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Process convolution approaches for modeling interacting trajectories

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  • Henry R. Scharf
  • Mevin B. Hooten
  • Devin S. Johnson
  • John W. Durban

Abstract

Gaussian processes are a fundamental statistical tool used in a wide range of applications. In the spatiotemporal setting, several families of covariance functions exist to accommodate a wide variety of dependence structures arising in different applications. These parametric families can be restrictive and are insufficient in some situations. In contrast, process convolutions represent a flexible, interpretable approach to defining the covariance of a Gaussian process and have modest requirements to ensure validity. We introduce a generalization of the process convolution approach that employs multiple convolutions sequentially to form a “process convolution chain”. In our proposed multistage framework, complex dependencies that arise from a combination of different interacting mechanisms are decomposed into a series of interpretable kernel smoothers. We demonstrate an application of process convolution chains to model killer whale movement, in which the paths taken by multiple individuals are not independent but reflect dynamic social interactions within the population. Our proposed model for dependent movement provides inference for the latent dynamic social structure in the study population. Additionally, by leveraging the positive dependence among individual paths, we achieve a reduction in uncertainty for the estimated locations of the killer whales, compared with a model that treats paths as independent.

Suggested Citation

  • Henry R. Scharf & Mevin B. Hooten & Devin S. Johnson & John W. Durban, 2018. "Process convolution approaches for modeling interacting trajectories," Environmetrics, John Wiley & Sons, Ltd., vol. 29(3), May.
    • Handle: RePEc:wly:envmet:v:29:y:2018:i:3:n:e2487
    DOI: 10.1002/env.2487
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    Cited by:

    1. Zaineb L. Boulil & John W. Durban & Holly Fearnbach & Trevor W. Joyce & Samantha G. M. Leander & Henry R. Scharf, 2023. "Detecting Changes in Dynamic Social Networks Using Multiply-Labeled Movement Data," Journal of Agricultural, Biological and Environmental Statistics, Springer;The International Biometric Society;American Statistical Association, vol. 28(2), pages 243-259, June.
    2. Mevin Hooten & Christopher Wikle & Michael Schwob, 2020. "Statistical Implementations of Agent‐Based Demographic Models," International Statistical Review, International Statistical Institute, vol. 88(2), pages 441-461, August.

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