On March 28th, the 2018 International Precision Agricultural Technology and Equipment Summit with the theme of "precision, intelligence, cross-border, integration" was held in Zhengzhou City, Henan Province. This meeting was organized by China Agricultural Machinery Industry Association, China Agricultural University, and China Agricultural Machinery. The Society hosted the China Agricultural Machinery Industry Association Precision Agriculture Technology and Equipment Branch, and the International Society for Agricultural and Biological Systems Engineering (CIGR) Information Technology Subcommittee.
Chen Zhi, President of China Agricultural Machinery Industry Association, addressed the conference. He said that with the acceleration of scientific and technological progress in the world today, agricultural production methods are constantly changing. Today, information technology supports positioning, timing, and quantitative operations. Precision agriculture has been applied more and more. Precision agriculture can maximize the use of every seed, every drop of water, every gram of pesticides, can better meet the human needs of food, while greatly reducing the environment The negative impacts. Chinese and foreign experts gather today to gather industry wisdom, discuss the future of science and technology, exchange innovative technologies, share successful experiences, and jointly develop the direction of agricultural machinery navigation and location service technologies. This will add a lot of importance to the development of precision agriculture in China. In the future, with the popularization of Internet technology and the accumulation and application of big data, with the improvement of the Beidou satellite navigation system, China's precision agriculture will enter a rapid development track.
On the morning of the meeting, Liu Xiaowei, Director of the Agricultural Mechanization Management Department, Won Suk Lee, Professor of Agriculture and Bioengineering, University of Florida, and Li Minzan, Professor of School of Information and Electrical Engineering, China Agricultural University, respectively applied the information on Daejeon Plantation Machinery and Beidou Equipment. Status quo and trends of navigation and location service development, and reports on the status and trends of China's agricultural machinery navigation and location service development.
Academician Luo Xiwen, Prof. Fedro, Prof. Tadeusz, Prof. Chen Zhi, Prof. Li Minzan, Zhu Weijiang, Wu Lin etc. In the dialogue session, they answered questions from the audience.
Today, the development of precision agriculture in China is underpinned by policies, with a foundation of technology, enthusiastic enthusiasm, and a period of good opportunities for exploration. Although it still faces weak application foundation, incomplete mastery of core technologies, lack of construction of industrial systems and data resources are pending. Development and other challenges, but with the continuous improvement of hardware equipment and software platform construction, industry development is still bright and promising.
It is understood that the future development direction of China's precision agriculture system will be digital monitoring based on agricultural monitoring and monitoring of agricultural machinery operations; precision operations based on automated operations and variable operations; and remote monitoring and large data platforms for operations. Intelligent control of support; optimal management based on cost-effectiveness and sustainable development as the ultimate goal.
In the future, 'Intelligent Equipment' focusing on improving quality, improving equipment integration, compatibility, and applicability will be used as an 'intelligent equipment' capable of generating environmental, land, crop, pest and disease layers to form a digital agricultural base map as an objective basis. 'Integrated agricultural monitoring', 'Decision model' for integrating agricultural machinery and agronomy, providing guidance for precise operations, and 'remote management' that can increase agricultural production efficiency in real time, concentrate on superior resources and develop agricultural production, become China's precision agriculture system The key areas of development.
With the mechanization of precision agriculture, large-scale and environmental protection came into being. It is an integrated and innovative application of modern machinery, information, and agro-technical technologies in the agricultural production field. It is an important direction for the transformation and upgrading of agricultural mechanization to high-quality and high-efficiency, and it is a time for agricultural production methods. The reform is a realistic option for improving the comprehensive competitiveness of China's agriculture. After being applied on a large scale, its cost performance is higher than that of traditional agriculture. It can make farm machinery operations more efficient, reduce staff reliance, use resources more fully, and make production processes greener. With higher quality, more effective input and output efficiency, both the country and the people have an endogenous driving force for sustainable development. Under the guidance of the state, China is entirely possible to use shorter time than developed countries to achieve more accurate agriculture. Field, a wider range of applications.
The International Society of Agricultural and Biological Systems Engineering, which provided great support for this conference, was established in Belgium in 1930. It is a non-governmental, non-profit international academic organization composed of experts, scholars and researchers in the fields of agriculture and biosystems engineering in all countries of the world. The organization's main task is to coordinate, assist, and promote the development of scientific research, education, and construction projects in agricultural engineering fields in various member states through various academic activities.