1种面向猪舍的信息物理融合系统模型
发布时间:2019-02-22 13:59
【摘要】:针对传统的信息物理融合系统建模方法大多局限于时间域内的分析,且没有考虑计算过程和物理过程,通过网络实时交互对系统行为所带来的影响等问题,扩展了传统模型以刻画系统中的时空相关、网络交互以及模型结合等问题,将时间和空间的事件信息明确地抽象到编程模型中,在大数据背景下进行形式化的描述及一体化建模。以猪舍中风扇开启为例,对每个环节进行详细分析,证明该模型可应用于精准农业中,从而有利于设计人员更好地分析网络化计算过程在与物理过程融合、物理环境交互中的动态行为,对加深系统的理解和应用具有重要的意义。
[Abstract]:The traditional modeling methods of information physics fusion system are mostly confined to the analysis in time domain, and do not consider the calculation process and physical process, and the influence of real-time interaction on the system behavior through the network, and so on. The traditional model is extended to describe the space-time correlation, network interaction and model combination in the system. The event information of time and space is abstracted into the programming model. Under the background of big data, formal description and integration modeling are carried out. Taking fan opening in pig house as an example, every link is analyzed in detail. It is proved that the model can be applied to precision agriculture, which is helpful for designers to better analyze the fusion of network computing process and physical process. The dynamic behavior in the physical environment interaction is of great significance to deepen the understanding and application of the system.
【作者单位】: 滨州医学院公共卫生与管理学院;
【基金】:山东省烟台市重点研发计划(编号:2016ZH079) 滨州医学院博士科研启动基金(编号:BY2015KYQD13)
【分类号】:S828;TN929.5;TP212.9
,
本文编号:2428296
[Abstract]:The traditional modeling methods of information physics fusion system are mostly confined to the analysis in time domain, and do not consider the calculation process and physical process, and the influence of real-time interaction on the system behavior through the network, and so on. The traditional model is extended to describe the space-time correlation, network interaction and model combination in the system. The event information of time and space is abstracted into the programming model. Under the background of big data, formal description and integration modeling are carried out. Taking fan opening in pig house as an example, every link is analyzed in detail. It is proved that the model can be applied to precision agriculture, which is helpful for designers to better analyze the fusion of network computing process and physical process. The dynamic behavior in the physical environment interaction is of great significance to deepen the understanding and application of the system.
【作者单位】: 滨州医学院公共卫生与管理学院;
【基金】:山东省烟台市重点研发计划(编号:2016ZH079) 滨州医学院博士科研启动基金(编号:BY2015KYQD13)
【分类号】:S828;TN929.5;TP212.9
,
本文编号:2428296
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