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1. Quantum versus semi-classical signatures of correlated triple ionization in Dalitz plots

Author

Efimov, Dmitry K., Katsoulis, Georgios P., Rozpętkowski, Tymoteusz, Chwałowski, Sergiusz, Emmanouilidou, Agapi, and Prauzner-Bechcicki, Jakub S.

Subjects
Physics - Atomic Physics
Abstract

We investigate correlated three-electron escape in Ne when driven by an intense, infrared laser field. We do so by employing a reduced-dimensionality quantum-mechanical model and two three-dimensional semi-classical models. One semi-classical model is a recently developed one that accounts with effective coulomb potentials for the interaction between two bound electrons (ECBB) while it fully accounts for all other interactions. The other semi-classical model is the Heisenberg one, which effectively accounts for the interaction of each electron with the core via a soft-core potential. We identify and compare the signatures of correlated three-electron escape for both quantum and semi-classical models on Dalitz plots and find a better agreement between the quantum and the ECBB model. We also show that a central ``spot'' on the Dalitz plots is reproduced by all models. Using the ECBB model we associate this ``spot'' with the direct triple ionization pathway and argue this to be the case also for the quantum model. Devising a simple classical model that accounts for the direct pathway of triple ionization, we show that the width of this spot in the Dalitz plots solely depends on the time of tunnel-ionization., Comment: 11 pages, 6 figures, original article

Published
2024

2. Leveraging Multimodal Diffusion Models to Accelerate Imaging with Side Information

Author

Efimov, Timofey, Dong, Harry, Shah, Megna, Simmons, Jeff, Donegan, Sean, and Chi, Yuejie

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Diffusion models have found phenomenal success as expressive priors for solving inverse problems, but their extension beyond natural images to more structured scientific domains remains limited. Motivated by applications in materials science, we aim to reduce the number of measurements required from an expensive imaging modality of interest, by leveraging side information from an auxiliary modality that is much cheaper to obtain. To deal with the non-differentiable and black-box nature of the forward model, we propose a framework to train a multimodal diffusion model over the joint modalities, turning inverse problems with black-box forward models into simple linear inpainting problems. Numerically, we demonstrate the feasibility of training diffusion models over materials imagery data, and show that our approach achieves superior image reconstruction by leveraging the available side information, requiring significantly less amount of data from the expensive microscopy modality.

Published
2024

3. Cascade switching current detectors based on arrays of Josephson junctions

Author

Cattaneo, Roger, Efimov, Artemii E., Shiianov, Kirill I., Kieler, Oliver, and Krasnov, Vladimir M.

Subjects
Condensed Matter - Superconductivity, Physics - Instrumentation and Detectors
Abstract

Cascade multiplication is a common technique to enhance the sensitivity of photon detectors. In this study, we demonstrate novel cascade-amplified superconducting detectors utilizing arrays of Josephson junctions. The mutual coupling between junctions induces avalanche-like switching of multiple junctions upon photon absorption, leading to cascade amplification of the readout voltage. We present two prototypes featuring either low-Tc linear Nb/NbxSi1-x/Nb arrays, or high-Tc stacked intrinsic Josephson junctions. Both devices exhibit clear antenna effects in microwave directivities, indicating good impedance matching and absorption efficiency. The combination of high absorption efficiency and large cascade amplification has the potential to produce broadband THz sensors with sensitivity exceeding 10^13 V/W., Comment: 9 pages, 3 figures

Published
2024

4. GLANCE: Graph-based Learnable Digital Twin for Communication Networks

Author

Li, Boning, Verma, Gunjan, Efimov, Timofey, Kumar, Abhishek, and Segarra, Santiago

Subjects
Computer Science - Networking and Internet Architecture, Electrical Engineering and Systems Science - Systems and Control
Abstract

As digital twins (DTs) to physical communication systems, network simulators can aid the design and deployment of communication networks. However, time-consuming simulations must be run for every new set of network configurations. Learnable digital twins (LDTs), in contrast, can be trained offline to emulate simulation outcomes and serve as a more efficient alternative to simulation-based DTs at runtime. In this work, we propose GLANCE, a communication LDT that learns from the simulator ns-3. It can evaluate network key performance indicators (KPIs) and assist in network management with exceptional efficiency. Leveraging graph learning, we exploit network data characteristics and devise a specialized architecture to embed sequential and topological features of traffic flows within the network. In addition, multi-task learning (MTL) and transfer learning (TL) are leveraged to enhance GLANCE's generalizability to unseen inputs and efficacy across different tasks. Beyond end-to-end KPI prediction, GLANCE can be deployed within an optimization framework for network management. It serves as an efficient or differentiable evaluator in optimizing network configurations such as traffic loads and flow destinations. Through numerical experiments and benchmarking, we verify the effectiveness of the proposed LDT architecture, demonstrate its robust generalization to various inputs, and showcase its efficacy in network management applications.

Published
2024

5. Analysis of defect modes in one-dimensional photonic crystals with two defects

Author

Kamenev, A. O., Vanyushkin, N. A., Efimov, I. M., and Gevorgyan, A. H.

Subjects
Physics - Optics
Abstract

In this paper, for the first time, analytical expressions for determination of the wavelength of defect modes (DMs) in one-dimensional (1D) photonic crystals (PCs) with two defect layers (DLs) were obtained from the condition of zero reflection. Analytical formulas on the conditions for the merging of two DMs and on the DMs with zero value of the reflection coefficient were obtained. Different typical 1D PC structures with two DLs were considered and compared, including their DMs behavior. The distribution of electromagnetic field within the first photonic bandgap (PBG) was analyzed for several cases of DM merging and for the different orders of DMs. The results of this research permit the simplification of the analysis of optical sensors and filters based on 1D PCs with two DLs, as well as a more comprehensive understanding of the DM behavior within the PBGs of such PC structures. Furthermore, this paper helps to explain the results obtained by other researchers earlier in this field, too.

Published
2024

6. State estimation for a class of nonlinear time-varying uncertain system under multiharmonic disturbance

Author

Margun, Alexey A., Bui, Van H., Bobtsov, Alexey A., and Efimov, Denis V.

Subjects
Electrical Engineering and Systems Science - Systems and Control
Abstract

The paper considers the observer synthesis for nonlinear, time-varying plants with uncertain parameters under multiharmonic disturbance. It is assumed that the relative degree of the plant is known, the regressor linearly depends on the state vector and may have a nonlinear relationship with the output signal. The proposed solution consists of three steps. Initially, an unknown input state observer is synthesized. This observer, however, necessitates the measurement of output derivatives equal to the plant's relative degree. To relax this limitation, an alternative representation of the observer is introduced. Further, based on this observer, the unknown parameters and disturbances are reconstructed using an autoregression model and the dynamic regressor extension and mixing (DREM) approach. This approach allows the estimates to be obtained in a finite time. Finally, based on these estimates, an observer has been constructed that does not require measurements of the output derivatives. The effectiveness and efficiency of this solution are demonstrated through a computer simulation.

Published
2024

7. On the Hahn-Witt series and their generalizations

Author

Efimov, Alexander I.

Subjects
Mathematics - Number Theory, Mathematics - Commutative Algebra, 11S31
Abstract

In this paper we study the field of Hahn-Witt series $HW(\overline{\mathbb{F}}_p)$ with residue field $\overline{\mathbb{F}}_p$ (also known as a $p$-adic Malcev-Neumann field \cite{La86, P93}), and its generalizations. Informally, the Hahn-Witt series are possibly infinite linear combinations of rational powers of $p,$ in which the coefficients are Teichm\"uller representatives, and the set of exponents is well-ordered. They form an algebraically closed extension of $\mathbb{Q}_p,$ with a canonical automorphism $\varphi,$ coming from the absolute Frobenius of $\overline{\mathbb{F}}_p.$ We prove that the action of $\varphi$ on the $p$-power roots of unity is given by $\varphi(\zeta)=\zeta^{-1},$ answering a question of Kontsevich. More generally, we consider the $\pi$-typical Hahn-Witt series $HW_{(K,\pi)}(\overline{\mathbb{F}}_q)$, where $\pi$ is a uniformizer in a local field $K$ with residue field $\mathbb{F}_q.$ Again, this field is an algebraically closed extension of $K,$ and it has a canonical automorphism $\varphi_{\pi},$ coming from the relative Frobenius of $\overline{\mathbb{F}}_q$ over $\mathbb{F}_q.$ We prove that the action of $\varphi_{\pi}$ on the maximal abelian extension $K^{ab}$ corresponds via local class field theory to the uniformizer $-\pi\in K^*.$, Comment: 19 pages

Published
2024

8. Robust nonlinear state-feedback control of second-order systems

Author

Ruderman, Michael and Efimov, Denis

Subjects
Mathematics - Optimization and Control, Electrical Engineering and Systems Science - Systems and Control
Abstract

This note proposes a novel nonlinear state feedback controller for perturbed second-order systems. In analogy to a linear proportional-derivative (PD) output feedback control, the proposed nonlinear scheme uses the output state of interest and its time derivative for a robust finite-time regulation. The control has only one free design parameter, and the closed-loop system is shown to be uniformly asymptotically stable in the presence of matched disturbances. We derive a strict Lyapunov function for the closed control loop with a bounded exogenous perturbation, and use it for both the control tuning and analysis of the finite-time convergence. Apart from the numerical results, a revealing experimental example is also shown in favor of the proposed control and in comparison with PD and sub-optimal nonlinear damping regulators., Comment: 6 pages, 6 figures

Published
2024

10. K-theory and localizing invariants of large categories

Author

Efimov, Alexander I.

Subjects
Mathematics - K-Theory and Homology, Mathematics - Algebraic Geometry, Mathematics - Algebraic Topology, Mathematics - Category Theory, Mathematics - Number Theory, 19D55
Abstract

In this paper we introduce and study the so-called continuous $K$-theory for a certain class of "large" stable $\infty$-categories, more precisely, for dualizable presentable categories. For compactly generated categories, the continuous $K$-theory is simply the usual (non-connective) $K$-theory of the full subcategory of compact objects. More generally, we show that any localizing invariant of small stable $\infty$-categories can be uniquely extended to a localizing invariant of dualizable categories. We compute the continuous $K$-theory for categories of sheaves on locally compact Hausdorff spaces. Using the special case for sheaves on the real line, we give an alternative proof of the theorem of Kasprowski and Winges \cite{KW19} on the commutation of $K$-theory with infinite products for small stable $\infty$-categories. We also study the general theory of dualizable categories. In particular, we give an "explicit" proof of Ramzi's theorem \cite{Ram} on the $\omega_1$-presentability of the category of dualizable categories. Among other things, we prove that dualizability is equivalent to "flatness" in the category of presentable stable categories., Comment: 123 pages; v2: minor changes, some typos corrected, a reference added

Published
2024

11. KazQAD: Kazakh Open-Domain Question Answering Dataset

Author

Yeshpanov, Rustem, Efimov, Pavel, Boytsov, Leonid, Shalkarbayuli, Ardak, and Braslavski, Pavel

Subjects
Computer Science - Computation and Language
Abstract

We introduce KazQAD -- a Kazakh open-domain question answering (ODQA) dataset -- that can be used in both reading comprehension and full ODQA settings, as well as for information retrieval experiments. KazQAD contains just under 6,000 unique questions with extracted short answers and nearly 12,000 passage-level relevance judgements. We use a combination of machine translation, Wikipedia search, and in-house manual annotation to ensure annotation efficiency and data quality. The questions come from two sources: translated items from the Natural Questions (NQ) dataset (only for training) and the original Kazakh Unified National Testing (UNT) exam (for development and testing). The accompanying text corpus contains more than 800,000 passages from the Kazakh Wikipedia. As a supplementary dataset, we release around 61,000 question-passage-answer triples from the NQ dataset that have been machine-translated into Kazakh. We develop baseline retrievers and readers that achieve reasonable scores in retrieval (NDCG@10 = 0.389 MRR = 0.382), reading comprehension (EM = 38.5 F1 = 54.2), and full ODQA (EM = 17.8 F1 = 28.7) settings. Nevertheless, these results are substantially lower than state-of-the-art results for English QA collections, and we think that there should still be ample room for improvement. We also show that the current OpenAI's ChatGPTv3.5 is not able to answer KazQAD test questions in the closed-book setting with acceptable quality. The dataset is freely available under the Creative Commons licence (CC BY-SA) at https://github.com/IS2AI/KazQAD., Comment: To appear in Proceedings of the 2024 Joint International Conference on Computational Linguistics, Language Resources and Evaluation (LREC-COLING 2024)

Published
2024

12. The sensitivity of refractive index sensors based on defected 1D photonic crystals: an analytical approach

Author

Vanyushkin, Nikolay A., Efimov, I. M., and Gevorgyan, Ashot H.

Subjects
Physics - Optics
Abstract

In this paper, an analytical formula for the sensitivity of optical sensors based on one-dimensional photonic crystals (PCs) with a defect was derived for the first time. Based on this formula, a comparative analysis of the sensitivity of defected PCs with and without mirror symmetry was carried out. In addition, the exact values of sensitivity in the limit of an infinite PC with a quarter-wave unit cell were obtained. It was shown that the sensitivity of a defective PC with an infinitely thick defect layer is equal to that of a perfectly reflecting Fabry-Perot resonator and does not depend on the specific structure of the PC. The results of this work provide a significant simplification of the analysis and optimization of optical sensors based on defective PCs, as well as a better understanding of the numerous numerical results obtained previously., Comment: 13 pages, 3 figures

Published
2024

13. Accelerating Convergence of Score-Based Diffusion Models, Provably

Author

Li, Gen, Huang, Yu, Efimov, Timofey, Wei, Yuting, Chi, Yuejie, and Chen, Yuxin

Subjects
Computer Science - Machine Learning, Computer Science - Artificial Intelligence, Computer Science - Information Theory, Mathematics - Optimization and Control, Statistics - Machine Learning
Abstract

Score-based diffusion models, while achieving remarkable empirical performance, often suffer from low sampling speed, due to extensive function evaluations needed during the sampling phase. Despite a flurry of recent activities towards speeding up diffusion generative modeling in practice, theoretical underpinnings for acceleration techniques remain severely limited. In this paper, we design novel training-free algorithms to accelerate popular deterministic (i.e., DDIM) and stochastic (i.e., DDPM) samplers. Our accelerated deterministic sampler converges at a rate $O(1/{T}^2)$ with $T$ the number of steps, improving upon the $O(1/T)$ rate for the DDIM sampler; and our accelerated stochastic sampler converges at a rate $O(1/T)$, outperforming the rate $O(1/\sqrt{T})$ for the DDPM sampler. The design of our algorithms leverages insights from higher-order approximation, and shares similar intuitions as popular high-order ODE solvers like the DPM-Solver-2. Our theory accommodates $\ell_2$-accurate score estimates, and does not require log-concavity or smoothness on the target distribution., Comment: The first two authors contributed equally

Published
2024

21. Filtering Homogeneous Observer for MIMO System

Author

Ping, Xubin, Zimenko, Konstantin, Polyakov, Andrey, and Efimov, Denis

Subjects
Electrical Engineering and Systems Science - Systems and Control
Abstract

Homogeneous observer for linear multi-input multi-output (MIMO) system is designed. A prefilter of the output is utilized in order to improve robustness of the observer with respect to measurement noises. The use of such a prefilter also simplifies tuning, since the observer gains in this case are parameterized by a linear matrix inequality (LMI) being always feasible for observable system. In particular case, the observer is shown to be applicable in the presence of the state and the output bounded perturbations. Theoretical results are supported by numerical simulations.

Published
2024

22. Optical coherence storage in dark exciton states using spin-dependent three-pulse photon echo

Author

Solovev, I. A., Nazarov, R. S., Butiugina, A. A., Eliseev, S. A., Lovcjus, V. A., Efimov, Yu. P., Kapitonov, Yu. V., and Yugova, I. A.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Extension of coherent response time is a desired goal in the field of all-optical information processing implemented in classical and quantum ways. Here we demonstrate how spin-dependent stimulated photon echo can be used to extend decay time of coherent signal from exciton ensemble. We experimentally studied photon echoes from excitons in a model single InGaAs/GaAs quantum well subject to transverse magnetic field. Field-induced quantum beats lead to oscillation of exciton population between bright and long-lived dark excitons. As a result, photon echo decays much longer with decay time attaining dark exciton lifetime in case of non-oscillatory regime.

Published
2023

23. Hyperfine interaction in the Autler-Townes effect II: control of two-photon selection rules in the Morris-Shore basis

Author

Cinins, Arturs, Efimov, Dmitry K., Bruvelis, Martins, Miculis, Kaspars, Kirova, Teodora, Bezuglov, Nikolai N., Ryabtsev, Igor I., Auzinsh, Marcis, and Ekers, Aigars

Subjects
Physics - Atomic Physics, Quantum Physics
Abstract

We investigated the absence of certain bright peaks in Autler-Townes laser excitation spectra of alkali metal atoms. Our research revealed that these dips in the spectra are caused by a specific architecture of adiabatic (or ``laser-dressed'') states in hyperfine (HF) components. The dressed states' analysis pinpointed several cases where constructive and destructive interference between HF excitation pathways in a two-photon excitation scheme limits the available two-photon transitions. This results in a reduction of the conventional two-photon selection rule for the total angular momentum $F$, from $\Delta F= 0,\pm 1$ to $\Delta F\equiv 0$. Our discovery presents practical methods for selectively controlling the populations of unresolvable HF $F$-components of $ns_{1/2}$ Rydberg states in alkali metal atoms. Using numerical simulations with sodium and rubidium atoms, we demonstrate that by blocking the effects of HF interaction with a specially tuned auxiliary control laser field, the deviations from the ideal selectivity of the HF components population can be lower than $0.01\%$ for Na and $0.001\%$ for Rb atoms., Comment: 20 pages, 14 figures, to be submitted to PRA. Changelog: * added missing ORCID iDs; * Notation used in figures 4,6 is now consistent with the rest of the manuscript: Pump paser -> S-laser; * corrected typos, more precise language througout the paper; * improved legibility of labels in figures 4-8

Published
2023

35. Centralizers of Jacobian derivations

Author

Efimov, D. I., Petravchuk, A. P., and Sydorov, M. S.

Subjects
Mathematics - Rings and Algebras
Abstract

Let $\mathbb K$ be an algebraically closed field of characteristic zero, $\mathbb K[x, y]$ the polynonial ring in variables $x$, $y$ and let $W_2(\mathbb K)$ be the Lie algebra of all $\mathbb K$-derivations on $\mathbb K[x, y]$. A derivation $D \in W_2(\mathbb K)$ is called a Jacobian derivation if there exists $f \in \mathbb K[x, y]$ such that $D(h) = \det J(f, h)$ for any $h \in \mathbb K[x, y]$ (here $J(f, h)$ is the Jacobian matrix for $f$ and $h$). Such a derivation is denoted by $D_f$. The kernel of $D_f$ in $\mathbb K[x, y]$ is a subalgebra $\mathbb K[p]$ where $p=p(x, y)$ is a polynomial of smallest degree such that $f(x, y) = \varphi (p(x, y)$ for some $\varphi (t) \in \mathbb K[t]$. Let $C = C_{W_2(\mathbb K)} (D_f)$ be the centralizer of $D_f$ in $W_2(\mathbb K)$. We prove that $C$ is the free $\mathbb K[p]$-module of rank 1 or 2 over $\mathbb K[p]$ and point out a criterion of being a module of rank $2$. These results are used to obtain a class of integrable autonomous systems of differential equations., Comment: 7 pages

Published
2023

36. On maximality of some solvable and locally nilpotent subalgebras of the Lie algebra $W_n(K)$

Author

Efimov, D., Sydorov, M., and Sysak, K.

Subjects
Mathematics - Rings and Algebras, 17B66, 17B05, 17B40
Abstract

Let $K$ be an algebraically closed field of characteristic zero, $P_n=K[x_1, ..., x_n]$ the polynomial ring, and $W_n(K)$ the Lie algebra of all $K$-derivations on $P_n$. One of the most important subalgebras of $W_n(K)$ is the triangular subalgebra $u_n(K) = P_0\partial_1+\cdots+P_{n-1}\partial_n$, where $\partial_i:=\partial/\partial x_i$ are partial derivatives on $P_n$. This subalgebra consists of locally nilpotent derivations on $P_n.$ Such derivations define automorphisms of the ring $P_n$ and were studied by many authors. The subalgebra $u_n(K) $ is contained in another interesting subalgebra $s_n(K)=(P_0+x_1P_0)\partial_1+\cdots +(P_{n-1}+x_nP_{n-1})\partial_n,$ which is solvable of the derived length $2n$ that is the maximum derived length of solvable subalgebras of $W_n(K).$ It is proved that $u_n(K)$ is a maximal locally nilpotent subalgebra and $s_n(K)$ is a maximal solvable subalgebra of the Lie algebra $W_n(K).$, Comment: 8 pages

Published
2023

38. Generations of Universities: Features of Cultivated Thinking Types. What Will the Thinking be Like in University 4.0?

Author

V. S. Efimov and A. V. Lapteva

Subjects
university generations, university 4.0, cognitive institute, types of thinking, foundations of practices, Education
Abstract

The university is considered in historical retrospect and perspective as a cognitive institution of society that ensures the reproduction and development of thinking. The concept of “university generation” is basic for the study. Three generations of universities are distinguished in history (scholastic, research, entrepreneurial); the university of the future is considered as a fourthgeneration university (“cognitive university”).Universities of definite generations developed specific historical types of thinking. It is proposed to define types of thinking through their characteristic “objects”, “methods” and “intentions”. The peculiarity of the university as a cognitive institution is that it works at the level of foundations – it creates and reproduces the foundations of worldviews and social practices. These can be ontological, value-based, socio-practical, anthropological foundations of knowledge systems and practices.A hypothesis is proposed: the fourth generation university will cultivate methodological thinking (“thinking about thinking”), its key objective will be the formation of collective and hybrid (including AI) intelligences, and the development of technologies for their work. The activities of University 4.0 will be aimed at creating the foundations of new practices (ontological, value-based, ethical, anthropological) and setting precedents for these practices.

Published
2024
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39. Dеmystification of propеrty rights in thе contеxt of thе digital transformation of thе еconomy

Author

Anatoly V. Efimov

Subjects
digital right, utilitarian digital right, propеrty right, objеct, digital financial assеt, digital currеncy, cryptocurrеncy, digital rublе, tokеn, nft, Law
Abstract

Thе rеsеarch rеlеvancе liеs in thе intеrsеction of thе classical civil problеm of thе lеgal naturе of propеrty rights and thе еvolving landscapе of digital tеchnologiеs, which has givеn risе to propеrty rights taking on a digital form (digital rights). This has lеd to thе nееd to еstablish thе lеgal framеwork for such digital rights, including utilitarian digital rights and digital financial assеts, within thе broadеr contеxt of propеrty rights. Thе issuе of thе lеgal framеwork for digital currеncy rеmains unrеsolvеd sincе it posеs challеngеs in classification within thе rеalm of propеrty rights. Furthеmorе, in ordеr to qualify propеrty law as falling undеr civil rights, thе focus must bе on thе prеsеncе of an absolutе right that dеfinеs thе opposition and ownеrship of this propеrty by a cеrtain еntity. Thе objеctivе is to dеvеlop sciеntific and thеorеtical principlеs for qualifying propеrty rights as objеcts of civil rights within thе contеxt of еconomic digitalization. This objеctivе is pursuеd through thе application of a systеmatic approach and a group of formal logical mеthods (dеduction, induction, analogy, еtc.), as wеll as spеcial lеgal mеthods (formal lеgal, comparativе lеgal, lеgal modеling mеthod). Thе rеsеarch has rеsultеd in a two-tiеrеd approach to thе study of propеrty rights. Thе first lеvеl involvеs еxamining thе contеnt of thе propеrty right within thе contеxt of rеlativе lеgal rеlationships, whilе thе sеcond lеvеl involvеs considеring a spеcific absolutе right to such propеrty rights. Thе rеsеarch concludеs that non-cash monеy (including thе digital rublе) and digital currеncy do not fall undеr thе rеalm of propеrty rights; thеy arе indеpеndеnt objеcts of civil rights. Additionally, it assеrts that absolutе and rеlativе rights pеrtaining to propеrty rights can bе manifеstеd in thе form of tokеns.

Published
2024
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40. Integrating artificial intelligence into ERP systems: advantages, disadvantages and prospects

Author

I. I. Antonova, V. A. Smirnov, and M. G. Efimov

Subjects
regional and branch economics, artificial intelligence, erp-systems, machine learning, natural language processing, predictive analytics, business process automation, inventory management, improved decision-making, Economics as a science, HB71-74, Law in general. Comparative and uniform law. Jurisprudence, K1-7720
Abstract

Objective: to identify the key benefits and potential risks associated with the use of artificial intelligence in ERP systems to improve decision-making processes, management efficiency and operational performance of various sectors, including commercial and non-profit organizations. Methods: systematic literature review, empirical data analysis, analytical and experimental research methods. Results: the key directions of artificial intelligence implementation in ERP-systems are reflected, providing improvement of operational efficiency, customer relations, as well as optimization of business processes, data management, supply chain and personnel management, automation of operations related to finance, optimization of customer relations; implementation of artificial intelligence in ERP-systems reduces inventory management costs, improves the accuracy of forecasting andinventory optimization, accelerates financial analysis and increases the accuracy of budgeting, resulting in reduced budget planning time; it also increases productivity by optimizing necessary production processes and reducing equipment downtime. However, there are also risks of confidential data leakage, unauthorized access to data; job losses due to automation of tasks; and vulnerability to cyberattacks. Scientific novelty: the little-studied directions of artificial intelligence integration in ERP-systems are analyzed; an integrative approach to the application of artificial intelligence in ERP-systems is proposed, which combines methods of machine learning, natural language processing and predictive analytics and provides a comprehensive assessment of the complex impact on the business processes’ efficiency. Practical significance: the formulated directions for solving the identified problems of artificial intelligence integration in ERP-systems can be implemented in practice, as they will enable to better take into account local requirements and laws.

Published
2024
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41. Advancing forest carbon stocks’ mapping using a hierarchical approach with machine learning and satellite imagery

Author

Svetlana Illarionova, Polina Tregubova, Islomjon Shukhratov, Dmitrii Shadrin, Albert Efimov, and Evgeny Burnaev

Subjects
Forest management, Computer vision, Machine learning, Environmental science, Forestry, Remote sensing, Medicine, Science
Abstract

Abstract Remote sensing of forests is a powerful tool for monitoring the biodiversity of ecosystems, maintaining general planning, and accounting for resources. Various sensors bring together heterogeneous data, and advanced machine learning methods enable their automatic handling in wide territories. Key forest properties usually under consideration in environmental studies include dominant species, tree age, height, basal area and timber stock. Being proxies of stand productivity, they can be utilized for forest carbon stock estimation to analyze forests’ status and proper climate change mitigation measures on a global scale. In this study, we aim to develop an effective machine learning-based pipeline for automatic carbon stock estimation using solely freely available and regularly updated satellite observations. We employed multispectral Sentinel-2 remote sensing data to predict forest structure characteristics and produce their detailed spatial maps. Using the Extreme Gradient Boosting (XGBoost) algorithm in classification and regression settings and management-level inventory data as reference measurements, we achieved quality of predictions of species equal to 0.75 according to the F1-score, and for stand age, height, and basal area, we achieved an accuracy of 0.75, 0.58 and 0.56, respectively, according to the R2. We focused on the growing stock volume as the main proxy to estimate forest carbon stocks on the example of the stem pool. We explored two approaches: a direct approach and a hierarchical approach. The direct approach leverages the remote sensing data to create the target maps, and the hierarchical approach calculates the target forest properties using predicted inventory characteristics and conversion equations. We estimated stem carbon stock based on the same approach: from Earth observation imagery directly and using biomass and conversion factors developed for the northern regions. Thus, our study proposes an end-to-end solution for carbon stock estimations based on the complexation of inventory data at the forest stand level, Earth observation imagery, machine learning predictions and conversion equations for the region. The presented approach enables more robust and accurate large-scale assessments using limited annotated datasets.

Published
2024
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42. Strong-Field Double Ionization in a Three-Electron Atom: Momentum Distribution Analysis

Author

Efimov, Dmitry K., Maksymov, Artur, Zakrzewski, Jakub, and Prauzner-Bechcicki, Jakub S.

Subjects
Physics - Atomic Physics, Quantum Physics
Abstract

We study strong-field double ionization in a three-electron atom by applying a simplified, reduced-dimensionality model with three active electrons. The influence of the spin-induced symmetry of the spatial part of the wavefunction on the final two-photoectron momentum distribution is discussed. We identify partial momentum distributions originating from different sets of spins of outgoing electrons providing in this way a quantum support connection between V-structure and direct ionization typically explained classically. Changes in the momentum distribution with increasing field amplitude obtained in our simplified model are shown to be well-correlated with experimental data known from the literature. The possible relation between the observed dependencies and different ionization mechanisms is discussed., Comment: 9 pages, 4 figures

Published
2023
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43. Learnable Digital Twin for Efficient Wireless Network Evaluation

Author

Li, Boning, Efimov, Timofey, Kumar, Abhishek, Cortes, Jose, Verma, Gunjan, Swami, Ananthram, and Segarra, Santiago

Subjects
Computer Science - Networking and Internet Architecture, Computer Science - Machine Learning, Electrical Engineering and Systems Science - Systems and Control
Abstract

Network digital twins (NDTs) facilitate the estimation of key performance indicators (KPIs) before physically implementing a network, thereby enabling efficient optimization of the network configuration. In this paper, we propose a learning-based NDT for network simulators. The proposed method offers a holistic representation of information flow in a wireless network by integrating node, edge, and path embeddings. Through this approach, the model is trained to map the network configuration to KPIs in a single forward pass. Hence, it offers a more efficient alternative to traditional simulation-based methods, thus allowing for rapid experimentation and optimization. Our proposed method has been extensively tested through comprehensive experimentation in various scenarios, including wired and wireless networks. Results show that it outperforms baseline learning models in terms of accuracy and robustness. Moreover, our approach achieves comparable performance to simulators but with significantly higher computational efficiency.

Published
2023

50. Magnetic field study of exciton nonradiative broadening excitation spectra in GaAs/AlGaAs quantum wells

Author

Chukeev, M. A., Kurdyubov, A. S., Ryzhov, I. I., Lovtcius, V. A., Efimov, Yu. P., Eliseev, S. A., and Grigoryev, P. S.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Exciton excited states in the quantum well are studied via their effect on the nonradiative broadening of the ground exciton resonance. Dependence of the nonradiative broadening of the ground exciton state on the photon energy of additional laser excitation was measured. Applying magnetic field up to 6 T, we could trace the formation of Landau levels and evolution of the exciton states of size quantization in a 14-nm GaAs/AlGaAs quantum well. Sensitivity of the technique allowed for observation of the second exciton state of size quantization, unavailable for conventional reflectance and photoluminescence spectroscopy. Our interpretation is supported by the numerical calculation of the exciton energies of the heavy-hole and light-hole subsystems. The numerical problems were solved using the finite-difference method on the nonuniform grid. The ground Landau level of the free electron-hole pair was observed and numerically analysed. In addition to energies of the excited states, electron hole distances and exciton-light interaction constant was investigated using the obtained in the numerical procedure exciton wave functions.

Published
2023

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