Related papers: Materials Informatics: An Algorithmic Design Rule

Materials Informatics: An Algorithmic Design Rule

URL: http://arxiv.org/abs/2305.03797v1
Date: Fri, 5 May 2023 18:55:32 GMT
Title: Materials Informatics: An Algorithmic Design Rule
Authors: Bhupesh Bishnoi
Abstract summary: Materials informatics is a "fourth paradigm" in materials science research. We have researched the organic semiconductor's enigmas through the materials informatics approach.
Score: 0.0
License: http://creativecommons.org/licenses/by-nc-nd/4.0/
Abstract: Materials informatics, data-enabled investigation, is a "fourth paradigm" in materials science research after the conventional empirical approach, theoretical science, and computational research. Materials informatics has two essential ingredients: fingerprinting materials proprieties and the theory of statistical inference and learning. We have researched the organic semiconductor's enigmas through the materials informatics approach. By applying diverse neural network topologies, logical axiom, and inferencing information science, we have developed data-driven procedures for novel organic semiconductor discovery for the semiconductor industry and knowledge extraction for the materials science community. We have reviewed and corresponded with various algorithms for the neural network design topology for the materials informatics dataset.

Related papers

Ontology Embedding: A Survey of Methods, Applications and Resources [54.3453925775069]
Ontologies are widely used for representing domain knowledge and meta data. One straightforward solution is to integrate statistical analysis and machine learning. Numerous papers have been published on embedding, but a lack of systematic reviews hinders researchers from gaining a comprehensive understanding of this field.
arXiv Detail & Related papers (2024-06-16T14:49:19Z)
Construction and Application of Materials Knowledge Graph in Multidisciplinary Materials Science via Large Language Model [16.030268397865264]
This article introduces the Materials Knowledge Graph (MKG), which utilizes advanced natural language processing techniques. MKG categorizes information into comprehensive labels such as Name, Formula, and Application, structured around a meticulously designed ontology. By implementing network-based algorithms, MKG not only facilitates efficient link prediction but also significantly reduces reliance on traditional experimental methods.
arXiv Detail & Related papers (2024-04-03T21:46:14Z)
Agent-based Learning of Materials Datasets from Scientific Literature [0.0]
We develop a chemist AI agent, powered by large language models (LLMs), to create structured datasets from natural language text. Our chemist AI agent, Eunomia, can plan and execute actions by leveraging the existing knowledge from decades of scientific research articles.
arXiv Detail & Related papers (2023-12-18T20:29:58Z)
Symmetry-Informed Geometric Representation for Molecules, Proteins, and Crystalline Materials [66.14337835284628]
We propose a platform, coined Geom3D, which enables benchmarking the effectiveness of geometric strategies. Geom3D contains 16 advanced symmetry-informed geometric representation models and 14 geometric pretraining methods over 46 diverse datasets.
arXiv Detail & Related papers (2023-06-15T05:37:25Z)
Interdisciplinary Discovery of Nanomaterials Based on Convolutional Neural Networks [6.350788459498522]
We use CNN to discover valuable experimental-based information about nanomaterials and synthesis methods in energy-material-related publications. Our first system, TextMaster, extracts opinions from texts and classifies them into challenges and opportunities, achieving 94% and 92% accuracy, respectively. Our second system, GraphMaster, realizes data extraction of tables and figures from publications with 98.3% classification accuracy and 4.3% data extraction mean square error.
arXiv Detail & Related papers (2022-12-06T07:51:51Z)
Towards Data-and Knowledge-Driven Artificial Intelligence: A Survey on Neuro-Symbolic Computing [73.0977635031713]
Neural-symbolic computing (NeSy) has been an active research area of Artificial Intelligence (AI) for many years. NeSy shows promise of reconciling the advantages of reasoning and interpretability of symbolic representation and robust learning in neural networks.
arXiv Detail & Related papers (2022-10-28T04:38:10Z)
Artificial Intelligence in Concrete Materials: A Scientometric View [77.34726150561087]
This chapter aims to uncover the main research interests and knowledge structure of the existing literature on AI for concrete materials. To begin with, a total of 389 journal articles published from 1990 to 2020 were retrieved from the Web of Science. Scientometric tools such as keyword co-occurrence analysis and documentation co-citation analysis were adopted to quantify features and characteristics of the research field.
arXiv Detail & Related papers (2022-09-17T18:24:56Z)
Graph neural networks for materials science and chemistry [2.2479652717640657]
Graph neural networks (GNNs) are one of the fastest growing classes of machine learning models. GNNs directly work on a graph or structural representation of molecules and materials. This review article provides an overview of the basic principles of GNNs, widely used datasets, and state-of-the-art architectures.
arXiv Detail & Related papers (2022-08-05T13:38:34Z)
Neuro-Symbolic Learning of Answer Set Programs from Raw Data [54.56905063752427]
Neuro-Symbolic AI aims to combine interpretability of symbolic techniques with the ability of deep learning to learn from raw data. We introduce Neuro-Symbolic Inductive Learner (NSIL), an approach that trains a general neural network to extract latent concepts from raw data. NSIL learns expressive knowledge, solves computationally complex problems, and achieves state-of-the-art performance in terms of accuracy and data efficiency.
arXiv Detail & Related papers (2022-05-25T12:41:59Z)
MaterialsAtlas.org: A Materials Informatics Web App Platform for Materials Discovery and Survey of State-of-the-Art [5.570892106881502]
We propose and develop MaterialsAtlas.org, a web based materials informatics toolbox for materials discovery. These user-friendly tools can be freely accessed at urlwww.materialsatlas.org.
arXiv Detail & Related papers (2021-09-09T03:08:18Z)
Machine Learning in Nano-Scale Biomedical Engineering [77.75587007080894]
We review the existing research regarding the use of machine learning in nano-scale biomedical engineering. The main challenges that can be formulated as ML problems are classified into the three main categories. For each of the presented methodologies, special emphasis is given to its principles, applications, and limitations.
arXiv Detail & Related papers (2020-08-05T15:45:54Z)

This list is automatically generated from the titles and abstracts of the papers in this site.