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1. Optimizing Backward Policies in GFlowNets via Trajectory Likelihood Maximization

Author

Gritsaev, Timofei, Morozov, Nikita, Samsonov, Sergey, and Tiapkin, Daniil

Subjects
Computer Science - Machine Learning
Abstract

Generative Flow Networks (GFlowNets) are a family of generative models that learn to sample objects with probabilities proportional to a given reward function. The key concept behind GFlowNets is the use of two stochastic policies: a forward policy, which incrementally constructs compositional objects, and a backward policy, which sequentially deconstructs them. Recent results show a close relationship between GFlowNet training and entropy-regularized reinforcement learning (RL) problems with a particular reward design. However, this connection applies only in the setting of a fixed backward policy, which might be a significant limitation. As a remedy to this problem, we introduce a simple backward policy optimization algorithm that involves direct maximization of the value function in an entropy-regularized Markov Decision Process (MDP) over intermediate rewards. We provide an extensive experimental evaluation of the proposed approach across various benchmarks in combination with both RL and GFlowNet algorithms and demonstrate its faster convergence and mode discovery in complex environments.

Published
2024

2. Nonasymptotic Analysis of Stochastic Gradient Descent with the Richardson-Romberg Extrapolation

Author

Sheshukova, Marina, Belomestny, Denis, Durmus, Alain, Moulines, Eric, Naumov, Alexey, and Samsonov, Sergey

Subjects
Mathematics - Optimization and Control, Computer Science - Machine Learning, Statistics - Machine Learning, 62L20, 93E35
Abstract

We address the problem of solving strongly convex and smooth minimization problems using stochastic gradient descent (SGD) algorithm with a constant step size. Previous works suggested to combine the Polyak-Ruppert averaging procedure with the Richardson-Romberg extrapolation technique to reduce the asymptotic bias of SGD at the expense of a mild increase of the variance. We significantly extend previous results by providing an expansion of the mean-squared error of the resulting estimator with respect to the number of iterations $n$. More precisely, we show that the mean-squared error can be decomposed into the sum of two terms: a leading one of order $\mathcal{O}(n^{-1/2})$ with explicit dependence on a minimax-optimal asymptotic covariance matrix, and a second-order term of order $\mathcal{O}(n^{-3/4})$ where the power $3/4$ can not be improved in general. We also extend this result to the $p$-th moment bound keeping optimal scaling of the remainders with respect to $n$. Our analysis relies on the properties of the SGD iterates viewed as a time-homogeneous Markov chain. In particular, we establish that this chain is geometrically ergodic with respect to a suitably defined weighted Wasserstein semimetric.

Published
2024

3. Improving GFlowNets with Monte Carlo Tree Search

Author

Morozov, Nikita, Tiapkin, Daniil, Samsonov, Sergey, Naumov, Alexey, and Vetrov, Dmitry

Subjects
Computer Science - Machine Learning, Computer Science - Artificial Intelligence
Abstract

Generative Flow Networks (GFlowNets) treat sampling from distributions over compositional discrete spaces as a sequential decision-making problem, training a stochastic policy to construct objects step by step. Recent studies have revealed strong connections between GFlowNets and entropy-regularized reinforcement learning. Building on these insights, we propose to enhance planning capabilities of GFlowNets by applying Monte Carlo Tree Search (MCTS). Specifically, we show how the MENTS algorithm (Xiao et al., 2019) can be adapted for GFlowNets and used during both training and inference. Our experiments demonstrate that this approach improves the sample efficiency of GFlowNet training and the generation fidelity of pre-trained GFlowNet models., Comment: ICML 2024 SPIGM Workshop

Published
2024

4. Gaussian Approximation and Multiplier Bootstrap for Polyak-Ruppert Averaged Linear Stochastic Approximation with Applications to TD Learning

Author

Samsonov, Sergey, Moulines, Eric, Shao, Qi-Man, Zhang, Zhuo-Song, and Naumov, Alexey

Subjects
Statistics - Machine Learning, Computer Science - Machine Learning, Mathematics - Optimization and Control, Mathematics - Probability, Mathematics - Statistics Theory, 60F05, 62L20, 62E20
Abstract

In this paper, we obtain the Berry-Esseen bound for multivariate normal approximation for the Polyak-Ruppert averaged iterates of the linear stochastic approximation (LSA) algorithm with decreasing step size. Our findings reveal that the fastest rate of normal approximation is achieved when setting the most aggressive step size $\alpha_{k} \asymp k^{-1/2}$. Moreover, we prove the non-asymptotic validity of the confidence intervals for parameter estimation with LSA based on multiplier bootstrap. This procedure updates the LSA estimate together with a set of randomly perturbed LSA estimates upon the arrival of subsequent observations. We illustrate our findings in the setting of temporal difference learning with linear function approximation.

Published
2024

5. Queuing dynamics of asynchronous Federated Learning

Author

Leconte, Louis, Jonckheere, Matthieu, Samsonov, Sergey, and Moulines, Eric

Subjects
Computer Science - Distributed, Parallel, and Cluster Computing, Computer Science - Machine Learning, Statistics - Machine Learning
Abstract

We study asynchronous federated learning mechanisms with nodes having potentially different computational speeds. In such an environment, each node is allowed to work on models with potential delays and contribute to updates to the central server at its own pace. Existing analyses of such algorithms typically depend on intractable quantities such as the maximum node delay and do not consider the underlying queuing dynamics of the system. In this paper, we propose a non-uniform sampling scheme for the central server that allows for lower delays with better complexity, taking into account the closed Jackson network structure of the associated computational graph. Our experiments clearly show a significant improvement of our method over current state-of-the-art asynchronous algorithms on an image classification problem.

Published
2024

6. SCAFFLSA: Taming Heterogeneity in Federated Linear Stochastic Approximation and TD Learning

Author

Mangold, Paul, Samsonov, Sergey, Labbi, Safwan, Levin, Ilya, Alami, Reda, Naumov, Alexey, and Moulines, Eric

Subjects
Statistics - Machine Learning, Computer Science - Machine Learning, Mathematics - Optimization and Control
Abstract

In this paper, we analyze the sample and communication complexity of the federated linear stochastic approximation (FedLSA) algorithm. We explicitly quantify the effects of local training with agent heterogeneity. We show that the communication complexity of FedLSA scales polynomially with the inverse of the desired accuracy $\epsilon$. To overcome this, we propose SCAFFLSA a new variant of FedLSA that uses control variates to correct for client drift, and establish its sample and communication complexities. We show that for statistically heterogeneous agents, its communication complexity scales logarithmically with the desired accuracy, similar to Scaffnew. An important finding is that, compared to the existing results for Scaffnew, the sample complexity scales with the inverse of the number of agents, a property referred to as linear speed-up. Achieving this linear speed-up requires completely new theoretical arguments. We apply the proposed method to federated temporal difference learning with linear function approximation and analyze the corresponding complexity improvements., Comment: now with linear speed-up!

Published
2024

7. Improved High-Probability Bounds for the Temporal Difference Learning Algorithm via Exponential Stability

Author

Samsonov, Sergey, Tiapkin, Daniil, Naumov, Alexey, and Moulines, Eric

Subjects
Statistics - Machine Learning, Computer Science - Machine Learning, Mathematics - Optimization and Control, 62L20, 60J20
Abstract

In this paper we consider the problem of obtaining sharp bounds for the performance of temporal difference (TD) methods with linear function approximation for policy evaluation in discounted Markov decision processes. We show that a simple algorithm with a universal and instance-independent step size together with Polyak-Ruppert tail averaging is sufficient to obtain near-optimal variance and bias terms. We also provide the respective sample complexity bounds. Our proof technique is based on refined error bounds for linear stochastic approximation together with the novel stability result for the product of random matrices that arise from the TD-type recurrence., Comment: Accepted to COLT-2024

Published
2023

8. First Order Methods with Markovian Noise: from Acceleration to Variational Inequalities

Author

Beznosikov, Aleksandr, Samsonov, Sergey, Sheshukova, Marina, Gasnikov, Alexander, Naumov, Alexey, and Moulines, Eric

Subjects
Mathematics - Optimization and Control, Computer Science - Machine Learning, Statistics - Machine Learning
Abstract

This paper delves into stochastic optimization problems that involve Markovian noise. We present a unified approach for the theoretical analysis of first-order gradient methods for stochastic optimization and variational inequalities. Our approach covers scenarios for both non-convex and strongly convex minimization problems. To achieve an optimal (linear) dependence on the mixing time of the underlying noise sequence, we use the randomized batching scheme, which is based on the multilevel Monte Carlo method. Moreover, our technique allows us to eliminate the limiting assumptions of previous research on Markov noise, such as the need for a bounded domain and uniformly bounded stochastic gradients. Our extension to variational inequalities under Markovian noise is original. Additionally, we provide lower bounds that match the oracle complexity of our method in the case of strongly convex optimization problems., Comment: Appears in: Advances in Neural Information Processing Systems 36 (NeurIPS 2023). 41 pages, 3 algorithms, 2 tables

Published
2023

9. Theoretical guarantees for neural control variates in MCMC

Author

Belomestny, Denis, Goldman, Artur, Naumov, Alexey, and Samsonov, Sergey

Subjects
Mathematics - Statistics Theory, Computer Science - Machine Learning, Mathematics - Probability, Statistics - Methodology, Statistics - Machine Learning, 65C40, 62-08
Abstract

In this paper, we propose a variance reduction approach for Markov chains based on additive control variates and the minimization of an appropriate estimate for the asymptotic variance. We focus on the particular case when control variates are represented as deep neural networks. We derive the optimal convergence rate of the asymptotic variance under various ergodicity assumptions on the underlying Markov chain. The proposed approach relies upon recent results on the stochastic errors of variance reduction algorithms and function approximation theory.

Published
2023

10. Rosenthal-type inequalities for linear statistics of Markov chains

Author

Durmus, Alain, Moulines, Eric, Naumov, Alexey, Samsonov, Sergey, and Sheshukova, Marina

Subjects
Mathematics - Probability, Mathematics - Statistics Theory, Statistics - Machine Learning, 60E15, 60J20, 65C40
Abstract

In this paper, we establish novel deviation bounds for additive functionals of geometrically ergodic Markov chains similar to Rosenthal and Bernstein inequalities for sums of independent random variables. We pay special attention to the dependence of our bounds on the mixing time of the corresponding chain. More precisely, we establish explicit bounds that are linked to the constants from the martingale version of the Rosenthal inequality, as well as the constants that characterize the mixing properties of the underlying Markov kernel. Finally, our proof technique is, up to our knowledge, new and based on a recurrent application of the Poisson decomposition.

Published
2023

11. BR-SNIS: Bias Reduced Self-Normalized Importance Sampling

Author

Cardoso, Gabriel, Samsonov, Sergey, Thin, Achille, Moulines, Eric, and Olsson, Jimmy

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

Importance Sampling (IS) is a method for approximating expectations under a target distribution using independent samples from a proposal distribution and the associated importance weights. In many applications, the target distribution is known only up to a normalization constant, in which case self-normalized IS (SNIS) can be used. While the use of self-normalization can have a positive effect on the dispersion of the estimator, it introduces bias. In this work, we propose a new method, BR-SNIS, whose complexity is essentially the same as that of SNIS and which significantly reduces bias without increasing the variance. This method is a wrapper in the sense that it uses the same proposal samples and importance weights as SNIS, but makes clever use of iterated sampling--importance resampling (ISIR) to form a bias-reduced version of the estimator. We furnish the proposed algorithm with rigorous theoretical results, including new bias, variance and high-probability bounds, and these are illustrated by numerical examples.

Published
2022

12. Finite-time High-probability Bounds for Polyak-Ruppert Averaged Iterates of Linear Stochastic Approximation

Author

Durmus, Alain, Moulines, Eric, Naumov, Alexey, and Samsonov, Sergey

Subjects
Statistics - Machine Learning, Computer Science - Machine Learning, Mathematics - Probability, Mathematics - Statistics Theory, 62L20, 60J20
Abstract

This paper provides a finite-time analysis of linear stochastic approximation (LSA) algorithms with fixed step size, a core method in statistics and machine learning. LSA is used to compute approximate solutions of a $d$-dimensional linear system $\bar{\mathbf{A}} \theta = \bar{\mathbf{b}}$ for which $(\bar{\mathbf{A}}, \bar{\mathbf{b}})$ can only be estimated by (asymptotically) unbiased observations $\{(\mathbf{A}(Z_n),\mathbf{b}(Z_n))\}_{n \in \mathbb{N}}$. We consider here the case where $\{Z_n\}_{n \in \mathbb{N}}$ is an i.i.d. sequence or a uniformly geometrically ergodic Markov chain. We derive $p$-th moment and high-probability deviation bounds for the iterates defined by LSA and its Polyak-Ruppert-averaged version. Our finite-time instance-dependent bounds for the averaged LSA iterates are sharp in the sense that the leading term we obtain coincides with the local asymptotic minimax limit. Moreover, the remainder terms of our bounds admit a tight dependence on the mixing time $t_{\operatorname{mix}}$ of the underlying chain and the norm of the noise variables. We emphasize that our result requires the SA step size to scale only with logarithm of the problem dimension $d$.

Published
2022

13. Simultaneous approximation of a smooth function and its derivatives by deep neural networks with piecewise-polynomial activations

Author

Belomestny, Denis, Naumov, Alexey, Puchkin, Nikita, and Samsonov, Sergey

Subjects
Mathematics - Numerical Analysis, Mathematics - Statistics Theory, Statistics - Machine Learning, 41A25, 41A15, 41A28, 68T07
Abstract

This paper investigates the approximation properties of deep neural networks with piecewise-polynomial activation functions. We derive the required depth, width, and sparsity of a deep neural network to approximate any H\"{o}lder smooth function up to a given approximation error in H\"{o}lder norms in such a way that all weights of this neural network are bounded by $1$. The latter feature is essential to control generalization errors in many statistical and machine learning applications., Comment: 28 pages

Published
2022

14. Acceleration of a large deep-seated tropical landslide due to urbanization feedbacks

Author

Dille, Antoine, Dewitte, Olivier, Handwerger, Alexander L, d’Oreye, Nicolas, Derauw, Dominique, Ganza Bamulezi, Gloire, Ilombe Mawe, Guy, Michellier, Caroline, Moeyersons, Jan, Monsieurs, Elise, Mugaruka Bibentyo, Toussaint, Samsonov, Sergey, Smets, Benoît, Kervyn, Matthieu, and Kervyn, François

Subjects
Meteorology & Atmospheric Sciences
Abstract

The movement of large, slow-moving, deep-seated landslides is regulated principally by changes in pore-water pressure in the slope. In urban areas, drastic reorganization of the surface and subsurface hydrology—for example, associated with roads, housings or storm drainage—may alter the subsurface hydrology and ultimately the slope stability. Yet our understanding of the influence of slope urbanization on the dynamics of landslides remains elusive. Here we combined satellite and (historical) aerial images to quantify how 70 years of hillslope urbanization changed the seasonal, annual and multi-decadal dynamics of a large, slow-moving landslide located in the tropical environment of the city of Bukavu, Democratic Republic of the Congo. Analysis of week-to-week landslide motion over the past 4.5 years reveals that it is closely tied to pore-water pressure changes, pointing to interacting influences from climate, weathering, tectonics and urban development on the landslide dynamics. Over decadal timescales, we find that the sprawl of urbanized areas led to the acceleration of a large section of the landslide, which was probably driven by self-reinforcing feedbacks involving slope movement, rerouting of surface water flows and pipe ruptures. As hillslopes in many tropical cities are being urbanized at an accelerating pace, better understanding how anthropogenic activity influences surface processes will be vital to effective risk planning and mitigation.

Published
2022

15. From Dirichlet to Rubin: Optimistic Exploration in RL without Bonuses

Author

Tiapkin, Daniil, Belomestny, Denis, Moulines, Eric, Naumov, Alexey, Samsonov, Sergey, Tang, Yunhao, Valko, Michal, and Menard, Pierre

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

We propose the Bayes-UCBVI algorithm for reinforcement learning in tabular, stage-dependent, episodic Markov decision process: a natural extension of the Bayes-UCB algorithm by Kaufmann et al. (2012) for multi-armed bandits. Our method uses the quantile of a Q-value function posterior as upper confidence bound on the optimal Q-value function. For Bayes-UCBVI, we prove a regret bound of order $\widetilde{O}(\sqrt{H^3SAT})$ where $H$ is the length of one episode, $S$ is the number of states, $A$ the number of actions, $T$ the number of episodes, that matches the lower-bound of $\Omega(\sqrt{H^3SAT})$ up to poly-$\log$ terms in $H,S,A,T$ for a large enough $T$. To the best of our knowledge, this is the first algorithm that obtains an optimal dependence on the horizon $H$ (and $S$) without the need for an involved Bernstein-like bonus or noise. Crucial to our analysis is a new fine-grained anti-concentration bound for a weighted Dirichlet sum that can be of independent interest. We then explain how Bayes-UCBVI can be easily extended beyond the tabular setting, exhibiting a strong link between our algorithm and Bayesian bootstrap (Rubin, 1981).

Published
2022

17. Local-Global MCMC kernels: the best of both worlds

Author

Samsonov, Sergey, Lagutin, Evgeny, Gabrié, Marylou, Durmus, Alain, Naumov, Alexey, and Moulines, Eric

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

Recent works leveraging learning to enhance sampling have shown promising results, in particular by designing effective non-local moves and global proposals. However, learning accuracy is inevitably limited in regions where little data is available such as in the tails of distributions as well as in high-dimensional problems. In the present paper we study an Explore-Exploit Markov chain Monte Carlo strategy ($Ex^2MCMC$) that combines local and global samplers showing that it enjoys the advantages of both approaches. We prove $V$-uniform geometric ergodicity of $Ex^2MCMC$ without requiring a uniform adaptation of the global sampler to the target distribution. We also compute explicit bounds on the mixing rate of the Explore-Exploit strategy under realistic conditions. Moreover, we also analyze an adaptive version of the strategy ($FlEx^2MCMC$) where a normalizing flow is trained while sampling to serve as a proposal for global moves. We illustrate the efficiency of $Ex^2MCMC$ and its adaptive version on classical sampling benchmarks as well as in sampling high-dimensional distributions defined by Generative Adversarial Networks seen as Energy Based Models. We provide the code to reproduce the experiments at the link: https://github.com/svsamsonov/ex2mcmc_new., Comment: arXiv admin note: text overlap with arXiv:1111.5421 by other authors

Published
2021

18. Probability and moment inequalities for additive functionals of geometrically ergodic Markov chains

Author

Durmus, Alain, Moulines, Eric, Naumov, Alexey, and Samsonov, Sergey

Subjects
Mathematics - Probability, 60E15, 60J20, 65C40
Abstract

In this paper, we establish moment and Bernstein-type inequalities for additive functionals of geometrically ergodic Markov chains. These inequalities extend the corresponding inequalities for independent random variables. Our conditions cover Markov chains converging geometrically to the stationary distribution either in $V$-norms or in weighted Wasserstein distances. Our inequalities apply to unbounded functions and depend explicitly on constants appearing in the conditions that we consider.

Published
2021

20. Tight High Probability Bounds for Linear Stochastic Approximation with Fixed Stepsize

Author

Durmus, Alain, Moulines, Eric, Naumov, Alexey, Samsonov, Sergey, Scaman, Kevin, and Wai, Hoi-To

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

This paper provides a non-asymptotic analysis of linear stochastic approximation (LSA) algorithms with fixed stepsize. This family of methods arises in many machine learning tasks and is used to obtain approximate solutions of a linear system $\bar{A}\theta = \bar{b}$ for which $\bar{A}$ and $\bar{b}$ can only be accessed through random estimates $\{({\bf A}_n, {\bf b}_n): n \in \mathbb{N}^*\}$. Our analysis is based on new results regarding moments and high probability bounds for products of matrices which are shown to be tight. We derive high probability bounds on the performance of LSA under weaker conditions on the sequence $\{({\bf A}_n, {\bf b}_n): n \in \mathbb{N}^*\}$ than previous works. However, in contrast, we establish polynomial concentration bounds with order depending on the stepsize. We show that our conclusions cannot be improved without additional assumptions on the sequence of random matrices $\{{\bf A}_n: n \in \mathbb{N}^*\}$, and in particular that no Gaussian or exponential high probability bounds can hold. Finally, we pay a particular attention to establishing bounds with sharp order with respect to the number of iterations and the stepsize and whose leading terms contain the covariance matrices appearing in the central limit theorems., Comment: 21 pages

Published
2021

21. UVIP: Model-Free Approach to Evaluate Reinforcement Learning Algorithms

Author

Levin, Ilya, Belomestny, Denis, Naumov, Alexey, and Samsonov, Sergey

Subjects
Computer Science - Machine Learning, Mathematics - Optimization and Control
Abstract

Policy evaluation is an important instrument for the comparison of different algorithms in Reinforcement Learning (RL). Yet even a precise knowledge of the value function $V^{\pi}$ corresponding to a policy $\pi$ does not provide reliable information on how far is the policy $\pi$ from the optimal one. We present a novel model-free upper value iteration procedure $({\sf UVIP})$ that allows us to estimate the suboptimality gap $V^{\star}(x) - V^{\pi}(x)$ from above and to construct confidence intervals for $V^\star$. Our approach relies on upper bounds to the solution of the Bellman optimality equation via martingale approach. We provide theoretical guarantees for ${\sf UVIP}$ under general assumptions and illustrate its performance on a number of benchmark RL problems., Comment: ICOMP-2024 camera-ready version

Published
2021

22. Rates of convergence for density estimation with generative adversarial networks

Author

Puchkin, Nikita, Samsonov, Sergey, Belomestny, Denis, Moulines, Eric, and Naumov, Alexey

Subjects
Mathematics - Statistics Theory, Statistics - Machine Learning
Abstract

In this work we undertake a thorough study of the non-asymptotic properties of the vanilla generative adversarial networks (GANs). We prove an oracle inequality for the Jensen-Shannon (JS) divergence between the underlying density $\mathsf{p}^*$ and the GAN estimate with a significantly better statistical error term compared to the previously known results. The advantage of our bound becomes clear in application to nonparametric density estimation. We show that the JS-divergence between the GAN estimate and $\mathsf{p}^*$ decays as fast as $(\log{n}/n)^{2\beta/(2\beta + d)}$, where $n$ is the sample size and $\beta$ determines the smoothness of $\mathsf{p}^*$. This rate of convergence coincides (up to logarithmic factors) with minimax optimal for the considered class of densities., Comment: To appear in Journal of Machine Learning Research

Published
2021

23. On the Stability of Random Matrix Product with Markovian Noise: Application to Linear Stochastic Approximation and TD Learning

Author

Durmus, Alain, Moulines, Eric, Naumov, Alexey, Samsonov, Sergey, and Wai, Hoi-To

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

This paper studies the exponential stability of random matrix products driven by a general (possibly unbounded) state space Markov chain. It is a cornerstone in the analysis of stochastic algorithms in machine learning (e.g. for parameter tracking in online learning or reinforcement learning). The existing results impose strong conditions such as uniform boundedness of the matrix-valued functions and uniform ergodicity of the Markov chains. Our main contribution is an exponential stability result for the $p$-th moment of random matrix product, provided that (i) the underlying Markov chain satisfies a super-Lyapunov drift condition, (ii) the growth of the matrix-valued functions is controlled by an appropriately defined function (related to the drift condition). Using this result, we give finite-time $p$-th moment bounds for constant and decreasing stepsize linear stochastic approximation schemes with Markovian noise on general state space. We illustrate these findings for linear value-function estimation in reinforcement learning. We provide finite-time $p$-th moment bound for various members of temporal difference (TD) family of algorithms.

Published
2021

24. Monitoring natural gas storage using Synthetic Aperture Radar: are the residuals informative?

Author

Vasco, DW, Samsonov, Sergey V, Wang, Kang, Burgmann, Roland, Jeanne, Pierre, Foxall, William, and Zhang, Yingqi

Subjects
Earth Sciences, Geomatic Engineering, Engineering, Geomechanics, Radar interferometry, Satellite geodesy, Transient deformation, Geology, Geophysics, Geochemistry & Geophysics, Geomatic engineering
Abstract

Estimates of line-of-sight (LOS) displacements from Interferometric Synthetic Aperture Radar (InSAR) observations serve as the basis of the long-term monitoring of an operating natural gas storage site at Honor Rancho in California. An inversion algorithm is used to estimate the portion of the signal that is attributable to deformation within the gas storage reservoir, located at a depth of around 3 km. Removing this contribution produces residuals that are used to characterize the background variation is surface deformation at the gas storage facility and to determine a threshold that can signify unusually large residuals. An application to almost 7 yr of InSAR data, from 2011 until 2018, indicates that there are intervals of heightened residuals as well as brief episodes of anomalously large misfits. An examination of the spatial distributions of the individual residual LOS displacements indicates larger displacements in an alluvial valley just south of the reservoir, with rapid spatial variations in sign, indicating a rather shallow origin. Furthermore, the two anomalous events also involve rapid spatial variations in the LOS displacement residuals directly above the storage facility. The results demonstrate that the technique of extracting residuals after removing the reservoir signal is a useful approach, even in the case of this deep reservoir, and is a promising method for long-term monitoring.

Published
2021

25. Interferometric SAR modelling of near surface data to improve geological model in the Surat Basin, Australia

Author

Moghaddam, Negin Fouladi, Nourollah, Hadi, Vasco, Donald W, Samsonov, Sergey V, and Rüdiger, Christoph

Subjects
Earth Sciences, Geology, Geophysics, Geophysical inverse modelling, Unconventional hydrocarbon, InSAR, Ground surface deformation, Seismic acquisitions, Subsurface structures, Geomatic Engineering, Geochemistry & Geophysics, Geoinformatics, Environmental management
Abstract

This paper presents a study on geophysical inverse modelling for subsurface structural properties of an unconventional hydrocarbon site that was monitored previously by Interferometric Synthetic Aperture Radar (InSAR) technology for surface deformation. A static three-dimensional geomodel along with extracted property maps replicates the depth of each underlying stratigraphic unit and structural feature with the density of each geological layer. We examine the hypothesis that integration of elastic properties of each formation layer with InSAR observations in a stratified elastic medium will lead to a viscoelastic geophysical inverse problem that can be solved to estimate fractional volume change at the reservoir level. Moreover, we examine synthetic scenarios in which the elastic properties of the formations are perturbed before determining the resulting impact on the rate of surface deformation. The results show that although the slope of underlying formations, their density and depth can define the extent and pattern of a deformation signal, their properties have a marginal impact on volumetric change compared to the dense network of shallow depth Coal Seam Gas (CSG) mining wells. Besides, it is also demonstrated that the inversion of InSAR deformation maps can resolve the uncertainties associated with low-resolution seismic interpretation as well as filling the data gaps within seismic acquisitions. A significant contribution of this investigation to the geological basin modelling involves a) introducing a remote and non-invasive technology such as InSAR to improve geophysical mapping of subsurface structures such as faults in areas with sparse or no reflective seismic information, and b) applying a multi-layer viscoelastic geophysical source model for an unconventional hydrocarbon reservoir such as CSG.

Published
2021

27. When image correlation is needed: Unravelling the complex dynamics of a slow-moving landslide in the tropics with dense radar and optical time series

Author

Dille, Antoine, Kervyn, François, Handwerger, Alexander L, d'Oreye, Nicolas, Derauw, Dominique, Bibentyo, Toussaint Mugaruka, Samsonov, Sergey, Malet, Jean-Philippe, Kervyn, Matthieu, and Dewitte, Olivier

Subjects
Earth Sciences, Landslide mechanisms and controls, Landslide kinematics, Ground deformation, Pore-water pressure, SAR, Radar-amplitude, UAS, Optical satellite imagery, Tropical Africa, Kivu rift, Physical Geography and Environmental Geoscience, Geomatic Engineering, Geological & Geomatics Engineering, Earth sciences
Abstract

Slow-moving landslides exhibit persistent but non-uniform motion at low rates which makes them exceptional natural laboratories to study the mechanisms that control the dynamics of unstable hillslopes. Here we leverage 4.5+ years of satellite-based radar and optical remote sensing data to quantify the kinematics of a slow-moving landslide in the tropical rural environment of the Kivu Rift, with unprecedented high spatial and temporal resolution. We measure landslide motion using sub-pixel image correlation methods and invert these data into dense time series that capture weekly to multi-year changes in landslide kinematics. We cross-validate and compare our satellite-based results with very-high-resolution Unoccupied Aircraft System topographic datasets, and explore how rainfall, simulated pore-water pressure, and nearby earthquakes control the overall landslide behaviour. The landslide exhibited seasonal and multi-year velocity variations that varied across the landslide kinematic units. While rainfall-induced changes in pore-water pressure exerts a primary control on the landslide motion, these alone cannot explain the observed variability in landslide behaviour. We suggest instead that the observed landslide kinematics result from internal landslide dynamics, such as extension, compression, material redistribution, and interactions within and between kinematic units. Our study provides, a rare, detailed overview of the deformation pattern of a landslide located in a tropical environment. In addition, our work highlights the viability of sub-pixel image correlation with long time series of radar-amplitude data to quantify surface deformation in tropical environments where optical data is limited by persistent cloud cover and emphasize the importance of exploiting synergies between multiple types of data to capture the complex kinematic pattern of landslides.

Published
2021

29. Using geodetic data in geothermal areas

Author

Vasco, Donald W, Rutqvist, Jonny, Jeanne, Pierre, Samsonov, Sergey V, and Hartline, Craig

Subjects
Earth Sciences, Geomatic Engineering, Engineering, Geophysics, Geochemistry & Geophysics
Abstract

Geodetic observations, often in conjunction with other data, provide a cost-effective means for identifying and characterizing geothermal resources. A review of the various methods reveals how the technology for measuring deformation has advanced considerably in the past few decades. Currently, interferometric synthetic aperture radar is the method of choice for monitoring deformation at a geothermal field. A discussion of geodetic monitoring at The Geysers geothermal field, California, illustrates some of the progress made and the challenges that remain.

Published
2020

30. Monitoring the fate of injected CO 2 using geodetic techniques

Author

Vasco, Donald W, Dixon, Timothy H, Ferretti, Alessandro, and Samsonov, Sergey V

Subjects
Earth Sciences, Engineering, Geophysics, Life on Land, Geochemistry & Geophysics
Abstract

Geodetic methods comprise one class of geophysical data that are sensitive to changes in effective pressure within operating reservoirs, albeit indirectly through induced deformation. Geodetic observations, which have observation intervals that vary from seconds to days, weeks, or months, generally provide more frequent sampling compared to existing geophysical methodologies (such as seismic time-lapse monitoring), which typically invoke repeat times of months to years. These differences in sampling intervals are primarily due to the extensive effort, and hence cost, of conducting geophysical field operations, which often precludes executing a large number of surveys. Satellite-based interferometric synthetic aperture radar (InSAR) is cost effective and used in many applications, including monitoring the injection of carbon dioxide (CO2) for both long-term storage and enhanced oil production. An application to the geologic sequestration of CO2 in Algeria revealed northwest migration along a fault/fracture zone intersected by the injection well. A study in a Texas field demonstrated that enhanced oil recovery utilizing CO2 leads to observable surface deformation that may be used to characterize the sequestered CO2 and to estimate the pressure changes within the reservoir induced by injection and production.

Published
2020

38. 3D Surface Velocity Field Inferred from SAR Interferometry: Cerro Prieto Step-Over, Mexico, Case Study.

Author

Garcia-Meza, Ignacio F., González-Ortega, J. Alejandro, Sarychikhina, Olga, Fielding, Eric J., and Samsonov, Sergey

Subjects
GEOTHERMAL resources, TIME series analysis, LEAST squares, INTERFEROMETRY, LAND subsidence
Abstract

The Cerro Prieto basin, a tectonically active pull-apart basin, hosts significant geothermal resources currently being exploited in the Cerro Prieto Geothermal Field (CPGF). Consequently, natural tectonic processes and anthropogenic activities contribute to three-dimensional surface displacements in this pull-apart basin. Here, we obtained the Cerro Prieto Step-Over 3D surface velocity field (3DSVF) by accomplishing a weighted least square algorithm inversion from geometrically quasi-orthogonal airborne UAVSAR and RADARSAT-2, Sentinel 1A satellite Synthetic Aperture-Radar (SAR) imagery collected from 2012 to 2016. The 3DSVF results show a vertical rate of 150 mm/yr and 40 mm/yr for the horizontal rate, where for the first time, the north component displacement is achieved by using only the Interferometric SAR time series in the CPGF. Data integration and validation between the 3DSVF and ground-based measurements such as continuous GPS time series and precise leveling data were achieved. Correlating the findings with recent geothermal energy production revealed a subsidence rate slowdown that aligns with the CPGF's annual vapor production. [ABSTRACT FROM AUTHOR]

Published
2024
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39. Exploring the Impact of Subtle Differences in the Chemical Structure of 1-Alkylsulfates and 1-Alkylsulfonates on Their Interactions with Human Serum Albumin.

Author

Grabowska, Ola, Singh, Ankur, Żamojć, Krzysztof, Samsonov, Sergey A., and Wyrzykowski, Dariusz

Subjects
ISOTHERMAL titration calorimetry, SERUM albumin, CHEMICAL structure, FUNCTIONAL groups, ALIPHATIC hydrocarbons
Abstract

The objective of this study was to examine the interactions between anionic surfactants, specifically 1-alkylsulfonates (KXS) and 1-alkylsulfates (SXS) ions, with human serum albumin (HSA). A combination of experimental techniques, including isothermal titration calorimetry (ITC), steady-state fluorescence spectroscopy (SF), and molecular dynamics-based approaches was employed to gain a comprehensive understanding of these processes. It has been demonstrated that the subtle variations in the charge distribution on the anionic surfactant headgroups have a significant impact on the number of binding sites, the stoichiometry of the resulting complexes, and the strength of the interactions between the surfactants and the protein. Additionally, we established that the affinity of the investigated ligands to specific regions on the protein surface is governed by both the charge of the surfactant headgroup and the length of the aliphatic hydrocarbon chain. In summary, the findings highlight the crucial role of charge distribution on surfactant functional groups in the binding mode and the thermodynamic stability of surfactant–protein complexes. [ABSTRACT FROM AUTHOR]

Published
2024
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40. Constraints on the 2013 Saravan intraslab earthquake using permanent GNSS, InSAR and seismic data.

Author

Amiri, Meysam, Walpersdorf, Andrea, Mousavi, Zahra, Khorrami, Fatemeh, Pathier, Erwan, Samsonov, Sergey V, Saadat, Seied Abdolreza, Nankali, Hamid Reza, and Sedighi, Morteza

Subjects
SLABS (Structural geology), SUBDUCTION, EARTHQUAKE hazard analysis, ISLAND arcs, SATELLITE geodesy
Abstract

On 16 April 2013, an M w = 7.7 earthquake struck the border of Iran and Pakistan in the central part of the Makran subduction zone with a reported depth of 80 km by USGS. This rare event in this poorly instrumented region helps to shed light on the kinematics of the subducting slab. We investigate source parameters of the Saravan intraslab normal earthquake using RADARSAT-2 SAR images in three ascending tracks, nine permanent GNSS sites and teleseismic data. The maximum coseismic displacement occurred at the SRVN GNSS station with 54.1 mm southeast horizontal and 42.7 mm upward vertical displacements. The coseismic ascending InSAR displacement maps illustrate a continuous and smooth NE-trending elliptical shape deformation pattern with a maximum of ∼29 cm of displacement away from the satellite. We use 25 broad-band teleseismic P-waveforms to estimate the focal mechanism of the main shock. A joint uniform inversion of InSAR, GNSS and teleseismic data reveals a NW-dipping SW-striking fault and a primarily normal-faulting earthquake with a minor right-lateral strike-slip component. The static slip distribution of the InSAR coseismic maps localizes variable slip at depths between 50 and 81 km with a maximum amplitude >3 m at 60–75.5 km depth, rupturing the oceanic crust of the subducted slab. The kinematic slip distribution exhibits a well-constrained slip pattern with a nucleation depth of 65 km. The source time function indicates that the earthquake reaches its maximum moment tensor release at ∼8 and ∼16 s. The NE-trend of the Saravan earthquake slip pattern, the orientation of the volcanic arc, and the distribution of the intraslab intermediate-depth normal earthquakes provide new insights into slab geometry in the central Makran subduction zone. We suggest that the slab bending at the hinge of subducting Arabian Plate is oblique along a NE–SW direction parallel to the volcanic arc rather than the shoreline or deformation front, and it is likely to be the reason for an oblique volcanic arc in the Makran subduction zone. These new constraints on the Makran slab geometry will help further studies in establishing realistic coupling maps for seismic hazard assessment. [ABSTRACT FROM AUTHOR]

Published
2024
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41. Structural Insights into Endostatin–Heparan Sulfate Interactions Using Modeling Approaches.

Author

Uciechowska-Kaczmarzyk, Urszula, Frank, Martin, Samsonov, Sergey A., and Maszota-Zieleniak, Martyna

Subjects
AMINO acid residues, ENDOSTATIN, HEPARAN sulfate, MOLECULAR dynamics, MOLECULAR docking, GLYCOSAMINOGLYCANS
Abstract

Glycosaminoglycans (GAGs) play a key role in a variety of biological processes in the extracellular matrix (ECM) via interactions with their protein targets. Due to their high flexibility, periodicity and electrostatics-driven interactions, GAG-containing complexes are very challenging to characterize both experimentally and in silico. In this study, we, for the first time, systematically analyzed the interactions of endostatin, a proteolytic fragment of collagen XVIII known to be anti-angiogenic and anti-tumoral, with heparin (HP) and representative heparan sulfate (HS) oligosaccharides of various lengths, sequences and sulfation patterns. We first used conventional molecular docking and a docking approach based on a repulsive scaling–replica exchange molecular dynamics technique, as well as unbiased molecular dynamic simulations, to obtain dynamically stable GAG binding poses. Then, the corresponding free energies of binding were calculated and the amino acid residues that contribute the most to GAG binding were identified. We also investigated the potential influence of Zn2+ on endostatin–HP complexes using computational approaches. These data provide new atomistic details of the molecular mechanism of HP's binding to endostatin, which will contribute to a better understanding of its interplay with proteoglycans at the cell surface and in the extracellular matrix. [ABSTRACT FROM AUTHOR]

Published
2024
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44. Modeling protein structures with the coarse-grained UNRES force field in the CASP14 experiment

Author

Antoniak, Anna, Biskupek, Iga, Bojarski, Krzysztof K., Czaplewski, Cezary, Giełdoń, Artur, Kogut, Mateusz, Kogut, Małgorzata M., Krupa, Paweł, Lipska, Agnieszka G., Liwo, Adam, Lubecka, Emilia A., Marcisz, Mateusz, Maszota-Zieleniak, Martyna, Samsonov, Sergey A., Sieradzan, Adam K., Ślusarz, Magdalena J., Ślusarz, Rafał, Wesołowski, Patryk A., and Ziȩba, Karolina

Published
2021
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47. Why Do Ionic Surfactants Significantly Alter the Chemiluminogenic Properties of Acridinium Salt?

Author

Mańkowska, Magdalena, Krzymiński, Karol, Wyrzykowski, Dariusz, Zadykowicz, Beata, and Samsonov, Sergey A.

Subjects
IONIC surfactants, CRITICAL micelle concentration, MOLECULAR dynamics, SODIUM sulfate, SURFACE active agents
Abstract

Acridinium esters, due to their capability for chemiluminescence (CL), are employed as indicators and labels in biomedical diagnostics and other fields. In this work, the influence of ionic surfactants, hexadecyltrimethylammonium chloride and bromide (CTAC and CTAB, cationic) and sodium dodecyl sulphate (SDS, anionic) on the CL parameters and mechanism of representative emitter, 10-methyl-9-[(2-methylphenoxy)carbonyl]acridinium trifluoromethanesulphonate (2MeX) in a H2O2/NaOH environment, is studied. Our investigations revealed that the type of surfactant and its form in solution have an impact on the CL kinetic constants and integral efficiencies, while changes in those emission properties resulting from the type of ion (Cl vs. Br) are negligible. The major changes were recorded for systems containing surfactants at concentrations higher than the critical micelle concentration. The cationic surfactants (CTAC, CTAB) cause a substantial increase in CL emission kinetics and a moderate increase in its integral efficiency. At the same time, the opposite effect is observed in the case of SDS. Molecular dynamics simulations suggest that changes in emission parameters are likely due to differences in the binding strength of 2MeX substrate with surfactant molecules, which is higher for SDS than for CTAC. The results can help in rational designing of optimal acridinium CL systems and demonstrate their usefulness in distinguishing the pre- and post-micellar environment and the charge of surfactants. [ABSTRACT FROM AUTHOR]

Published
2024
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50. Space weather and hypertensive crises at high Latitudes (in Yakutsk)

Author

Strekalovskaya Alyona, Petrova Palmira, Samsonov Sergey, Parshina Svetlana, and Oskolkova Anna

Subjects
Environmental sciences, GE1-350
Abstract

The space weather impact on the health status of people with cardiovascular diseases is quite significant and it has been shown by many researchers. To examine this relationship at high latitudes, we made a Yakutsk ambulance electronic database analysis. The significant coincidences of geomagnetic disturbance indicators (Kp-index - a global geophysical disturbance index) and the increased blood pressure emergency calls number have been determined during the high solar activity years. The blood pressure increase cases analysis shows that patients with primary essential arterial hypertension (AH) seek medical help in 57%. Furthermore, 7% of AH patients experienced a hypertensive crisis (HC) with an increase in systolic blood pressure (SBP) from 180 mm Hg, diastolic blood pressure (DBP) from 120 mm Hg. The medical data analysis and the space weather data (Kp-index) comparison demonstrate a significant coincidence, which became the main base for the conclusion that heliogeophysical disturbance effects on the cardiovascular system state of a person living at high latitudes.

Published
2023
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