Your search keyword '"Garcês A"' showing total 3,982 results

1. Phase Transitions in single species Ising Models with Non-Reciprocal couplings

Author

Garcés, Adrià and Levis, Demian

Subjects

Condensed Matter - Statistical Mechanics, Condensed Matter - Disordered Systems and Neural Networks

Abstract

We present a general framework for incorporating non-reciprocal interactions into the Ising model with Glauber dynamics, without requiring multiple species. We then focus on a model with vision-cone type interactions. We solve it in a fully connected network (mean-field) and perform extensive numerical simulations of the model in the square lattice. We find that the breakdown of the spin-flip symmetry introduced by non-reciprocity induces a discontinuous phase transition on top of the usual continuous one, that eventually occurs at higher critical temperatures. Combining a static and dynamic scaling analysis, we measure the critical exponents associated to the continuous symmetry breaking transition, and find them to be identical to the ones of the Ising model in two dimensions (2D), with the exception of the exponent $\beta$ associated to the order parameter. The latter appears to increase as the non-reciprocity of the coupling increases, suggesting that, within our numerical precision, the model does not belong to the 2D Ising model universality class. The coarsening process is anisotropic, but still follows the usual dynamic scaling with an exponent compatible with the standard value with non-conserved order parameter dynamics., Comment: 23 pages, 10 figures

Published

2024

2. Semantic Knowledge Distillation for Onboard Satellite Earth Observation Image Classification

Author

Le, Thanh-Dung, Ha, Vu Nguyen, Nguyen, Ti Ti, Eappen, Geoffrey, Thiruvasagam, Prabhu, Chou, Hong-fu, Tran, Duc-Dung, Garces-Socarras, Luis M., Gonzalez-Rios, Jorge L., Merlano-Duncan, Juan Carlos, and Chatzinotas, Symeon

Subjects

Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning, Electrical Engineering and Systems Science - Signal Processing

Abstract

This study presents an innovative dynamic weighting knowledge distillation (KD) framework tailored for efficient Earth observation (EO) image classification (IC) in resource-constrained settings. Utilizing EfficientViT and MobileViT as teacher models, this framework enables lightweight student models, particularly ResNet8 and ResNet16, to surpass 90% in accuracy, precision, and recall, adhering to the stringent confidence thresholds necessary for reliable classification tasks. Unlike conventional KD methods that rely on static weight distribution, our adaptive weighting mechanism responds to each teacher model's confidence, allowing student models to prioritize more credible sources of knowledge dynamically. Remarkably, ResNet8 delivers substantial efficiency gains, achieving a 97.5% reduction in parameters, a 96.7% decrease in FLOPs, an 86.2% cut in power consumption, and a 63.5% increase in inference speed over MobileViT. This significant optimization of complexity and resource demands establishes ResNet8 as an optimal candidate for EO tasks, combining robust performance with feasibility in deployment. The confidence-based, adaptable KD approach underscores the potential of dynamic distillation strategies to yield high-performing, resource-efficient models tailored for satellite-based EO applications. The reproducible code is accessible on our GitHub repository., Comment: Under revisions

Published

2024

3. Cognitive Semantic Augmentation LEO Satellite Networks for Earth Observation

Author

Chou, Hong-fu, Ha, Vu Nguyen, Thiruvasagam, Prabhu, Le, Thanh-Dung, Eappen, Geoffrey, Nguyen, Ti Ti, Tran, Duc Dung, Garces-Socarras, Luis M., Merlano-Duncan, Juan Carlos, and Chatzinotas, Symeon

Subjects

Computer Science - Networking and Internet Architecture

Abstract

Earth observation (EO) systems are essential for mapping, catastrophe monitoring, and resource management, but they have trouble processing and sending large amounts of EO data efficiently, especially for specialized applications like agriculture and real-time disaster response. This paper presents a novel framework for semantic communication in EO satellite networks, aimed at enhancing data transmission efficiency and system performance through cognitive processing techniques. The proposed system leverages Discrete Task-Oriented Joint Source-Channel Coding (DT-JSCC) and Semantic Data Augmentation (SA) integrate cognitive semantic processing with inter-satellite links, enabling efficient analysis and transmission of multispectral imagery for improved object detection, pattern recognition, and real-time decision-making. Cognitive Semantic Augmentation (CSA) is introduced to enhance a system's capability to process and transmit semantic information, improving feature prioritization, consistency, and adaptation to changing communication and application needs. The end-to-end architecture is designed for next-generation satellite networks, such as those supporting 6G, demonstrating significant improvements in fewer communication rounds and better accuracy over federated learning., Comment: 8 Pages, 5 figures, Magazine. arXiv admin note: substantial text overlap with arXiv:2409.15246

Published

2024

4. Towards Better Open-Ended Text Generation: A Multicriteria Evaluation Framework

Author

Arias, Esteban Garces, Blocher, Hannah, Rodemann, Julian, Li, Meimingwei, Heumann, Christian, and Aßenmacher, Matthias

Subjects

Computer Science - Computation and Language, Computer Science - Machine Learning

Abstract

Open-ended text generation has become a prominent task in natural language processing due to the rise of powerful (large) language models. However, evaluating the quality of these models and the employed decoding strategies remains challenging because of trade-offs among widely used metrics such as coherence, diversity, and perplexity. Decoding methods often excel in some metrics while underperforming in others, complicating the establishment of a clear ranking. In this paper, we present novel ranking strategies within this multicriteria framework. Specifically, we employ benchmarking approaches based on partial orderings and present a new summary metric designed to balance existing automatic indicators, providing a more holistic evaluation of text generation quality. Furthermore, we discuss the alignment of these approaches with human judgments. Our experiments demonstrate that the proposed methods offer a robust way to compare decoding strategies, exhibit similarities with human preferences, and serve as valuable tools in guiding model selection for open-ended text generation tasks. Finally, we suggest future directions for improving evaluation methodologies in text generation. Our codebase, datasets, and models are publicly available.

Published

2024

5. Evaluating Model Performance with Hard-Swish Activation Function Adjustments

Author

Pydimarry, Sai Abhinav, Khairnar, Shekhar Madhav, Palacios, Sofia Garces, Sankaranarayanan, Ganesh, Hoagland, Darian, Nepomnayshy, Dmitry, and Nguyen, Huu Phong

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

In the field of pattern recognition, achieving high accuracy is essential. While training a model to recognize different complex images, it is vital to fine-tune the model to achieve the highest accuracy possible. One strategy for fine-tuning a model involves changing its activation function. Most pre-trained models use ReLU as their default activation function, but switching to a different activation function like Hard-Swish could be beneficial. This study evaluates the performance of models using ReLU, Swish and Hard-Swish activation functions across diverse image datasets. Our results show a 2.06% increase in accuracy for models on the CIFAR-10 dataset and a 0.30% increase in accuracy for models on the ATLAS dataset. Modifying the activation functions in architecture of pre-trained models lead to improved overall accuracy., Comment: 2 pages

Published

2024

6. Decoding Decoded: Understanding Hyperparameter Effects in Open-Ended Text Generation

Author

Arias, Esteban Garces, Li, Meimingwei, Heumann, Christian, and Aßenmacher, Matthias

Subjects

Computer Science - Computation and Language, Computer Science - Machine Learning

Abstract

Decoding strategies for large language models (LLMs) are a critical but often underexplored aspect of text generation tasks. Since LLMs produce probability distributions over the entire vocabulary, various decoding methods have been developed to transform these probabilities into coherent and fluent text, each with its own set of hyperparameters. In this study, we present a large-scale, comprehensive analysis of how hyperparameter selection affects text quality in open-ended text generation across multiple LLMs, datasets, and evaluation metrics. Through an extensive sensitivity analysis, we provide practical guidelines for hyperparameter tuning and demonstrate the substantial influence of these choices on text quality. Using three established datasets, spanning factual domains (e.g., news) and creative domains (e.g., fiction), we show that hyperparameter tuning significantly impacts generation quality, though its effects vary across models and tasks. We offer in-depth insights into these effects, supported by both human evaluations and a synthesis of widely-used automatic evaluation metrics.

Published

2024

7. On-Air Deep Learning Integrated Semantic Inference Models for Enhanced Earth Observation Satellite Networks

Author

Chou, Hong-fu, Ha, Vu Nguyen, Thiruvasagam, Prabhu, Le, Thanh-Dung, Eappen, Geoffrey, Nguyen, Ti Ti, Garces-Socarras, Luis M., Gonzalez-Rios, Jorge L., Merlano-Duncan, Juan Carlos, and Chatzinotas, Symeon

Subjects

Computer Science - Machine Learning, Computer Science - Computer Vision and Pattern Recognition, Computer Science - Networking and Internet Architecture

Abstract

Earth Observation (EO) systems are crucial for cartography, disaster surveillance, and resource administration. Nonetheless, they encounter considerable obstacles in the processing and transmission of extensive data, especially in specialized domains such as precision agriculture and real-time disaster response. Earth observation satellites, outfitted with remote sensing technology, gather data from onboard sensors and IoT-enabled terrestrial objects, delivering important information remotely. Domain-adapted Large Language Models (LLMs) provide a solution by enabling the integration of raw and processed EO data. Through domain adaptation, LLMs improve the assimilation and analysis of many data sources, tackling the intricacies of specialized datasets in agriculture and disaster response. This data synthesis, directed by LLMs, enhances the precision and pertinence of conveyed information. This study provides a thorough examination of using semantic inference and deep learning for sophisticated EO systems. It presents an innovative architecture for semantic communication in EO satellite networks, designed to improve data transmission efficiency using semantic processing methodologies. Recent advancements in onboard processing technologies enable dependable, adaptable, and energy-efficient data management in orbit. These improvements guarantee reliable performance in adverse space circumstances using radiation-hardened and reconfigurable technology. Collectively, these advancements enable next-generation satellite missions with improved processing capabilities, crucial for operational flexibility and real-time decision-making in 6G satellite communication., Comment: 17 pages, 7 figures, Journal

Published

2024

8. Onboard Satellite Image Classification for Earth Observation: A Comparative Study of ViT Models

Author

Le, Thanh-Dung, Ha, Vu Nguyen, Nguyen, Ti Ti, Eappen, Geoffrey, Thiruvasagam, Prabhu, Garces-Socarras, Luis M., Chou, Hong-fu, Gonzalez-Rios, Jorge L., Merlano-Duncan, Juan Carlos, and Chatzinotas, Symeon

Subjects

Computer Science - Computer Vision and Pattern Recognition, Electrical Engineering and Systems Science - Signal Processing

Abstract

This study focuses on identifying the most effective pre-trained model for land use classification in onboard satellite processing, emphasizing achieving high accuracy, computational efficiency, and robustness against noisy data conditions commonly encountered during satellite-based inference. Through extensive experimentation, we compare the performance of traditional CNN-based, ResNet-based, and various pre-trained vision Transformer models. Our findings demonstrate that pre-trained Vision Transformer (ViT) models, particularly MobileViTV2 and EfficientViT-M2, outperform models trained from scratch in terms of accuracy and efficiency. These models achieve high performance with reduced computational requirements and exhibit greater resilience during inference under noisy conditions. While MobileViTV2 has excelled on clean validation data, EfficientViT-M2 has proved more robust when handling noise, making it the most suitable model for onboard satellite EO tasks. Our experimental results demonstrate that EfficientViT-M2 is the optimal choice for reliable and efficient RS-IC in satellite operations, achieving 98.76 % of accuracy, precision, and recall. Precisely, EfficientViT-M2 delivers the highest performance across all metrics, excels in training efficiency (1,000s) and inference time (10s), and demonstrates greater robustness (overall robustness score of 0.79). Consequently, EfficientViT-M2 consumes 63.93 % less power than MobileViTV2 (79.23 W) and 73.26 % less power than SwinTransformer (108.90 W). This highlights its significant advantage in energy efficiency.

Published

2024

9. Non-trivial Topological Surface States Regulation of 1T-OsCoTe$_2$ Enables Selective C-C Coupling for Highly Efficient Photochemical CO$_2$ Reduction Toward C$_{2+}$ hydrocarbons

Author

Wang, Kangwang, Wu, Mingjie, Yu, Peifeng, Garces, Hector F., Liang, Ying, Li, Longfu, Zeng, Lingyong, Li, Kuan, Zhang, Chao, Yan, Kai, and Luo, Huixia

Subjects

Condensed Matter - Materials Science, Condensed Matter - Other Condensed Matter

Abstract

Despite ongoing research, the rational design of nontrivial topological semimetal surface states for the selective photocatalytic CO$_2$ conversion into valuable products remains full of challenges. Herein, we present the synthesis of 1T-OsCoTe$_2$ for the photoreduction upgrading of CO$_2$ to tricarbon alkane C$_3$H$_8$,by the integration of experimental work and theory calculation. Experimental studies suggested a high electron based selectivity of 71.2% for C$_3$H$_8$ and an internal quantum efficiency of 54.6% at 380 nm. In-situ X-ray photoelectron spectroscopy and X-ray absorption fine structure spectroscopy demonstrated that Co and Os atoms coordinated with Te atoms enable an efficient Os-Te-Co electron transfer to activate the generation of *CH$_3$,*CHOCO and *CH$_2$OCOCO. Density functional theory calculations further confirmed Os-Te-Co electron bridging on the improved CO$_2$ conversion kinetics. To our knowledge, this is the first report suggesting the role of Os atoms in accelerating the photocatalytic CO$_2$ conversion activity of the topological semimetal 1T-OsCoTe$_2$., Comment: 31 pages, 6 Figures

Published

2024

10. Adaptive Contrastive Search: Uncertainty-Guided Decoding for Open-Ended Text Generation

Author

Arias, Esteban Garces, Rodemann, Julian, Li, Meimingwei, Heumann, Christian, and Aßenmacher, Matthias

Subjects

Computer Science - Computation and Language, Computer Science - Machine Learning, Statistics - Methodology, Statistics - Machine Learning

Abstract

Decoding from the output distributions of large language models to produce high-quality text is a complex challenge in language modeling. Various approaches, such as beam search, sampling with temperature, $k-$sampling, nucleus $p-$sampling, typical decoding, contrastive decoding, and contrastive search, have been proposed to address this problem, aiming to improve coherence, diversity, as well as resemblance to human-generated text. In this study, we introduce adaptive contrastive search, a novel decoding strategy extending contrastive search by incorporating an adaptive degeneration penalty, guided by the estimated uncertainty of the model at each generation step. This strategy is designed to enhance both the creativity and diversity of the language modeling process while at the same time producing coherent and high-quality generated text output. Our findings indicate performance enhancement in both aspects, across different model architectures and datasets, underscoring the effectiveness of our method in text generation tasks. Our code base, datasets, and models are publicly available., Comment: Accepted to EMNLP 2024 Findings

Published

2024

11. Robust optimal investment and consumption strategies with portfolio constraints and stochastic environment

Author

Garces, Len Patrick Dominic M. and Shen, Yang

Subjects

Quantitative Finance - Portfolio Management, Mathematics - Optimization and Control, Quantitative Finance - Mathematical Finance, 91G10, 93E20

Abstract

We investigate a continuous-time investment-consumption problem with model uncertainty in a general diffusion-based market with random model coefficients. We assume that a power utility investor is ambiguity-averse, with the preference to robustness captured by the homothetic multiplier robust specification, and the investor's investment and consumption strategies are constrained to closed convex sets. To solve this constrained robust control problem, we employ the stochastic Hamilton-Jacobi-Bellman-Isaacs equations, backward stochastic differential equations, and bounded mean oscillation martingale theory. Furthermore, we show the investor incurs (non-negative) utility loss, i.e. the loss in welfare, if model uncertainty is ignored. When the model coefficients are deterministic, we establish formally the relationship between the investor's robustness preference and the robust optimal investment-consumption strategy and the value function, and the impact of investment and consumption constraints on the investor's robust optimal investment-consumption strategy and value function. Extensive numerical experiments highlight the significant impact of ambiguity aversion, consumption and investment constraints, on the investor's robust optimal investment-consumption strategy, utility loss, and value function. Key findings include: 1) short-selling restriction always reduces the investor's utility loss when model uncertainty is ignored; 2) the effect of consumption constraints on utility loss is more delicate and relies on the investor's risk aversion level., Comment: 30 pages, 6 figures (including sub-figures), 4 tables

Published

2024

12. Geophysical Observations of the 24 September 2023 OSIRIS-REx Sample Return Capsule Re-Entry

Author

Silber, Elizabeth A., Bowman, Daniel C., Carr, Chris G., Eisenberg, David P., Elbing, Brian R., Fernando, Benjamin, Garcés, Milton A., Haaser, Robert, Krishnamoorthy, Siddharth, Langston, Charles A., Nishikawa, Yasuhiro, Webster, Jeremy, Anderson, Jacob F., Arrowsmith, Stephen, Bazargan, Sonia, Beardslee, Luke, Beck, Brant, Bishop, Jordan W., Blom, Philip, Bracht, Grant, Chichester, David L., Christe, Anthony, Clarke, Jacob, Cummins, Kenneth, Cutts, James, Danielson, Lisa, Donahue, Carly, Eack, Kenneth, Fleigle, Michael, Fox, Douglas, Goel, Ashish, Green, David, Hasumi, Yuta, Hayward, Chris, Hicks, Dan, Hix, Jay, Horton, Stephen, Hough, Emalee, Huber, David P., Hunt, Madeline A., Inman, Jennifer, Islam, S. M. Ariful, Izraelevitz, Jacob, Jacob, Jamey D., Johnson, James, KC, Real J., Komjathy, Attila, Lam, Eric, LaPierre, Justin, Lewis, Kevin, Lewis, Richard D., Liu, Patrick, Martire, Léo, McCleary, Meaghan, McGhee, Elisa A., Mitra, Ipsita, Nag, Amitabh, Giraldo, Luis Ocampo, Pearson, Karen, Plaisir, Mathieu, Popenhagen, Sarah K., Rassoul, Hamid, Giannone, Miro Ronac, Samnani, Mirza, Schmerr, Nicholas, Spillman, Kate, Srinivas, Girish, Takazawa, Samuel K., Tempert, Alex, Turley, Reagan, Van Beek, Cory, Viens, Loïc, Walsh, Owen A., Weinstein, Nathan, White, Robert, Williams, Brian, Wilson, Trevor C., Wyckoff, Shirin, Yamamoto, Masa-yuki, Yap, Zachary, Yoshiyama, Tyler, and Zeiler, Cleat

Subjects

Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Instrumentation and Methods for Astrophysics, Physics - Geophysics

Abstract

Sample Return Capsules (SRCs) entering Earth's atmosphere at hypervelocity from interplanetary space are a valuable resource for studying meteor phenomena. The 24 September 2023 arrival of the OSIRIS-REx (Origins, Spectral Interpretation, Resource Identification, and Security-Regolith Explorer) SRC provided an unprecedented chance for geophysical observations of a well-characterized source with known parameters, including timing and trajectory. A collaborative effort involving researchers from 16 institutions executed a carefully planned geophysical observational campaign at strategically chosen locations, deploying over 400 ground-based sensors encompassing infrasound, seismic, distributed acoustic sensing (DAS), and GPS technologies. Additionally, balloons equipped with infrasound sensors were launched to capture signals at higher altitudes. This campaign (the largest of its kind so far) yielded a wealth of invaluable data anticipated to fuel scientific inquiry for years to come. The success of the observational campaign is evidenced by the near-universal detection of signals across instruments, both proximal and distal. This paper presents a comprehensive overview of the collective scientific effort, field deployment, and preliminary findings. The early findings have the potential to inform future space missions and terrestrial campaigns, contributing to our understanding of meteoroid interactions with planetary atmospheres. Furthermore, the dataset collected during this campaign will improve entry and propagation models as well as augment the study of atmospheric dynamics and shock phenomena generated by meteoroids and similar sources., Comment: 87 pages, 14 figures

Published

2024

13. Exact solution for a general FJC polyelectrolyte model with up to Next Nearest Neighbour Interactions

Author

Orradre, Javier, Blanco, Pablo M., Madurga, Sergio, Mas, Francesc, and Garces, Josep Lluis

Subjects

Condensed Matter - Soft Condensed Matter, Condensed Matter - Statistical Mechanics

Abstract

This work presents a polyelectrolyte (PE) model based on a freely jointed chain (FJC) in which the beads are ionizable and the bonds are rigid. Electrostatic interactions considered are of the short range type up to next-nearest neighbours using a Debye-H\"uckel (DH) potential. Exact expressions for the conformational and protonation properties are obtained as a function of the pH using the transfer matrix method and the integration of the angular variables. For the finite cases with low N values, relevant differences arise on both the protonation curve and the end to end distance due to the end effects. However, when increasing N a rather rapid convergence is observed to the infinite chain limiting case., Comment: 9 pages, 3 figures (1 figure with one image, 2 figures with 2 images)

Published

2024

14. IReNe: Instant Recoloring of Neural Radiance Fields

Author

Mazzucchelli, Alessio, Garcia-Garcia, Adrian, Garces, Elena, Rivas-Manzaneque, Fernando, Moreno-Noguer, Francesc, and Penate-Sanchez, Adrian

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

Advances in NERFs have allowed for 3D scene reconstructions and novel view synthesis. Yet, efficiently editing these representations while retaining photorealism is an emerging challenge. Recent methods face three primary limitations: they're slow for interactive use, lack precision at object boundaries, and struggle to ensure multi-view consistency. We introduce IReNe to address these limitations, enabling swift, near real-time color editing in NeRF. Leveraging a pre-trained NeRF model and a single training image with user-applied color edits, IReNe swiftly adjusts network parameters in seconds. This adjustment allows the model to generate new scene views, accurately representing the color changes from the training image while also controlling object boundaries and view-specific effects. Object boundary control is achieved by integrating a trainable segmentation module into the model. The process gains efficiency by retraining only the weights of the last network layer. We observed that neurons in this layer can be classified into those responsible for view-dependent appearance and those contributing to diffuse appearance. We introduce an automated classification approach to identify these neuron types and exclusively fine-tune the weights of the diffuse neurons. This further accelerates training and ensures consistent color edits across different views. A thorough validation on a new dataset, with edited object colors, shows significant quantitative and qualitative advancements over competitors, accelerating speeds by 5x to 500x.

Published

2024

15. Artificial Intelligence Satellite Telecommunication Testbed using Commercial Off-The-Shelf Chipsets

Author

Garcés-Socarrás, Luis M., Nik, Amirhossein, Ortiz, Flor, Vásquez-Peralvo, Juan A., González-Rios, Jorge L., Chehailty, Mouhamad, Kuhfuss, Marcele, Lagunas, Eva, Thoemel, Jan, Kumar, Sumit, Singh, Vishal, Duncan, Juan C. Merlano, Malmir, Sahar, Varadajulu, Swetha, Querol, Jorge, and Chatzinotas, Symeon

Subjects

Electrical Engineering and Systems Science - Signal Processing

Abstract

The Artificial Intelligence Satellite Telecommunications Testbed (AISTT), part of the ESA project SPAICE, is focused on the transformation of the satellite payload by using artificial intelligence (AI) and machine learning (ML) methodologies over available commercial off-the-shelf (COTS) AI-capable chips for onboard processing. The objectives include validating artificial intelligence-driven SATCOM scenarios such as interference detection, spectrum sharing, radio resource management, decoding, and beamforming. The study highlights hardware selection and payload architecture. Preliminary results show that ML models significantly improve signal quality, spectral efficiency, and throughput compared to conventional payload. Moreover, the testbed aims to evaluate the performance and the use of AI-capable COTS chips in onboard SATCOM contexts., Comment: 6 pages, 4 figures

Published

2024

16. Maps preserving the truncation of triple products on Cartan factors

Author

Garcés, Jorge J., Li, Lei, Peralta, Antonio M., and Su, Shanshan

Subjects

Mathematics - Operator Algebras, Mathematics - Functional Analysis

Abstract

Let $\{C_i\}_{i\in \Gamma_1},$ and $\{D_j\}_{j\in \Gamma_2},$ be two families of Cartan factors such that all of them have dimension at least $2$, and consider the atomic JBW$^*$-triples $A=\bigoplus\limits_{i\in \Gamma_1}^{\ell_{\infty}} C_i$ and $B=\bigoplus\limits_{j\in \Gamma_2}^{\ell_{\infty}} D_j$. Let $\Delta :A \to B$ be a {\rm(}non-necessarily linear nor continuous{\rm)} bijection preserving the truncation of triple products in both directions, that is, $$\begin{aligned} \boxed{a \mbox{ is a truncation of } \{b,c,b\}} \Leftrightarrow \boxed{\Delta(a) \mbox{ is a truncation of } \{\Delta(b),\Delta(c),\Delta(b)\}} \end{aligned}$$ Assume additionally that the restriction of $\Delta$ to each rank-one Cartan factor in $A$, if any, is a continuous mapping. Then we show that $\Delta$ is an isometric real linear triple isomorphism. We also study some general properties of bijections preserving the truncation of triple products in both directions between general JB$^*$-triples.

Published

2024

17. A Review of Matrix Algebra for Power and Energy Applications

Author

Garces-Ruiz, Alejandro

Subjects

Mathematics - Numerical Analysis

Abstract

This report presents a brief review of matrix algebra and its implementation in Julia for power and energy applications. First, we present basic examples of data visualization, followed by conventional operations with matrices and vectors. Then, we study quadratic forms and norms, two main concepts required in the convergence study of the power flow in power and energy applications. After that, we give good practices to create a neat code in Julia. There is an extensive set of examples available on the Internet related to these basic aspects, so we avoid repeating what is well documented. Hence, we show only basic examples to create our first scripts.

Published

2024

18. Invertibility preservers of finitary incidence algebras

Author

Garcés, Jorge J. and Khrypchenko, Mykola

Subjects

Mathematics - Rings and Algebras, Primary: 15A86, 16S50, 06E20, secondary: 16W10

Abstract

Let $X$ be an arbitrary poset and $K$ an arbitrary field. We describe linear unital invertibility preservers of the finitary incidence algebra $FI(X,K)$ in terms of certain maps of the power set algebra $\mathcal{P}(X)$ and linear maps $FI(X,K)\to J(FI(X,K))$.

Published

2024

19. Direct activation of PMS by highly dispersed amorphous CoOx clusters in anatase TiO2 nanosheets for efficient oxidation of biomass-derived alcohols

Author

Jiang, Zhiwei, Zhao, Zhiyue, Li, Xin, Li, Huaiguang, Garces, Hector F., Amer, Mahmoud, and Yan, Kai

Subjects

Physics - Chemical Physics

Abstract

Developing a green and cost-effective catalytic system for the selective oxidation of biomass-derived alcohols is vital for the sustainable synthesis of fine chemicals. Herein, highly dispersed subnanometric amorphous CoOx clusters in anatase TiO2 nanosheets (Co-TiO2) fabricated by green solvent CO2 assisted approach could directly activate peroxymonosulfate (PMS) for the highly selective oxidation of various biomass-derived alcohols. Advanced characterizations (e.g., EXAFS, EPR, AC HAADF-STEM) reveal that a strong interaction of CoOx clusters and the anatase TiO2 support exist in Co-TiO2 and Co atom in Co-TiO2 is mainly consisted of Co2+ and Co3+. The Co-TiO2 catalyst offers superior catalytic performance in the conversion of six types of alcohols (e.g., benzyl alcohol (BAL), 5-hydroxymethylfurfural (HMF)) with high selectivity to produce corresponding aldehydes. Highly dispersed CoOx clusters and the interaction between CoOx clusters and TiO2 support contribute to the superior performance. Mechanism studies show that SO4 radicals play the dominant role in the selective oxidation of model reactant BAL and 1O2 participates in the non-radical pathway. DFT calculations are well matched with experiment and decipher that the strong interaction between CoOx clusters and TiO2 support promotes the formation of SO4 and SO5., Comment: 29 pages, 9 figures

Published

2024

20. Facile synthesis of CoSi alloy with rich vacancy for base- and solvent-free aerobic oxidation of aromatic alcohols

Author

Zhao, Zhiyue, Jiang, Zhiwei, Huang, Yizhe, Boubeche, Mebrouka, Matveeva, Valentina G., Garces, Hector F., Luo, Huixia, and Yan, Kai

Subjects

Physics - Chemical Physics

Abstract

Rational design and green synthesis of low-cost and robust catalysts efficient for the selective oxidation of various alcohols are full of challenges. Herein, we report a fast and solvent-free arc-melting (AM) method to controllably synthesize semimetal CoSi alloy (abbreviated as AM-CoSi) that is efficient for the base- and solvent-free oxidation of six types of aromatic alcohols. X-ray absorption fine structure (XAFS), electron paramagnetic resonance (EPR), and aberration corrected high angle annular dark field scanning transmission electron microscope (AC HAADF-STEM) confirmed the successful synthesis of AM-CoSi with rich Si vacancy (Siv). The as-prepared CoSi alloy catalysts exhibit an order of magnitude activity enhancement in the oxidation of model reactant benzyl alcohol (BAL) to benzyl benzoate (BBE) compared with its mono counterparts, whereas 70 % yield of BBE which is the highest yield to date. Experimental results and DFT calculations well verify that the CoSi alloy structure improves the BAL conversion and Si vacancy mainly contributes to the generation of BBE. After that, CoSi alloy maintains high stability and a potential pathway is rationally proposed. Besides, CoSi alloy also efficiently works for the selective oxidation of various alcohols with different groups. This work demonstrates for the first time that semimetal CoSi alloy is robust for the green oxidation of various alcohols and provides a vast opportunity for reasonable design and application of other semimetal alloy catalysts., Comment: 22 pages, 6 figures

Published

2024

21. TexTile: A Differentiable Metric for Texture Tileability

Author

Rodriguez-Pardo, Carlos, Casas, Dan, Garces, Elena, and Lopez-Moreno, Jorge

Subjects

Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence, Computer Science - Graphics, Computer Science - Machine Learning, 68T07 (Primary) 68T45, 68U05 (Secondary), I.2.6, I.4.10, I.3.3, I.5.4, I.5.1, I.3.7, I.3.8, I.2.10

Abstract

We introduce TexTile, a novel differentiable metric to quantify the degree upon which a texture image can be concatenated with itself without introducing repeating artifacts (i.e., the tileability). Existing methods for tileable texture synthesis focus on general texture quality, but lack explicit analysis of the intrinsic repeatability properties of a texture. In contrast, our TexTile metric effectively evaluates the tileable properties of a texture, opening the door to more informed synthesis and analysis of tileable textures. Under the hood, TexTile is formulated as a binary classifier carefully built from a large dataset of textures of different styles, semantics, regularities, and human annotations.Key to our method is a set of architectural modifications to baseline pre-train image classifiers to overcome their shortcomings at measuring tileability, along with a custom data augmentation and training regime aimed at increasing robustness and accuracy. We demonstrate that TexTile can be plugged into different state-of-the-art texture synthesis methods, including diffusion-based strategies, and generate tileable textures while keeping or even improving the overall texture quality. Furthermore, we show that TexTile can objectively evaluate any tileable texture synthesis method, whereas the current mix of existing metrics produces uncorrelated scores which heavily hinders progress in the field., Comment: CVPR 2024. Project page: https://mslab.es/projects/TexTile/

Published

2024

22. COVID-19 detection from pulmonary CT scans using a novel EfficientNet with attention mechanism

Author

Farag, Ramy, Upadhyay, Parth, Gao, Yixiang, Demby, Jacket, Montoya, Katherin Garces, Tousi, Seyed Mohamad Ali, Omotara, Gbenga, and DeSouza, Guilherme

Subjects

Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning

Abstract

Manual analysis and diagnosis of COVID-19 through the examination of Computed Tomography (CT) images of the lungs can be time-consuming and result in errors, especially given high volume of patients and numerous images per patient. So, we address the need for automation of this task by developing a new deep learning model-based pipeline. Our motivation was sparked by the CVPR Workshop on "Domain Adaptation, Explainability and Fairness in AI for Medical Image Analysis", more specifically, the "COVID-19 Diagnosis Competition (DEF-AI-MIA COV19D)" under the same Workshop. This challenge provides an opportunity to assess our proposed pipeline for COVID-19 detection from CT scan images. The same pipeline incorporates the original EfficientNet, but with an added Attention Mechanism: EfficientNet-AM. Also, unlike the traditional/past pipelines, which relied on a pre-processing step, our pipeline takes the raw selected input images without any such step, except for an image-selection step to simply reduce the number of CT images required for training and/or testing. Moreover, our pipeline is computationally efficient, as, for example, it does not incorporate a decoder for segmenting the lungs. It also does not combine different backbones nor combine RNN with a backbone, as other pipelines in the past did. Nevertheless, our pipeline still outperforms all approaches presented by other teams in last year's instance of the same challenge, at least based on the validation subset of the competition dataset.

Published

2024

23. User-Centric Beam Selection and Precoding Design for Coordinated Multiple-Satellite Systems

Author

Ha, Vu Nguyen, Nguyen, Duy H. N., Duncan, Juan C. -M., Gonzalez-Rios, Jorge L., Vasquez, Juan A., Eappen, Geoffrey, Garces-Socarras, Luis M., Palisetty, Rakesh, Chatzinotas, Symeon, and Ottersten, Bjorn

Subjects

Electrical Engineering and Systems Science - Signal Processing

Abstract

This paper introduces a joint optimization framework for user-centric beam selection and linear precoding (LP) design in a coordinated multiple-satellite (CoMSat) system, employing a Digital-Fourier-Transform-based (DFT) beamforming (BF) technique. Regarding serving users at their target SINRs and minimizing the total transmit power, the scheme aims to efficiently determine satellites for users to associate with and activate the best cluster of beams together with optimizing LP for every satellite-to-user transmission. These technical objectives are first framed as a complex mixed-integer programming (MIP) challenge. To tackle this, we reformulate it into a joint cluster association and LP design problem. Then, by theoretically analyzing the duality relationship between downlink and uplink transmissions, we develop an efficient iterative method to identify the optimal solution. Additionally, a simpler duality approach for rapid beam selection and LP design is presented for comparison purposes. Simulation results underscore the effectiveness of our proposed schemes across various settings.

Published

2024

24. Mechanism Design Optimization through CAD-Based Bayesian Optimization and Quantified Constraints

Author

Yahya, Abdelmajid Ben, Garces, Santiago Ramos, Van Oosterwyck, Nick, Cuyt, Annie, and Derammelaere, Stijn

Subjects

Electrical Engineering and Systems Science - Systems and Control, 74P20, G.1.6

Abstract

This research delves into optimizing mechanism design, with an emphasis on the energy efficiency and the expansive design possibilities of reciprocating mechanisms. It investigates how to efficiently integrate Computer-Aided Design (CAD) simulations with Bayesian Optimization (BO) and a constrained design space, aiming to enhance the design optimization process beyond the confines of traditional kinematic and dynamic analysis. The study sets out to create a novel optimization framework that merges CAD simulations with a BO strategy. Initially, the feasibility of a mechanism design is assessed through CAD-motion simulations, which gauge its practicality. Upon deeming a design feasible, an evaluation via CAD-motion simulations is conducted to ascertain the objective value. This research proposes utilizing non-parametric Gaussian processes for crafting a surrogate model of the objective function, considering the design space's static and dynamic constraints. The findings reveal that the introduced CAD-based Bayesian Optimization framework adeptly identifies optimal design parameters that minimize root mean square (RMS) torque while complying with predetermined constraints. This method markedly diminishes the complexity seen in analytical approaches, rendering it adaptable to intricate mechanisms and practicable for machine builders. The framework evidences the utility of integrating constraints in the optimization process, showing promise for attaining globally optimal designs efficiently. A case study on an emergency ventilator, with three design parameters, demonstrates a 71% RMS torque reduction after 255 CAD-based evaluations, underscoring the approach's effectiveness and its potential for refining mechanism design optimization., Comment: 13 pages, 13 figures

Published

2024

25. Bridging a Fractured World : The Pact of the Future

Author

Garcés, María Fernanda Espinosa

Published

2024

26. Tiny Reinforcement Learning for Quadruped Locomotion using Decision Transformers

Author

Akgün, Orhan Eren, Cuevas, Néstor, Farias, Matheus, and Garces, Daniel

Subjects

Computer Science - Robotics, Computer Science - Artificial Intelligence, Computer Science - Machine Learning

Abstract

Resource-constrained robotic platforms are particularly useful for tasks that require low-cost hardware alternatives due to the risk of losing the robot, like in search-and-rescue applications, or the need for a large number of devices, like in swarm robotics. For this reason, it is crucial to find mechanisms for adapting reinforcement learning techniques to the constraints imposed by lower computational power and smaller memory capacities of these ultra low-cost robotic platforms. We try to address this need by proposing a method for making imitation learning deployable onto resource-constrained robotic platforms. Here we cast the imitation learning problem as a conditional sequence modeling task and we train a decision transformer using expert demonstrations augmented with a custom reward. Then, we compress the resulting generative model using software optimization schemes, including quantization and pruning. We test our method in simulation using Isaac Gym, a realistic physics simulation environment designed for reinforcement learning. We empirically demonstrate that our method achieves natural looking gaits for Bittle, a resource-constrained quadruped robot. We also run multiple simulations to show the effects of pruning and quantization on the performance of the model. Our results show that quantization (down to 4 bits) and pruning reduce model size by around 30\% while maintaining a competitive reward, making the model deployable in a resource-constrained system., Comment: 10 pages, 4 figures

Published

2024

27. Automatic continuity of biorthogonality preservers between compact C$^*$-algebras and von Neumann algebras

Author

Burgos, Mar\' ia, Garcés, Jorge J., and Peralta, Antonio M.

Subjects

Mathematics - Operator Algebras, Mathematics - Functional Analysis

Abstract

We prove that every biorthogonality preserving linear surjection between two dual or compact C$^*$-algebras or between two von Neumann algebras is automatically continuous., Comment: arXiv admin note: text overlap with arXiv:2402.00517

Published

2024

28. Generalised triple homomorphisms and Derivations

Author

Garcés, Jorge J. and Peralta, Antonio M.

Subjects

Mathematics - Operator Algebras, Mathematics - Functional Analysis

Abstract

We introduce generalised triple homomorphism between Jordan Banach triple systems as a concept which extends the notion of generalised homomorphism between Banach algebras given by Jarosz and Johnson in 1985 and 1987, respectively. We prove that every generalised triple homomorphism between JB$^*$-triples is automatically continuous. When particularised to C$^*$-algebras, we rediscover one of the main theorems established by Johnson. We shall also consider generalised triple derivations from a Jordan Banach triple $E$ into a Jordan Banach triple $E$-module, proving that every generalised triple derivation from a JB$^*$-triple $E$ into $E^*$ is automatically continuous.

Published

2024

29. A Kaplansky Theorem for JB*-triples

Author

Fernández-Polo, Francisco J., Garcés, Jorge J., and Peralta, Antonio M.

Subjects

Mathematics - Operator Algebras, Mathematics - Functional Analysis

Abstract

Let $T:E\rightarrow F$ be a non-necessarily continuous triple homomorphism from a (complex) JB$^*$-triple (respectively, a (real) J$^*$B-triple) to a normed Jordan triple. The following statements hold: (1) $T$ has closed range whenever $T$ is continuous (2) $T$ has closed range whenever $T$ is continuous This result generalises classical theorems of I. Kaplansky and S.B. Cleveland in the setting of C$^*$-algebras and of A. Bensebah and J.P\'erez, L. Rico and A. Rodr'\iguez Palacios in the setting of JB$^*$-algebras.

Published

2024

30. Automatic continuity of biorthogonality preservers between weakly compact JB$^*$-triples and atomic JBW$^*$-triples

Author

Burgos, María, Garcés, Jorge J., and Peralta, Antonio M.

Subjects

Mathematics - Operator Algebras, Mathematics - Functional Analysis

Abstract

We prove that every biorthogonality preserving linear surjection from a weakly compact JB$^*$triple containing no infinite dimensional rank-one summands onto another JB$^*$-triple is automatically continuous. We also show that every biorthogonality preserving linear surjection between atomic JBW$^*$triples containing no infinite dimensional rank-one summands is automatically continuous. Consequently, two atomic JBW$^*$-triples containing no rank-one summands are isomorphic if, and only if, there exists a (non necessarily continuous) biorthogonality preserving linear surjection between them.

Published

2024

31. Complete orthogonality preservers between C$^*$-algebras

Author

Garcés, Jorge J.

Subjects

Mathematics - Operator Algebras

Abstract

We introduce $n$-orthogonality (and completely orthogonality) preserving operators between C$^*$-algebras. Our main theorem states that every completely orthogonality preserving bounded linear mapping between C$^*$-algebras is a weighted TRO homomorphism. We also give several characterisations of TRO homomorphisms among triple homomorphisms.

Published

2024

32. Empirical Risk-aware Machine Learning on Trojan-Horse Detection for Trusted Quantum Key Distribution Networks

Author

Chou, Hong-fu, Vu, Thang X., Maity, Ilora, Garces-Socarras, Luis M., Gonzalez-Rios, Jorge L., Merlano-Duncan, Juan Carlos, Ma, Sean Longyu, Chatzinotas, Symeon, and Ottersten, Bjorn

Subjects

Quantum Physics

Abstract

Quantum key distribution (QKD) is a cryptographic technique that leverages principles of quantum mechanics to offer extremely high levels of data security during transmission. It is well acknowledged for its capacity to accomplish provable security. However, the existence of a gap between theoretical concepts and practical implementation has raised concerns about the trustworthiness of QKD networks. In order to mitigate this disparity, we propose the implementation of risk-aware machine learning techniques that present risk analysis for Trojan-horse attacks over the time-variant quantum channel. The trust condition presented in this study aims to evaluate the offline assessment of safety assurance by comparing the risk levels between the recommended safety borderline. This assessment is based on the risk analysis conducted. Furthermore, the proposed trustworthy QKD scenario demonstrates its numerical findings with the assistance of a state-of-the-art point-to-point QKD device, which operates over optical quantum channels spanning distances of 1m, 1km, and 30km. Based on the results from the experimental evaluation of a 30km optical connection, it can be concluded that the QKD device provided prior information to the proposed learner during the non-existence of Eve's attack. According to the optimal classifier, the defensive gate offered by our learner possesses the capability to identify any latent Eve attacks, hence effectively mitigating the risk of potential vulnerabilities. The Eve detection probability is provably bound for our trustworthy QKD scenario., Comment: 20 Pages, 14 figure, Journal

Published

2024

33. Harmony Search Based Metaheuristic for the Index Tracking Problem

Author

Ayón, Julián Antonio Díaz, de Lourdes Sandoval Solis, María, Velázquez, Rogelio González, Ruiz, Maya Carrillo, Garcés-Báez, Alfonso, Ghosh, Ashish, Editorial Board Member, Figueroa-García, Juan Carlos, editor, Hernández, German, editor, Suero Pérez, Diego Fernando, editor, and Gaona García, Elvis Eduardo, editor

Published

2025

34. From 3D to 5D tracking: SMX ASIC-based Double-Sided Micro-Strip detectors for comprehensive space, time, and energy measurements

Author

Teklishyn, M., Rodríguez, A. Rodríguez, Agarwal, K., Bajdel, M., Sánchez, L. M. Collazo, Frankenfeld, U., Heuser, J. M., Lehnert, J., Mehta, S., Garcés, D. Rodríguez, Zaldívar, D. A. Ramírez, Schmidt, C. J., Schmidt, H. R., and Toia, A.

Subjects

Physics - Instrumentation and Detectors, High Energy Physics - Experiment

Abstract

We present the recent development of a lightweight detector capable of accurate spatial, timing, and amplitude resolution of charged particles. The technology is based on double-sided double-metal p+\,--\,n\,--\,n+ micro-strip silicon sensors, ultra-light long aluminum-polyimide micro-cables for the analogue signal transfer, and a custom-developed SMX read-out ASIC capable of measurement of the time ($\Delta t \lesssim 5 \,\mathrm{ns}$) and amplitude. Dense detector integration enables a material budget $>0.3\,\% X_0$. A sophisticated powering and grounding scheme keeps the noise under control. In addition to its primary application in Silicon Tracking System of the future CBM experiment in Darmstadt, our detector will be utilized in other research applications., Comment: 9 pages, 7 figures, TWEPP 2023 proceedings

Published

2023

35. Approximate Multiagent Reinforcement Learning for On-Demand Urban Mobility Problem on a Large Map (extended version)

Author

Garces, Daniel, Bhattacharya, Sushmita, Bertsekas, Dimitri, and Gil, Stephanie

Subjects

Computer Science - Multiagent Systems, Computer Science - Artificial Intelligence, Computer Science - Robotics

Abstract

In this paper, we focus on the autonomous multiagent taxi routing problem for a large urban environment where the location and number of future ride requests are unknown a-priori, but can be estimated by an empirical distribution. Recent theory has shown that a rollout algorithm with a stable base policy produces a near-optimal stable policy. In the routing setting, a policy is stable if its execution keeps the number of outstanding requests uniformly bounded over time. Although, rollout-based approaches are well-suited for learning cooperative multiagent policies with considerations for future demand, applying such methods to a large urban environment can be computationally expensive due to the large number of taxis required for stability. In this paper, we aim to address the computational bottleneck of multiagent rollout by proposing an approximate multiagent rollout-based two phase algorithm that reduces computational costs, while still achieving a stable near-optimal policy. Our approach partitions the graph into sectors based on the predicted demand and the maximum number of taxis that can run sequentially given the user's computational resources. The algorithm then applies instantaneous assignment (IA) for re-balancing taxis across sectors and a sector-wide multiagent rollout algorithm that is executed in parallel for each sector. We provide two main theoretical results: 1) characterize the number of taxis $m$ that is sufficient for IA to be stable; 2) derive a necessary condition on $m$ to maintain stability for IA as time goes to infinity. Our numerical results show that our approach achieves stability for an $m$ that satisfies the theoretical conditions. We also empirically demonstrate that our proposed two phase algorithm has equivalent performance to the one-at-a-time rollout over the entire map, but with significantly lower runtimes., Comment: 11 pages, 5 figures, 1 lemma, and 2 theorems

Published

2023

36. Genetic Algorithm-based Beamforming in Subarray Architectures for GEO Satellites

Author

Vásquez-Peralvo, Juan Andrés, Querol, Jorge, Lagunas, Eva, Ortiz, Flor, Garcés-Socarrás, Luis Manuel, González-Rios, Jorge Luis, Baeza, Victor Monzon, and Chatzinotas, Symeon

Subjects

Electrical Engineering and Systems Science - Systems and Control

Abstract

The incorporation of subarrays in Direct Radiating Arrays for satellite missions is fundamental in reducing the number of Radio Frequency chains, which correspondingly diminishes cost, power consumption, space, and mass. Despite the advantages, previous beamforming schemes incur significant losses during beam scanning, particularly when hybrid beamforming is not employed. Consequently, this paper introduces an algorithm capable of compensating for these losses by increasing the power, for this, the algorithm will activate radiating elements required to address a specific Effective Isotropic Radiated Power for a beam pattern over Earth, projected from a GeoStationary satellite. In addition to the aforementioned compensation, other beam parameters have been addressed in the algorithm, such as beamwidth and Side Lobe Levels. To achieve these objectives, we propose employing the array thinning concept through the use of genetic algorithms, which enable beam shaping with the desired characteristics and power. The full array design considers an open-ended waveguide, configured to operate in circular polarization within the Ka-band frequency range of 17.7-20.2 GHz.

Published

2023

37. Supervised Learning Based Real-Time Adaptive Beamforming On-board Multibeam Satellites

Author

Ortiz, Flor, Vasquez-Peralvo, Juan A., Querol, Jorge, Lagunas, Eva, Rios, Jorge L. Gonzalez, Mendonca, Marcele O. K., Garces, Luis, Baeza, Victor Monzon, and Chatzinotas, Symeon

Subjects

Electrical Engineering and Systems Science - Signal Processing

Abstract

Satellite communications (SatCom) are crucial for global connectivity, especially in the era of emerging technologies like 6G and narrowing the digital divide. Traditional SatCom systems struggle with efficient resource management due to static multibeam configurations, hindering quality of service (QoS) amidst dynamic traffic demands. This paper introduces an innovative solution - real-time adaptive beamforming on multibeam satellites with software-defined payloads in geostationary orbit (GEO). Utilizing a Direct Radiating Array (DRA) with circular polarization in the 17.7 - 20.2 GHz band, the paper outlines DRA design and a supervised learning-based algorithm for on-board beamforming. This adaptive approach not only meets precise beam projection needs but also dynamically adjusts beamwidth, minimizes sidelobe levels (SLL), and optimizes effective isotropic radiated power (EIRP)., Comment: conference paper

Published

2023

38. Bilinear maps on C$^*$-algebras that have product property at a compact element

Author

Garcés, Jorge J. and Khrypchenko, Mykola

Subjects

Mathematics - Operator Algebras, Mathematics - Functional Analysis, Primary: 15A86, 47B49, 47L05, secondary: 16W25, 46L57

Abstract

We study bounded bilinear maps on a C$^*$-algebra $A$ having product property at $c\in A$. This leads us to the question of when a C$^*$-algebra is determined by products at $c.$ In the first part of our paper, we investigate this question for compact C$^*$-algebras, and in the second part, we deal with von Neumann algebras having non-trivial atomic part. Our results are applicable to descriptions of homomorphism-like and derivation-like maps at a fixed point on such algebras., Comment: The manuscript has been revised according to the referee's suggestions and comments

Published

2023

39. Harnessing Supervised Learning for Adaptive Beamforming in Multibeam Satellite Systems

Author

Ortiz, Flor, Vasquez-Peralvo, Juan A., Querol, Jorge, Lagunas, Eva, Rios, Jorge L. Gonzalez, Garces, Luis, Monzon-Baeza, Victor, and Chatzinotas, Symeon

Subjects

Electrical Engineering and Systems Science - Systems and Control

Abstract

In today's ever-connected world, the demand for fast and widespread connectivity is insatiable, making multibeam satellite systems an indispensable pillar of modern telecommunications infrastructure. However, the evolving communication landscape necessitates a high degree of adaptability. This adaptability is particularly crucial for beamforming, as it enables the adjustment of peak throughput and beamwidth to meet fluctuating traffic demands by varying the beamwidth, side lobe level (SLL), and effective isotropic radiated power (EIRP). This paper introduces an innovative approach rooted in supervised learning to efficiently derive the requisite beamforming matrix, aligning it with system requirements. Significantly reducing computation time, this method is uniquely tailored for real-time adaptation, enhancing the agility and responsiveness of satellite multibeam systems. Exploiting the power of supervised learning, this research enables multibeam satellites to respond quickly and intelligently to changing communication needs, ultimately ensuring uninterrupted and optimized connectivity in a dynamic world., Comment: under review for conference

Published

2023

40. Adherence and toxicity during the treatment of latent tuberculous infection in a referral center in Spain

Author

Ortiz, Juan David Puyana, Rodriguez, Andrea Carolina Garces, Aznar, Maria Luisa, Pereiro, Juan Espinosa, Sanchez-Montalva, Adrian, Martinez-Camprecios, Joan, Saborit, Nuria, Rodrigo-Pendas, Jose Angel, Salgado, Guadalupe Garcia, Cortes, Claudia Broto, Delcor, Nuria Serre, Oliveira, Ines, Maruri, Begona Trevino, Ciruelo, Diana Pou, Salvador, Fernando, Bosch-Nicolau, Pau, Torrecilla-Martinez, Irene, Zules-Ona, Ricardo, Fernandez, Maria Teresa Tortola, and Molina, Israel

Published

2023

41. A tailored Handwritten-Text-Recognition System for Medieval Latin

Author

Koch, Philipp, Nuñez, Gilary Vera, Arias, Esteban Garces, Heumann, Christian, Schöffel, Matthias, Häberlin, Alexander, and Aßenmacher, Matthias

Subjects

Computer Science - Computer Vision and Pattern Recognition, Computer Science - Computation and Language, Computer Science - Computers and Society, Computer Science - Machine Learning, Statistics - Machine Learning

Abstract

The Bavarian Academy of Sciences and Humanities aims to digitize its Medieval Latin Dictionary. This dictionary entails record cards referring to lemmas in medieval Latin, a low-resource language. A crucial step of the digitization process is the Handwritten Text Recognition (HTR) of the handwritten lemmas found on these record cards. In our work, we introduce an end-to-end pipeline, tailored to the medieval Latin dictionary, for locating, extracting, and transcribing the lemmas. We employ two state-of-the-art (SOTA) image segmentation models to prepare the initial data set for the HTR task. Furthermore, we experiment with different transformer-based models and conduct a set of experiments to explore the capabilities of different combinations of vision encoders with a GPT-2 decoder. Additionally, we also apply extensive data augmentation resulting in a highly competitive model. The best-performing setup achieved a Character Error Rate (CER) of 0.015, which is even superior to the commercial Google Cloud Vision model, and shows more stable performance., Comment: This paper has been accepted at the First Workshop on Ancient Language Processing, co-located with RANLP 2023. This is the author's version of the work. The definite version of record will be published in the proceedings

Published

2023

42. Ethno-Cultural Identity Formation in Mapuche Youth Biographies : A Case Study from the Perspective of Colonial and Transgenerational Historical Trauma

Author

Garcés-Pérez, Gabriela, Sagner-Tapia, Johanna, and Muñoz, Ana María Alarcón

Published

2024

43. Satellite-based Quantum Network: Security and Challenges over Atmospheric Channel

Author

Chou, Hong-fu, Ha, Vu Nguyen, Al-Hraishawi, Hayder, Garces-Socarras, Luis Manuel, Gonzalez-Rios, Jorge Luis, Merlano-Duncan, Juan Carlos, and Chatzinotas, Symeon

Subjects

Quantum Physics, Computer Science - Cryptography and Security

Abstract

The ultra-secure quantum network leverages quantum cryptography to deliver unsurpassed data transfer security. In principle, the well-known quantum key distribution (QKD) achieves unconditional security, which raises concerns about the trustworthiness of 6G wireless systems in order to mitigate the gap between practice and theory. The long-distance satellite-to-ground evolving quantum network distributes keys that are ubiquitous to the node on the ground through low-orbit satellites. As the secret key sequence is encoded into quantum states, it is sent through the atmosphere via a quantum channel. It still requires more effort in the physical layer design of deployment ranges, transmission, and security to achieve high-quality quantum communication. In this paper, we first review the quantum states and channel properties for satellite-based quantum networks and long-range quantum state transfer (QST). Moreover, we highlight some challenges, such as transmissivity statistics, estimation of channel parameters and attack resilience, quantum state transfer for satellite-based quantum networks, and wavepacket shaping techniques over atmospheric channels. We underline two research directions that consider the QST and wavepacket shaping techniques for atmospheric transmission in order to encourage further research toward the next generation of satellite-based quantum networks., Comment: 6 pages, 1 figure, conference

Published

2023

44. The forking effect

Author

Şoiman, Florentina, Mourey, Mathis, Dumas, Jean-Guillaume, and Jimenez-Garces, Sonia

Subjects

Computer Science - Cryptography and Security

Abstract

This study introduces the concept of the forking effect in the cryptocurrency market,specifically focusing on the impact of forking events on bitcoin, also called parent coin.We use a modified exponential GARCH model to examine the bitcoin's response inreturns and volatility. Our findings reveal that forking events do not significantlyaffect the bitcoin's returns but have a strong positive impact on its volatility, especially when considering market dynamics. Our model accounts for key features likevolatility clustering and fat-tailed distributions. Additionally, we observe that following a fork event, volatility remains elevated for the next three days, regardless ofother forking events, and the volatility impact does not increase when multiple forksoccur simultaneously on the same day.

Published

2023

45. How Different Is Stereotypical Bias Across Languages?

Author

Öztürk, Ibrahim Tolga, Nedelchev, Rostislav, Heumann, Christian, Arias, Esteban Garces, Roger, Marius, Bischl, Bernd, and Aßenmacher, Matthias

Subjects

Computer Science - Computation and Language, Computer Science - Computers and Society, Computer Science - Machine Learning, Statistics - Machine Learning

Abstract

Recent studies have demonstrated how to assess the stereotypical bias in pre-trained English language models. In this work, we extend this branch of research in multiple different dimensions by systematically investigating (a) mono- and multilingual models of (b) different underlying architectures with respect to their bias in (c) multiple different languages. To that end, we make use of the English StereoSet data set (Nadeem et al., 2021), which we semi-automatically translate into German, French, Spanish, and Turkish. We find that it is of major importance to conduct this type of analysis in a multilingual setting, as our experiments show a much more nuanced picture as well as notable differences from the English-only analysis. The main takeaways from our analysis are that mGPT-2 (partly) shows surprising anti-stereotypical behavior across languages, English (monolingual) models exhibit the strongest bias, and the stereotypes reflected in the data set are least present in Turkish models. Finally, we release our codebase alongside the translated data sets and practical guidelines for the semi-automatic translation to encourage a further extension of our work to other languages., Comment: Accepted @ "3rd Workshop on Bias and Fairness in AI" (co-located with ECML PKDD 2023). This is the author's version of the work. The definite version of record will be published in the proceedings

Published

2023

46. Surge Routing: Event-informed Multiagent Reinforcement Learning for Autonomous Rideshare

Author

Garces, Daniel and Gil, Stephanie

Subjects

Computer Science - Artificial Intelligence, Computer Science - Multiagent Systems, Computer Science - Robotics

Abstract

Large events such as conferences, concerts and sports games, often cause surges in demand for ride services that are not captured in average demand patterns, posing unique challenges for routing algorithms. We propose a learning framework for an autonomous fleet of taxis that leverages event data from the internet to predict demand surges and generate cooperative routing policies. We achieve this through a combination of two major components: (i) a demand prediction framework that uses textual event information in the form of events' descriptions and reviews to predict event-driven demand surges over street intersections, and (ii) a scalable multiagent reinforcement learning framework that leverages demand predictions and uses one-agent-at-a-time rollout combined with limited sampling certainty equivalence to learn intersection-level routing policies. For our experimental results we consider real NYC ride share data for the year 2022 and information for more than 2000 events across 300 unique venues in Manhattan. We test our approach with a fleet of 100 taxis on a map with 2235 street intersections. Our experimental results demonstrate that our method learns routing policies that reduce wait time overhead per serviced request by 25% to 75%, while picking up 1% to 4% more requests than other model-based RL frameworks and classical methods in operations research., Comment: 10 pages, 7 figures, 4 tables, 23rd International Conference on Autonomous Agents and Multiagent Systems (AAMAS 2024)

Published

2023

47. NeuBTF: Neural fields for BTF encoding and transfer

Author

Rodriguez-Pardo, Carlos, Kazatzis, Konstantinos, Lopez-Moreno, Jorge, and Garces, Elena

Subjects

Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence, Computer Science - Graphics, Computer Science - Machine Learning, 68T07 (Primary) 68T45, 68U10, 68U05 (Secondary), I.4.0, I.2.6, I.3.0

Abstract

Neural material representations are becoming a popular way to represent materials for rendering. They are more expressive than analytic models and occupy less memory than tabulated BTFs. However, existing neural materials are immutable, meaning that their output for a certain query of UVs, camera, and light vector is fixed once they are trained. While this is practical when there is no need to edit the material, it can become very limiting when the fragment of the material used for training is too small or not tileable, which frequently happens when the material has been captured with a gonioreflectometer. In this paper, we propose a novel neural material representation which jointly tackles the problems of BTF compression, tiling, and extrapolation. At test time, our method uses a guidance image as input to condition the neural BTF to the structural features of this input image. Then, the neural BTF can be queried as a regular BTF using UVs, camera, and light vectors. Every component in our framework is purposefully designed to maximize BTF encoding quality at minimal parameter count and computational complexity, achieving competitive compression rates compared with previous work. We demonstrate the results of our method on a variety of synthetic and captured materials, showing its generality and capacity to learn to represent many optical properties., Comment: 9 pages, 7 figures. Accepted to Computers & Graphics (Special Section on CEIG 2023). Project Website: https://carlosrodriguezpardo.es/projects/NeuBTF/

Published

2023

48. ‘Desengañate …NO ERES BLANCO’: Identity Attribution and (Non) verification—A Case Study of Cross-Cultural Discursive Struggle

Author

Garcés-Conejos Blitvich, Pilar, Bou-Franch, Patricia, Garcés-Conejos Blitvich, Pilar, editor, and Bou-Franch, Patricia, editor

Published

2024

49. Introduction

Author

Bou-Franch, Patricia, Garcés-Conejos Blitvich, Pilar, Garcés-Conejos Blitvich, Pilar, editor, and Bou-Franch, Patricia, editor

Published

2024

50. Madeira Tourists Profile A Positive Psychology Approach

Author

Garcês, Soraia, Pocinho, Margarida, and de Jesus, Saúl Neves

Published

2024