Knowledge Discovery

Time: Wednesday May 22, 2024 11:00-12:30 Australian Eastern Standard Time

Speaker Title Time Abstract Material
Yihan Tao Greetings and Introduction 5'   pdf
Alberto Accomazzi BiblioPile: Building a Dataset to Support AI-enabled Bibliography Curation efforts 15'+5' A well-established way to assess the scientific impact of an observational facility in astronomy is the quantitative analysis of the studies published in the literature which have made use of the data taken by the facility. A requirement of such analysis is the creation of bibliographies which annotate and link data products with the literature, thus providing a way to use bibliometrics as an impact measure for the underlying data. An automated assistant able to emulate some of the associated activities would provide a valuable contribution to the human effort involved. LLMs have shown flexibility in interpreting and classifying scientific articles which are the basis for this curation activity. They have also been successfully used for information extraction tasks, which would help identify the specific datasets mentioned in the papers. In this talk I will describe our effort to create the BiblioPile, a contributed dataset consisting of open access fulltext papers and annotated bibliography from institutions that maintain them in order to help train AI/ML bibliographic annotation pipelines. pdf
Yan Shao Generative Named Entity Normalization for Astronomical Facilities 15'+5' Named entity normalization for astronomical facilities is crucial in the related academic research. Unlike the majority of the previous work, we model named entity normalization as a sequence generation problem via utilizing large language models, without assuming a comprehensive set of predefined normalized forms for any entities. Four entity normalization scenarios that are likely to occur in real-world application are discussed specifically, depending on whether the explicit normalization rules as well as the corresponding annotated instances are available. Moreover, we propose respective generative normalization methods and evaluate on datasets compiled from the standard telescope name lists maintained by the American Astronomical Society (AAS) and the Astrophysics Data System (ADS). The empirical findings demonstrate that the analytical, inductive, and generative capabilities of LLMs empower generative entity normalization to achieve commendable performances, even under very stringent conditions. The generative normalization effectively remedies the shortcomings of the retrieval-based methods. pdf
Kai Polsterer Spherinator & HIPSter & Jasmine 15'+5' Simulations are the best, and often the only, approximation to experimental laboratories in Astrophysics. However, the complexity and richness of their outputs severely limits the interpretability of their predictions. We describe a new conceptual approach to obtaining useful scientific insights from a broad range of astrophysical simulations. These methods can be applied to state-of-the-art simulations and will be essential to automate the data exploration and analysis of the next-generation exascale simulations and the extreme data challenges they will present. Our concept is based on applying the latest advances in unsupervised deep learning algorithms to efficiently represent the multidimensional datasets produced by Astrophysics simulations and to learn compact but accurate representations of the data in a low-dimensional manifold that naturally describes the data in an optimal feature space. The data can seemingly be projected onto this latent space for interactive inspection, visual interpretation, and quantitative analysis, including the option of deriving symbolic expressions to build interpretable models. We present a working prototype of the pipeline using an autoencoder trained on galaxy images from SDSS (or equivalently simulated galaxies) as well as the Illustris simulations, to produce a natural "Hubble tuning fork" similarity space that can be visualized interactively on the surface of a sphere by exploiting the power of HiPS tilings in AladinLite. Besides Spherinator and HIPSter to do this spherical projections, we are working on Jasmine a tool to explore the rich data from simulations in detail.
pdf
Panel + audience
(Yihan Tao, Kai Polsterer, Rafael Martinez Galarza, Alberto Accomazzi)
Panel-led discussion 25' Seeding topics for discussion

1. How can state-of-the-art AI technologies, such as LLMs, fundation models and agents enhance the VO?

2. What are the potential applications of these AI technologies within the VO framework?

3. What are the best practices and strategies for integrating AI agents and models with VO tools and science platforms that can help user efficiently access to and analyse astronomical data? What are the challenges?

 
Moderator: Raffaele D'Abrusco, Notetaker: TBD, Etherpad link

Topic attachments
I Attachment History Action Size Date Who Comment
PDFpdf 2024_IVOA_KDIG_Polsterer.pdf r1 manage 69723.7 K 2024-05-22 - 00:03 KaiLarsPolsterer 2024 IVOA KDIG Kai Polsterer, Spherinator,HIPSter,Jasmine
PDFpdf Generative_Named_Entity_Normalization.pdf r1 manage 1691.9 K 2024-05-21 - 12:57 RaffaeleDAbrusco  
PDFpdf KD_Session_Intro.pdf r1 manage 875.5 K 2024-05-21 - 23:33 YihanTao  
PDFpdf TheAstroBibPile_Accomazzi.pdf r1 manage 2031.8 K 2024-05-21 - 23:05 YihanTao  
Edit | Attach | Watch | Print version | History: r3 < r2 < r1 | Backlinks | Raw View | Raw edit | More topic actions
Topic revision: r3 - 2024-05-22 - KaiLarsPolsterer
 
This site is powered by the TWiki collaboration platform Powered by Perl This site is powered by the TWiki collaboration platformCopyright © 2008-2024 by the contributing authors. All material on this collaboration platform is the property of the contributing authors.
Ideas, requests, problems regarding TWiki? Send feedback