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Crash Severity Distributions for Life-Cycle Benefit-Cost Analysis of Safety-Related Improvements on Utah RoadwaysSeat, Conor Judd 01 June 2018 (has links)
The Utah Department of Transportation developed life-cycle benefit-cost analysis spreadsheets that allow engineers and analysts to evaluate multiple safety countermeasures. The spreadsheets have included the functionality to evaluate a roadway based on the 11 facility types from the Highway Safety Manual (HSM) with the use of crash severity distributions. The HSM suggests that local agencies develop crash severity distributions based on their local crash data. The Department of Civil and Environmental Engineering at Brigham Young University worked with the Statistics Department to develop crash severity distributions for the facility types from the HSM.The primary objective of this research was to utilize available roadway characteristic and crash data to develop crash severity distributions for the 11 facility types in the HSM. These objectives were accomplished by segmenting the roadway data based on homogeneity and developing statistical models to determine the distributions. Due to insufficient data, the facility types of freeway speed change lanes and freeway ramps were excluded from the scope of this research. In order to accommodate more roadways within the research, the facility type definitions were expanded to include more through lanes.The statistical models that were developed for this research include multivariate regression, frequentist binomial regression, frequentist multinomial, and Bayesian multinomial regression models. A cross-validation study was conducted to determine the models that best described the data. Bayesian Information Criterion, Deviance Information Criterion, and Root-Mean-Square Error values were compared to conduct the comparison. Based on the cross-validation study, it was determined that the Bayesian multinomial regression model is the most effective model to describe the crash severity distributions for the nine facility types evaluated.
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Using Severity Weighted Risk Scores to Prioritize Safety Funding in UtahBarriga Aristizabal, Tomas 08 November 2023 (has links) (PDF)
Budgets for transportation improvements are limited so it is important for governments to focus on improving locations most in need of safety funding. The objective of the Two-Output Model for Safety (TOMS) is to provide the Utah Department of Transportation (UDOT) a reliable method to prioritize safety improvements on state-owned roadways among the different regions. This research will improve the existing Crash Analysis Methodology for Segments (CAMS) and Intersection Safety Analysis Methodology (ISAM) being used to analyze crashes on Utah roadways. The scope of this project is improving on the existing CAMS and ISAM to work together within R, to incorporate segment and intersection severity in safety hot spot analysis, to develop overall severity distributions, and to develop limited recommendations and conclusions related to the research. TOMS uses UDOT data to create a statistical input. Each segment is homogenous with respect to five variables: average annual daily traffic, functional class, number of through lanes, speed limit, and urban code. Intersections are provided as a separate dataset. In the statistical analyses performed on the data, five years of crash data (2016-2020) are used to determine a weighted risk score for segments and intersections of similar characteristics. Those segments or intersections with excess weighted risk scores are designated as crash hot spots. Two-page technical reports with road characteristics and crash data are created for the top 10 hot spots for segments and intersections in Utah. The reports are sent to UDOT where region engineers may review and determine which locations might be addressed.
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[pt] IMPLEMENTAÇÃO DE SOFTWARE PARA APOIO AO GERENCIAMENTO DE RISCO OPERACIONAL / [en] SOFTWARE IMPLEMENTATION FOR OPERATIONAL RISK MANAGEMENT SUPPORTJOSE LUIS COUTO LYRA JUNIOR 29 December 2005 (has links)
[pt] O gerenciamento de risco em instituições bancárias, mais
do que mera
imposição das agências reguladoras distingue-se como fator
de sucesso na
melhoria dos processos, aumentando o resultado financeiro.
Após o Acordo da
Basiléia, a gerência de riscos de mercado e de crédito,
cuja atuação se dá sobre
as receitas, passou a ser realizada. Entretanto, alguns
riscos atuam sobre as
despesas, destacando-se o operacional, que é o risco de
perdas oriundas de
problemas com controles internos, sistemas, pessoas e
eventos externos. O
objetivo deste trabalho foi elaborar uma revisão
abrangente da literatura e um
protótipo de sistema computacional que permite medir o VaR
do risco
operacional de uma unidade de risco, utilizando o Modelo
de Distribuição de
Perdas (LDA), e aplicar modelos causais que expliquem
estas perdas. Este
protótipo é uma aplicação Internet/intranet desenvolvida
na linguagem ASP e
utilizou o MS-Access como banco de dados. Para os cálculos
estatísticos,
implementou-se uma interface de comunicação
aplicação/MATLAB. A revisão da
literatura objetivou a familiarização com conceitos
básicos de risco operacional
descritos pelo Comitê da Basiléia. Adicionalmente,
apresentou detalhes técnicos
para implementação do LDA, tais como Distribuição de
Freqüência e de
Severidade, métodos para determinação da distribuição de
perdas operacionais
e construção da base de dados de perdas. Independente das
particularidades
institucionais, esse protótipo permite a visualização das
providências
estratégicas e operacionais a serem tomadas para
implementação e implantação
de um sistema similar. Marca um ponto de partida para o
desenvolvimento de
um produto abrangente de gerenciamento de risco
operacional nas mais
variadas instituições e segmentos de mercado. / [en] The risk management in financial institutions, more than
just an imposition
of the regulatory agencies, represents a success factor in
the processes
enhancement, elevating the financial results. After Basel
Accord, credit and
market risks management, which acts over earnings, were
implemented.
However, some risks are associated to the expenses, such
as the operational
risk, related to the losses from internal control,
systems, human and external
events problems. The aim of the present study was the
elaboration of an
extensive literature review and the development of a
computation system
prototype able to measure the operational risk VaR of a
risk unit, using the Loss
Distribution Approach (LDA) and to apply causal models
that explain these
losses. This prototype is an Internet/intranet application
developed in ASP
language, using MS-Access as database. For statistical
evaluation, an interface
between the application and MATLAB was implemented. The
literature review
pretended to give a better understanding of the basic
concepts of operational risk
described by the Basel Committee. In addition, it
presented technical details for
LDA implementation, such as Frequency and Severity
Distribution, methods for
the distribution of the operational losses determination
and losses database
construction. Independent of institutional peculiarities,
this prototype allows the
observation of strategic and operational providences to be
taken for
implementation and implantation of a similar system. It
determines a startingpoint
in the development of an operational risk management
product valuable in
several institutions and market segments.
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