Abstract

Based on the evolving trends in software and IT technologies, smart sensors managing plant and animal development, local meteorological stations transmitting signal information on weather change, robotics, etc., the agricultural system has, in general, actively started exploiting the fifth technological paradigm using some of the sixth pattern’s elements associated with nanobiotechnology, generation of target plants and animals, etc. The surveys were performed in order to analyze the cyclicity in certain phases of technique and technology evolution across different technological paradigms of agricultural production. Future development of the industry, particularly dairy farming, should be based on creating high-efficient sustainable digital outcome-based agricultural companies with a concept of converging nano-bio-info-co-technologies, internet of things, and artificial intelligence systems. The strategy of cyclicity in developing certain phases and organizational-economic forms across different technological paradigms may be used to predict the evolution of machinery and the agrotechnology system with a growing consumer demand for high-quality natural organic products of crop and livestock farming, taking into consideration the need for maintaining a certain equilibrium in evolution between different management systems. Mathematical models of main variations for a shift from the livestock mechanization technologies to the robotic process automation in dairy farming taken as an example have been developed based on the theory of algebra of logic. It is reasonable to use the principle of additivity with the phased applications of the information communication component and the biosensor system to the industrial setting (tractors, farm machinery, milking machines, etc.) through functional upgrading of the agrotechnologies in order to avoid their higher capital intensity and intraparadigm frequent changes.

中文翻译：

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以乳制品行业为例分析不同技术范式的技术和技术演进的循环性

摘要

基于软件和 IT 技术的发展趋势，智能管理植物和动物发育的传感器，当地气象站传输有关天气变化的信号信息，机器人技术等，一般来说，农业系统已经积极地开始利用与纳米生物技术相关的第六种模式的一些元素来开发第五种技术范式，产生目标植物和动物等。进行这些调查是为了分析不同农业生产技术范式中技术和技术演变的某些阶段的周期性。该行业的未来发展，尤其是奶牛养殖业，应建立在以纳米生物信息协同技术、物联网和人工智能系统融合为概念的高效可持续数字化农业公司的基础上。跨不同技术范式发展某些阶段和组织经济形式的循环策略可用于预测机械和农业技术系统的演变，随着消费者对农作物和畜牧业的优质天然有机产品的需求不断增长，考虑到考虑在不同管理系统之间的演化过程中保持某种平衡的必要性。以逻辑代数理论为基础，建立了以奶牛养殖业从畜牧机械化技术向机器人过程自动化转变的主要变化的数学模型。将信息通信组件和生物传感器系统分阶段应用于工业环境（拖拉机、