基于批量服务并行链网络的粮食收割机技术控制过程建模

I. Nychayi
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Analytical method and comparative analysis were used to form a scientific problem, determine the purpose and set research objectives. When creating empirical models, the main provisions of the theory of queuing, systems of stationary service devices, block diagrams of the failure distribution algorithm are used. The results of the study. The article considers the data, which is considered to be the modern organization of technical operation control of combine harvesters by network, which consists of a finite number of parallel operating queuing chains with serial numbers . In the network at random moments of time from an external source receives service requirements. The issues of choosing a chain for service requirements were considered. Since each chain is designed to restore a particular model of machine by performing one or another type of technical control of the combine harvester, the choice of chain was determined by the parameters ω_i and ξ_i received applications. It was taken into account that the total number of queuing chains Β, as a rule, is less than the number of types of technical control of the number of models of combine harvesters in the park ε, because in the same chain can perform technical control of several types and models of combine harvesters. For each specific case of organization of the network of technical operation in accordance with the accepted specialization of individual chains, a matrix of chain selection for servicing the application according to its parameters and can be compiled. A similar matrix, in which each pair of possible values corresponds to a specific chain number ε, can be easily constructed for any specific case of a given organization and specialization of the network of technical operation of combine harvesters. Conclusions. 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引用次数: 0

摘要

研究目的:该工作的目的是证实联合收割机技术操作的现代组织,这是由并行功能排队链网络进行的。实际结果将是形成一个对个别系统的需求进行技术控制的模型,最初将使用排队理论所采用的术语来处理这个模型,并将就解决办法的具体使用提出建议。研究方法。该工作的方法论基础是对有关联合收割机技术操作的现代组织的已知科学成果的概括和分析,通过并行排队链网络进行,并使用需求划分算法和排队论。运用分析法和比较分析法形成科学问题,确定研究目的,设定研究目标。在建立经验模型时,使用了排队理论、固定服务装置系统、故障分布算法框图的主要规定。研究的结果。本文考虑的数据,被认为是联合收割机技术操作控制的现代网络组织,它由有限个具有序列号的并行操作排队链组成。在网络中任意时刻从外部源接收业务需求。考虑了为服务需求选择链的问题。由于每条链被设计为通过执行联合收割机的一种或另一种技术控制来恢复特定型号的机器,因此链的选择由收到应用的参数ω_i和ω_i决定。考虑到排队链的总数Β一般小于园区内联合收割机技术控制型号的数量ε,因为在同一条链上可以执行几种型号和型号的联合收割机技术控制。对于按照可接受的单个链的专门化组织技术操作网络的每一个具体情况,可以编制一个根据其参数为应用程序提供服务的链选择矩阵。对于联合收割机技术操作网络的特定组织和专业化,可以很容易地构建一个类似的矩阵,其中每对可能值对应于一个特定的链数ε。结论。通过研究,获得了新的科学合理的技术方案和数学模型,旨在提高农业企业恢复联合收割机效率的生产过程的效率。联合收割机各独立系统需求的技术控制建模将以使用排队理论所接受的术语的形式进行初步求解。并就具体使用所收到的决定提出建议。建立了封闭排队系统模型,该模型可用于描述具有任意服务时间分布规律的固定车间、专业车间、工厂、点、死角维修区或其他一组集中的固定服务设备的运行情况。关键词:封闭排队系统;需求;联合收割机;
本文章由计算机程序翻译,如有差异,请以英文原文为准。
MODELING OF PROCESSES OF TECHNICAL CONTROL OF GRAIN HARVESTERS BY NETWORK OF PARALLEL-FUNCTIONING CHAINS OF MASS SERVICE
Purpose of the study. The aim of the work is to substantiate the modern organization of technical operation of combine harvesters, which is carried out by a network of parallel-functioning queuing chains. The practical result will be the formation of a model of technical control of the requirements of individual systems, which will initially be addressed using the terminology adopted by the theory of queuing, and recommendations will be given on the specific use of the solutions. Research methods. The methodological basis of the work is the generalization and analysis of known scientific results regarding the modern organization of technical operation of combine harvesters, carried out by a network of parallel queuing chains, and the use of requirements division algorithm and queuing theory. Analytical method and comparative analysis were used to form a scientific problem, determine the purpose and set research objectives. When creating empirical models, the main provisions of the theory of queuing, systems of stationary service devices, block diagrams of the failure distribution algorithm are used. The results of the study. The article considers the data, which is considered to be the modern organization of technical operation control of combine harvesters by network, which consists of a finite number of parallel operating queuing chains with serial numbers . In the network at random moments of time from an external source receives service requirements. The issues of choosing a chain for service requirements were considered. Since each chain is designed to restore a particular model of machine by performing one or another type of technical control of the combine harvester, the choice of chain was determined by the parameters ω_i and ξ_i received applications. It was taken into account that the total number of queuing chains Β, as a rule, is less than the number of types of technical control of the number of models of combine harvesters in the park ε, because in the same chain can perform technical control of several types and models of combine harvesters. For each specific case of organization of the network of technical operation in accordance with the accepted specialization of individual chains, a matrix of chain selection for servicing the application according to its parameters and can be compiled. A similar matrix, in which each pair of possible values corresponds to a specific chain number ε, can be easily constructed for any specific case of a given organization and specialization of the network of technical operation of combine harvesters. Conclusions. As a result of the research, new scientifically sound technical and technological solutions and mathematical models were obtained, which are aimed at improving the efficiency of production processes of restoring the efficiency of combine harvesters in agricultural enterprises Modeling of technical control of requirements of separate systems of the combine harvester will be initially solved in a form with use of the terminology accepted by the theory of queuing, and recommendations concerning concrete use of the received decisions will be given. A model of a closed queuing system is obtained, which can be used to describe the operation of a stationary workshop, specialized shop, plant, point, dead-end maintenance area or other set of concentrated stationary service devices with an arbitrary law of distribution of service time. Key words: closed queuing system, requirement, combine harvester, model, efficiency.
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