Research on ACPS Architecture of Precision Prataculture: A Case of Water Precision Regulation for Alfalfa

IF 1.2 4区 农林科学 Q3 AGRICULTURAL ENGINEERING
Yongqi Ge, Rui Liu, Lingzhi Cao, Lifeng Lu, Yahong Zhang
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引用次数: 0

Abstract

Highlights A precision regulation architecture of prataculture based on agriculture cyber-physical system (PRACPS) was proposed. The PRACPS-ALFA model was designed and implemented through the actual physical environment and Ptolemy tool. The PRACPS-ALFA has good applicability in the Ningxia irrigation area of the Yellow River. The architecture can achieve precise water regulation of forage under a complex physical environment. Abstract. Because the architecture of prataculture precision irrigation cannot dynamically track forage growth and change in future physical environments, a precision regulation architecture of prataculture based on an agriculture cyber-physical system (PRACPS) is proposed. We use the most widely planted alfalfa as an example and design an alfalfa application architecture based on the PRACPS (PRACPS-ALFA). An alfalfa growth model based on water factor was built into the PRACPS-ALFA. We discuss the construction methods of the physical space, the cyber space, and the cyber-physical interaction interfaces. The PRACPS-ALFA is designed and implemented through the actual physical environment and the Ptolemy tool. Four evaluation indices are designed to evaluate the applicability and accuracy of the architecture. Finally, through field experiments in the Ningxia irrigation area of the Yellow River, the model is validated and analyzed by the simulated and observed values of each evaluation indicator. The results show that the PRACPS-ALFA has good applicability in the Ningxia irrigation area of the Yellow River and can achieve precise water regulation of forage in a complex physical environment. Keywords: ACPS, Alfalfa, Applicability, Prataculture, Precision regulation, Ptolemy.
精准草业ACPS体系结构研究——以紫花苜蓿水分精准调控为例
提出了基于农业信息物理系统(PRACPS)的草业精准调控体系结构。通过实际物理环境和托勒密工具设计并实现了ppracps - alfa模型。PRACPS-ALFA在宁夏黄河灌区具有较好的适用性。该体系结构可以在复杂的物理环境下实现对牧草水分的精确调控。摘要针对草业精准灌溉体系结构无法动态跟踪牧草生长和未来物理环境变化的问题,提出了一种基于农业信息物理系统(PRACPS)的草业精准灌溉体系结构。以种植最广泛的紫花苜蓿为例,设计了一个基于PRACPS的紫花苜蓿应用架构(PRACPS- alfa)。在praps - alfa模型中建立了基于水分因子的苜蓿生长模型。讨论了物理空间、网络空间和信息物理交互界面的构建方法。通过实际物理环境和托勒密工具来设计和实现ppracps - alfa。设计了四个评价指标来评价体系结构的适用性和准确性。最后,通过宁夏黄河灌区的田间试验,通过各评价指标的模拟值和实测值对模型进行验证和分析。结果表明,PRACPS-ALFA在宁夏灌区具有较好的适用性,可实现复杂物理环境下牧草的精准调水。关键词:ACPS,苜蓿,适用性,草业,精准调控,托勒密
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