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1. Interpretable modelling of retail demand and price elasticity for passenger flights using booking data

Author

Meyer, JF, Kauermann, G, Smith, MS, Meyer, JF, Kauermann, G, and Smith, MS

Abstract

We propose a model of retail demand for air travel and ticket price elasticity at the daily booking and individual flight level. Daily bookings are modelled as a non-homogeneous Poisson process with respect to the time to departure. The booking intensity is a function of booking and flight level covariates, including non-linear effects modelled semi-parametrically using penalized splines. Customer heterogeneity is incorporated using a finite mixture model, where the latent segments have covariate-dependent probabilities. We fit the model to a unique dataset of over one million daily counts of bookings for 9 602 scheduled flights on a short-haul route over two years. A control variate approach with a strong instrument corrects for a substantial level of price endogeneity. A rich latent segmentation is uncovered, along with strong covariate effects. The calibrated model can be used to quantify demand and price elasticity for different flights booked on different days prior to departure and is a step towards continuous pricing; something that is a major objective of airlines. As our model is interpretable, forecasts can be created under different scenarios. For instance, while our model is calibrated on data collected prior to COVID-19, many of the empirical insights are likely to remain valid as air travel recovers in the post-COVID-19 period.

Published
2024

4. Modelling the Large and Dynamically Growing Bipartite Network of German Patents and Inventors, arXiv preprint 2201.09744

Author

Fritz, C., De Nicola, G., Kevork, S., Harhoff, D., and Kauermann, G.

Abstract

We analyse the bipartite dynamic network of inventors and patents registered within the main area of electrical engineering in Germany to explore the driving forces behind innovation. The data at hand leads to a bipartite network, where an edge between an inventor and a patent is present if the inventor is a co-owner of the respective patent. Since more than a hundred thousand patents were filed by similarly as many inventors during the observational period, this amounts to a massive bipartite network, too large to be analysed as a whole. Therefore, we decompose the bipartite network by utilising an essential characteristic of the network: most inventors tend to stay active only for a relatively short period, while new ones become active at each point in time. Consequently, the adjacency matrix carries several structural zeros. To accommodate for these, we propose a bipartite variant of the Temporal Exponential Random Graph Model (TERGM) in which we let the actor set vary over time, differentiate between inventors that already submitted patents and those that did not, and account for pairwise statistics of inventors. Our results corroborate the hypotheses that inventor characteristics and knowledge flows play a crucial role in the dynamics of invention.

Published
2022

7. Statistical modeling of on-street parking lot occupancy in smart cities

Author

Schneble, Marc and Kauermann, G��ran

Subjects
FOS: Computer and information sciences, Applications (stat.AP)
Abstract

Many studies suggest that searching for parking is associated with significant direct and indirect costs. Therefore, it is appealing to reduce the time which car drivers spend on finding an available parking lot, especially in urban areas where the space for all road users is limited. The prediction of on-street parking lot occupancy can provide drivers a guidance where clear parking lots are likely to be found. This field of research has gained more and more attention in the last decade through the increasing availability of real-time parking lot occupancy data. In this paper, we pursue a statistical approach for the prediction of parking lot occupancy, where we make use of time to event models and semi-Markov process theory. The latter involves the employment of Laplace transformations as well as their inversion which is an ambitious numerical task. We apply our methodology to data from the City of Melbourne in Australia. Our main result is that the semi-Markov model outperforms a Markov model in terms of both true negative rate and true positive rate while this is essentially achieved by respecting the current duration which a parking lot already sojourns in its initial state., 28 pages, 8 figures

Published
2021
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9. Mixture Models and Networks -- Overview of Stochastic Blockmodelling

Author

De Nicola, Giacomo, Sischka, Benjamin, and Kauermann, G��ran

Subjects
Methodology (stat.ME), FOS: Computer and information sciences, Applications (stat.AP), Statistics - Applications, Statistics - Methodology
Abstract

Mixture models are probabilistic models aimed at uncovering and representing latent subgroups within a population. In the realm of network data analysis, the latent subgroups of nodes are typically identified by their connectivity behaviour, with nodes behaving similarly belonging to the same community. In this context, mixture modelling is pursued through stochastic blockmodelling. We consider stochastic blockmodels and some of their variants and extensions from a mixture modelling perspective. We also survey some of the main classes of estimation methods available, and propose an alternative approach. In addition to the discussion of inferential properties and estimating procedures, we focus on the application of the models to several real-world network datasets, showcasing the advantages and pitfalls of different approaches., 23 pages, 5 figures

Published
2020

10. Intensity Estimation on Geometric Networks with Penalized Splines

Author

Schneble, Marc and Kauermann, G��ran

Subjects
Methodology (stat.ME), FOS: Computer and information sciences
Abstract

In the past decades, the growing amount of network data has lead to many novel statistical models. In this paper we consider so called geometric networks. Typical examples are road networks or other infrastructure networks. But also the neurons or the blood vessels in a human body can be interpreted as a geometric network embedded in a three-dimensional space. In all these applications a network specific metric rather than the Euclidean metric is usually used, which makes the analyses on network data challenging. We consider network based point processes and our task is to estimate the intensity (or density) of the process which allows to detect high- and low- intensity regions of the underlying stochastic processes. Available routines that tackle this problem are commonly based on kernel smoothing methods. However, kernel based estimation in general exhibits some drawbacks such as suffering from boundary effects and the locality of the smoother. In an Euclidean space, the disadvantages of kernel methods can be overcome by using penalized spline smoothing. We here extend penalized spline smoothing towards smooth intensity estimation on geometric networks and apply the approach to both, simulated and real world data. The results show that penalized spline based intensity estimation is numerically efficient and outperforms kernel based methods. Furthermore, our approach easily allows to incorporate covariates, which allows to respect the network geometry in a regression model framework., 23 pages, 8 figures

Published
2020
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11. On the Interplay of Regional Mobility, Social Connectedness, and the Spread of COVID-19 in Germany

Author

Fritz, Cornelius and Kauermann, G��ran

Subjects
FOS: Computer and information sciences, FOS: Physical sciences, Applications (stat.AP), Physics and Society (physics.soc-ph)
Abstract

Since the primary mode of respiratory virus transmission is person-to-person interaction, we are required to reconsider physical interaction patterns to mitigate the number of people infected with COVID-19. While research has shown that non-pharmaceutical interventions (NPI) had an evident impact on national mobility patterns, we investigate the relative regional mobility behaviour to assess the effect of human movement on the spread of COVID-19. In particular, we explore the impact of human mobility and social connectivity derived from Facebook activities on the weekly rate of new infections in Germany between March 3rd and June 22nd, 2020. Our results confirm that reduced social activity lowers the infection rate, accounting for regional and temporal patterns. The extent of social distancing, quantified by the percentage of people staying put within a federal administrative district, has an overall negative effect on the incidence of infections. Additionally, our results show spatial infection patterns based on geographic as well as social distances.

Published
2020
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12. A Smooth Dynamic Network Model for Patent Collaboration Data, arXiv preprint 1909.00736

Author

Bauer, V., Harhoff, D., and Kauermann, G.

Abstract

The development and application of models, which take the evolution of networks with a dynamical structure into account are receiving increasing attention. Our research focuses on a profile likelihood approach to model time-stamped event data for a large-scale network applied on patent collaborations. As event we consider the submission of a joint patent and we investigate the driving forces for collaboration between inventors. We propose a flexible semiparametric model, which allows to include covariates built from the network (i.e. collaboration) history.

Published
2019

13. Censored Regression for Modelling International Small Arms Trading and its 'Forensic' Use for Exploring Unreported Trades

Author

Lebacher, Michael, Thurner, Paul W., and Kauermann, G��ran

Subjects
FOS: Computer and information sciences, Applications (stat.AP), Statistics - Applications
Abstract

In this paper we use a censored regression model to investigate data on the international trade of small arms and ammunition (SAA) provided by the Norwegian Initiative on Small Arms Transfers (NISAT). Taking a network based view on the transfers, we not only rely on exogenous covariates but also estimate endogenous network effects. We apply a spatial autocorrelation (SAR) model with multiple weight matrices. The likelihood is maximized employing the Monte Carlo Expectation Maximization (MCEM) algorithm. Our approach reveals strong and stable endogenous network effects. Furthermore, we find evidence for a substantial path dependence as well as a close connection between exports of civilian and military small arms. The model is then used in a "forensic" manner to analyse latent network structures and thereby to identify countries with higher or lower tendency to export or import than reflected in the data. The approach is also validated using a simulation study.

Published
2019

14. EM-Based Smooth Graphon Estimation Using Bayesian and Spline-Based Approaches

Author

Sischka, Benjamin and Kauermann, G��ran

Subjects
Methodology (stat.ME), FOS: Computer and information sciences
Abstract

This paper proposes the estimation of a smooth graphon model for network data analysis using principles of the EM algorithm. The approach considers both variability with respect to ordering the nodes of a network and smooth estimation of the graphon by nonparametric regression. To do so, (linear) B-splines are used, which allow for smooth estimation of the graphon, conditional on the node ordering. This provides the M-step. The true ordering of the nodes arising from the graphon model remains unobserved and Bayesian ideas are employed to obtain posterior samples given the network data. This yields the E-step. Combining both steps gives an EM-based approach for smooth graphon estimation. Unlike common other methods, this procedure does not require the restriction of a monotonic marginal function. The proposed graphon estimate allows to explore node-ordering strategies and therefore to compare the common degree-based node ranking with the ordering conditional on the network. Variability and uncertainty are taken into account using MCMC techniques. Examples and simulation studies support the applicability of the approach., 27 pages, 10 figures

Published
2019
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15. Regression-based Network Reconstruction with Nodal and Dyadic Covariates and Random Effects

Author

Lebacher, Michael and Kauermann, G��ran

Subjects
Methodology (stat.ME), FOS: Computer and information sciences
Abstract

Network (or matrix) reconstruction is a general problem which occurs if the margins of a matrix are given and the matrix entries need to be predicted. In this paper we show that the predictions obtained from the iterative proportional fitting procedure (IPFP) or equivalently maximum entropy (ME) can be obtained by restricted maximum likelihood estimation relying on augmented Lagrangian optimization. Based on the equivalence we extend the framework of network reconstruction towards regression by allowing for exogenous covariates and random heterogeneity effects. The proposed estimation approach is compared with different competing methods for network reconstruction and matrix estimation. Exemplary, we apply the approach to interbank lending data, provided by the Bank for International Settlement (BIS). This dataset provides full knowledge of the real network and is therefore suitable to evaluate the predictions of our approach. It is shown that the inclusion of exogenous information allows for superior predictions in terms of $L_1$ and $L_2$ errors. Additionally, the approach allows to obtain prediction intervals via bootstrap that can be used to quantify the uncertainty attached to the predictions.

Published
2019
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16. Exploring Dependence Structures in the International Arms Trade Network

Author

Lebacher, Michael and Kauermann, G��ran

Subjects
FOS: Computer and information sciences, Applications (stat.AP)
Abstract

In the paper we analyse dependence structures among international trade flows of major conventional weapons from 1952 to 2016. We employ a Network Disturbance Model commonly used in inferential network analysis and spatial econometrics. The dependence structure is represented by pre-defined weight matrices that allow for relating the arms trade flows from the network of international arms exchange. Several different weight matrices are compared by means of the AIC in order to select the best dependence structure. It turns out that the dependence structure among the arms trade flows is rather complex and can be represented by a specification that, simply speaking, relates each arms trade flow to all exports and imports of the sending and the receiving state. By controlling for explanatory variables we are able to show the influence of political and economic variables on the volume traded., arXiv admin note: text overlap with arXiv:1803.02707

Published
2018
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17. Stable Exponential Random Graph Models with Non-parametric Components for Large Dense Networks

Author

Thiemichen, Stephanie and Kauermann, G��ran

Subjects
Methodology (stat.ME), FOS: Computer and information sciences, Applications (stat.AP)
Abstract

Exponential Random Graph Models (ERGM) behave peculiar in large networks with thousand(s) of actors (nodes). Standard models containing two-star or triangle counts as statistics are often unstable leading to completely full or empty networks. Moreover, numerical methods break down which makes it complicated to apply ERGMs to large networks. In this paper we propose two strategies to circumvent these obstacles. First, we fit a model to a subsampled network and secondly, we show how linear statistics (like two-stars etc.) can be replaced by smooth functional components. These two steps in combination allow to fit stable models to large network data, which is illustrated by a data example including a residual analysis., 26 pages, 10 figures, 3 tables

Published
2016
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19. Mixtures of g-Priors for Generalised Additive Model Selection with Penalised Splines

Author

Bov��, Daniel Saban��s, Held, Leonhard, and Kauermann, G��ran

Subjects
Methodology (stat.ME), FOS: Computer and information sciences, Statistics - Methodology
Abstract

We propose an objective Bayesian approach to the selection of covariates and their penalised splines transformations in generalised additive models. Specification of a reasonable default prior for the model parameters and combination with a multiplicity-correction prior for the models themselves is crucial for this task. Here we use well-studied and well-behaved continuous mixtures of g-priors as default priors. We introduce the methodology in the normal model and extend it to non-normal exponential families. A simulation study and an application from the literature illustrate the proposed approach. An efficient implementation is available in the R-package "hypergsplines"., 34 pages, 2 figures, 5 tables

Published
2011

22. Parsimonious classification via generalized linear mixed models

Author

Kauermann, G, Ormerod, JT, Wand, MP, Kauermann, G, Ormerod, JT, and Wand, MP

Abstract

We devise a classification algorithm based on generalized linear mixed model (GLMM) technology. The algorithm incorporates spline smoothing, additive model-type structures and model selection. For reasons of speed we employ the Laplace approximation, rather than Monte Carlo methods. Tests on real and simulated data show the algorithm to have good classification performance. Moreover, the resulting classifiers are generally interpretable and parsimonious. © 2010 Springer Science+Business Media, LLC.

Published
2010

23. Parsimonious classification via generalised linear mixed models

Author

Kauermann, G., Ormerod, J. T., Wand, M. P., Kauermann, G., Ormerod, J. T., and Wand, M. P.

Abstract

We devise a classification algorithm based on generalised linear mixed model (GLMM) technology. The algorithm incorporates spline smoothing, additive model-type structures and model selection. For reasons of speed we employ the Laplace approximation, rather than Monte Carlo methods. Tests on real and simulated data show the algorithm to have good classification performance. Moreover, the resulting classifiers are generally interpretable and parsimonious.

Published
2008

24. Parsimonious classification via generalised linear mixed models

Author

Kauermann, G, Ormerod, J. T., Wand, M P, Kauermann, G, Ormerod, J. T., and Wand, M P

Abstract

We devise a classification algorithm based on generalized linear mixed model (GLMM) technology. The algorithm incorporates spline smoothing, additive model-type structures and model selection. For reasons of speed we employ the Laplace approximation, rather than Monte Carlo methods. Tests on real and simulated data show the algorithm to have good classification performance. Moreover, the resulting classifiers are generally interpretable and parsimonious.

Published
2007

31. The Russian war in Ukraine increased Ukrainian language use on social media.

Author

Racek D, Davidson BI, Thurner PW, Zhu XX, and Kauermann G

Abstract

The use of language is innately political, often a vehicle of cultural identity and the basis for nation building. Here, we examine language choice and tweeting activity of Ukrainian citizens based on 4,453,341 geo-tagged tweets from 62,712 users before and during the Russian war in Ukraine, from January 2020 to October 2022. Using statistical models, we disentangle sample effects, arising from the in- and outflux of users on Twitter (now X), from behavioural effects, arising from behavioural changes of the users. We observe a steady shift from the Russian language towards Ukrainian already before the war, which drastically speeds up with its outbreak. We attribute these shifts in large part to users' behavioural changes. Notably, our analysis shows that more than half of the Russian-tweeting users switch towards Ukrainian with the Russian invasion. We interpret these findings as users' conscious choice towards a more Ukrainian (online) identity and self-definition of being Ukrainian., (© 2024. The Author(s).)

Published
2024
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32. COVID-19 and social media: Beyond polarization.

Author

De Nicola G, Tuekam Mambou VH, and Kauermann G

Abstract

The COVID-19 pandemic brought upon a massive wave of disinformation, exacerbating polarization in the increasingly divided landscape of online discourse. In this context, popular social media users play a major role, as they have the ability to broadcast messages to large audiences and influence public opinion. In this article, we make use of openly available data to study the behavior of popular users discussing the pandemic on Twitter. We tackle the issue from a network perspective, considering users as nodes and following relationships as directed edges. The resulting network structure is modeled by embedding the actors in a latent social space, where users closer to one another have a higher probability of following each other. The results suggest the existence of two distinct communities, which can be interpreted as "generally pro" and "generally against" vaccine mandates, corroborating existing evidence on the pervasiveness of echo chambers on the platform. By focusing on a number of notable users, such as politicians, activists, and news outlets, we further show that the two groups are not entirely homogeneous, and that not just the two poles are represented. To the contrary, the latent space captures an entire spectrum of beliefs between the two extremes, demonstrating that polarization, while present, is not the only driver of the network, and that more moderate, "central" users are key players in the discussion., (© The Author(s) 2023. Published by Oxford University Press on behalf of National Academy of Sciences.)

Published
2023
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33. [Mandatory Testing in Schools can Significantly Reduce Underreporting of COVID-19 Infections Among Students with in-Class Teaching Compared to Home Schooling].

Author

Berger U, Fritz C, and Kauermann G

Subjects
Adolescent, Adult, COVID-19 Testing, Child, Child, Preschool, Germany epidemiology, Humans, Mandatory Testing, Students, Young Adult, COVID-19 diagnosis, COVID-19 epidemiology
Abstract

Aim of the study The aim of this was to study investigate the effectiveness of mandatory Covid-19 tests for in-classroom teaching in reopened schools as a containment measure in the pandemic. In Bavaria, mandatory testing at schools was implemented directly after the Easter vacations in 2021. For the first week after the vacations, this resulted in a natural experiment that allowed us to quantify the impact of the new testing strategy on reported Covid-19 cases.Methods We compared changes in the reported 7-day incidence of new infections between districts with in-classroom teaching at school and districts with closed schools. During the calendar week 15, districts with reported incidences below 100 were allowed to reopen schools and have in-classroom teaching if mandatory COVID-19 testing was performed at school with rapid antigen tests. We do not have data on the rapid test results; however, positive test results in the rapid antigen test were verified by a PCR test, and cases of positive PCR test results were reported at the district level by age groups. In the calendar weeks 13 and 14, all schools in Bavaria were closed due to Easter vacations. Taking into account a latency period of about 3-4 days and a reporting period of 1-2 days, this means that any additional increase in reported incidences for districts with in-class teaching and mandatory testing in the week after the vacation cannot be attributed to transmissions at schools, but reflects the reduction of underreporting due to the newly implemented testing strategy.Results Reported incidence increased by a factor of 6.6 for 5-11 year old and by 1.7 for 12-20 year old pupils in districts with in-classroom teaching and mandatory testing at schools. This increase was accompanied by a reduction in underreporting and was significant compared to districts with school closure. Given the situation of a natural experiment, this increase in the reported incidence among school children can be attributed to the testing strategy. For the same time period, no differences in reported incidences were found for the other age groups.Conclusion In-class teaching with mandatory testing in reopened schools changes the role of schools in the pandemic. Our analyses show that reopening schools with a mandatory testing approach is beneficial from an epidemiologic perspective as it can strongly reduce the dark figure of COVID-19 cases among children., Competing Interests: Die Analysen wurden mit finanzieller Unterstützung des bayerischen Landesamt für Gesundheit und Lebensmittelsicherheit (LGL) durchgeführt. Die Autoren bedanken sich hierfür. Darüber hinaus erklären die Autoren, dass keine Interessenkonflikte vorliegen., (Thieme. All rights reserved.)

Published
2022
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34. Regional now- and forecasting for data reported with delay: toward surveillance of COVID-19 infections.

Author

De Nicola G, Schneble M, Kauermann G, and Berger U

Abstract

Governments around the world continue to act to contain and mitigate the spread of COVID-19. The rapidly evolving situation compels officials and executives to continuously adapt policies and social distancing measures depending on the current state of the spread of the disease. In this context, it is crucial for policymakers to have a firm grasp on what the current state of the pandemic is, and to envision how the number of infections is going to evolve over the next days. However, as in many other situations involving compulsory registration of sensitive data, cases are reported with delay to a central register, with this delay deferring an up-to-date view of the state of things. We provide a stable tool for monitoring current infection levels as well as predicting infection numbers in the immediate future at the regional level. We accomplish this through nowcasting of cases that have not yet been reported as well as through predictions of future infections. We apply our model to German data, for which our focus lies in predicting and explain infectious behavior by district., Supplementary Information: The online version contains supplementary material available at 10.1007/s10182-021-00433-5., Competing Interests: Conflict of interestThe authors declare that they have no conflict of interest., (© The Author(s) 2022.)

Published
2022
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35. Discussion on On the role of data, statistics and decisions in a pandemic : by Jahn et al (2022).

Author

Berger U, Kauermann G, and Küchenhoff H

Abstract

The authors make an important contribution presenting a comprehensive and thoughtful overview about the many different aspects of data, statistics and data analyses in times of the recent COVID-19 pandemic discussing all relevant topics. The paper certainly provides a very valuable reflection of what has been done, what could have been done and what needs to be done. We contribute here with a few comments and some additional issues. We do not discuss all chapters of Jahn et al. (AStA Adv Stat Anal, 2022. 10.1007/s10182-022-00439-7), but focus on those where our personal views and experiences might add some additional aspects., (© The Author(s) 2022.)

Published
2022
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36. On the interplay of regional mobility, social connectedness and the spread of COVID-19 in Germany.

Author

Fritz C and Kauermann G

Abstract

Since the primary mode of respiratory virus transmission is person-to-person interaction, we are required to reconsider physical interaction patterns to mitigate the number of people infected with COVID-19. While research has shown that non-pharmaceutical interventions (NPI) had an evident impact on national mobility patterns, we investigate the relative regional mobility behaviour to assess the effect of human movement on the spread of COVID-19. In particular, we explore the impact of human mobility and social connectivity derived from Facebook activities on the weekly rate of new infections in Germany between 3 March and 22 June 2020. Our results confirm that reduced social activity lowers the infection rate, accounting for regional and temporal patterns. The extent of social distancing, quantified by the percentage of people staying put within a federal administrative district, has an overall negative effect on the incidence of infections. Additionally, our results show spatial infection patterns based on geographical as well as social distances., (© 2021 The Authors. Journal of the Royal Statistical Society: Series A (Statistics in Society) published by John Wiley & Sons Ltd on behalf of Royal Statistical Society.)

Published
2022
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37. A statistical model for the dynamics of COVID-19 infections and their case detection ratio in 2020.

Author

Schneble M, De Nicola G, Kauermann G, and Berger U

Subjects
Humans, Models, Statistical, SARS-CoV-2, COVID-19, Pandemics
Abstract

The case detection ratio of coronavirus disease 2019 (COVID-19) infections varies over time due to changing testing capacities, different testing strategies, and the evolving underlying number of infections itself. This note shows a way of quantifying these dynamics by jointly modeling the reported number of detected COVID-19 infections with nonfatal and fatal outcomes. The proposed methodology also allows to explore the temporal development of the actual number of infections, both detected and undetected, thereby shedding light on the infection dynamics. We exemplify our approach by analyzing German data from 2020, making only use of data available since the beginning of the pandemic. Our modeling approach can be used to quantify the effect of different testing strategies, visualize the dynamics in the case detection ratio over time, and obtain information about the underlying true infection numbers, thus enabling us to get a clearer picture of the course of the COVID-19 pandemic in 2020., (© 2020 The Authors. Biometrical Journal published by Wiley-VCH GmbH.)

Published
2021
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38. Nowcasting fatal COVID-19 infections on a regional level in Germany.

Author

Schneble M, De Nicola G, Kauermann G, and Berger U

Subjects
Adult, Aged, Aged, 80 and over, Female, Germany epidemiology, Humans, Male, Middle Aged, Pandemics statistics & numerical data, Spatio-Temporal Analysis, COVID-19 mortality
Abstract

We analyse the temporal and regional structure in mortality rates related to COVID-19 infections, making use of the openly available data on registered cases in Germany published by the Robert Koch Institute on a daily basis. Estimates for the number of present-day infections that will, at a later date, prove to be fatal are derived through a nowcasting model, which relates the day of death of each deceased patient to the corresponding day of registration of the infection. Our district-level modelling approach for fatal infections disentangles spatial variation into a global pattern for Germany, district-specific long-term effects and short-term dynamics, while also taking the age and gender structure of the regional population into account. This enables to highlight areas with unexpectedly high disease activity. The analysis of death counts contributes to a better understanding of the spread of the disease while being, to some extent, less dependent on testing strategy and capacity in comparison to infection counts. The proposed approach and the presented results thus provide reliable insight into the state and the dynamics of the pandemic during the early phases of the infection wave in spring 2020 in Germany, when little was known about the disease and limited data were available., (© 2020 The Authors. Biometrical Journal published by Wiley-VCH GmbH.)

Published
2021
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39. Exploring the statistical uncertainty in acceptable exposure limit values for hexavalent chromium exposure.

Author

Kauermann G, Becher H, and Maier V

Subjects
Baltimore, Cohort Studies, Computer Simulation, Environmental Monitoring, Europe, Humans, Linear Models, Lung Neoplasms chemically induced, Maximum Allowable Concentration, Occupational Exposure adverse effects, Ohio, Poisson Distribution, Uncertainty, Chromium analysis, Dose-Response Relationship, Drug, Occupational Exposure analysis, Occupational Exposure standards, Risk Assessment methods, Threshold Limit Values
Abstract

Exposure limit values give the exposure level at which an accepted (or acceptable) number of additional work related diseases are expected. The values are derived from dose-response curves and carry a large amount of uncertainty. In this paper we aim to quantify some of this uncertainty with statistical means. We explore the limit value issued by the European Chemical Agency (ECHA) for occupational exposure to hexavalent chromium, CR(VI). We investigate how the dose-response model and statistical estimation variability influences the data-based fixation of exposure limit values. We also look at the effect of measurement variation on the exposure level itself, where simulation techniques allow to quantify the uncertainty in statistical terms. We demonstrate that statistical uncertainty needs to be taken into account when fixing exposure limit values based on data.

Published
2018
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40. Automated processing of webcam images for phenological classification.

Author

Bothmann L, Menzel A, Menze BH, Schunk C, and Kauermann G

Subjects
Climate, Climate Change, Ecosystem, Grassland, Humans, Pattern Recognition, Automated methods, Photography methods, Spatio-Temporal Analysis, Trees physiology, Image Processing, Computer-Assisted methods, Pattern Recognition, Automated statistics & numerical data, Photography instrumentation
Abstract

Along with the global climate change, there is an increasing interest for its effect on phenological patterns such as start and end of the growing season. Scientific digital webcams are used for this purpose taking every day one or more images from the same natural motive showing for example trees or grassland sites. To derive phenological patterns from the webcam images, regions of interest are manually defined on these images by an expert and subsequently a time series of percentage greenness is derived and analyzed with respect to structural changes. While this standard approach leads to satisfying results and allows to determine dates of phenological change points, it is associated with a considerable amount of manual work and is therefore constrained to a limited number of webcams only. In particular, this forbids to apply the phenological analysis to a large network of publicly accessible webcams in order to capture spatial phenological variation. In order to be able to scale up the analysis to several hundreds or thousands of webcams, we propose and evaluate two automated alternatives for the definition of regions of interest, allowing for efficient analyses of webcam images. A semi-supervised approach selects pixels based on the correlation of the pixels' time series of percentage greenness with a few prototype pixels. An unsupervised approach clusters pixels based on scores of a singular value decomposition. We show for a scientific webcam that the resulting regions of interest are at least as informative as those chosen by an expert with the advantage that no manual action is required. Additionally, we show that the methods can even be applied to publicly available webcams accessed via the internet yielding interesting partitions of the analyzed images. Finally, we show that the methods are suitable for the intended big data applications by analyzing 13988 webcams from the AMOS database. All developed methods are implemented in the statistical software package R and publicly available in the R package phenofun. Executable example code is provided as supplementary material.

Published
2017
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41. Mixture model to assess the extent of cross-transmission of multidrug-resistant pathogens in hospitals.

Author

Mikolajczyk RT, Kauermann G, Sagel U, and Kretzschmar M

Subjects
Acinetobacter Infections epidemiology, Acinetobacter Infections microbiology, Acinetobacter Infections transmission, Acinetobacter baumannii drug effects, Anti-Bacterial Agents pharmacology, Bacterial Infections microbiology, Cross Infection microbiology, Disease Reservoirs, Drug Resistance, Multiple, Bacterial, Humans, Imipenem pharmacology, Infection Control, Methicillin-Resistant Staphylococcus aureus, Microbial Sensitivity Tests, Probability, Pseudomonas Infections epidemiology, Pseudomonas Infections microbiology, Pseudomonas Infections transmission, Pseudomonas aeruginosa drug effects, Staphylococcal Infections epidemiology, Staphylococcal Infections microbiology, Staphylococcal Infections transmission, Time Factors, Bacterial Infections epidemiology, Bacterial Infections transmission, Cross Infection epidemiology, Cross Infection transmission, Drug Resistance, Bacterial, Poisson Distribution
Abstract

Objective: Creation of a mixture model based on Poisson processes for assessment of the extent of cross-transmission of multidrug-resistant pathogens in the hospital., Methods: We propose a 2-component mixture of Poisson processes to describe the time series of detected cases of colonization. The first component describes the admission process of patients with colonization, and the second describes the cross-transmission. The data set used to illustrate the method consists of the routinely collected records for methicillin-resistant Staphylococcus aureus (MRSA), imipenem-resistant Pseudomonas aeruginosa, and multidrug-resistant Acinetobacter baumannii over a period of 3 years in a German tertiary care hospital., Results: For MRSA and multidrug-resistant A. baumannii, cross-transmission was estimated to be responsible for more than 80% of cases; for imipenem-resistant P. aeruginosa, cross-transmission was estimated to be responsible for 59% of cases. For new cases observed within a window of less than 28 days for MRSA and multidrug-resistant A. baumannii or 40 days for imipenem-resistant P. aeruginosa, there was a 50% or greater probability that the cause was cross-transmission., Conclusions: The proposed method offers a solution to assessing of the extent of cross-transmission, which can be of clinical use. The method can be applied using freely available software (the package FlexMix in R) and it requires relatively little data.

Published
2009
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42. Using penalized splines to model age- and season-of-birth-dependent effects of childhood mortality risk factors in rural Burkina Faso.

Author

Becher H, Kauermann G, Khomski P, and Kouyaté B

Subjects
Algorithms, Burkina Faso epidemiology, Child, Child, Preschool, Female, Humans, Incidence, Infant, Infant, Newborn, Male, Risk Factors, Survival Analysis, Survival Rate, Child Mortality trends, Infant Mortality trends, Proportional Hazards Models, Risk Assessment methods, Rural Population statistics & numerical data, Seasons
Abstract

Several previous studies have identified risk factors for childhood mortality in high risk areas, such as Sub-Saharan Africa. Among these are lifestyle factors related for example to nutrition or sanitation. Other factors are related to social class, ethnicity and poverty in general. Few studies have investigated a dependence of these factors by age and season of birth which is the focus in this study. We perform a survival analysis of 9121 children born between 1998 and 2001 in a rural area of western Burkina Faso. The whole population is under demographic surveillance since 1993. All cause mortality is used as the endpoint and follow-up information until the age of five years is available. Recently developed spline regression methods are used for the analysis. Ethnic group, religion, age of mother, twin status, sex, and distance to next health center are used as covariates all of which having a clear effect on survival in standard Cox regression analysis. With penalized spline regression, a more detailed risk pattern is observed. Ethnicity is more related to death at early age, as well as age of mother. The effect of the risk factors considered also appear to be related with season of birth., (2009 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published
2009
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43. A partial likelihood approach to smooth estimation of dynamic covariate effects using penalised splines.

Author

Brown D, Kauermann G, and Ford I

Subjects
Aging, Coronary Disease complications, Coronary Disease mortality, Data Interpretation, Statistical, Diabetes Complications mortality, Humans, Likelihood Functions, Middle Aged, Probability, Proportional Hazards Models, Smoking adverse effects, Computer Simulation, Models, Statistical
Abstract

Survival data are often modelled by the Cox proportional hazards model, which assumes that covariate effects are constant over time. In recent years however, several new approaches have been suggested which allow covariate effects to vary with time. Non-proportional hazard functions, with covariate effects changing dynamically, can be fitted using penalised spline (P-spline) smoothing. By utilising the link between P-spline smoothing and generalised linear mixed models, the smoothing parameters steering the amount of smoothing can be selected. A hybrid routine, combining the mixed model approach with a classical Akaike criterion, is suggested. This approach is evaluated with simulations and applied to data from the West of Scotland Coronary Prevention Study.

Published
2007
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44. Modeling microarray data using a threshold mixture model.

Author

Kauermann G and Eilers P

Subjects
Animals, Apolipoprotein A-I genetics, Biometry, Data Interpretation, Statistical, Databases, Genetic, Gene Expression Profiling statistics & numerical data, Humans, Leukemia genetics, Mice, Mice, Knockout, Models, Statistical, Oligonucleotide Array Sequence Analysis statistics & numerical data
Abstract

An important goal of microarray studies is the detection of genes that show significant changes in expression when two classes of biological samples are being compared. We present an ANOVA-style mixed model with parameters for array normalization, overall level of gene expression, and change of expression between the classes. For the latter we assume a mixing distribution with a probability mass concentrated at zero, representing genes with no changes, and a normal distribution representing the level of change for the other genes. We estimate the parameters by optimizing the marginal likelihood. To make this practical, Laplace approximations and a backfitting algorithm are used. The performance of the model is studied by simulation and by application to publicly available data sets.

Published
2004
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45. A smooth test in proportional hazard survival models using local partial likelihood fitting.

Author

Kauermann G and Berger U

Subjects
Biometry methods, Data Interpretation, Statistical, Mathematical Computing, Statistics, Nonparametric, Time Factors, Likelihood Functions, Proportional Hazards Models, Survival Analysis
Abstract

Proportional hazard models for survival data, even though popular and numerically handy, suffer from the restrictive assumption that covariate effects are constant over survival time. A number of tests have been proposed to check this assumption. This paper contributes to this area by employing local estimates allowing to fit hazard models in which covariate effects are smoothly varying with time. A formal test is derived to check for proportional hazards against smooth hazards as alternative. The test proves to possess omnibus power in that it is powerful against arbitrary but smooth alternatives. Comparative simulations and two data examples accompany the presentation. Extensions are provided to multiple covariate settings, where the focus of interest is to decide which of the covariate effects vary with time.

Published
2003
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46. Modeling longitudinal data with ordinal response by varying coefficients.

Author

Kauermann G

Subjects
Biometry methods, Follow-Up Studies, Humans, Male, Multicenter Studies as Topic, Normal Distribution, Odds Ratio, Regression Analysis, Statistics, Nonparametric, Longitudinal Studies, Models, Statistical, Prostatic Neoplasms radiotherapy, Radiotherapy adverse effects
Abstract

This paper presents a smooth regression model for ordinal data with longitudinal dependence structure. A marginal model with cumulative logit link is applied to cope with the ordinal scale and the main and covariate effects in the model are allowed to vary with time. Local fitting is pursued and asymptotic properties of the estimates are discussed. In a second step, the longitudinal dependence of the observations is considered. Cumulative log odds ratios are fitted locally, which allows investigation of how the longitudinal dependence of the ordinal observations changes with time.

Published
2000
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47. Standard errors for EM estimates in generalized linear models with random effects.

Author

Friedl H and Kauermann G

Subjects
Analysis of Variance, Biometry methods, Databases as Topic, Internet, Likelihood Functions, Monte Carlo Method, Normal Distribution, Random Allocation, Algorithms, Models, Statistical
Abstract

A procedure is derived for computing standard errors of EM estimates in generalized linear models with random effects. Quadrature formulas are used to approximate the integrals in the EM algorithm, where two different approaches are pursued, i.e., Gauss-Hermite quadrature in the case of Gaussian random effects and nonparametric maximum likelihood estimation for an unspecified random effect distribution. An approximation of the expected Fisher information matrix is derived from an expansion of the EM estimating equations. This allows for inferential arguments based on EM estimates, as demonstrated by an example and simulations.

Published
2000
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