things

Informationization is a propellant for promoting the development of traditional industries. The comprehensive application of informatization technology also plays an important role in improving the macroeconomic decision-making level of agriculture and improving scientific management capabilities. The growth status of wheat in each growth period is closely related to the yield, and the wheat growth process is complicated and changeable. It is very important to make full use of information technology to monitor, manage and analyze wheat field environment and wheat growth information, which is of great significance for improving the scientific management level of wheat production and increasing grain yield. On the basis of fully analyzing the demand of Bohai granary technology demonstration project and the key influencing factors of wheat production, the wheat production information management system was developed by using Internet of things technology, data analysis technology and data visualization technology. It realized the collection and storage of wheat field environmental information, field management information and wheat growth information, and provided information service and technical support for scientific planting and management of Wheat by analyzing and processing related data.

[1]  Reza Ehsani,et al.  Machine-to-machine communication for agricultural systems: An XML-based auxiliary language to enhance semantic interoperability , 2011 .

[2]  T. Kutter,et al.  The role of communication and co-operation in the adoption of precision farming , 2011, Precision Agriculture.

[3]  Kari Koskinen,et al.  Software architecture for farm management information systems in precision agriculture , 2010 .

[4]  Antonio Mauro Saraiva,et al.  An infrastructure for the development of distributed service-oriented information systems for precision agriculture , 2007 .

[5]  Liisa Pesonen,et al.  Original papers: Functional requirements for a future farm management information system , 2011 .

[6]  Tony Lewis,et al.  Evolution of farm management information systems , 1998 .

[7]  J. Wolfert,et al.  Organizing information integration in agri-food: A method based on a service-oriented architecture and living lab approach , 2010 .

[8]  Kari Koskinen,et al.  A service infrastructure for the representation, discovery, distribution and evaluation of agricultural production standards for automated compliance control , 2012 .

[9]  Matthias Rothmund,et al.  Original papers: Mobile farm equipment as a data source in an agricultural service architecture , 2009 .

[10]  Gerrit Hoogenboom,et al.  A web-based data exchange system for crop model applications , 2004 .

[11]  S. Fountas,et al.  A systems analysis of information system requirements for an experimental farm , 2009, Precision Agriculture.

[12]  Dionysis Bochtis,et al.  Conceptual model of a future farm management information system , 2010 .