Statistical methods for studying the frequency of monitoring chronic conditions

Oke, Jason Lee

January 2014

Evidence for the timing and frequency of monitoring chronic conditions in primary care is often of low quality or absent. Recently, a methodology based upon repeated measures of monitoring tests has been developed to evaluate monitoring strategies which differ by frequency and the length of interval. In studies using this approach, it has been shown that there is potential for substantial over-detection and over-treatment through routine monitoring. The aim of this thesis was to extend the existing methodology to outcomes with highly skewed distributions and tests that are interpreted as dichotomous or categorical states. These methods were applied to find evidence for the intervals of monitoring for microalbuminuria in people with type 1 diabetes and screening for diabetic retinopathy. Statistical models were used to describe the progression of albuminuria and retinopathy and estimate the rates of false positive and false negative tests over time. Simulation was then used to create hypothetical cohorts of people being monitored and screening at different frequencies and for different baseline risk. The impact of changing the timing of tests within the programme was measured and evaluated. The basic framework of the methodology can be usefully extended to tests that have categorical outcome or highly skewed distributions. More frequent monitoring of microalbuminuria in people with type 1 diabetes, and more frequent screening of diabetic retinopathy leads to disproportionate numbers of false positive results and potential over-treatment or referral to specialist services. As with any other clinical intervention, monitoring and screening intervals should be based upon solid evidence. Monitoring for microalbuminuria and screening for diabetic retinopathy less frequently would reduce the rates of false positives tests but the implications of less surveillance need further investigation.

362.1964

Modelo discreto para cristais líquidos biaxiais / Discrete model for biaxial liquid cryst

Sauerwein, Ricardo Andreas

29 August 1990

A partir de considerações sobre interações entre pares de objetos dependentes apenas de suas orientações relativas, desenvolvemos um modelo discreto para cristais líquidos biaxiais. Representamos estes sistemas por um conjunto de partículas biaxiais localizadas nos sítios de uma rede cristalina e que se orientam somente ao longo dos três eixos cartesianos. O diagrama de fases, obtido na aproximação de campo médio, apresenta uma fase nemática biaxial, duas fases nemáticas uniaxiais, além da fase isotrópica. Estas fases se encontram em um ponto multicrítico em cuja vizinhança fazemos a expansão de Landau da Energia Livre. Finalmente analisamos a adição de um campo externo favorável ao ordenamento nemático uniaxial. / From considerations about the pair interaction of objects depending only on their relative orientations, we develop a discrete model for biaxial liquid crystals. These systems are represented by a set of biaxial particles localized on the sites of a crystal lattice and oriented only along the three Cartesian axes. The phase diagram, obtained in a mean field approximation, displays a biaxial nematic phase, two uniaxial nematic phases, beside the isotropic phase. These phases meet on a multicritical point about which we make the Landau expansion of the free energy. Finally, we analyse the case where an external field is applied to favour the uniaxial nematic ordering.

Anisotropic fluids

Fluidos anisotrópicos

Modelos estatísticos

Statistical models

Oceanic-Atmospheric Influences on Streamflow Extremes & Characteristics in Southeastern United States

Unknown Date

Comprehensive evaluation of changes in streamflow extremes and characteristics due to climate change and variability is the main focus of this study. Available streamflow data at several gaging stations in least anthropologically affected watersheds of the Southeastern Gulf-Atlantic Region, were used for this analysis. To evaluate influences due to climate change, nonparametric trend tests were applied to annual and monthly extremes, while considering seasonality, along with changes in streamflow characteristics. To understand climate variability influences, streamflow data is partitioned in to cool and warm phases of four oceanic and atmospheric oscillations known to have an effect on hydroloclimatology of the region: El Niño-Southern Oscillation (ENSO), Pacific Decadal Oscillation (PDO); Atlantic Multi-decadal Oscillation (AMO); and North Atlantic Oscillation (NAO). Generally, results showed decreasing trends in overall streamflow extremes, as well as spatially varying, temporally non-uniform influences of climate variability on streamflow extremes and characteristics. / Includes bibliography. / Thesis (M.S.)--Florida Atlantic University, 2016. / FAU Electronic Theses and Dissertations Collection

Atmospheric physics--Statistical models.

Atmospheric thermodynamics.

Fluid dynamics.

Stream measurements.

Modelo discreto para cristais líquidos biaxiais / Discrete model for biaxial liquid cryst

Ricardo Andreas Sauerwein

29 August 1990

A partir de considerações sobre interações entre pares de objetos dependentes apenas de suas orientações relativas, desenvolvemos um modelo discreto para cristais líquidos biaxiais. Representamos estes sistemas por um conjunto de partículas biaxiais localizadas nos sítios de uma rede cristalina e que se orientam somente ao longo dos três eixos cartesianos. O diagrama de fases, obtido na aproximação de campo médio, apresenta uma fase nemática biaxial, duas fases nemáticas uniaxiais, além da fase isotrópica. Estas fases se encontram em um ponto multicrítico em cuja vizinhança fazemos a expansão de Landau da Energia Livre. Finalmente analisamos a adição de um campo externo favorável ao ordenamento nemático uniaxial. / From considerations about the pair interaction of objects depending only on their relative orientations, we develop a discrete model for biaxial liquid crystals. These systems are represented by a set of biaxial particles localized on the sites of a crystal lattice and oriented only along the three Cartesian axes. The phase diagram, obtained in a mean field approximation, displays a biaxial nematic phase, two uniaxial nematic phases, beside the isotropic phase. These phases meet on a multicritical point about which we make the Landau expansion of the free energy. Finally, we analyse the case where an external field is applied to favour the uniaxial nematic ordering.

Fluidos anisotrópicos

Modelos estatísticos

Anisotropic fluids

Statistical models

A Multi-Indexed Logistic Model for Time Series

Liu, Xiang

01 December 2016

In this thesis, we explore a multi-indexed logistic regression (MILR) model, with particular emphasis given to its application to time series. MILR includes simple logistic regression (SLR) as a special case, and the hope is that it will in some instances also produce significantly better results. To motivate the development of MILR, we consider its application to the analysis of both simulated sine wave data and stock data. We looked at well-studied SLR and its application in the analysis of time series data. Using a more sophisticated representation of sequential data, we then detail the implementation of MILR. We compare their performance using forecast accuracy and an area under the curve score via simulated sine waves with various intensities of Gaussian noise and Standard & Poors 500 historical data. Overall, that MILR outperforms SLR is validated on both realistic and simulated data. Finally, some possible future directions of research are discussed.

time series

logistic regression

statistics

Applied Statistics

Statistical Models

Tensor renormalization group methods for spin and gauge models

Zou, Haiyuan

01 July 2014

The analysis of the error of perturbative series by comparing it to the exact solution is an important tool to understand the non-perturbative physics of statistical models. For some toy models, a new method can be used to calculate higher order weak coupling expansion and modified perturbation theory can be constructed. However, it is nontrivial to generalize the new method to understand the critical behavior of high dimensional spin and gauge models. Actually, it is a big challenge in both high energy physics and condensed matter physics to develop accurate and efficient numerical algorithms to solve these problems. In this thesis, one systematic way named tensor renormalization group method is discussed. The applications of the method to several spin and gauge models on a lattice are investigated. theoretically, the new method allows one to write an exact representation of the partition function of models with local interactions. E.g. O(N) models, Z2 gauge models and U(1) gauge models. Practically, by using controllable approximations, results in both finite volume and the thermodynamic limit can be obtained. Another advantage of the new method is that it is insensitive to sign problems for models with complex coupling and chemical potential. Through the new approach, the Fisher's zeros of the 2D O(2) model in the complex coupling plane can be calculated and the finite size scaling of the results agrees well with the Kosterlitz-Thouless assumption. Applying the method to the O(2) model with a chemical potential, new phase diagram of the models can be obtained. The structure of the tensor language may provide a new tool to understand phase transition properties in general.

Lattice Gauge Theory

Statistical Models

Tensor Renormalization Group

Physics

Statistical mechanical models for image processing

16 October 2001

No description available.

Stochastic Damage Evolution under Static and Fatigue Loading in Composites with Manufacturing Defects

Huang, Yongxin

2012 May 1900

In this dissertation, experimental investigations and theoretical studies on the stochastic matrix cracking evolution under static and fatigue loading in composite laminates with defects are presented. The presented work demonstrates a methodology that accounts for the statistically distributed defects in damage mechanics models for the assessment of the integrity of composites and for the structural design of composites. The experimental study deals with the mechanisms of the formation of a single crack on a micro-scale and the stochastic process for the multiplication of cracks on a macro-scale. The defects introduced by the manufacturing processes are found to have significant effect on the matrix cracking evolution. Influenced by the distributed defects, the initiation and multiplication of cracks evolve in a stochastic way. The experimental study on the in-plane shear stress finds the detrimental effect of the shear stress on the fatigue performance of composite laminates. Combined with the transverse tensile stress, the in-plane shear stress induces multiple inclined microcracks in the matrix, which enhance the initiation and propagation of the major matrix cracks. Based on the experimental investigations, a statistical model for the stochastic matrix cracking evolution on the macro-scale is developed. Simulations based on the statistical model yield accurate predictions for both static and fatigue loading compared to the experimental data. The Weibull distribution of the static strength is estimated by the statistical model by comparing against the experimental crack density data. The estimated Weibull distribution of the static strength provides an efficient approach to characterize the manufacturing quality of composite laminates. Compared to deterministic approaches, the Weibull distribution of the static strength provides comprehensive information of the strength property of composite laminates.

Composite Materials

Statistical Models

Manufacturing Defects

Stochastic Damage Evolution

Models for quantifying safety benefit of winter road maintenance

Usman, Taimur

January 2011

In countries with severe winters such like Canada, winter road maintenance (WRM) operations, such as plowing, salting and sanding, play an indispensible role in maintaining good road surface conditions and keeping roads safe. WRM is, however, also costly, both monetarily and environmentally. The substantial direct and indirect costs associated with WRM have stimulated significant interest in quantifying the safety and mobility benefits of winter road maintenance, such that systematic cost-benefit assessment can be performed. A number of studies have been initiated in the past decade to identify the links between winter road safety and factors related to weather, road, and maintenance operations. However, most of these studies have focused on the effects of adverse weather on road safety. Limited efforts have been devoted to the problem of quantifying the safety benefits of winter road maintenance under specific road weather conditions. Moreover, the joint effects of and complex interactions between road driving conditions, traffic and maintenance and their impact on traffic safety have rarely been studied. This research aims to determine the effect of WRM on road safety during snow storm events and develop models that can be used to quantify the safety benefit of alternative winter road maintenance policies, strategies and practices. Two integral aspects of collision risk were investigated, namely, collision frequency and severity. Collision frequency models were developed using winter storm collision data compiled for six winter seasons (2000 to 2006) for a total of 31 highway routes across Ontario. A comprehensive measure, namely, road surface condition index (RSI), was proposed to represent the road surface conditions during a variety of snow events. RSI was used as a surrogate measure to capture the effects of WRM. Other factors related to weather, traffic and road features were also accounted for in the analysis. Problems associated with data aggregation were also investigated. For this purpose, two different datasets were formed, namely, event-based data (EBD) which aggregates data by snow storm events and hourly based data (HBD) which includes hourly records of collision counts and other related factors. These two data sets of different aggregation levels were then used to investigate the effects of data aggregation and correlation (within – event) as well as to develop models for different purposes of benefit analyses. For EBD, Negative Binomial models and Generalized Negative Binomial models were calibrated whereas for HBD, Generalized Negative Binomial models and multilevel Poisson Lognormal models were calibrated. Generalized Negative Binomial models were found to best fit the data for both datasets. It was found that addition of site specific variables improves model fit. RSI and exposure were found significant for all the models and datasets. Weather factors such as visibility, wind speed, precipitation, and air temperature were also found to have statistically significant effects on collision frequency. All the models were consistent in terms of effects of different variables. The EBD models are useful to quantify the effect of different maintenance service standards and policies with limited information on the details of the weather events and traffic. On the other hand, HBD models have a higher level of reliability capable of providing more accurate estimates on road accidents. As a result, they are useful for determining the effects of different treatment operations. Several examples were employed to demonstrate the application of the developed models, such as quantifying the benefits of alternative maintenance operations and evaluating the effects of different service standards using safety as a performance measure. To enable a comprehensive risk analysis, collisions under both all-weather conditions and snow storm conditions over the six winter seasons were analyzed to identify the relationship between collision severity and various factors related to road weather and surface conditions, road characteristics, traffic, and vehicles etc., on collision severity. A multilevel modeling framework was introduced to capture the inherent hierarchy between collisions, vehicles and persons involved within the collision data. For each collision data set, three alternative severity models, namely, multinomial models, ordered logit models and binary logit models, were calibrated and compared. It was found that multilevel multinomial logit models were best fit to the data. Moreover issues related to different levels of aggregation were also discussed and results from occupant based data were found to be more reasonable and in line with general literature. Different individual, vehicle, environment and accident location factors were found to have a statistically significant effect on the injury severity levels. Contributing factors at the individual and vehicle levels include driver condition, driver sex, driver age, position in vehicle, use of safety device such as seat belt, vehicle type, vehicle age and vehicle condition. Roadway and environment factors include number of lanes, speed limit, road alignment, RSI/road surface condition, wind speed, and visibility. Other factors include light, and traffic volume. Two case studies were conducted to demonstrate the application of the developed models in conjunction with the accident frequency models for cost benefit analysis. This research was the first to investigate the direct link between road surface conditions and collisions at an operational level. It has been shown that the developed models are capable of evaluating alternative winter road maintenance policies and operations and assessing the safety benefit of a particular winter road maintenance strategy or decision. This research is also the first to conduct an in-depth analysis on the problem of winter road safety at a disaggregate level that captures detailed temporal variation (e.g., hourly and by storm event)) within small spatial aggregation units (road sections corresponding to actual patrol routes). The safety models developed from this research could be easily incorporated into a decision support tool for conducting what-if analysis of alternative winter road maintenance policies and methods. Moreover these models could provide a mechanism to estimate road safety level based on road surface as well as weather and traffic conditions and therefore could potentially be used for generating safety related information for travelers as part of a winter traffic management scheme. Directions for future work are also provided at the end of this document.

Winter road maintenance

Safety analysis

Statistical models

Civil Engineering

Preemptive power analysis for the consulting statistician novel applications of internal pilot design and information based monitoring systems /

Sawrie, David Franklin.

January 2007

Thesis (Ph.D.)--University of Alabama at Birmingham, 2007. / Title from PDF title page (viewed on Feb. 19, 2010). Includes bibliographical references.