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2009-Agnes_Rash-Brian_Winkel-Birth_and_Death_Process_Modeling_Leads_to_the_Poisson_Distribution

Author(s): Agnes Rash1, Brian Winkel2

1. NA 2. SIMIODE - Systemic Initiative for Modeling Investigations and Opportunities with Differential Equations

Keywords: Probability Mean Poisson process birth and death process infinite number of differential equations

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Abstract

Resource Image In this paper there are details of development of the general birth and death process from which we can extract the Poisson process as a special case.

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Article Context

Description

From Rash, Agnes M. and Brian Winkel. 2009. Birth and Death Process Modeling Leads to the Poisson Distribution: A Journey Worth Taking. PRIMUS. 19(1): 57-73.

Articles from this journal are FREEly available to members of the Mathematical Association of America at the member portal www.simiode.org .

In this paper there are  details of development of the general birth and death process from which we can extract the Poisson process as a special case. This general process is appropriate for a number of courses and units in courses and can enrich the study of mathematics for students as it touches and uses a diverse set of mathematical topics, e.g., probability, differential equations, difference equations, calculus, and infinite series. We guide the reader through the assumptions, derivation, and modeling applications which will permit the study of this useful subject in a number of settings.  We offer illustrations of the Poisson process to demonstrate its applicability to interesting and real-life situations.

 

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Authors

Author(s): Agnes Rash1, Brian Winkel2

1. NA 2. SIMIODE - Systemic Initiative for Modeling Investigations and Opportunities with Differential Equations

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