Trilles Sergio, González-Pérez Alberto, Zaragozí Benito, Huerta Joaquín
Institute of New Imaging Technologies, Universitat Jaume I, Av. Vicente Sos Baynat s/n, Castelló de la Plana, Spain.
Departament de Geografia, Universitat Rovira i Virgili, C/Joanot Martorell, Vilaseca, Spain.
Data Brief. 2020 Nov 18;33:106524. doi: 10.1016/j.dib.2020.106524. eCollection 2020 Dec.
Inadequate weather conditions are one of the main threats to the correct development of sensitive crops, where a bad situation can lead to greater stress on plants and their weakness against various diseases. This statement is especially decisive in the cultivation of the vineyard. Meteorological monitoring of vineyard parcels is vital to detect and prevent possible fungal diseases. The development of new Information and Communication Technologies, linked to the Smart Farming movement, together with the reduced cost of electronic components, have favoured a greater availability of meteorological monitoring stations to get to know first-class hand the state of the vineyard smallholdings. This work provides a set of over 750,000 environmental raw data records collected by low-cost Internet of Things nodes, primarily located within vineyard smallholdings. The published observations were collected between 2018-04-01 and 2018-10-31 and were validated in previous research to determine the data's reliability.
恶劣的天气条件是敏感作物正常生长的主要威胁之一,恶劣的情况会给植物带来更大的压力,使其易受各种疾病侵袭。这一说法在葡萄园种植中尤为关键。对葡萄园地块进行气象监测对于检测和预防可能出现的真菌病害至关重要。与智慧农业运动相关的新信息通信技术的发展,以及电子元件成本的降低,使得气象监测站的可用性更高,从而能够直接了解葡萄园小块土地的状况。这项工作提供了一组由低成本物联网节点收集的超过750,000条环境原始数据记录,这些节点主要位于葡萄园小块土地内。所发表的观测数据收集于2018年4月1日至2018年10月31日之间,并在先前的研究中经过验证以确定数据的可靠性。
