期刊
ELECTRONICS
卷 10, 期 7, 页码 -出版社
MDPI
DOI: 10.3390/electronics10070825
关键词
precision agriculture; working times; theoretical field capacity; effective field capacity; RTK-GNSS
资金
- Italian Ministry of Agricultural, Food and Forestry Policies (Mipaaf)
The use of digital systems in precision agriculture is increasingly attractive for farmers at every level, but the lack of scientific data to demonstrate quantifiable advantages is slowing down the transition. The starting point of precision agriculture is considered to be the introduction of satellite tractor guidance.
The use of digital systems in precision agriculture is becoming more and more attractive for farmers at every level. A few years ago, the use of these technologies was limited to large farms, due to the considerable income needed to amortize the large investment required. Although this technology has now become more affordable, there is a lack of scientific data directed to demonstrate how these systems are able to determine quantifiable advantages for farmers. Thus, the transition towards precision agriculture is still very slow. This issue is not just negatively affecting the agriculture economy, but it is also slowing down potential environmental benefits that may result from it. The starting point of precision agriculture can be considered as the introduction of satellite tractor guidance. For instance, with semi-automatic and automatic tractor guidance, farmers can profit from more accuracy and higher machine performance during several farm operations such as plowing, harrowing, sowing, and fertilising. The goal of this study is to compare semi-automatic guidance with manual guidance in wheat sowing, evaluating parameters such as machine performance, seed supply and operational costs of both the configurations.
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