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1. A Human-in-the-Loop Fairness-Aware Model Selection Framework for Complex Fairness Objective Landscapes

Author

Robertson, Jake, Schmidt, Thorsten, Hutter, Frank, and Awad, Noor

Subjects
Computer Science - Machine Learning
Abstract

Fairness-aware Machine Learning (FairML) applications are often characterized by complex social objectives and legal requirements, frequently involving multiple, potentially conflicting notions of fairness. Despite the well-known Impossibility Theorem of Fairness and extensive theoretical research on the statistical and socio-technical trade-offs between fairness metrics, many FairML tools still optimize or constrain for a single fairness objective. However, this one-sided optimization can inadvertently lead to violations of other relevant notions of fairness. In this socio-technical and empirical study, we frame fairness as a many-objective (MaO) problem by treating fairness metrics as conflicting objectives. We introduce ManyFairHPO, a human-in-the-loop, fairness-aware model selection framework that enables practitioners to effectively navigate complex and nuanced fairness objective landscapes. ManyFairHPO aids in the identification, evaluation, and balancing of fairness metric conflicts and their related social consequences, leading to more informed and socially responsible model-selection decisions. Through a comprehensive empirical evaluation and a case study on the Law School Admissions problem, we demonstrate the effectiveness of ManyFairHPO in balancing multiple fairness objectives, mitigating risks such as self-fulfilling prophecies, and providing interpretable insights to guide stakeholders in making fairness-aware modeling decisions.

Published
2024

2. The Unfairness of $\varepsilon$-Fairness

Author

Fadina, Tolulope and Schmidt, Thorsten

Subjects
Computer Science - Machine Learning, Economics - Theoretical Economics, Quantitative Finance - Mathematical Finance, Statistics - Machine Learning
Abstract

Fairness in decision-making processes is often quantified using probabilistic metrics. However, these metrics may not fully capture the real-world consequences of unfairness. In this article, we adopt a utility-based approach to more accurately measure the real-world impacts of decision-making process. In particular, we show that if the concept of $\varepsilon$-fairness is employed, it can possibly lead to outcomes that are maximally unfair in the real-world context. Additionally, we address the common issue of unavailable data on false negatives by proposing a reduced setting that still captures essential fairness considerations. We illustrate our findings with two real-world examples: college admissions and credit risk assessment. Our analysis reveals that while traditional probability-based evaluations might suggest fairness, a utility-based approach uncovers the necessary actions to truly achieve equality. For instance, in the college admission case, we find that enhancing completion rates is crucial for ensuring fairness. Summarizing, this paper highlights the importance of considering the real-world context when evaluating fairness.

Published
2024

3. A novel scaling approach for unbiased adjustment of risk estimators

Author

Pitera, Marcin, Schmidt, Thorsten, and Stettner, Łukasz

Subjects
Quantitative Finance - Risk Management, Quantitative Finance - Computational Finance, Quantitative Finance - Statistical Finance
Abstract

The assessment of risk based on historical data faces many challenges, in particular due to the limited amount of available data, lack of stationarity, and heavy tails. While estimation on a short-term horizon for less extreme percentiles tends to be reasonably accurate, extending it to longer time horizons or extreme percentiles poses significant difficulties. The application of theoretical risk scaling laws to address this issue has been extensively explored in the literature. This paper presents a novel approach to scaling a given risk estimator, ensuring that the estimated capital reserve is robust and conservatively estimates the risk. We develop a simple statistical framework that allows efficient risk scaling and has a direct link to backtesting performance. Our method allows time scaling beyond the conventional square-root-of-time rule, enables risk transfers, such as those involved in economic capital allocation, and could be used for unbiased risk estimation in small sample settings. To demonstrate the effectiveness of our approach, we provide various examples related to the estimation of value-at-risk and expected shortfall together with a short empirical study analysing the impact of our method.

Published
2023

5. The parkin V380L variant is a genetic modifier of Machado–Joseph disease with impact on mitophagy

Author

Weber, Jonasz J., Czisch, Leah, Pereira Sena, Priscila, Fath, Florian, Huridou, Chrisovalantou, Schwarz, Natasa, Incebacak Eltemur, Rana D., Würth, Anna, Weishäupl, Daniel, Döcker, Miriam, Blumenstock, Gunnar, Martins, Sandra, Sequeiros, Jorge, Rouleau, Guy A., Jardim, Laura Bannach, Saraiva-Pereira, Maria-Luiza, França, Jr., Marcondes C., Gordon, Carlos R., Zaltzman, Roy, Cornejo-Olivas, Mario R., van de Warrenburg, Bart P. C., Durr, Alexandra, Brice, Alexis, Bauer, Peter, Klockgether, Thomas, Schöls, Ludger, Riess, Olaf, and Schmidt, Thorsten

Published
2024
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6. Robust asymptotic insurance-finance arbitrage

Author

Oberpriller, Katharina, Ritter, Moritz, and Schmidt, Thorsten

Subjects
Quantitative Finance - Mathematical Finance
Abstract

In most cases, insurance contracts are linked to the financial markets, such as through interest rates or equity-linked insurance products. To motivate an evaluation rule in these hybrid markets, Artzner et al. (2022) introduced the notion of insurance-finance arbitrage. In this paper we extend their setting by incorporating model uncertainty. To this end, we allow statistical uncertainty in the underlying dynamics to be represented by a set of priors $\mathscr{P}$. Within this framework we introduce the notion of robust asymptotic insurance-finance arbitrage and characterize the absence of such strategies in terms of the concept of ${Q}\mathscr{P}$-evaluations. This is a nonlinear two-step evaluation which guarantees no robust asymptotic insurance-finance arbitrage. Moreover, the ${Q}\mathscr{P}$-evaluation dominates all two-step evaluations as long as we agree on the set of priors $\mathscr{P}$ which shows that those two-step evaluations do not allow for robust asymptotic insurance-finance arbitrages. Furthermore, we introduce a doubly stochastic model under uncertainty for surrender and survival. In this setting, we describe conditional dependence by means of copulas and illustrate how the ${Q}\mathscr{P}$-evaluation can be used for the pricing of hybrid insurance products., Comment: 21 pages, 1 figure

Published
2022

7. Data-Driven Failure Management: An Ontology-Based Speech Recognition App for Failure Capturing in Manufacturing Processes

Author

Scharfe, Philipp, Ludwig, Heiner, Bley, Katja, Wiener, Martin, Schmidt, Thorsten, Spagnoletti, Paolo, Series Editor, De Marco, Marco, Series Editor, Pouloudi, Nancy, Series Editor, Te'eni, Dov, Series Editor, vom Brocke, Jan, Series Editor, Winter, Robert, Series Editor, Baskerville, Richard, Series Editor, Za, Stefano, Series Editor, Braccini, Alessio Maria, Series Editor, Pallud, Jessie, editor, and Pennarola, Ferdinando, editor

Published
2024
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8. Affine models with path-dependence under parameter uncertainty and their application in finance

Author

Geuchen, Benedikt, Oberpriller, Katharina, and Schmidt, Thorsten

Subjects
Quantitative Finance - Mathematical Finance, 60G65, 60G07
Abstract

In this work we consider one-dimensional generalized affine processes under the paradigm of Knightian uncertainty (so-called non-linear generalized affine models). This extends and generalizes previous results in Fadina et al. (2019) and L\"utkebohmert et al. (2022). In particular, we study the case when the payoff is allowed to depend on the path, like it is the case for barrier options or Asian options. To this end, we develop the path-dependent setting for the value function which we do by relying on functional It\^o calculus. We establish a dynamic programming principle which then leads to a functional non-linear Kolmogorov equation describing the evolution of the value function. While for Asian options, the valuation can be traced back to PDE methods, this is no longer possible for more complicated payoffs like barrier options. To handle such payoffs in an efficient manner, we approximate the functional derivatives with deep neural networks and show that the numerical valuation under parameter uncertainty is highly tractable. Finally, we consider the application to structural modelling of credit and counterparty risk, where both parameter uncertainty and path-dependence are crucial and the approach proposed here opens the door to efficient numerical methods in this field., Comment: 24 pages, 2 figures

Published
2022

9. Estimating value at risk: LSTM vs. GARCH

Author

Ormaniec, Weronika, Pitera, Marcin, Safarveisi, Sajad, and Schmidt, Thorsten

Subjects
Quantitative Finance - Risk Management, Quantitative Finance - Statistical Finance, Statistics - Machine Learning
Abstract

Estimating value-at-risk on time series data with possibly heteroscedastic dynamics is a highly challenging task. Typically, we face a small data problem in combination with a high degree of non-linearity, causing difficulties for both classical and machine-learning estimation algorithms. In this paper, we propose a novel value-at-risk estimator using a long short-term memory (LSTM) neural network and compare its performance to benchmark GARCH estimators. Our results indicate that even for a relatively short time series, the LSTM could be used to refine or monitor risk estimation processes and correctly identify the underlying risk dynamics in a non-parametric fashion. We evaluate the estimator on both simulated and market data with a focus on heteroscedasticity, finding that LSTM exhibits a similar performance to GARCH estimators on simulated data, whereas on real market data it is more sensitive towards increasing or decreasing volatility and outperforms all existing estimators of value-at-risk in terms of exception rate and mean quantile score.

Published
2022

11. Term structure modelling with overnight rates beyond stochastic continuity

Author

Fontana, Claudio, Grbac, Zorana, and Schmidt, Thorsten

Subjects
Quantitative Finance - Mathematical Finance, Mathematics - Probability, Quantitative Finance - Pricing of Securities, 60G15, 60G44, 60G57, 91G15, 91G20, 91G30
Abstract

Overnight rates, such as the SOFR (Secured Overnight Financing Rate) in the US, are central to the current reform of interest rate benchmarks. A striking feature of overnight rates is the presence of jumps and spikes occurring at predetermined dates due to monetary policy interventions and liquidity constraints. This corresponds to stochastic discontinuities (i.e., discontinuities occurring at ex-ante known points in time) in their dynamics. In this work, we propose a term structure modelling framework based on overnight rates and characterize absence of arbitrage in a generalised Heath-Jarrow-Morton (HJM) setting. We extend the classical short-rate approach to accommodate stochastic discontinuities, developing a tractable setup driven by affine semimartingales. In this context, we show that simple specifications allow to capture stylized facts of the jump behavior of overnight rates. In a Gaussian setting, we provide explicit valuation formulas for bonds and caplets. Furthermore, we investigate hedging in the sense of local risk-minimization when the underlying term structures feature stochastic discontinuities., Comment: 27 pages, 2 figures

Published
2022

12. Estimating and backtesting risk under heavy tails

Author

Pitera, Marcin and Schmidt, Thorsten

Subjects
Quantitative Finance - Risk Management
Abstract

While the estimation of risk is an important question in the daily business of banking and insurance, many existing plug-in estimation procedures suffer from an unnecessary bias. This often leads to the underestimation of risk and negatively impacts backtesting results, especially in small sample cases. In this article we show that the link between estimation bias and backtesting can be traced back to the dual relationship between risk measures and the corresponding performance measures, and discuss this in reference to value-at-risk, expected shortfall and expectile value-at-risk. Motivated by the consistent underestimation of risk by plug-in procedures, we propose a new algorithm for bias correction and show how to apply it for generalized Pareto distributions to the i.i.d.\ setting and to a GARCH(1,1) time series. In particular, we show that the application of our algorithm leads to gain in efficiency when heavy tails or heteroscedasticity exists in the data., Comment: Double submission. Please see arXiv:2010.09937

Published
2022

15. The Martingale Problem Method Revisited

Author

Criens, David, Pfaffelhuber, Peter, and Schmidt, Thorsten

Subjects
Mathematics - Probability
Abstract

We use the abstract method of (local) martingale problems in order to give criteria for convergence of stochastic processes. Extending previous notions, the formulation we use is neither restricted to Markov processes (or semimartingales), nor to continuous or cadlag paths. We illustrate our findings both, by finding generalizations of known results, and proving new results. For the latter, we work on processes with fixed times of discontinuity.

Published
2021

16. Robust deep hedging

Author

Lütkebohmert, Eva, Schmidt, Thorsten, and Sester, Julian

Subjects
Quantitative Finance - Risk Management, Mathematics - Probability, Quantitative Finance - Computational Finance, Quantitative Finance - Mathematical Finance
Abstract

We study pricing and hedging under parameter uncertainty for a class of Markov processes which we call generalized affine processes and which includes the Black-Scholes model as well as the constant elasticity of variance (CEV) model as special cases. Based on a general dynamic programming principle, we are able to link the associated nonlinear expectation to a variational form of the Kolmogorov equation which opens the door for fast numerical pricing in the robust framework. The main novelty of the paper is that we propose a deep hedging approach which efficiently solves the hedging problem under parameter uncertainty. We numerically evaluate this method on simulated and real data and show that the robust deep hedging outperforms existing hedging approaches, in particular in highly volatile periods.

Published
2021

17. Defaultable term structures driven by semimartingales

Author

Gümbel, Sandrine and Schmidt, Thorsten

Subjects
Quantitative Finance - Mathematical Finance, Mathematics - Probability, 60G99, 91B70
Abstract

We consider a market with a term structure of credit risky bonds in the single-name case. We aim at minimal assumptions extending existing results in this direction: first, the random field of forward rates is driven by a general semimartingale. Second, the Heath-Jarrow-Morton approach is extended with an additional component capturing those future jumps in the term structure which are visible from the current time. Third, the associated recovery scheme is as general as possible, it is only assumed to be non-increasing. In this general setting we derive generalized drift conditions which characterize when a given measure is a local martingale measure, thus yielding no asymptotic free lunch with vanishing risk (NAFLVR), the right notion for this large financial market to be free of arbitrage.

Published
2021

18. A conditional version of the second fundamental theorem of asset pricing in discrete time

Author

Niemann, Lars and Schmidt, Thorsten

Subjects
Quantitative Finance - Mathematical Finance, Mathematics - Probability
Abstract

We consider a financial market in discrete time and study pricing and hedging conditional on the information available up to an arbitrary point in time. In this conditional framework, we determine the structure of arbitrage-free prices. Moreover, we characterize attainability and market completeness. We derive a conditional version of the second fundamental theorem of asset pricing, which, surprisingly, is not available up to now. The main tool we use are time consistency properties of dynamic nonlinear expectations, which we apply to the super- and subhedging prices. The results obtained extend existing results in the literature, where the conditional setting is considered in most cases only on finite probability spaces.

Published
2021

19. Ruin Probabilities for a Sparre Andersen Model with Investments

Author

Eberlain, Ernst, Kabanov, Yuri, and Schmidt, Thorsten

Subjects
Mathematics - Probability, 60G51, 60G70, 91G05
Abstract

We study a Sparre Andersen model in which the business activity of the company is described by a compound renewal process with drift assuming that the capital reserves are invested in a risky asset. The price of the latter is assumed to evolve according to a geometric L\'evy process. We prove that the asymptotic behavior of the ruin probability depends to a large extent only on the properties of the price process., Comment: 17 pages

Published
2020

20. Deep dynamic modeling with just two time points: Can we still allow for individual trajectories?

Author

Hackenberg, Maren, Harms, Philipp, Pfaffenlehner, Michelle, Pechmann, Astrid, Kirschner, Janbernd, Schmidt, Thorsten, and Binder, Harald

Subjects
Statistics - Machine Learning, Computer Science - Machine Learning
Abstract

Longitudinal biomedical data are often characterized by a sparse time grid and individual-specific development patterns. Specifically, in epidemiological cohort studies and clinical registries we are facing the question of what can be learned from the data in an early phase of the study, when only a baseline characterization and one follow-up measurement are available. Inspired by recent advances that allow to combine deep learning with dynamic modeling, we investigate whether such approaches can be useful for uncovering complex structure, in particular for an extreme small data setting with only two observations time points for each individual. Irregular spacing in time could then be used to gain more information on individual dynamics by leveraging similarity of individuals. We provide a brief overview of how variational autoencoders (VAEs), as a deep learning approach, can be linked to ordinary differential equations (ODEs) for dynamic modeling, and then specifically investigate the feasibility of such an approach that infers individual-specific latent trajectories by including regularity assumptions and individuals' similarity. We also provide a description of this deep learning approach as a filtering task to give a statistical perspective. Using simulated data, we show to what extent the approach can recover individual trajectories from ODE systems with two and four unknown parameters and infer groups of individuals with similar trajectories, and where it breaks down. The results show that such dynamic deep learning approaches can be useful even in extreme small data settings, but need to be carefully adapted., Comment: 23 pages, 7 figures

Published
2020

25. Estimating and backtesting risk under heavy tails

Author

Pitera, Marcin and Schmidt, Thorsten

Subjects
Quantitative Finance - Risk Management, Mathematics - Statistics Theory, Quantitative Finance - Statistical Finance
Abstract

While the {estimation} of risk is an important question in the daily business of banking and insurance, many existing plug-in estimation procedures suffer from an unnecessary bias. This often leads to the underestimation of risk and negatively impacts backtesting results, especially in small sample cases. In this article we show that the link between estimation bias and backtesting can be traced back to the dual relationship between risk measures and the corresponding performance measures, and discuss this in reference to value-at-risk, expected shortfall and expectile value-at-risk. Motivated by the consistent underestimation of risk by plug-in procedures, we propose a new algorithm for bias correction and show how to apply it for generalized Pareto distributions to the i.i.d. setting and to a GARCH(1,1) time series. In particular, we show that the application of our algorithm leads to gain in efficiency when heavy tails or heteroscedasticity exists in the data.

Published
2020

26. Insurance-Finance Arbitrage

Author

Artzner, Philippe, Eisele, Karl-Theodor, and Schmidt, Thorsten

Subjects
Quantitative Finance - Mathematical Finance, Mathematics - Probability
Abstract

Most insurance contracts are inherently linked to financial markets, be it via interest rates, or -- as hybrid products like equity-linked life insurance and variable annuities -- directly to stocks or indices. However, insurance contracts are not for trade except sometimes as surrender to the selling office. This excludes the situation of arbitrage by buying and selling insurance contracts at different prices. Furthermore, the insurer uses private information on top of the publicly available one about financial market. This paper provides a study of the consistency of insurance contracts in connection with trades in the financial market with explicit mention of the information involved. By defining strategies on an insurance portfolio and combining them with financial trading strategies, we arrive at the notion of insurance-finance arbitrage (IFA). In analogy to the classical fundamental theorem of asset pricing, we give a fundamental theorem on the absence of IFA, leading to the existence of an insurance-finance-consistent probability. In addition, we study when this probability gives the expected discounted cash-flows required by the EIOPA best estimate. The generality of our approach allows to incorporate many important aspects, like mortality risk or general levels of dependence between mortality and stock markets. Utilizing the theory of enlargements of filtrations, we construct a tractable framework for insurance-finance consistent valuation.

Published
2020

27. Machine learning for multiple yield curve markets: fast calibration in the Gaussian affine framework

Author

Gümbel, Sandrine and Schmidt, Thorsten

Subjects
Quantitative Finance - Pricing of Securities, Mathematics - Probability, Quantitative Finance - Mathematical Finance, Statistics - Machine Learning
Abstract

Calibration is a highly challenging task, in particular in multiple yield curve markets. This paper is a first attempt to study the chances and challenges of the application of machine learning techniques for this. We employ Gaussian process regression, a machine learning methodology having many similarities with extended Kalman filtering - a technique which has been applied many times to interest rate markets and term structure models. We find very good results for the single curve markets and many challenges for the multi curve markets in a Vasicek framework. The Gaussian process regression is implemented with the Adam optimizer and the non-linear conjugate gradient method, where the latter performs best. We also point towards future research.

Published
2020

31. Einführung

Author

Fottner, Johannes, Galka, Stefan, Habenicht, Sebastian, Klenk, Eva, Meinhardt, Ingolf, Schmidt, Thorsten, Fottner, Johannes, Galka, Stefan, Habenicht, Sebastian, Klenk, Eva, Meinhardt, Ingolf, and Schmidt, Thorsten

Published
2022
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36. Infinite dimensional affine processes

Author

Schmidt, Thorsten, Tappe, Stefan, and Yu, Weijun

Subjects
Mathematics - Probability, Mathematics - Functional Analysis, 60J25, 60H10
Abstract

The goal of this article is to investigate infinite dimensional affine diffusion processes on the canonical state space. This includes a derivation of the corresponding system of Riccati differential equations and an existence proof for such processes, which has been missing in the literature so far. For the existence proof, we will regard affine processes as solutions to infinite dimensional stochastic differential equations with values in Hilbert spaces. This requires a suitable version of the Yamada-Watanabe theorem, which we will provide in this paper. Several examples of infinite dimensional affine processes accompany our results., Comment: 37 pages

Published
2019

37. Generalized statistical arbitrage concepts and related gain strategies

Author

Rein, Christian, Rüschendorf, Ludger, and Schmidt, Thorsten

Subjects
Quantitative Finance - Mathematical Finance, Quantitative Finance - Statistical Finance, Quantitative Finance - Trading and Market Microstructure
Abstract

Generalized statistical arbitrage concepts are introduced corresponding to trading strategies which yield positive gains on average in a class of scenarios rather than almost surely. The relevant scenarios or market states are specified via an information system given by a $\sigma$-algebra and so this notion contains classical arbitrage as a special case. It also covers the notion of statistical arbitrage introduced in Bondarenko (2003). Relaxing these notions further we introduce generalized profitable strategies which include also static or semi-static strategies. Under standard no-arbitrage there may exist generalized gain strategies yielding positive gains on average under the specified scenarios. In the first part of the paper we characterize these generalized statistical no-arbitrage notions. In the second part of the paper we construct several profitable generalized strategies with respect to various choices of the information system. In particular, we consider several forms of embedded binomial strategies and follow-the-trend strategies as well as partition-type strategies. We study and compare their behaviour on simulated data. Additionally, we find good performance on market data of these simple strategies which makes them profitable candidates for real applications.

Published
2019

38. Variable annuities in a L\'evy-based hybrid model with surrender risk

Author

Ballotta, Laura, Eberlein, Ernst, Schmidt, Thorsten, and Zeineddine, Raghid

Subjects
Quantitative Finance - Mathematical Finance, Quantitative Finance - Risk Management
Abstract

This paper proposes a market consistent valuation framework for variable annuities with guaranteed minimum accumulation benefit, death benefit and surrender benefit features. The setup is based on a hybrid model for the financial market and uses time-inhomogeneous L\'evy processes as risk drivers. Further, we allow for dependence between financial and surrender risks. Our model leads to explicit analytical formulas for the quantities of interest, and practical and efficient numerical procedures for the evaluation of these formulas. We illustrate the tractability of this approach by means of a detailed sensitivity analysis of the price of the variable annuity and its components with respect to the model parameters. The results highlight the role played by the surrender behaviour and the importance of its appropriate modelling.

Published
2019

39. Fair Estimation of Capital Risk Allocation

Author

Bielecki, Tomasz R., Cialenco, Igor, Pitera, Marcin, and Schmidt, Thorsten

Subjects
Quantitative Finance - Risk Management, Mathematics - Probability, Quantitative Finance - Mathematical Finance, Quantitative Finance - Portfolio Management, Quantitative Finance - Statistical Finance
Abstract

In this paper we develop a novel methodology for estimation of risk capital allocation. The methodology is rooted in the theory of risk measures. We work within a general, but tractable class of law-invariant coherent risk measures, with a particular focus on expected shortfall. We introduce the concept of fair capital allocations and provide explicit formulae for fair capital allocations in case when the constituents of the risky portfolio are jointly normally distributed. The main focus of the paper is on the problem of approximating fair portfolio allocations in the case of not fully known law of the portfolio constituents. We define and study the concepts of fair allocation estimators and asymptotically fair allocation estimators. A substantial part of our study is devoted to the problem of estimating fair risk allocations for expected shortfall. We study this problem under normality as well as in a nonparametric setup. We derive several estimators, and prove their fairness and/or asymptotic fairness. Last, but not least, we propose two backtesting methodologies that are oriented at assessing the performance of the allocation estimation procedure. The paper closes with a substantial numerical study of the subject.

Published
2019

41. Logistik

Author

ten Hompel, Michael, Prasse, Christian, Schmidt, Thorsten, Schmidt, Michael, Clausen, Uwe, Pöting, Moritz, Henke, Michael, Besenfelder, Christoph, Rehof, Jakob, Hennecke, Manfred, Section editor, Akademischer Verein Hütte e.V., Hennecke, Manfred, editor, and Skrotzki, Birgit, editor

Published
2022
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48. Term structure modeling for multiple curves with stochastic discontinuities

Author

Fontana, Claudio, Grbac, Zorana, Gümbel, Sandrine, and Schmidt, Thorsten

Subjects
Quantitative Finance - Mathematical Finance, Mathematics - Probability
Abstract

We develop a general term structure framework taking stochastic discontinuities explicitly into account. Stochastic discontinuities are a key feature in interest rate markets, as for example the jumps of the term structures in correspondence to monetary policy meetings of the ECB show. We provide a general analysis of multiple curve markets under minimal assumptions in an extended HJM framework and provide a fundamental theorem of asset pricing based on NAFLVR. The approach with stochastic discontinuities permits to embed market models directly, unifying seemingly different modeling philosophies. We also develop a tractable class of models, based on affine semimartingales, going beyond the requirement of stochastic continuity.

Published
2018

49. Time-inhomogeneous polynomial processes

Author

Hurtado, María Fernanda del Carmen Agoitia and Schmidt, Thorsten

Subjects
Mathematics - Probability, Quantitative Finance - Mathematical Finance
Abstract

Time homogeneous polynomial processes are Markov processes whose moments can be calculated easily through matrix exponentials. In this work, we develop a notion of time inhomogeneous polynomial processes where the coeffiecients of the process may depend on time. A full characterization of this model class is given by means of their semimartingale characteristics. We show that in general, the computation of moments by matrix exponentials is no longer possible. As an alternative we explore a connection to Magnus series for fast numerical approximations. Time-inhomogeneity is important in a number of applications: in term-structure models, this allows a perfect calibration to available prices. In electricity markets, seasonality comes naturally into play and have to be captured by the used models. The model class studied in this work extends existing models, for example Sato processes and time-inhomogeneous affine processes.

Published
2018

50. Affine processes under parameter uncertainty

Author

Fadina, Tolulope, Neufeld, Ariel, and Schmidt, Thorsten

Subjects
Mathematics - Probability, Quantitative Finance - Mathematical Finance
Abstract

We develop a one-dimensional notion of affine processes under parameter uncertainty, which we call non-linear affine processes. This is done as follows: given a set of parameters for the process, we construct a corresponding non-linear expectation on the path space of continuous processes. By a general dynamic programming principle we link this non-linear expectation to a variational form of the Kolmogorov equation, where the generator of a single affine process is replaced by the supremum over all corresponding generators of affine processes with parameters in the parameter set. This non-linear affine process yields a tractable model for Knightian uncertainty, especially for modelling interest rates under ambiguity. We then develop an appropriate Ito-formula, the respective term-structure equations and study the non-linear versions of the Vasicek and the Cox-Ingersoll-Ross (CIR) model. Thereafter we introduce the non-linear Vasicek-CIR model. This model is particularly suitable for modelling interest rates when one does not want to restrict the state space a priori and hence the approach solves this modelling issue arising with negative interest rates.

Published
2018

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