Laws of large numbers for epidemic models with countably many types
Barbour, A. D.; and Luczak, Malwina J.
(2006)
Laws of large numbers for epidemic models with countably many types.
Technical Report.
Centre for Discrete and Applicable Mathematics, London School of Economics and Political Science, London, UK.
In modelling parasitic diseases, it is natural to distinguish hosts according to the number of parasites that they carry, leading to a countably infinite type space. Proving the analogue of the deterministic equations, used in models with finitely many types as a ‘law of large numbers’ approximation to the underlying stochastic model, has previously either been done case by case, using some special structure, or else not attempted. In this paper, we prove a general theorem of this sort, and complement it with a rate of convergence in the `1-norm.
| Item Type | Report (Technical Report) |
|---|---|
| Keywords | Epidemic models,infinitely many types,quantitative law of large numbers |
| Departments | Mathematics |
| Date Deposited | 09 Oct 2008 16:01 |
| URI | https://researchonline.lse.ac.uk/id/eprint/13799 |