Estimation for Disease Models Across Scales Tracking disease cases is an essential task in public health; however, tracking the number of cases of a disease may be difficult not every infection can be recorded by public health authorities. Notably, this may happen with whole country measles case reports, even such countries with robust registration systems. Eilertson et al. (2019) propose using a state-space model combined with maximum likelihood methods for estimating measles transmission. A Bayesian approach that uses particle Markov Chain Monte Carlo (pMCMC) is proposed to estimate the parameters of the non-linear state-space model developed in Eilertson et al. (2019) and similar previous studies. This dissertation illustrates the performance of this approach by calculating posterior estimates of the model parameters and predictions of the unobserved states in simulations and case studies. Also, Iteration Filtering (IF2) is used as a support method to verify the Bayesian estimation and to inform the selection of prior distributions. In the second half of the thesis, a birth-death process is proposed to model the unobserved population size of a disease vector. This model studies the effect of a disease vector population size on a second affected population. The second population follows a non-homogenous Poisson process when conditioned on the vector process with a transition rate given by a scaled version of the vector population. The observation model also measures a potential threshold event when the host species population size surpasses a certain level yielding a higher transmission rate. A maximum likelihood procedure is developed for this model, which combines particle filtering with the Minorize-Maximization (MM) algorithm and extends the work of Crawford et al. (2014).autMartinez Rivera, Wilmer OsvaldothsFricks, JohndgcReiser, MarkdgcZhou, ShuangdgcCheng, DandgcLan, ShiweipblArizona State UniversityengPartial requirement for: Ph.D., Arizona State University, 2022Field of study: Statisticshttps://hdl.handle.net/2286/R.2.N.17192700Doctoral DissertationAcademic theses132 pages116715819581671581958171927adminIn CopyrightAll Rights Reserved2022TextStatisticsBirth-death processNon-linear state-space modelsParticle MCMCThreshold effect