José Mira scite author profile

The spread of cancer is a non-deterministic dynamic process. As a consequence, the design of an assistant system for the diagnosis and prognosis of the extent of a cancer should be based on a representation method that deals with both uncertainty and time. The ultimate goal is to know the stage of development of a cancer in a patient before selecting the appropriate treatment. A network of probabilistic events in discrete time (NPEDT) is a type of Bayesian network for temporal reasoning that models the causal mechanisms associated with the time evolution of a process. This paper describes NasoNet, a system that applies NPEDTs to the diagnosis and prognosis of nasopharyngeal cancer. We have made use of temporal noisy gates to model the dynamic causal interactions that take place in the domain. The methodology we describe is general enough to be applied to any other type of cancer.

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Explanatory and prediction power of two macro models. An application to van-involved accidents in Spain

Dadashova

Arenas

Mira

et al. 2014

Transport Policy

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Analysis of the QUESTOR water quality model using a Fourier amplitude sensitivity test (FAST) for two UK rivers

Deflandre

Williams

Elorza

et al. 2006

Science of The Total Environment

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Computation of uncertainty for atmospheric emission projections from key pollutant sources in Spain

Lumbreras

García‐Martos

Mira

et al. 2009

Atmospheric Environment

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Driver Pattern Identification in Road Crashes in Spain

et al. 2020

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José Mira

NasoNet, modeling the spread of nasopharyngeal cancer with networks of probabilistic events in discrete time

Explanatory and prediction power of two macro models. An application to van-involved accidents in Spain

Analysis of the QUESTOR water quality model using a Fourier amplitude sensitivity test (FAST) for two UK rivers

Computation of uncertainty for atmospheric emission projections from key pollutant sources in Spain

Driver Pattern Identification in Road Crashes in Spain

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