Ontology-Based Knowledge Modeling for Rice Crop Production

Hifza Afzal, M. K. Kasi
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引用次数: 3

Abstract

In recent times, smart farming based on Internet of Thing (IoT) technologies has enabled the farmers to enhance productivity of their farms and reduce the waste. However, the heterogeneity of the connecting devices in IoTs has invited several challenges such as the lack of understanding between devices when sharing data acquired from heterogeneous data sources. To overcome the interoperability issues, semantic-based technologies are used to makes devices understand and share heterogeneous data among various devices in an IoT system. In this paper, an existing farming ontology has been extended by adding several crucial classes taking rice crop as a case study. The appended classes include water, pesticide, nutrients, and seed-related classes. Based on all the classes of the ontology, SWRL rules have been defined to infer knowledge with the help of Jess rule engine. In this work, a total of 63 rules reason on 101 classes and its associated properties, thereby, inferring several new results including the management of water and nutrients in yield, continuously at each growth stage of the rice crop production. It also maintains the pesticide use throughout the crop life-cycle along with identifying the seed of specific rice crop type. This results in assisting the farmers in daily and phase-wise decision-making related to their rice crops.
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基于本体的水稻作物生产知识建模
近年来,基于物联网(IoT)技术的智能农业使农民能够提高农场的生产力并减少浪费。然而,物联网中连接设备的异构性带来了一些挑战,例如在共享从异构数据源获取的数据时,设备之间缺乏理解。为了克服互操作性问题,基于语义的技术用于使设备理解并在物联网系统中的各种设备之间共享异构数据。本文以水稻作物为例,对已有的农业本体进行了扩展,增加了几个关键类。附加的类别包括水、农药、营养素和种子相关类别。基于本体的所有类,定义了SWRL规则,借助于Jess规则引擎进行知识推理。本文对101个类别及其相关性质进行了63条规则推理,从而在水稻作物生产的各个生育阶段连续不断地推断出包括产量中水分和养分管理在内的几个新结果。它还在整个作物生命周期中保持农药的使用,并识别特定水稻作物类型的种子。这有助于农民在与水稻作物有关的日常和分阶段决策方面提供帮助。
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