Your search keyword '"Epistemic uncertainty"' showing total 3 results

1. A Novel Computational Instrument Based on a Universal Mixture Density Network with a Gaussian Mixture Model as a Backbone for Predicting COVID-19 Variants' Distributions.

Author

Al-Hadeethi, Yas, El Ramley, Intesar F., Mohammed, Hiba, Bedaiwi, Nada M., and Barasheed, Abeer Z.

Subjects

*GAUSSIAN mixture models, *COVID-19, *EPISTEMIC uncertainty, *COVID-19 pandemic, *SPINE, *INFECTIOUS disease transmission

Abstract

Various published COVID-19 models have been used in epidemiological studies and healthcare planning to model and predict the spread of the disease and appropriately realign health measures and priorities given the resource limitations in the field of healthcare. However, a significant issue arises when these models need help identifying the distribution of the constituent variants of COVID-19 infections. The emergence of such a challenge means that, given limited healthcare resources, health planning would be ineffective and cost lives. This work presents a universal neural network (NN) computational instrument for predicting the mainstream symptomatic infection rate of COVID-19 and models of the distribution of its associated variants. The NN is based on a mixture density network (MDN) with a Gaussian mixture model (GMM) object as a backbone. Twelve use cases were used to demonstrate the validity and reliability of the proposed MDN. The use cases included COVID-19 data for Canada and Saudi Arabia, two date ranges (300 and 500 days), two input data modes, and three activation functions, each with different implementations of the batch size and epoch value. This array of scenarios provided an opportunity to investigate the impacts of epistemic uncertainty (EU) and aleatoric uncertainty (AU) on the prediction model's fitting. The model accuracy readings were in the high nineties based on a tolerance margin of 0.0125. The primary outcome of this work indicates that this easy-to-use universal MDN helps provide reliable predictions of COVID-19 variant distributions and the corresponding synthesized profile of the mainstream infection rate. [ABSTRACT FROM AUTHOR]

Published

2024

2. Tracking end-of-life stage of chemicals: A scalable data-centric and chemical-centric approach.

Author

Hernandez-Betancur, Jose D., Ruiz-Mercado, Gerardo J., and Martin, Mariano

Subjects

CHEMICAL recycling, DISTRIBUTION (Probability theory), EPISTEMIC uncertainty, CHEMICALS, CLASSROOM activities, ANALYTICAL chemistry

Abstract

Chemical flow analysis (CFA) can be used for collecting life-cycle inventory (LCI), estimating environmental releases, and identifying potential exposure scenarios for chemicals of concern at the end-of-life (EoL) stage. Nonetheless, the demand for comprehensive data and the epistemic uncertainties about the pathway taken by the chemical flows make CFA, LCI, and exposure assessment time-consuming and challenging tasks. Due to the continuous growth of computer power and the appearance of more robust algorithms, data-driven modelling represents an attractive tool for streamlining these tasks. However, a data ingestion pipeline is required for the deployment of serving data-driven models in the real world. Hence, this work moves forward by contributing a chemical-centric and data-centric approach to extract, transform, and load comprehensive data for CFA at the EoL, integrating cross-year and country data and its provenance as part of the data lifecycle. The framework is scalable and adaptable to production-level machine learning operations. The framework can supply data at an annual rate, making it possible to deal with changes in the statistical distributions of model predictors like transferred amount and target variables (e.g., EoL activity identification) to avoid potential data-driven model performance decay over time. For instance, it can detect that recycling transfers of 643 chemicals over the reporting years (1988 to 2020) are 29.87%, 17.79%, and 20.56% for Canada, Australia, and the U.S. Finally, the developed approach enables research advancements on data-driven modelling to easily connect with other data sources for economic information on industry sectors, the economic value of chemicals, and the environmental regulatory implications that may affect the occurrence of an EoL transfer class or activity like recycling of a chemical over years and countries. Finally, stakeholders gain more context about environmental regulation stringency and economic affairs that could affect environmental decision-making and EoL chemical exposure predictions. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2023

3. Assessing impacts of high flow events on fish population: Evaluation of risk-based performance measures

Author

Naghibi, Ali and Lence, Barbara

Subjects

*FISH populations, *FISH evolution, *WATER management, *DECISION making, *EPISTEMIC uncertainty, *HYDRAULICS, *MOTIVATION (Psychology)

Abstract

Abstract: Water management decisions in regulated rivers are associated with uncertainty and complexity. For example, quantitative approaches for estimating immediate and long-term impacts of high flow events on fish populations have not sufficiently been addressed in the literature despite the institutional motivation for doing so. In this paper, a probabilistic model for estimating the long-term fish population recovery, given flood induced fish and egg losses, is developed. A framework that incorporates this model for estimating flood impacts in the form of risk-based performance measures of fish population is also presented. The performance measures are operational indicators that account for uncertainty in fish population response to high flow events. They include vulnerability, engineering resilience, and ecological resilience, as well as a modification of these measures introduced herein, which is equivalent to vulnerability multiplied by expected recovery time. Such measures characterize both short- and long-term fisheries impacts of water management decisions, and may be useful in planning, design, and real-time operation of reservoirs, and in participatory water use planning projects, along with other risk measures (e.g., life safety and economical risks). Applicability of the fish population recovery model and the estimated risk-based performance measures is explored for the case study of the Lower Campbell River in British Columbia, Canada. [Copyright &y& Elsevier]

Published

2012