7-008-MachineReplacement-ModelingScenario

Brian Winkel; Brian Winkel; Brian Winkel

doi:10.25334/N3RA-R937

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7-008-MachineReplacement-ModelingScenario

Author(s): Brian Winkel

SIMIODE - Systemic Initiative for Modeling Investigations and Opportunities with Differential Equations

Keywords: Probability replacement number Laplace transform industrial engineering machine convolution distributioj step function derivative definition

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Abstract

Students build an integro-differential equation model using a convolution for machine replacement strategies for two different machine failure models.

Citation

Researchers should cite this work as follows:

Winkel, B. (2022). 7-008-MachineReplacement-ModelingScenario. SIMIODE, QUBES Educational Resources. doi:10.25334/N3RA-R937
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Article Context

Resource Type

Modeling Scenario

Differential Equation Type

Technique

Laplace Transform

Qualitative Analysis

Other

Application Area

Course

Course Level

Lesson Length

One class period

Technology

Mathematica

Approach

Skills

Other

Key Scientific Process Skills

Assessment Type

Pedagogical Approaches

Guided inquiry/investigation

Vision and Change Core Competencies - Ability

Principles of How People Learn

Bloom's Cognitive Level

Application & Analysis

Description

Students build an integro-differential equation model using a convolution for machine replacement strategies for two different machine failure models: (1) exponentially distributed failure (student exercise) and (2) fixed time replacement. We discuss all the necessary probability notions which support the building of the convolution model and solve it for (2) while asking students to solve a general situation and then apply their findings to address (1).

We apply the notion of convolution and Laplace transform to a machine maintenance problem in a large facility. We seek the replacement function R(t) for the number of machines to be replaced in the time interval [0, t] to meet a set demand function, and N(t), for the number of machines in operation at time t. We are given probability information on F(t), the fraction of the machines that were new at time t₀ which are still in operation at time t₀ + dt, for the two different scenarios (1) and (2) above.

We offer a separate Appendix with some introductory probability notions.

Article Files

7-008-S-MachineReplacementLaplaceTransform-StudentVersion.pdf(PDF | 492 KB)
7-008-S-MachineReplacementLaplaceTransform-StudentVersion.tex(TEX | 30 KB)
7-008-T-MachineReplacementLaplaceTransform-TeacherVersion.pdf (Instructors only)(PDF | 491 KB)
7-008-T-MachineReplacementLaplaceTransform-TeacherVersion.tex (Instructors only)(TEX | 30 KB)
7-008-T-Mma-LaplaceTransformsMachineReplacement-TeacherVersion.nb (Instructors only)(NB | 384 KB)
7-008-T-Mma-LaplaceTransformsMachineReplacement-TeacherVersion.pdf (Instructors only)(PDF | 218 KB)
MachineImage.jpg(JPG | 70 KB)
SIMIODE.cls(CLS | 7 KB)
SimiodeLogo.jpg(JPG | 271 KB)
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Authors

Author(s): Brian Winkel

SIMIODE - Systemic Initiative for Modeling Investigations and Opportunities with Differential Equations

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