Kenneth Flagg's PhD Talk-Bayesian Computing & Sampling Design for Partially-Surveyed Point Processes
- Friday, November 20, 2020 at 2:00pm
- WebEx Meeting (Number 120 329 6091 Password Points4ndSpace)
Kenneth Flagg's Statistics Phd Defense: "Bayesian Computing and Sampling Design for Partially-Surveyed Point Processes"
Spatial point processes model situations such as unexploded ordnance, plant and animal populations, and celestial bodies, where events occur at distinct points in space. Point process models describe the number and distribution of these events. These models have been mathematically understood for many decades, but have not been widely used because of computational challenges. Computing advances in the last 30 years have kept interest alive, with several breakthroughs circa 2010 that have made Bayesian spatial point process models practical for many applications. There is now interest in sampling, where the process is only observed in part of the study site. My dissertation work deals with sampling along paths, a standard feature of unexploded ordnance remediation studies. This dissertation introduces a Dirichlet process mixture model adapted to sampling situations, summarizes the use of modern computing methods to fit log-Gaussian Cox process (LGCP) models to sampled data, and compares a variety of sampling designs with regard to their spatial prediction performance. The Dirichlet process model remains computationally expensive in the sampling case while the LGCP performs well with low computing time. The sampling design study shows that paths with regular spacing perform well, with corners and direction changes being helpful when the path is short.
Meeting # 120 329 6091
- Department of Mathematical Sciences