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3,560 results on '"Gonon, A"'

1. Fast Deep Hedging with Second-Order Optimization

Author

Mueller, Konrad, Akkari, Amira, Gonon, Lukas, and Wood, Ben

Subjects
Quantitative Finance - Risk Management, Computer Science - Machine Learning, Quantitative Finance - Computational Finance
Abstract

Hedging exotic options in presence of market frictions is an important risk management task. Deep hedging can solve such hedging problems by training neural network policies in realistic simulated markets. Training these neural networks may be delicate and suffer from slow convergence, particularly for options with long maturities and complex sensitivities to market parameters. To address this, we propose a second-order optimization scheme for deep hedging. We leverage pathwise differentiability to construct a curvature matrix, which we approximate as block-diagonal and Kronecker-factored to efficiently precondition gradients. We evaluate our method on a challenging and practically important problem: hedging a cliquet option on a stock with stochastic volatility by trading in the spot and vanilla options. We find that our second-order scheme can optimize the policy in 1/4 of the number of steps that standard adaptive moment-based optimization takes.

Published
2024

2. Computing Systemic Risk Measures with Graph Neural Networks

Author

Gonon, Lukas, Meyer-Brandis, Thilo, and Weber, Niklas

Subjects
Quantitative Finance - Computational Finance, Computer Science - Machine Learning, Quantitative Finance - Mathematical Finance, 68T07, 91G45, 91G60, 91G70
Abstract

This paper investigates systemic risk measures for stochastic financial networks of explicitly modelled bilateral liabilities. We extend the notion of systemic risk measures from Biagini, Fouque, Fritelli and Meyer-Brandis (2019) to graph structured data. In particular, we focus on an aggregation function that is derived from a market clearing algorithm proposed by Eisenberg and Noe (2001). In this setting, we show the existence of an optimal random allocation that distributes the overall minimal bailout capital and secures the network. We study numerical methods for the approximation of systemic risk and optimal random allocations. We propose to use permutation equivariant architectures of neural networks like graph neural networks (GNNs) and a class that we name (extended) permutation equivariant neural networks ((X)PENNs). We compare their performance to several benchmark allocations. The main feature of GNNs and (X)PENNs is that they are permutation equivariant with respect to the underlying graph data. In numerical experiments we find evidence that these permutation equivariant methods are superior to other approaches., Comment: 45 pages

Published
2024

3. An Overview on Machine Learning Methods for Partial Differential Equations: from Physics Informed Neural Networks to Deep Operator Learning

Author

Gonon, Lukas, Jentzen, Arnulf, Kuckuck, Benno, Liang, Siyu, Riekert, Adrian, and von Wurstemberger, Philippe

Subjects
Mathematics - Numerical Analysis, Statistics - Machine Learning
Abstract

The approximation of solutions of partial differential equations (PDEs) with numerical algorithms is a central topic in applied mathematics. For many decades, various types of methods for this purpose have been developed and extensively studied. One class of methods which has received a lot of attention in recent years are machine learning-based methods, which typically involve the training of artificial neural networks (ANNs) by means of stochastic gradient descent type optimization methods. While approximation methods for PDEs using ANNs have first been proposed in the 1990s they have only gained wide popularity in the last decade with the rise of deep learning. This article aims to provide an introduction to some of these methods and the mathematical theory on which they are based. We discuss methods such as physics-informed neural networks (PINNs) and deep BSDE methods and consider several operator learning approaches.

Published
2024

4. Variance Norms for Kernelized Anomaly Detection

Author

Cass, Thomas, Gonon, Lukas, and Zozoulenko, Nikita

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

We present a unified theory for Mahalanobis-type anomaly detection on Banach spaces, using ideas from Cameron-Martin theory applied to non-Gaussian measures. This approach leads to a basis-free, data-driven notion of anomaly distance through the so-called variance norm of a probability measure, which can be consistently estimated using empirical measures. Our framework generalizes the classical $\mathbb{R}^d$, functional $(L^2[0,1])^d$, and kernelized settings, including the general case of non-injective covariance operator. We prove that the variance norm depends solely on the inner product in a given Hilbert space, and hence that the kernelized Mahalanobis distance can naturally be recovered by working on reproducing kernel Hilbert spaces. Using the variance norm, we introduce the notion of a kernelized nearest-neighbour Mahalanobis distance for semi-supervised anomaly detection. In an empirical study on 12 real-world datasets, we demonstrate that the kernelized nearest-neighbour Mahalanobis distance outperforms the traditional kernelized Mahalanobis distance for multivariate time series anomaly detection, using state-of-the-art time series kernels such as the signature, global alignment, and Volterra reservoir kernels. Moreover, we provide an initial theoretical justification of nearest-neighbour Mahalanobis distances by developing concentration inequalities in the finite-dimensional Gaussian case.

Published
2024

5. Operator Deep Smoothing for Implied Volatility

Author

Gonon, Lukas, Jacquier, Antoine, and Wiedemann, Ruben

Subjects
Quantitative Finance - Computational Finance
Abstract

We devise a novel method for nowcasting implied volatility based on neural operators. Better known as implied volatility smoothing in the financial industry, nowcasting of implied volatility means constructing a smooth surface that is consistent with the prices presently observed on a given option market. Option price data arises highly dynamically in ever-changing spatial configurations, which poses a major limitation to foundational machine learning approaches using classical neural networks. While large models in language and image processing deliver breakthrough results on vast corpora of raw data, in financial engineering the generalization from big historical datasets has been hindered by the need for considerable data pre-processing. In particular, implied volatility smoothing has remained an instance-by-instance, hands-on process both for neural network-based and traditional parametric strategies. Our general operator deep smoothing approach, instead, directly maps observed data to smoothed surfaces. We adapt the graph neural operator architecture to do so with high accuracy on ten years of raw intraday S&P 500 options data, using a single model instance. The trained operator adheres to critical no-arbitrage constraints and is robust with respect to subsampling of inputs (occurring in practice in the context of outlier removal). We provide extensive historical benchmarks and showcase the generalization capability of our approach in a comparison with classical neural networks and SVI, an industry standard parametrization for implied volatility. The operator deep smoothing approach thus opens up the use of neural networks on large historical datasets in financial engineering.

Published
2024

6. Universal randomised signatures for generative time series modelling

Author

Biagini, Francesca, Gonon, Lukas, and Walter, Niklas

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

Randomised signature has been proposed as a flexible and easily implementable alternative to the well-established path signature. In this article, we employ randomised signature to introduce a generative model for financial time series data in the spirit of reservoir computing. Specifically, we propose a novel Wasserstein-type distance based on discrete-time randomised signatures. This metric on the space of probability measures captures the distance between (conditional) distributions. Its use is justified by our novel universal approximation results for randomised signatures on the space of continuous functions taking the underlying path as an input. We then use our metric as the loss function in a non-adversarial generator model for synthetic time series data based on a reservoir neural stochastic differential equation. We compare the results of our model to benchmarks from the existing literature., Comment: 33 pages

Published
2024

7. Fast inference with Kronecker-sparse matrices

Author

Gonon, Antoine, Zheng, Léon, Carrivain, Pascal, and Le, Quoc-Tung

Subjects
Computer Science - Machine Learning
Abstract

This paper benchmarks and improves existing GPU matrix multiplication algorithms specialized for Kronecker-sparse matrices, whose sparsity patterns are described by Kronecker products. These matrices have recently gained popularity as replacements for dense matrices in neural networks because they preserve accuracy while using fewer parameters. We present the first energy and time benchmarks for the multiplication with such matrices, helping users identify scenarios where Kronecker-sparse matrices are more time- and energy-efficient than their dense counterparts. Our benchmark also reveals that specialized implementations spend up to 50% of their total runtime on memory rewriting operations. To address the challenge of reducing memory transfers, we introduce a new so-called tiling strategy adapted to the Kronecker-sparsity structure, which reduces reads and writes between levels of GPU memory. We implement this tiling strategy in a new CUDA kernel that achieves a median speed-up of x1.4, while also cutting energy consumption by 15%. We further demonstrate the broader impact of our results by applying the new kernel to accelerate transformer inference.

Published
2024

8. Path-metrics, pruning, and generalization

Author

Gonon, Antoine, Brisebarre, Nicolas, Riccietti, Elisa, and Gribonval, Rémi

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

Analyzing the behavior of ReLU neural networks often hinges on understanding the relationships between their parameters and the functions they implement. This paper proves a new bound on function distances in terms of the so-called path-metrics of the parameters. Since this bound is intrinsically invariant with respect to the rescaling symmetries of the networks, it sharpens previously known bounds. It is also, to the best of our knowledge, the first bound of its kind that is broadly applicable to modern networks such as ResNets, VGGs, U-nets, and many more. In contexts such as network pruning and quantization, the proposed path-metrics can be efficiently computed using only two forward passes. Besides its intrinsic theoretical interest, the bound yields not only novel theoretical generalization bounds, but also a promising proof of concept for rescaling-invariant pruning.

Published
2024

10. Eingliederung als Rechtfertigungsarbeit

Author

Gonon, Anna

Subjects
Betriebliche Arbeitsintegration, Psychische Erkrankungen, Inklusion, berufliche Eingliederung, Konventionentheorie, Personalmangement, thema EDItEUR::J Society and Social Sciences::JH Sociology and anthropology::JHB Sociology::JHBL Sociology: work and labour, thema EDItEUR::M Medicine and Nursing::MB Medicine: general issues::MBS Medical sociology, thema EDItEUR::J Society and Social Sciences::JP Politics and government
Abstract

Dieses Open-Access-Buch analysiert Praktiken der Wiedereingliederung von Beschäftigten mit psychischen Erkrankungen in drei Unternehmen in der Schweiz. Ausgehend von den konkreten Handlungsproblemen der Akteurinnen und Akteure wird die These entwickelt, dass betriebliche Arbeitsintegration zu einem wesentlichen Teil „Rechtfertigungsarbeit“ bedeutet. Eingeschränkte Leistungsfähigkeit und Maßnahmen zur weiteren Beschäftigung werfen – gerade im Falle nicht direkt wahrnehmbarer Gesundheitsprobleme – Rechtfertigungsbedarf im Unternehmen auf. „Rechtfertigungsarbeit“ kann darin bestehen, die kooperative Haltung der Betroffenen gegenüber dem Betrieb zu bekräftigen oder plausibel zu machen, dass sie in ihrer Arbeitsstelle trotz der Erkrankung weiterhin leistungsfähig sein werden. ; Dieses Open-Access-Buch analysiert Praktiken der Wiedereingliederung von Beschäftigten mit psychischen Erkrankungen in drei Unternehmen in der Schweiz. Ausgehend von den konkreten Handlungsproblemen der Akteurinnen und Akteure wird die These entwickelt, dass betriebliche Arbeitsintegration zu einem wesentlichen Teil „Rechtfertigungsarbeit“ bedeutet. Eingeschränkte Leistungsfähigkeit und Maßnahmen zur weiteren Beschäftigung werfen – gerade im Falle nicht direkt wahrnehmbarer Gesundheitsprobleme – Rechtfertigungsbedarf im Unternehmen auf. „Rechtfertigungsarbeit“ kann darin bestehen, die kooperative Haltung der Betroffenen gegenüber dem Betrieb zu bekräftigen oder plausibel zu machen, dass sie in ihrer Arbeitsstelle trotz der Erkrankung weiterhin leistungsfähig sein werden.

Published
2023
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11. Challenges, Future and Policy Orientations: The 1960s-1970s as Decisive Years for Swiss Vocational Education and Training

Author

Lorenzo Bonoli and Philipp Gonon

Abstract

Purpose: The years 1960-1970 were decisive years in the development of Swiss vocational education and training (VET). The post-World War II economic boom, technological innovations and the debate concerning equal opportunities and the democratisation of education put the VET system under pressure. Reforms were thus undertaken to increase the attractiveness of the system and to respond to the urgent shortage of qualified workers at the time. At the same time, reforms were adopted increasing the theoretical and general knowledge content of VET and improving the quality of training. The aim of our article is to describe these reforms and to show how they relate to a certain image of the future of society. Method: Our article is based on an analysis of historical documents written between 1960 and 1972 in Switzerland on the subject of VET. These documents will, firstly, be used for a historical reconstruction of the situation and of the major challenges of the time; and secondly, they will be subjected to a discourse analysis in order to identify the main arguments that characterised the public debate at the time. Results: Our article shows how the reforms undertaken take shape on the basis of a certain image of the future of society and of VET held at the time: an image characterised by constant and rapid changes, increasing insecurity, need for adaptation and flexibility, complexification and specialisation of the work tasks. Conclusion: The article will also underline how the responses to the challenges posed by this image of the future will be at the origin of five trends that will characterise the evolution of Swiss VET until today--a trend towards "academisation," with more academic and general content; a trend towards "pedagogisation," with increased pedagogical attention to curricula and teacher training; "differentiation," with the creation of new certifications; permeability, with the opening of vocational tracks to higher education; and "learnerisation," with the gradual change of the figure of the apprentice from a "worker" to a "learner." Far from being limited to the evolution of Swiss VET, these five trends describe movements that recent studies by CEDEFOP show also at the European level.

Published
2023

14. A path-norm toolkit for modern networks: consequences, promises and challenges

Author

Gonon, Antoine, Brisebarre, Nicolas, Riccietti, Elisa, and Gribonval, Rémi

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

This work introduces the first toolkit around path-norms that fully encompasses general DAG ReLU networks with biases, skip connections and any operation based on the extraction of order statistics: max pooling, GroupSort etc. This toolkit notably allows us to establish generalization bounds for modern neural networks that are not only the most widely applicable path-norm based ones, but also recover or beat the sharpest known bounds of this type. These extended path-norms further enjoy the usual benefits of path-norms: ease of computation, invariance under the symmetries of the network, and improved sharpness on layered fully-connected networks compared to the product of operator norms, another complexity measure most commonly used. The versatility of the toolkit and its ease of implementation allow us to challenge the concrete promises of path-norm-based generalization bounds, by numerically evaluating the sharpest known bounds for ResNets on ImageNet.

Published
2023

15. Approximation Rates for Deep Calibration of (Rough) Stochastic Volatility Models

Author

Biagini, Francesca, Gonon, Lukas, and Walter, Niklas

Subjects
Quantitative Finance - Mathematical Finance, Mathematics - Numerical Analysis, 60H35, 68T07, 91G60
Abstract

We derive quantitative error bounds for deep neural networks (DNNs) approximating option prices on a $d$-dimensional risky asset as functions of the underlying model parameters, payoff parameters and initial conditions. We cover a general class of stochastic volatility models of Markovian nature as well as the rough Bergomi model. In particular, under suitable assumptions we show that option prices can be learned by DNNs up to an arbitrary small error $\varepsilon \in (0,1/2)$ while the network size grows only sub-polynomially in the asset vector dimension $d$ and the reciprocal $\varepsilon^{-1}$ of the accuracy. Hence, the approximation does not suffer from the curse of dimensionality. As quantitative approximation results for DNNs applicable in our setting are formulated for functions on compact domains, we first consider the case of the asset price restricted to a compact set, then we extend these results to the general case by using convergence arguments for the option prices., Comment: 43 pages

Published
2023

16. Universal Approximation Theorem and error bounds for quantum neural networks and quantum reservoirs

Author

Gonon, Lukas and Jacquier, Antoine

Subjects
Quantum Physics, Computer Science - Machine Learning, Mathematics - Probability, 68Q12, 68T07, 65D15
Abstract

Universal approximation theorems are the foundations of classical neural networks, providing theoretical guarantees that the latter are able to approximate maps of interest. Recent results have shown that this can also be achieved in a quantum setting, whereby classical functions can be approximated by parameterised quantum circuits. We provide here precise error bounds for specific classes of functions and extend these results to the interesting new setup of randomised quantum circuits, mimicking classical reservoir neural networks. Our results show in particular that a quantum neural network with $\mathcal{O}(\varepsilon^{-2})$ weights and $\mathcal{O} (\lceil \log_2(\varepsilon^{-1}) \rceil)$ qubits suffices to achieve accuracy $\varepsilon>0$ when approximating functions with integrable Fourier transform., Comment: 20 pages, 0 figure

Published
2023

17. Sparsity in neural networks can improve their privacy

Author

Gonon, Antoine, Zheng, Léon, Lalanne, Clément, Le, Quoc-Tung, Lauga, Guillaume, and Pouliquen, Can

Subjects
Computer Science - Machine Learning, Computer Science - Artificial Intelligence, Computer Science - Cryptography and Security
Abstract

This article measures how sparsity can make neural networks more robust to membership inference attacks. The obtained empirical results show that sparsity improves the privacy of the network, while preserving comparable performances on the task at hand. This empirical study completes and extends existing literature., Comment: arXiv admin note: duplicate of arXiv:2304.07234

Published
2023

18. Can sparsity improve the privacy of neural networks?

Author

Gonon, Antoine, Zheng, Léon, Lalanne, Clément, Le, Quoc-Tung, Lauga, Guillaume, and Pouliquen, Can

Subjects
Computer Science - Cryptography and Security, Computer Science - Machine Learning
Abstract

Sparse neural networks are mainly motivated by ressource efficiency since they use fewer parameters than their dense counterparts but still reach comparable accuracies. This article empirically investigates whether sparsity could also improve the privacy of the data used to train the networks. The experiments show positive correlations between the sparsity of the model, its privacy, and its classification error. Simply comparing the privacy of two models with different sparsity levels can yield misleading conclusions on the role of sparsity, because of the additional correlation with the classification error. From this perspective, some caveats are raised about previous works that investigate sparsity and privacy.

Published
2023

19. Infinite-dimensional reservoir computing

Author

Gonon, Lukas, Grigoryeva, Lyudmila, and Ortega, Juan-Pablo

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

Reservoir computing approximation and generalization bounds are proved for a new concept class of input/output systems that extends the so-called generalized Barron functionals to a dynamic context. This new class is characterized by the readouts with a certain integral representation built on infinite-dimensional state-space systems. It is shown that this class is very rich and possesses useful features and universal approximation properties. The reservoir architectures used for the approximation and estimation of elements in the new class are randomly generated echo state networks with either linear or ReLU activation functions. Their readouts are built using randomly generated neural networks in which only the output layer is trained (extreme learning machines or random feature neural networks). The results in the paper yield a fully implementable recurrent neural network-based learning algorithm with provable convergence guarantees that do not suffer from the curse of dimensionality.

Published
2023

20. The Evolution of VET Systems as a Combination of Economic, Social and Educational Aims. The Case of Swiss VET

Author

Bonoli, Lorenzo and Gonon, Philipp

Abstract

Vocational education and training (VET) systems around the world serve many aims, the most important of which can be grouped into three main aims: economic, social and educational aims. These different aims find their roots in different socio-cultural and economic contexts and their importance in the functioning of the systems evolves according to the times. Our contribution proposes a reflection on the centrality of the notion of aims in order to better understand and describe the functioning of VET systems. By adopting an exploratory approach based on discourse analysis, we will show the interest in using this notion to build a theoretical framework that facilitates international comparisons between VET systems and also the description of their evolution from the past to the future. To exemplify the relevance of this exploratory approach, the contribution will propose a description of the evolution of the Swiss VET system from 1880 up to 2030, based on the articulation of economic, social and educational aims.

Published
2022

21. Education and Training Regimes within the Swiss Vocational Education and Training System. A Comparison of the Cantons of Geneva, Ticino, and Zurich in the Context of Educational Expansion

Author

Gonon, Philipp and Freidorfer-Kabashi, Lena

Abstract

Swiss Vocational Education and Training (VET) is based on national legislation which was introduced in the 1930s and renewed in the 1960s (as well as in the 1970s and in 2002). At first, the goal of the national VET legislation was to further Vocational Education and Training in order to support small and medium enterprises; however, later, it also included industry and services and has more recently grown to support the learners themselves. The 1963 national legislation and the following implementation acts in the cantons were decisive in shaping the Swiss VET system from a historical and comparative perspective. We argue that still today we do not have a unified, national system of education, but rather e cantonal modes of education and also of VET. However, the cantonal actors--with a specific focus on Ticino, Geneva, and Zurich--argue with similar justifications, when it comes to the reform of VET. Nevertheless, within this national legal framework, the cantons adopt rather different solutions. The result is that different (language specific) regional pathways of VET were established, based on various education and training regimes. In this research paper, we aim to concentrate on the years from 1950 to 1970, a period that turns out to be particularly significant for the development of Swiss VET. We focus our research on the introduction of the Vocational Training Act in 1963 and look in detail at the extent to which the cantons developed their corresponding implementation acts from the perspectives of different motives and logics.

Published
2022

22. The necessity of depth for artificial neural networks to approximate certain classes of smooth and bounded functions without the curse of dimensionality

Author

Gonon, Lukas, Graeber, Robin, and Jentzen, Arnulf

Subjects
Mathematics - Numerical Analysis, Computer Science - Artificial Intelligence, 65D40, 68T07
Abstract

In this article we study high-dimensional approximation capacities of shallow and deep artificial neural networks (ANNs) with the rectified linear unit (ReLU) activation. In particular, it is a key contribution of this work to reveal that for all $a,b\in\mathbb{R}$ with $b-a\geq 7$ we have that the functions $[a,b]^d\ni x=(x_1,\dots,x_d)\mapsto\prod_{i=1}^d x_i\in\mathbb{R}$ for $d\in\mathbb{N}$ as well as the functions $[a,b]^d\ni x =(x_1,\dots, x_d)\mapsto\sin(\prod_{i=1}^d x_i) \in \mathbb{R} $ for $ d \in \mathbb{N} $ can neither be approximated without the curse of dimensionality by means of shallow ANNs nor insufficiently deep ANNs with ReLU activation but can be approximated without the curse of dimensionality by sufficiently deep ANNs with ReLU activation. We show that the product functions and the sine of the product functions are polynomially tractable approximation problems among the approximating class of deep ReLU ANNs with the number of hidden layers being allowed to grow in the dimension $ d \in \mathbb{N} $. We establish the above outlined statements not only for the product functions and the sine of the product functions but also for other classes of target functions, in particular, for classes of uniformly globally bounded $ C^{ \infty } $-functions with compact support on any $[a,b]^d$ with $a\in\mathbb{R}$, $b\in(a,\infty)$. Roughly speaking, in this work we lay open that simple approximation problems such as approximating the sine or cosine of products cannot be solved in standard implementation frameworks by shallow or insufficiently deep ANNs with ReLU activation in polynomial time, but can be approximated by sufficiently deep ReLU ANNs with the number of parameters growing at most polynomially., Comment: 101 pages, 1 figure. arXiv admin note: substantial text overlap with arXiv:2112.14523

Published
2023

23. Reservoir kernels and Volterra series

Author

Gonon, Lukas, Grigoryeva, Lyudmila, and Ortega, Juan-Pablo

Subjects
Computer Science - Machine Learning
Abstract

A universal kernel is constructed whose sections approximate any causal and time-invariant filter in the fading memory category with inputs and outputs in a finite-dimensional Euclidean space. This kernel is built using the reservoir functional associated with a state-space representation of the Volterra series expansion available for any analytic fading memory filter. It is hence called the Volterra reservoir kernel. Even though the state-space representation and the corresponding reservoir feature map are defined on an infinite-dimensional tensor algebra space, the kernel map is characterized by explicit recursions that are readily computable for specific data sets when employed in estimation problems using the representer theorem. We showcase the performance of the Volterra reservoir kernel in a popular data science application in relation to bitcoin price prediction., Comment: 10 pages, 2 figures, 1 table

Published
2022

24. The neoliberal leaning of the neuroscience discourse when it deals with mental health and learning disorders

Author

Cédric Brun, Thomas Boraud, and François Gonon

Subjects
Neuroscience discourse, Biological psychiatry, Educational neuroscience, Neurobiology of poverty, Neuro-essentialism, Neoliberalism, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

Neuroscience attracted increasing attention in mass media during the last decades. Indeed, neuroscience advances raise high expectations in society concerning major societal issues such as mental health and learning difficulties. Unfortunately, according to leading experts, neuroscience advances have not yet benefited patients, students and socially deprived families. Yet, neuroscience findings are widely overstated and misrepresented in the media. Academic studies, briefly described here, showed that most data misrepresentations were already present in the neuroscience literature before spreading in mass media. This triumphalist neuroscience discourse reinforces a neuro-essentialist conception of mental disorders and of learning difficulties. By emphasizing brain plasticity, this discourse fuels the neoliberal ethics that overvalue autonomy, rationality, flexibility and individual responsibility. According to this unrealistic rhetoric, neuroscience-based techniques will soon bring inexpensive private solutions to enduring social problems. When considering the social consequences of this rhetoric, neuroscientists should refrain from overstating the interpretation of their observations in their scientific publications and in their exchanges with journalists.

Published
2024
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27. Deep neural network expressivity for optimal stopping problems

Author

Gonon, Lukas

Subjects
Mathematics - Probability, Computer Science - Machine Learning, Mathematics - Numerical Analysis, Quantitative Finance - Mathematical Finance
Abstract

This article studies deep neural network expression rates for optimal stopping problems of discrete-time Markov processes on high-dimensional state spaces. A general framework is established in which the value function and continuation value of an optimal stopping problem can be approximated with error at most $\varepsilon$ by a deep ReLU neural network of size at most $\kappa d^{\mathfrak{q}} \varepsilon^{-\mathfrak{r}}$. The constants $\kappa,\mathfrak{q},\mathfrak{r} \geq 0$ do not depend on the dimension $d$ of the state space or the approximation accuracy $\varepsilon$. This proves that deep neural networks do not suffer from the curse of dimensionality when employed to solve optimal stopping problems. The framework covers, for example, exponential L\'evy models, discrete diffusion processes and their running minima and maxima. These results mathematically justify the use of deep neural networks for numerically solving optimal stopping problems and pricing American options in high dimensions.

Published
2022

28. Detecting asset price bubbles using deep learning

Author

Biagini, Francesca, Gonon, Lukas, Mazzon, Andrea, and Meyer-Brandis, Thilo

Subjects
Quantitative Finance - Mathematical Finance, 60G48, 60H35, 60J60
Abstract

In this paper we employ deep learning techniques to detect financial asset bubbles by using observed call option prices. The proposed algorithm is widely applicable and model-independent. We test the accuracy of our methodology in numerical experiments within a wide range of models and apply it to market data of tech stocks in order to assess if asset price bubbles are present. Under a given condition on the pricing of call options under asset price bubbles, we are able to provide a theoretical foundation of our approach for positive and continuous stochastic asset price processes. When such a condition is not satisfied, we focus on local volatility models. To this purpose, we give a new necessary and sufficient condition for a process with time-dependent local volatility function to be a strict local martingale., Comment: 31 pages, 3 figures

Published
2022

29. Pedestrian-Robot Interactions on Autonomous Crowd Navigation: Reactive Control Methods and Evaluation Metrics

Author

Paez-Granados, Diego, He, Yujie, Gonon, David, Jia, Dan, Leibe, Bastian, Suzuki, Kenji, and Billard, Aude

Subjects
Computer Science - Robotics, Computer Science - Computer Vision and Pattern Recognition, Computer Science - Human-Computer Interaction
Abstract

Autonomous navigation in highly populated areas remains a challenging task for robots because of the difficulty in guaranteeing safe interactions with pedestrians in unstructured situations. In this work, we present a crowd navigation control framework that delivers continuous obstacle avoidance and post-contact control evaluated on an autonomous personal mobility vehicle. We propose evaluation metrics for accounting efficiency, controller response and crowd interactions in natural crowds. We report the results of over 110 trials in different crowd types: sparse, flows, and mixed traffic, with low- (< 0.15 ppsm), mid- (< 0.65 ppsm), and high- (< 1 ppsm) pedestrian densities. We present comparative results between two low-level obstacle avoidance methods and a baseline of shared control. Results show a 10% drop in relative time to goal on the highest density tests, and no other efficiency metric decrease. Moreover, autonomous navigation showed to be comparable to shared-control navigation with a lower relative jerk and significantly higher fluency in commands indicating high compatibility with the crowd. We conclude that the reactive controller fulfils a necessary task of fast and continuous adaptation to crowd navigation, and it should be coupled with high-level planners for environmental and situational awareness., Comment: \c{opyright}IEEE All rights reserved. IEEE-IROS-2022, Oct.23-27. Kyoto, Japan

Published
2022

30. Approximation speed of quantized vs. unquantized ReLU neural networks and beyond

Author

Gonon, Antoine, Brisebarre, Nicolas, Gribonval, Rémi, and Riccietti, Elisa

Subjects
Computer Science - Information Theory, Computer Science - Neural and Evolutionary Computing
Abstract

We deal with two complementary questions about approximation properties of ReLU networks. First, we study how the uniform quantization of ReLU networks with real-valued weights impacts their approximation properties. We establish an upper-bound on the minimal number of bits per coordinate needed for uniformly quantized ReLU networks to keep the same polynomial asymptotic approximation speeds as unquantized ones. We also characterize the error of nearest-neighbour uniform quantization of ReLU networks. This is achieved using a new lower-bound on the Lipschitz constant of the map that associates the parameters of ReLU networks to their realization, and an upper-bound generalizing classical results. Second, we investigate when ReLU networks can be expected, or not, to have better approximation properties than other classical approximation families. Indeed, several approximation families share the following common limitation: their polynomial asymptotic approximation speed of any set is bounded from above by the encoding speed of this set. We introduce a new abstract property of approximation families, called infinite-encodability, which implies this upper-bound. Many classical approximation families, defined with dictionaries or ReLU networks, are shown to be infinite-encodable. This unifies and generalizes several situations where this upper-bound is known.

Published
2022

31. Varieties within a Collective Skill Formation System: How VET Governance in Switzerland Is Shaped by Associations

Author

Bürgi, Regula and Gonon, Philipp

Abstract

Context: International scholarship and policy tend to depict national structures governing Vocational Education and Training (VET) as uniform and devoid of internal differences. This macro perspective neglects the numerous processes at the meso and micro level that shape the structure and content of VET. This article focusses on professional associations (meso level) in Switzerland to examine the heterogeneity of governance of individual VET programmes that can exist within one country or one collective skill formation system. Approach: Drawing on insights from historical institutionalism and research on corporatism, we argue that these differences are the product of the characteristics, traditional practices and styles of reasoning of the various associations involved in VET governance. Our analysis is based on expert interviews and governance documents in two vocational areas: Electrotechnology and food services. Findings: We identify and decode an array of cooperative practices and show that collective skill formation has a different meaning for different associations and, correspondingly, different occupations. Collaboration with state actors, unions, VET schools and single firms, as well as voting procedures, differ considerably between associations. Furthermore, we find that these different modes of governance are determined by associational characteristics such as size, level of professionalization, location and established cooperative practices, as well as traditional styles of reasonings. Conclusion: The findings indicate that the decisions taken are not always the product of current day training requirements but of historically grown associational characteristics. Thus, path dependencies are to be considered not only at a macro level but also at the meso level. There is a multifaceted variety of governance approaches beneath the classification "collective skill formation system". Associations are key in defining VET content, working life structures and collectivity.

Published
2021

45. Einleitung

Author

Gonon, Anna, Diaz-Bone, Rainer, Series Editor, Knoll, Lisa, Series Editor, and Gonon, Anna

Published
2023
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48. Neural network approximation for superhedging prices

Author

Biagini, Francesca, Gonon, Lukas, and Reitsam, Thomas

Subjects
Quantitative Finance - Mathematical Finance, 91G15, 91G20, 60H30
Abstract

This article examines neural network-based approximations for the superhedging price process of a contingent claim in a discrete time market model. First we prove that the $\alpha$-quantile hedging price converges to the superhedging price at time $0$ for $\alpha$ tending to $1$, and show that the $\alpha$-quantile hedging price can be approximated by a neural network-based price. This provides a neural network-based approximation for the superhedging price at time $0$ and also the superhedging strategy up to maturity. To obtain the superhedging price process for $t>0$, by using the Doob decomposition it is sufficient to determine the process of consumption. We show that it can be approximated by the essential supremum over a set of neural networks. Finally, we present numerical results.

Published
2021

49. Random feature neural networks learn Black-Scholes type PDEs without curse of dimensionality

Author

Gonon, Lukas

Subjects
Computer Science - Machine Learning, Mathematics - Probability, Quantitative Finance - Mathematical Finance, Statistics - Machine Learning
Abstract

This article investigates the use of random feature neural networks for learning Kolmogorov partial (integro-)differential equations associated to Black-Scholes and more general exponential L\'evy models. Random feature neural networks are single-hidden-layer feedforward neural networks in which only the output weights are trainable. This makes training particularly simple, but (a priori) reduces expressivity. Interestingly, this is not the case for Black-Scholes type PDEs, as we show here. We derive bounds for the prediction error of random neural networks for learning sufficiently non-degenerate Black-Scholes type models. A full error analysis is provided and it is shown that the derived bounds do not suffer from the curse of dimensionality. We also investigate an application of these results to basket options and validate the bounds numerically. These results prove that neural networks are able to \textit{learn} solutions to Black-Scholes type PDEs without the curse of dimensionality. In addition, this provides an example of a relevant learning problem in which random feature neural networks are provably efficient.

Published
2021

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