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SIAMAM
2002

Relaxation Oscillations in a Class of Delay Differential Equations

13 years 11 months ago
Relaxation Oscillations in a Class of Delay Differential Equations
We study a class of delay differential equations which have been used to model hematological stem cell regulation and dynamics. Under certain circumstances the model exhibits self-sustained oscillations, with periods which can be significantly longer than the basic cell cycle time. We show that the long periods in the oscillations occur when the cell generation rate is small, and we provide an asymptotic analysis of the model in this case. This analysis bears a close resemblance to the analysis of relaxation oscillators (such as the Van der Pol oscillator), except that in our case the slow manifold is infinite dimensional. Despite this, a fairly complete analysis of the problem is possible. Key words. relaxation oscillations, delay differential equations, hematopoiesis, stem cells, chronic myelogenous leukaemia AMS subject classifications. 34K99, 92A07, 34C15, 34E05 PII. S0036139901393512
A. C. Fowler, Michael C. Mackey
Added 23 Dec 2010
Updated 23 Dec 2010
Type Journal
Year 2002
Where SIAMAM
Authors A. C. Fowler, Michael C. Mackey
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