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16,742 results on '"Moosavi A"'

1. Prediction of Final Phosphorus Content of Steel in a Scrap-Based Electric Arc Furnace Using Artificial Neural Networks

Author

Azzaz, Riadh, Hurel, Valentin, Menard, Patrice, Jahazi, Mohammad, Kahou, Samira Ebrahimi, and Moosavi-Khoonsari, Elmira

Subjects
Computer Science - Machine Learning, Condensed Matter - Materials Science
Abstract

The scrap-based electric arc furnace process is expected to capture a significant share of the steel market in the future due to its potential for reducing environmental impacts through steel recycling. However, managing impurities, particularly phosphorus, remains a challenge. This study aims to develop a machine learning model to estimate the steel phosphorus content at the end of the process based on input parameters. Data were collected over two years from a steel plant, focusing on the chemical composition and weight of the scrap, the volume of oxygen injected, and process duration. After preprocessing the data, several machine learning models were evaluated, with the artificial neural network (ANN) emerging as the most effective. The best ANN model included four hidden layers. The model was trained for 500 epochs with a batch size of 50. The best model achieves a mean square error (MSE) of 0.000016, a root-mean-square error (RMSE) of 0.0049998, a coefficient of determination (R2) of 99.96%, and a correlation coefficient (r) of 99.98%. Notably, the model achieved a 100% hit rate for predicting phosphorus content within +-0.001 wt% (+-10 ppm). These results demonstrate that the optimized ANN model offers accurate predictions for the steel final phosphorus content., Comment: 53 pages, 8 figures

Published
2024

2. Rolling the DICE on Idiomaticity: How LLMs Fail to Grasp Context

Author

Mi, Maggie, Villavicencio, Aline, and Moosavi, Nafise Sadat

Subjects
Computer Science - Computation and Language
Abstract

Human processing of idioms relies on understanding the contextual sentences in which idioms occur, as well as language-intrinsic features such as frequency and speaker-intrinsic factors like familiarity. While LLMs have shown high performance on idiomaticity detection tasks, this success may be attributed to reasoning shortcuts in existing datasets. To this end, we construct a novel, controlled contrastive dataset designed to test whether LLMs can effectively use context to disambiguate idiomatic meaning. Additionally, we explore how collocational frequency and sentence probability influence model performance. Our findings reveal that LLMs often fail to resolve idiomaticity when it is required to attend to the surrounding context, and that models perform better on sentences that have higher likelihood. The collocational frequency of expressions also impacts performance. We make our code and dataset publicly available.

Published
2024

3. Geometric Inductive Biases of Deep Networks: The Role of Data and Architecture

Author

Movahedi, Sajad, Orvieto, Antonio, and Moosavi-Dezfooli, Seyed-Mohsen

Subjects
Computer Science - Machine Learning
Abstract

In this paper, we propose the $\textit{geometric invariance hypothesis (GIH)}$, which argues that when training a neural network, the input space curvature remains invariant under transformation in certain directions determined by its architecture. Starting with a simple non-linear binary classification problem residing on a plane in a high dimensional space, we observe that while an MLP can solve this problem regardless of the orientation of the plane, this is not the case for a ResNet. Motivated by this example, we define two maps that provide a compact $\textit{architecture-dependent}$ summary of the input space geometry of a neural network and its evolution during training, which we dub the $\textbf{average geometry}$ and $\textbf{average geometry evolution}$, respectively. By investigating average geometry evolution at initialization, we discover that the geometry of a neural network evolves according to the projection of data covariance onto average geometry. As a result, in cases where the average geometry is low-rank (such as in a ResNet), the geometry only changes in a subset of the input space. This causes an architecture-dependent invariance property in input-space curvature, which we dub GIH. Finally, we present extensive experimental results to observe the consequences of GIH and how it relates to generalization in neural networks.

Published
2024

4. An Introduction to Reinforcement Learning: Fundamental Concepts and Practical Applications

Author

Ghasemi, Majid, Moosavi, Amir Hossein, Sorkhoh, Ibrahim, Agrawal, Anjali, Alzhouri, Fadi, and Ebrahimi, Dariush

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

Reinforcement Learning (RL) is a branch of Artificial Intelligence (AI) which focuses on training agents to make decisions by interacting with their environment to maximize cumulative rewards. An overview of RL is provided in this paper, which discusses its core concepts, methodologies, recent trends, and resources for learning. We provide a detailed explanation of key components of RL such as states, actions, policies, and reward signals so that the reader can build a foundational understanding. The paper also provides examples of various RL algorithms, including model-free and model-based methods. In addition, RL algorithms are introduced and resources for learning and implementing them are provided, such as books, courses, and online communities. This paper demystifies a comprehensive yet simple introduction for beginners by offering a structured and clear pathway for acquiring and implementing real-time techniques.

Published
2024

5. Perfect Wave Transfer in Continuous Quantum Systems

Author

Moosavi, Per, Christandl, Matthias, Graf, Gian Michele, and Sotiriadis, Spyros

Subjects
Quantum Physics, Condensed Matter - Statistical Mechanics, High Energy Physics - Theory, Mathematical Physics
Abstract

We study the perfect transfer of information in 1+1D continuous quantum systems. This includes effective descriptions of inhomogeneous spin chains, for which the notion of perfect state transfer in quantum information was introduced, and here phrased in terms of waves. We show that reflection symmetry is necessary for perfect wave transfer (PWT) in any inhomogeneous conformal field theory, and even sufficient when restricted to one-particle excitations. To determine if or when it is sufficient more generally, we first break conformal invariance and study a broad class of 1+1D bosonic theories. We show that the question can then be posed as an inverse Sturm-Liouville problem that determines when the bosonic theory exhibits PWT. We demonstrate how to uniquely solve this problem, which also shows that reflection symmetry is sufficient for the special case with conformal invariance. Using bosonization, our continuum results extend these notions to interacting quantum field theories., Comment: 7 pages + SM, RevTeX, 2 figures

Published
2024

6. Automated Sperm Morphology Analysis Based on Instance-Aware Part Segmentation

Author

Chen, Wenyuan, Song, Haocong, Dai, Changsheng, Jiang, Aojun, Shan, Guanqiao, Liu, Hang, Zhou, Yanlong, Abdalla, Khaled, Dhanani, Shivani N, Moosavi, Katy Fatemeh, Pathak, Shruti, Librach, Clifford, Zhang, Zhuoran, and Sun, Yu

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Traditional sperm morphology analysis is based on tedious manual annotation. Automated morphology analysis of a high number of sperm requires accurate segmentation of each sperm part and quantitative morphology evaluation. State-of-the-art instance-aware part segmentation networks follow a "detect-then-segment" paradigm. However, due to sperm's slim shape, their segmentation suffers from large context loss and feature distortion due to bounding box cropping and resizing during ROI Align. Moreover, morphology measurement of sperm tail is demanding because of the long and curved shape and its uneven width. This paper presents automated techniques to measure sperm morphology parameters automatically and quantitatively. A novel attention-based instance-aware part segmentation network is designed to reconstruct lost contexts outside bounding boxes and to fix distorted features, by refining preliminary segmented masks through merging features extracted by feature pyramid network. An automated centerline-based tail morphology measurement method is also proposed, in which an outlier filtering method and endpoint detection algorithm are designed to accurately reconstruct tail endpoints. Experimental results demonstrate that the proposed network outperformed the state-of-the-art top-down RP-R-CNN by 9.2% [AP]_vol^p, and the proposed automated tail morphology measurement method achieved high measurement accuracies of 95.34%,96.39%,91.2% for length, width and curvature, respectively., Comment: Accepted to ICRA 2024

Published
2024

7. Entanglement dynamics of a two-qutrits system coupled to a spin chain

Author

Khansari, Seyed Mohsen Moosavi and Hasanvand, Fazlollah Kazemi

Subjects
Quantum Physics
Abstract

In this paper, we investigate the entanglement dynamics of a two qutrits system interacting with a spin environment. Using negativity as the entanglement measure, we study the entanglement dynamics of the system. The calculations show that in cases where the entanglement decays quickly, the environment will have a quantum phase transition., Comment: 10 pages, 9 figures

Published
2024

8. Quantum Hall Edges Beyond the Plasma Analogy

Author

Moosavi, Per, Oblak, Blagoje, Lapierre, Bastien, Estienne, Benoit, and Stéphan, Jean-Marie

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Statistical Mechanics, Mathematical Physics
Abstract

We demonstrate that the plasma analogy is generally unreliable at predicting the edge properties of quantum Hall (QH) states, as it fails to account for the local edge velocity. This discrepancy arises from a fundamental difference between QH droplets and Coulomb gases (CGs): the former are incompressible liquids subject to area-preserving deformations, while the latter are governed by electrostatics and thus involve conformal transformations. We illustrate this QH/CG mismatch across various examples and show its impact on physical quantities, measurable in both solid-state samples and quantum simulators. Specifically, we discuss fluctuations of local observables and their connection to state-of-the-art microwave absorption experiments., Comment: 9 pages + SM, RevTeX, 6 figures

Published
2024

9. Analyzing negativity criterion in qubit-qutrit system located in external magnetic fields with the Dzyaloshinskii-Moriya interaction

Author

Khansari, Seyed Mohsen Moosavi and Hasanvand, Fazlollah Kazemi

Subjects
Quantum Physics
Abstract

This investigation delves into the intricate entanglement dynamics exhibited by qubit-qutrit systems when subjected to the intricate dynamics of both the XXX isotropic Heisenberg model and the anisotropic XYZ model. These models are enriched by the presence of Dzyaloshinskii-Moriya (DM) interactions and external magnetic fields, creating a complex interplay of quantum phenomena. The exploration commences by initializing the system in a superposition of spin-coherent states, setting the stage for a nuanced analysis of entanglement evolution over time. By employing the negativity metric as the pivotal criterion for assessing entanglement, we gain insights into the subtle relationships between DM interactions, external magnetic fields, and the entanglement dynamics within this composite system. Through this comprehensive investigation, we aim to unravel the intricate dynamics and behaviors that emerge from the interplay of these fundamental elements, shedding light on the underlying principles governing quantum entanglement in this context., Comment: 10 pages, 3 figures, The original file is in LaTeX format

Published
2024

10. Investigating the evolution of quantum entanglement of a qubit-qubit system with Dzyaloshinskii-Moriya interaction in the presence of magnetic fields

Author

Khansari, Seyed Mohsen Moosavi and Hasanvand, Fazlollah Kazemi

Subjects
Quantum Physics
Abstract

In this paper, the quantum entanglement dynamics of a qubit qubit compound system in the isotropic XXX Heisenberg and anisotropic XYZ models with DM interaction under magnetic fields is investigated. The system's initial state is considered as a spin coherence state, and the entanglement dynamics of this compound system is analyzed using the negativity criterion as an entanglement measure to assess the impact of DM interaction and magnetic fields., Comment: 16 pages,5 figures, The original file is in LaTeX format

Published
2024

11. How to Leverage Digit Embeddings to Represent Numbers?

Author

Sivakumar, Jasivan Alex and Moosavi, Nafise Sadat

Subjects
Computer Science - Computation and Language
Abstract

Apart from performing arithmetic operations, understanding numbers themselves is still a challenge for existing language models. Simple generalisations, such as solving 100+200 instead of 1+2, can substantially affect model performance (Sivakumar and Moosavi, 2023). Among various techniques, character-level embeddings of numbers have emerged as a promising approach to improve number representation. However, this method has limitations as it leaves the task of aggregating digit representations to the model, which lacks direct supervision for this process. In this paper, we explore the use of mathematical priors to compute aggregated digit embeddings and explicitly incorporate these aggregates into transformer models. This can be achieved either by adding a special token to the input embeddings or by introducing an additional loss function to enhance correct predictions. We evaluate the effectiveness of incorporating this explicit aggregation, analysing its strengths and shortcomings, and discuss future directions to better benefit from this approach. Our methods, while simple, are compatible with any pretrained model and require only a few lines of code, which we have made publicly available.

Published
2024

12. Recent Advances in Traffic Accident Analysis and Prediction: A Comprehensive Review of Machine Learning Techniques

Author

Behboudi, Noushin, Moosavi, Sobhan, and Ramnath, Rajiv

Subjects
Computer Science - Machine Learning
Abstract

Traffic accidents pose a severe global public health issue, leading to 1.19 million fatalities annually, with the greatest impact on individuals aged 5 to 29 years old. This paper addresses the critical need for advanced predictive methods in road safety by conducting a comprehensive review of recent advancements in applying machine learning (ML) techniques to traffic accident analysis and prediction. It examines 191 studies from the last five years, focusing on predicting accident risk, frequency, severity, duration, as well as general statistical analysis of accident data. To our knowledge, this study is the first to provide such a comprehensive review, covering the state-of-the-art across a wide range of domains related to accident analysis and prediction. The review highlights the effectiveness of integrating diverse data sources and advanced ML techniques to improve prediction accuracy and handle the complexities of traffic data. By mapping the current landscape and identifying gaps in the literature, this study aims to guide future research towards significantly reducing traffic-related deaths and injuries by 2030, aligning with the World Health Organization (WHO) targets., Comment: A review paper, 26 pages

Published
2024

13. A holistic platform for accelerating sorbent-based carbon capture

Author

Charalambous, Charithea, Moubarak, Elias, Schilling, Johannes, Sanchez Fernandez, Eva, Wang, Jin-Yu, Herraiz, Laura, Mcilwaine, Fergus, Peh, Shing Bo, Garvin, Matthew, Jablonka, Kevin Maik, Moosavi, Seyed Mohamad, Van Herck, Joren, Ozturk, Aysu Yurdusen, Pourghaderi, Alireza, Song, Ah-Young, Mouchaham, Georges, Serre, Christian, Reimer, Jeffrey A, Bardow, André, Smit, Berend, and Garcia, Susana

Subjects
Built Environment and Design, Environmental Management, Environmental Sciences, Generic health relevance, Climate Action, General Science & Technology
Abstract

Reducing carbon dioxide (CO2) emissions urgently requires the large-scale deployment of carbon-capture technologies. These technologies must separate CO2 from various sources and deliver it to different sinks1,2. The quest for optimal solutions for specific source-sink pairs is a complex, multi-objective challenge involving multiple stakeholders and depends on social, economic and regional contexts. Currently, research follows a sequential approach: chemists focus on materials design3 and engineers on optimizing processes4,5, which are then operated at a scale that impacts the economy and the environment. Assessing these impacts, such as the greenhouse gas emissions over the plant's lifetime, is typically one of the final steps6. Here we introduce the PrISMa (Process-Informed design of tailor-made Sorbent Materials) platform, which integrates materials, process design, techno-economics and life-cycle assessment. We compare more than 60 case studies capturing CO2 from various sources in 5 global regions using different technologies. The platform simultaneously informs various stakeholders about the cost-effectiveness of technologies, process configurations and locations, reveals the molecular characteristics of the top-performing sorbents, and provides insights on environmental impacts, co-benefits and trade-offs. By uniting stakeholders at an early research stage, PrISMa accelerates carbon-capture technology development during this critical period as we aim for a net-zero world.

Published
2024

14. Federated Learning with Multi-resolution Model Broadcast

Author

Rydén, Henrik, Moosavi, Reza, and Larsson, Erik G.

Subjects
Computer Science - Networking and Internet Architecture, Computer Science - Machine Learning
Abstract

In federated learning, a server must periodically broadcast a model to the agents. We propose to use multi-resolution coding and modulation (also known as non-uniform modulation) for this purpose. In the simplest instance, broadcast transmission is used, whereby all agents are targeted with one and the same transmission (typically without any particular favored beam direction), which is coded using multi-resolution coding/modulation. This enables high-SNR agents, with high path gains to the server, to receive a more accurate model than the low-SNR agents do, without consuming more downlink resources. As one implementation, we use transmission with a non-uniform 8-PSK constellation, where a high-SNR receiver (agent) can separate all 8 constellation points (hence receive 3 bits) whereas a low-SNR receiver can only separate 4 points (hence receive 2 bits). By encoding the least significant information in the third bit, the high-SNR receivers can obtain the model with higher accuracy, while the low-SNR receiver can still obtain the model although with reduced accuracy, thereby facilitating at least some basic participation of the low-SNR receiver. We show the effectiveness of our proposed scheme via experimentation using federated learning with the MNIST data-set.

Published
2024

15. Quantum entanglement dynamics of the three-qubit W_zeta quantum state coupled to spin chain with ternary interaction

Author

Khansari, Seyed Mohsen Moosavi and Hasanvand, Fazlollah Kazemi

Subjects
Quantum Physics
Abstract

In this study, we explore the dynamics of quantum entanglement using the negativity criterion for the W_zeta quantum state. We investigate changes in negativity in terms of anisotropy parameters, gamma, the strength of the external magnetic field applied to the spin chain, eta, the triple interaction strength, alpha. We examine how these parameters affect the entanglement properties of the system and discuss the implications for quantum information processing and quantum communication protocols. By analyzing the negativity of the W_zeta state under different conditions, we gain insights into the behaviour of entanglement in complex quantum systems. Our results shed light on the intricate interplay between various factors that influence quantum entanglement and provide a foundation for further investigations in this field of research., Comment: 14 pages, 9 figures

Published
2024

16. Quantum entanglement dynamics in a three-qubit system interacting with a spin chain

Author

Khansari, Seyed Mohsen Moosavi and Hasanvand, Fazlollah Kazemi

Subjects
Quantum Physics
Abstract

In this article, we investigate the entanglement evolution of three-qubit states in the presence of a spin chain environment. Utilizing negativity as a metric for entanglement assessment, we focus on the GHZ, W, and W_zeta quantum states as the initial system states. We explore and analyze the entanglement dynamics of these states based on various parameters., Comment: 18 pages, 10 figures

Published
2024

17. Certified Human Trajectory Prediction

Author

Bahari, Mohammadhossein, Saadatnejad, Saeed, Farsangi, Amirhossein Asgari, Moosavi-Dezfooli, Seyed-Mohsen, and Alahi, Alexandre

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

Trajectory prediction plays an essential role in autonomous vehicles. While numerous strategies have been developed to enhance the robustness of trajectory prediction models, these methods are predominantly heuristic and do not offer guaranteed robustness against adversarial attacks and noisy observations. In this work, we propose a certification approach tailored for the task of trajectory prediction. To this end, we address the inherent challenges associated with trajectory prediction, including unbounded outputs, and mutli-modality, resulting in a model that provides guaranteed robustness. Furthermore, we integrate a denoiser into our method to further improve the performance. Through comprehensive evaluations, we demonstrate the effectiveness of the proposed technique across various baselines and using standard trajectory prediction datasets. The code will be made available online: https://s-attack.github.io/

Published
2024

18. Monitoring the Seismic Behavior of a Scaled RC Frame with Intermediate Ductility in a Shaking Table Test

Author

Vasef, Mohammad, Marefat, Mohammad Sadegh, Shid-Moosavi, Sina, and Sun, Peng "Patrick"

Subjects
Computer Science - Computational Engineering, Finance, and Science
Abstract

One of the commonly used seismic force-resisting systems in structures is Reinforced Concrete (RC) Intermediate Moment Frames (IMF). Although using the IMF is not allowed in high seismic hazard zones according to ASCE 7-10, it is permitted in both Iran's 2800 Seismic Standard and New Zealand's Seismic Code. This study investigates the seismic behavior of a reinforced concrete IMF subjected to earthquake excitations using shaking table tests on a 2D RC structural model which is designed under the regulations of ACI318-19. The scale factor of 1/2.78 is selected for the frame fabrication due to the size limit of the shaking table. The constructed model has three stories with a height as 115 cm for each story, the clear length of beams as 151 cm, and cross-sectional dimensions of columns and beams as 11 $\times$ 11 cm and 12 $\times$ 11 cm, respectively. The whole structure is supported by a foundation that is 173 cm long, 52 cm wide, and 22 cm deep. Columns and beams are reinforced with 8 mm diameter longitudinal ribbed bars and stirrups with 6 mm diameter. The tests are conducted in stages with increasing peak ground acceleration (PGA) till the failure of the frame. Sarpol-E-Zahab earthquake seismic record is adopted for the experiment. The structural responses (e.g., displacements, longitudinal bars' strain, crack propagation, accelerations) are monitored during the test using both conventional sensors and vison-based sensors. As a comparative study, both conventional sensors and computer vision techniques are used to monitor the health state and to analyze the structural dynamics of the scaled RC frame structure., Comment: 8th World Conference on Structural Control and Monitoring (8WCSCM), Orlando, FL. (2022)

Published
2024

31. Online Distance Learners' Perceptions and Needs for Personalized Learning in English as a Foreign Language Courses

Author

Moosavi, Zeynab and DeWitt, Dorothy

Abstract

The rapid development of e-learning in higher education institutions has facilitated personalized learning pathways for learning to be relevant, catering to the individual learners' needs and expectations. In spite of the vast opportunities that e-learning offers, the online courses in distance language education in Iran failed to satisfactorily engage students. There is little effort to empower and give voice to students to improve instruction. Therefore, the aim of the study was to explore the needs and expectations of EFL students enrolled in online English courses at a distance learning institution. The study also examined the students' perceptions for a learner-centred approach, using personalized learning (PL) in their online English courses. A total of 200 students participated in the survey and five of them were invited to be interviewed. The study explored the issues in the existing online English courses, the students' expectations of an English course and their perceptions towards a PL approach for their online English courses. The results revealed the EFL students needed more support, multimedia learning resources, opportunities to practice speaking and listening, and a friendly communicative environment. The findings indicated that most students had positive perceptions on PL. The study suggested that distance education systems need to incorporate PL into online courses as a solution to address the students' learning needs.

Published
2023

32. Beyond Hate Speech: NLP's Challenges and Opportunities in Uncovering Dehumanizing Language

Author

Zhang, Hezhao, Harris, Lasana, and Moosavi, Nafise Sadat

Subjects
Computer Science - Computation and Language
Abstract

Dehumanization, characterized as a subtle yet harmful manifestation of hate speech, involves denying individuals of their human qualities and often results in violence against marginalized groups. Despite significant progress in Natural Language Processing across various domains, its application in detecting dehumanizing language is limited, largely due to the scarcity of publicly available annotated data for this domain. This paper evaluates the performance of cutting-edge NLP models, including GPT-4, GPT-3.5, and LLAMA-2, in identifying dehumanizing language. Our findings reveal that while these models demonstrate potential, achieving a 70\% accuracy rate in distinguishing dehumanizing language from broader hate speech, they also display biases. They are over-sensitive in classifying other forms of hate speech as dehumanization for a specific subset of target groups, while more frequently failing to identify clear cases of dehumanization for other target groups. Moreover, leveraging one of the best-performing models, we automatically annotated a larger dataset for training more accessible models. However, our findings indicate that these models currently do not meet the high-quality data generation threshold necessary for this task.

Published
2024

33. Decoding News Narratives: A Critical Analysis of Large Language Models in Framing Detection

Author

Pastorino, Valeria, Sivakumar, Jasivan A., and Moosavi, Nafise Sadat

Subjects
Computer Science - Computation and Language
Abstract

Previous studies on framing have relied on manual analysis or fine-tuning models with limited annotated datasets. However, pre-trained models, with their diverse training backgrounds, offer a promising alternative. This paper presents a comprehensive analysis of GPT-4, GPT-3.5 Turbo, and FLAN-T5 models in detecting framing in news headlines. We evaluated these models in various scenarios: zero-shot, few-shot with in-domain examples, cross-domain examples, and settings where models explain their predictions. Our results show that explainable predictions lead to more reliable outcomes. GPT-4 performed exceptionally well in few-shot settings but often misinterpreted emotional language as framing, highlighting a significant challenge. Additionally, the results suggest that consistent predictions across multiple models could help identify potential annotation inaccuracies in datasets. Finally, we propose a new small dataset for real-world evaluation on headlines from a diverse set of topics.

Published
2024

34. CrashFormer: A Multimodal Architecture to Predict the Risk of Crash

Author

Monsefi, Amin Karimi, Shiri, Pouya, Mohammadshirazi, Ahmad, Monsefi, Nastaran Karimi, Davies, Ron, Moosavi, Sobhan, and Ramnath, Rajiv

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

Reducing traffic accidents is a crucial global public safety concern. Accident prediction is key to improving traffic safety, enabling proactive measures to be taken before a crash occurs, and informing safety policies, regulations, and targeted interventions. Despite numerous studies on accident prediction over the past decades, many have limitations in terms of generalizability, reproducibility, or feasibility for practical use due to input data or problem formulation. To address existing shortcomings, we propose CrashFormer, a multi-modal architecture that utilizes comprehensive (but relatively easy to obtain) inputs such as the history of accidents, weather information, map images, and demographic information. The model predicts the future risk of accidents on a reasonably acceptable cadence (i.e., every six hours) for a geographical location of 5.161 square kilometers. CrashFormer is composed of five components: a sequential encoder to utilize historical accidents and weather data, an image encoder to use map imagery data, a raw data encoder to utilize demographic information, a feature fusion module for aggregating the encoded features, and a classifier that accepts the aggregated data and makes predictions accordingly. Results from extensive real-world experiments in 10 major US cities show that CrashFormer outperforms state-of-the-art sequential and non-sequential models by 1.8% in F1-score on average when using ``sparse'' input data., Comment: The paper is accepted In 1st ACM SIGSPATIAL International Workshop on Advances in Urban-AI (UrbanAI 23), November 13, 2023, Hamburg, Germany

Published
2024
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35. Valid causal inference with unobserved confounding in high-dimensional settings

Author

Moosavi, Niloofar, Gorbach, Tetiana, and de Luna, Xavier

Subjects
Statistics - Methodology, Statistics - Machine Learning, 62D20, 62D10
Abstract

Various methods have recently been proposed to estimate causal effects with confidence intervals that are uniformly valid over a set of data generating processes when high-dimensional nuisance models are estimated by post-model-selection or machine learning estimators. These methods typically require that all the confounders are observed to ensure identification of the effects. We contribute by showing how valid semiparametric inference can be obtained in the presence of unobserved confounders and high-dimensional nuisance models. We propose uncertainty intervals which allow for unobserved confounding, and show that the resulting inference is valid when the amount of unobserved confounding is small relative to the sample size; the latter is formalized in terms of convergence rates. Simulation experiments illustrate the finite sample properties of the proposed intervals and investigate an alternative procedure that improves the empirical coverage of the intervals when the amount of unobserved confounding is large. Finally, a case study on the effect of smoking during pregnancy on birth weight is used to illustrate the use of the methods introduced to perform a sensitivity analysis to unobserved confounding., Comment: 20 pages, 2 figures

Published
2024

36. Agent-based Learning of Materials Datasets from Scientific Literature

Author

Ansari, Mehrad and Moosavi, Seyed Mohamad

Subjects
Computer Science - Artificial Intelligence
Abstract

Advancements in machine learning and artificial intelligence are transforming materials discovery. Yet, the availability of structured experimental data remains a bottleneck. The vast corpus of scientific literature presents a valuable and rich resource of such data. However, manual dataset creation from these resources is challenging due to issues in maintaining quality and consistency, scalability limitations, and the risk of human error and bias. Therefore, in this work, we develop a chemist AI agent, powered by large language models (LLMs), to overcome these challenges by autonomously creating structured datasets from natural language text, ranging from sentences and paragraphs to extensive scientific research articles. Our chemist AI agent, Eunomia, can plan and execute actions by leveraging the existing knowledge from decades of scientific research articles, scientists, the Internet and other tools altogether. We benchmark the performance of our approach in three different information extraction tasks with various levels of complexity, including solid-state impurity doping, metal-organic framework (MOF) chemical formula, and property relations. Our results demonstrate that our zero-shot agent, with the appropriate tools, is capable of attaining performance that is either superior or comparable to the state-of-the-art fine-tuned materials information extraction methods. This approach simplifies compilation of machine learning-ready datasets for various materials discovery applications, and significantly ease the accessibility of advanced natural language processing tools for novice users in natural language. The methodology in this work is developed as an open-source software on https://github.com/AI4ChemS/Eunomia.

Published
2023

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