{"title":"TOWARD TO VIBRATION ANALYSIS BY KNOT THEORY","authors":"Daniel Enrique Rivas Cisneros","doi":"10.58190/icat.2023.30","DOIUrl":null,"url":null,"abstract":"Vibration analysis is one of the most important aspects in the design of structures and mechanical systems, among others, subject to dynamic loads. As well as for the analysis of failures caused by vibratory aspects. A good performance of an industrial system is often associated with the availability of mathematical models of the dynamic behaviour of the system. In some situations, the complexity of the processes makes it difficult to have models that help us to analyse these processes. This paper proposes the use of knot theory, which is a topological tool, for vibration analysis. This topological tool, in this case, associates a topological invariant when there is a drastic change in vibrations. The present work is based on the fact that it is well known that the equations representing harmonic motion generate Lissajous figures. In knot theory, there are several classifications of knots, one of these classifications is known as Lissajous knots. The use of this tool is shown in the supposition that we have a system represented by three equations of the form f(t) = Acos(Bt + C) , where with the indicated parameters it generates a knot (being its nominal value). Making a change in the phase, which represents a fault, generates a different knot than the nominal knot. One of the advantages of this proposed method is that it is not necessary to have the model, and one of the disadvantages by nature of this method is that three signals are required to use this topological tool.","PeriodicalId":20592,"journal":{"name":"PROCEEDINGS OF THE III INTERNATIONAL CONFERENCE ON ADVANCED TECHNOLOGIES IN MATERIALS SCIENCE, MECHANICAL AND AUTOMATION ENGINEERING: MIP: Engineering-III – 2021","volume":"6 1","pages":"0"},"PeriodicalIF":0.0000,"publicationDate":"2023-08-19","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"PROCEEDINGS OF THE III INTERNATIONAL CONFERENCE ON ADVANCED TECHNOLOGIES IN MATERIALS SCIENCE, MECHANICAL AND AUTOMATION ENGINEERING: MIP: Engineering-III – 2021","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.58190/icat.2023.30","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
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Abstract

Vibration analysis is one of the most important aspects in the design of structures and mechanical systems, among others, subject to dynamic loads. As well as for the analysis of failures caused by vibratory aspects. A good performance of an industrial system is often associated with the availability of mathematical models of the dynamic behaviour of the system. In some situations, the complexity of the processes makes it difficult to have models that help us to analyse these processes. This paper proposes the use of knot theory, which is a topological tool, for vibration analysis. This topological tool, in this case, associates a topological invariant when there is a drastic change in vibrations. The present work is based on the fact that it is well known that the equations representing harmonic motion generate Lissajous figures. In knot theory, there are several classifications of knots, one of these classifications is known as Lissajous knots. The use of this tool is shown in the supposition that we have a system represented by three equations of the form f(t) = Acos(Bt + C) , where with the indicated parameters it generates a knot (being its nominal value). Making a change in the phase, which represents a fault, generates a different knot than the nominal knot. One of the advantages of this proposed method is that it is not necessary to have the model, and one of the disadvantages by nature of this method is that three signals are required to use this topological tool.
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面向用结理论进行振动分析
振动分析是结构和机械系统设计中最重要的方面之一,其中包括受动载荷影响的结构和机械系统。以及对振动方面引起的失效进行分析。工业系统的良好性能通常与系统动态行为的数学模型的可用性有关。在某些情况下,过程的复杂性使得很难有模型来帮助我们分析这些过程。本文提出利用拓扑工具——结理论进行振动分析。这个拓扑工具,在这种情况下,当振动发生剧烈变化时,关联一个拓扑不变量。目前的工作是基于这样一个事实,即众所周知,表示谐波运动的方程产生利萨焦图。在结理论中,结有几种分类,其中一种分类被称为利萨尤结。这个工具的使用是在假设我们有一个由三个形式为f(t) = Acos(Bt + C)的方程表示的系统中显示的,其中使用指示的参数它产生一个结(作为其标称值)。相位的改变(表示故障)会产生不同于标称结的结。该方法的优点之一是不需要有模型,而该方法的缺点之一是需要三个信号才能使用该拓扑工具。
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