| Paper Title |
Page |
Authors |
| Science with Data Archives: Challenges in Multi-Wavelength and Time Domain Data Analysis |
| |
| ESASky: Unveiling the Universe Through Multi-Wavelength and Time Domain Exploration |
3 |
Deborah Baines; Bruno Merín; Marcos López-Caniego; Henrik Norman; Philip Matsson; Javier Espinosa; Elena Puga; Alexandros Marantos |
| Europe’s Revolutionary Sky Surveyors: Euclid and Gaia |
12 |
Jos de Bruijne; Bruno Altieri |
| Multi-Wavelength Archival Research: Where Are the Obstacles and How to Tackle Them? |
16 |
Igor Chilingarian; Kirill Grishin |
| Non-Negative Matrix Factorization Approach to Sky Subtraction for Optical Spectroscopy |
20 |
Fedor Kolganov; Igor Chilingarian; Kirill Grishin |
| 3D Visualisation of Radio Data in a Scientific Archive |
24 |
Ixaka Labadie-García; Lourdes Verdes-Montenegro; Julián Garrido |
| Exploring the Dark Side of the Universe: The Euclid Scientific Archive System |
28 |
Sara Nieto; Bruno Altieri; Marcos López-Caniego; Pilar de Teodoro; Joaquím Oliveira; Jorge Fernández; Tomás Alonso-Albi; Carlos Ríos; Pablo Pérez; Jos de Bruijne; Bruno Merín |
| Navigating ESA HST and JWST Science Archives Through Automated Jupyter Notebooks |
32 |
Javier Espinosa; María Arévalo; Marcos López-Caniego |
| SOFIA-GREAT Post-Operation Activities and Quality Measures for Heterodyne Data |
36 |
J. L. Verbena; C. Buchbender; R. Higgins |
| All Your Shapes in ADQL: MOCs in the TAP Ecosystem |
40 |
Markus Demleitner |
| Open Developments Towards VHE Multi-Messenger Astrophysics: the Open Library Gammapy with the Very-High-Energy Open Data Format |
44 |
C. Galelli; C. Boisson; B. Khélifi; M. Servillat; R. Terrier |
| Discover Your Astronomical Data From Python—Simply! |
48 |
R. Savalle; M. Demleitner; H. Heinl |
| Exploring the Journey Towards Scientific Knowledge Through One Year of Public Data at the European JWST Archive |
52 |
María Arévalo; Javier Espinosa; Marcos López-Caniego |
| Mapping VOTable Data on Data Models: Implementation Status and Prospect |
56 |
Laurent Michel; Julien Abid; François Bonnarel; Mark Cresitello-Dittmar; Somia Floret; Gille Landais; Mireille Louys; Gregory Mantelet; François-Xavier Pineau; Jesús Salgado |
| TOPCAT Corner Plot |
60 |
Mark Taylor |
| SKA Regional Centres Architecture: One Data Lake, Multiple Nodes |
64 |
Jesús Salgado; James Collinson; Rosie Bolton; Andreas Wicenec; Sharon Goliath; Rohini Joshi; John Swinbank; Brendan Webster; Raymond Oonk; Keith Grainge; Susana Sánchez-Expósito; Manuel Parra-Royón; Thomas Dack; Martin Hardcastle; Domingos Barbosa; Pablo Llopis-Sanmillán; Sébastien Fabbro; Robert Beswick; Jean-Pierre Vilotte; Shari Breen; Jeremy Yates; Yan Grange; Séverin Gaudet; Tao An; Andrea Possenti; Laura Darriba; Victor Holanda; Mariangeles Mendoza; Vicenzo Galluzzi; Thomas Svedberg; Karen Lee-Waddell; Dejan Vitlacil; Vishambhar Nath Pandey; Takuya Akahori; Louise Chisholm; Maya Horton; Robert Watson |
| The International Virtual Observatory Alliance in 2023 |
68 |
Christophe Arviset; Simon O’Toole; the IVOA Executive Committee and Technical Coordination Group |
| Prototyping Access From Visualisation Tools to SKA Science Images and Cubes Stored in a Rucio Data Lake Through IVOA Discovery and Access Services |
72 |
François Bonnarel; Jesús Salgado; Mark Allen; Rob Barnsley; Matthieu Baumann; Thomas Boch; Caroline Bot; Robert Butora; James Collinson; Pierre Fernique; Vincenzo Galluzzi; Rohini Joshi; Andrea Lorenzani; Marco Molinaro; Manuel Parra-Royón; Jesús Sánchez-Castañeda; Susana Sánchez-Expósito; Eva Sciacca; Giuseppe Tudisco; Fabio Vitello; Alessandra Zanichelli |
| SPARCL: SPectra Analysis and Retrievable Catalog Lab |
77 |
Stéphanie Juneau; Alice Jacques; Steve Pothier; Adam S. Bolton; Benjamin A. Weaver; Ragadeepika Pucha; Sean McManus; Robert Nikutta; Knut Olsen |
| Ground and Space Mission Operations Software |
| |
| Remote Observations with DISCOS and the Sardinia Radio Telescope |
83 |
Giuseppe Carboni; Antonietta Angela Rita Fara; Sergio Poppi; Carlo Migoni; Marco Buttu; Andrea Orlati; Matteo Fiorentini; Fabio Roberto Vitello; Marco Landoni |
| Automation of VLASS Quick Look Image Quality Assurance |
87 |
Trent Seelig; Sergio Garza; Aaron Lawson; Amy Kimball |
| SPOT: A Collaborative Framework for Planetary Science Operations Planning |
91 |
Javier Espinosa, Sara de la Fuente, Iñaki Ortiz, Fernando Félix-Redondo, Pablo Turrión, Juan de P |
| Updating Science Operations Planning Software for the Sudden Loss of Capacity in the HiRISE CCD Array |
95 |
Nicole Baugh; Christian Schaller; Guy McArthur; Kristin Block |
| The Online Observation Quality System Implementation for the ASTRI Mini-Array Project |
99 |
L. Castaldini; N. Parmiggiani; A. Bulgarelli; L. Baroncelli; V. Fioretti; A. Di Piano; I. Abu; M. Capalbi; O. Catalano; V. Conforti; M. Fiori; F. Gianotti; F. Lucarelli; M. C. Maccarone; T. Mineo; S. Lombardi; V. Pastore; F. Russo; P. Sangiorgi; S. Scuderi; G. Tosti; M. Trifoglio; L. Zampieri; the ASTRI Project |
| Best Practices for Developing High Quality Scientific Pipelines in the Framework of the ESA PLATO Mission |
103 |
David Keiderling; Aaron Birch; Cilia Damiani; Chen Jiang; René Heller; Nadiia Kostogryz; Ilyas Kuhlemann; Christoph Rauterberg; Aunia Samadi-Ghadim; Martin Schäfer; Valeriy Vasilyev; Matthias Ammler-von Eiff |
| Automated Anomaly Detection at Scale with the Cloud-Based Roman Data Monitoring Tool |
107 |
O. Justin Otor; Jesse Averbukh; Tyler Desjardins; John Wu; Jonathan Hargis |
| The Supervisory Control and Data Acquisition Software System for the ASTRI Mini-Array Project |
110 |
A. Bulgarelli; F. Lucarelli; G. Tosti; V. Conforti; N. Parmiggiani; J. H. Schwarz; I. Abu; J. G. Alvarez Gallardo; L. A. Antonelli; M. Araya; M. Balbo; C. Bigongiari; P. Bruno; M. Capalbi; M. Cardillo; A. Carosi; L. Castaldini; G. A. Rodriguez Castillo; O. Catalano; A. A. Compagnino; M. Corpora; A. Costa; S. Crestan; G. Cusumano; A. D’Aì; V. Fioretti; E. Fedorova; F. Fiordoliva; S. Gallozzi; S. Germani; F. Gianotti; V. Giordano; A. Giuliani; A. Grillo; I. Huerta; F. Incardona; S. Iovenitti; N. La Palombara; V. La Parola; M. Lodi; S. Lombardi; M. C. Maccarone; G. Malaspina; M. Mastropietro; R. Millul; T. Mineo; G. Montenegro; D. Mollica; K. Munari; A. Pagliaro; G. Pareschi; V. Pastore; M. Perri; F. Pintore; P. Romano; F. Russo; R. Z. Sanchez; P. Sangiorgi; F. G. Saturni; N. Sayes; E. Sciacca; V. Sliusar; S. Scuderi; A. Tacchini; V. Testa; M. Trifoglio; A. Tutone; S. Vercellone; F. Visconti; R. Walter; G. Zacharis |
| Building a Science-Driven Mission Planning Tool with JMARS |
114 |
Christian Schaller; Miguel Almeida; Nicole Baugh; Rodney Heyd; Guy McArthur; Matthew Read |
| New Generation of Proposal Handling System (PHS) for ESA Missions: Evolution of XMM-Newton Software |
118 |
Jose Antonio Quero Reina |
| Creating Spectral Cubes from NIRSpec MSA Slitlet Stepped Observations |
122 |
Jane E. Morrison; David R. Law; Celia Mulcahey; Ezra Sukay; Susan A. Kassin; Camilla Pacifici; Michael W. Regan; Mia Bovill; Nadia Dencheva; Benjamin Weiner; Christopher Willmer |
| The DRAO Solar Flux Monitoring Program: Nearly 80 Years of Staring Directly at the Sun |
126 |
D. A. Del Rizzo; A. D. Gray; K. F. Tapping; B. Robert; D. Lagoy; N. Bruce |
| User Experience for Astronomical Software |
| |
| User Experience and its Role in Astronomy Software Development |
133 |
Joe Masters |
| The Future of FITS and Other Standardized Astronomical Data Formats |
143 |
Jessica Mink; Preben Grosbøl; Rob Seaman |
| Beyond FITS Tiled Compression: EleFits’ On-The-Fly Adaptive Compression |
147 |
Edgar Remy; Antoine Basset |
| The Documentation Developer Experience: Documentation Engineering at the Vera C. Rubin Observatory |
151 |
Jonathan Sick; Frossie Economou |
| CLEAN Algorithm Implementation Comparisons Between Popular Software Packages |
155 |
Daniel Wright; Karel Adámek; Wesley Armour |
| A Dynamic GUI to Supercharge Your Scripts |
159 |
Peter Teuben,1 Anh Hoang Cao,1 Kylie Gong,1 and James Stone |
| AI in Astronomy |
| |
| AI in Astronomy |
165 |
Maggie Lieu |
| “You Might Also Like These Images”: Unsupervised Affine-Transformation-Independent Representation Learning for the ALMA Science Archive |
173 |
Felix Stoehr |
| Detection and Classification of Radio Sources with Deep Learning |
177 |
Simone Riggi; Thomas Cecconello; Ugo Becciani; F. Vitello |
| Developing an Efficient and Modular Large-Scale Machine Learning Pipeline to Classify Millions of NASA TESS Light Curves in Search of Variable Stars |
181 |
Jeroen Audenaert; Marc Hon; Rahul Jayaraman; Michelle Kunimoto; Andrew Tkachenko; Derek Buzasi; Mikkel Lund; George Ricker; The T’DA Collaboration |
| Experimenting with Large Language Models and Vector Embeddings in NASA SciX |
185 |
Sergi Blanco-Cuaresma; Ioana Ciuca; Alberto Accomazzi; Michael J. Kurtz; Edwin A. Henneken; Kelly E. Lockhart; Felix Grezes; Thomas Allen; Golnaz Shapurian; Carolyn S. Grant; Donna M. Thompson; Timothy W. Hostetler; Matthew R. Templeton; Shinyi Chen; Jennifer Koch; Taylor Jacovich; Daniel Chivvis; Fernanda de Macedo Alves; Jean-Claude Paquin; Jennifer Bartlett; Mugdha Polimera; Stephanie Jarmak |
| O-type Stars’ Stellar Parameter Estimation with ANN |
189 |
L.J. Corral; M. Flores; C. Fierro-Santillán; S.G. Navarro |
| Revealing Predictive Maintenance Strategies from Comprehensive Data Analysis of ASTRI-Horn Historical Monitoring Data |
193 |
Federico Incardona; Alessandro Costa; Giuseppe Leto; Kevin Munari; Giovanni Pareschi; Salvatore Scuderi; Gino Tosti; the ASTRI project |
| Automatic Classification of Evolved Objects from the GAIA DR2 and EDR3 Using Machine Learning Tools |
197 |
Silvana G. Navarro; Cynthia A. Martínez-Pinto; Rogelio Hernández; Minia Manteiga; Luis J. Corral |
| Spherinator and HiPSter: Representation Learning for Unbiased Knowledge Discovery from Simulations |
202 |
Kai L. Polsterer; Bernd Doser; Andreas Fehlner; Sebastian Trujillo-Gomez |
| Using a Convolutional Neural Network with All Sky Infrared Images to Classify Sky Regions as Clear or Cloudy |
206 |
Brock Taylor |
| Deep Unsupervised Domain Adaptation Applied to the Cherenkov Telescope Array Large-Sized Telescope |
210 |
Michaël Dell’aiera; Cyann Plard; Thomas Vuillaume; Alexandre Benoit; Sami Caroff |
| Radio Celestial Source Fringe Signals Detection Based on Transformer Self-Attention Mechanism |
214 |
Ruiqing Yan; Zongyao Yin; Xianchuan Yu |
| Deep Learning for AGILE Anticoincidence System’s Background Prediction from Orbital and Attitude Parameters |
218 |
N. Parmiggiani; A. Bulgarelli; A. Macaluso; A. Ursi; L. Castaldini; A. Di Piano; R. Falco; V. Fioretti; G. Panebianco; C. Pittori; M. Tavani |
| Quantum Convolutional Neural Networks for the Detection of Gamma-Ray Bursts in the AGILE Space Mission Data |
222 |
A. Rizzo; N. Parmiggiani; A. Bulgarelli; A. Macaluso; V. Fioretti; L. Castaldini; A. Di Piano; G. Panebianco; C. Pittori; M. Tavani; C. Sartori; C. Burigana; V. Cardone; F. Farsian; M. Meneghetti; G. Murante; R. Scaramella; F. Schillirò; V. Testa; T. Trombetti |
| ML and Next Steps in the DRAO Data Handling Pipelines |
226 |
Dustin Lagoy; Nicholas Bruce; David A. Del Rizzo; Stephen T. Harrison |
| A New Deep Learning Model for Gamma-Ray Bursts’ Light Curves Simulation |
230 |
R. Falco; N. Parmiggiani; A. Bulgarelli; G. Panebianco; L. Castaldini; A. Di Piano; V. Fioretti; M. Lombardi; C. Pittori; M. Tavani |
| Toward Using GANs in Astrophysical Monte-Carlo Simulations |
234 |
Ahab Isaac; Wesley Armour; Karel Adámek |
| GPU Implementations for Core Astronomical Libraries |
| |
| The Gaia AVU - GSR Parallel Solver: CUDA Solutions for Linear Systems Solving and Covariances Calculation Toward Exascale Infrastructures |
241 |
Valentina Cesare; Ugo Becciani; Alberto Vecchiato; Mario Gilberto Lattanzi; Fabio Pitari; Giuseppe Tudisco; Marco Aldinucci; Beatrice Bucciarelli |
| GPU Implementation in Radio Astronomy: a “Giant Leap” into the SKA Era |
245 |
E. De Rubeis; C. Gheller; G. Taffoni; L. Tornatore; G. Lacopo; D. Goz |
| Simulating Stellar Color-Magnitude Diagrams on the GPU |
249 |
László Dobos; Carrie Filion; Tamás Budavári; Rosemary Wyse; Alexander S. Szalay |
| Accelerated Briggs Weighting Function on NVIDIA GPUs with CUDA |
253 |
Gurjeet Jagwani; Karel Adámek; Wesley Armour |
| Software, Tools, and Standards for Solar System, Heliophysics, and Planetary Research |
| |
| FAIR Approach for Low Frequency Radio Astronomy |
259 |
Baptiste Cecconi |
| Multi-Spacecraft Observatory Data Analysis Techniques |
269 |
Theodore Broeren and Kristopher Klein |
| Cartographic Mapping Using High-Resolution Shape Models |
273 |
Kris J. Becker; Kenneth L. Edmundson; Dathon R. Golish; Michael C. Nolan; Daniella N. DellaGiustina |
| Improving the Visibility and Citability of Exoplanet Research Software |
277 |
Alice Allen; Alberto Accomazzi; Joe P. Renaud |
| DOIs at the ESDC and the New ESDC DOI TAP Service |
281 |
M. H. Sarmiento; J. Osinde; J. Ballester; J. Espinosa; H. Pérez; R. Bhatawdekar; B. Merín |
| Comet Statistics – A Graphical Representation of International Comet Discovery and Observation Statistics from the NASA PDS Small Bodies Node and the Minor Planet Center |
285 |
P. S. Smith; L. Tjiputra; J. M. Bauer; B. Sharkey; T. Farnham |
| MPEC Watch, a Novel Community Reference Resource Based on the Minor Planet Center Live Data |
289 |
Quanzhi Ye; Taegon Hibbitts; James M. Bauer |
| Collaborative and Guided Visual Analytics Methods for Space and Planetary Science Applications |
293 |
Manuela Rauch; Santokh Singh; Vedran Sabol; Seán Cody; Sebastian Scher; Giacomo Nodjoumi; Angelo Rossi; Iain Mcdonald; Albert Zijlstra; Nick Cox |
| Discovery Portals in Planetary Science Using Vespa |
297 |
P. Le Sidaner; R. Haigron; R. Meneust; C. Chauvin; C. Azria; S. Erard; B. Cecconi |
| VisIVO Visual Analytics: An Interactive Visualization Tool for Astrophysical Data Analysis |
301 |
Giuseppe Tudisco; Fabio Vitello; Ugo Becciani; Eva Sciacca; Simone Riggi; Marco Molinaro; Robert Butora; Sergio Molinari; Milena Benedettini |
| ALBUS: Modelling the Ionosphere with GNSS Interchange Data from the South African TrigNET |
305 |
Benjamin Hugo; Tony Willis; Lebogang Lekganyane; Oleg Smirnov |
| SAMP ImageJ Plugin |
309 |
R. Haigron; S. Erard |
| Study of a Spectral Analysis System for Planetary Surfaces |
313 |
Stéphane Erard |
| TSRS-Heritage Archive: Digitisation, Standardisation, and Future Perspectives |
316 |
Giovanna Jerse; Sara Bertocco; Valentina Alberti; Marco Molinaro; Igor Coretti; Lucio Demicheli; Muro Messerotti |
| Planetary World Coordinate System in Astropy |
320 |
Chiara Marmo; Stéphane Erard |
| The Observers’ Data Access Portal at the Keck Observatory Archive |
324 |
T. Oluyide; M. S. Lynn; T. Coda; G. B. Berriman; M. Brown; L. Fuhrman; C. Gelino; J. Good; J. Hayashi; C. H. Lee; J. Mader; M. A. Swain |
| Research Software Engineering as a Career Path |
| |
| From AI to L2 and Beyond: A Software Engineer Career Turned into a Journey Through Fascinating Territories, Landscapes and, of Course, Languages |
331 |
Andrea Balestra |
| Overcoming the Challenges to Develop and Support Multiple Tools for the HST and the JWST Science Community |
339 |
R.I. Diaz |
| Cloud Infrastructures for Astronomical Data Analysis |
| |
| Science Platforms in the Multi Messenger and Exascale Era |
345 |
Giuliano Taffoni; Claudio Gheller; Fabio Vitello; Sara Bertocco; Dave Morris |
| Gemini Data Reductions – Saving Legacy Software With The Cloud |
349 |
Wesley C. Fraser; JJ Kavelaars |
| XMM-Newton Science Analysis System (SAS) on the Cloud |
353 |
Aitor Ibarra; Richard Saxton; Jose Marcos; Anthony Marston; Esin Gülbahar; Peter Kretschmar |
| Preparing a Scientific Data Processing Facility for Rubin Observatory’s LSST: the Case of France’s CC-IN2P3 |
357 |
Gabriele Mainetti; Fabio Hernandez; Adrien Georget; Quentin Le Boulc’h; Loïc Tortay |
| Empowering SKA Data Challenges: A Homogeneous Platform for Enhanced Collaboration and Scalability Fully Aligned with Open Science |
361 |
Manuel Parra-Royón; James Collinson; Jesús Sánchez-Castañeda; Pablo Llopis-Sanmillán; Carolina Lindqvist; MA Mendoza; Susana Sánchez-Expósito; Laura Darriba; Javier Moldón; Julián Garrido; Jesús Salgado; Lourdes Verdes-Montenegro |
| Structural Relationships of Remote Galaxies at 1.5 < z < 2.5 Using Support Vector Machines ML Models in Open Science Studio |
365 |
Guillermo Valé Arteaga |
| Astrophysics and Cosmos Observation. The Italian National Centre on HPC, Big Data and Quantum Computing |
369 |
Ugo Becciani; Claudio Gheller; Roberto Scaramella; Eva Sciacca; Antonio Stamerra; Giuliano Taffoni |
| Processing Large Radio Astronomy Data Cubes within an Objectstore |
373 |
G. W. H. German |
| Running Roman Pipelines in NASA Cloud with Apache Airflow and Kubernetes |
377 |
Emmanuel Joliet |
| XMM-Newton Science Analysis System Building Evolution Over the Years |
381 |
Jose Marcos; Aitor Ibarra; Richard Saxton; Anthony Marston |
| The Road to Science Verification for the SKA Regional Centre Network |
385 |
James S. Collinson; Jesús Salgado; Rosie Bolton |
| Evaluating IVOA ExecutionPlanner for CIRASA Tools |
389 |
Dave Morris; Sara Bertocco; Marco Molinaro; Simone Riggi |
| Other Creative Topics in Astronomical Software |
| |
| Decades of Transformation: Evolution of the NASA Astrophysics Data System’s Infrastructure |
395 |
Alberto Accomazzi |
| Quantifying & Mitigating Satellite Constellation Interference with SatHub |
404 |
Meredith L. Rawls; Constance E. Walker; Michelle Dadighat; Harrison Krantz; Siegfried Eggl; Mike Peel |
| The Future of FITS Data Displays for Observatory Operations |
408 |
Max Brodheim |
| High Performance Visualization for Astronomy & Cosmology: the VisIVO’s Pathway Toward Exascale Systems |
412 |
Eva Sciacca; Nicola Tuccari; Fabio Vitello; Valentina Cesare |
| The VLA Sky Survey |
416 |
Mark Lacy; The VLASS Team |
| Lessons Learned from Building LOFAR Data Processing Pipelines |
420 |
Matthijs van der Wild |
| Towards Automated Structural Analysis of Galaxies in Large Imaging Surveys |
424 |
Sarah Casura |
| Hypothesis – Property-Based Testing for Python |
428 |
James Tocknell |
| Point-Spread-Function Interpolation as a Key to Precise Scientific Outcome |
430 |
Mariia Demianenko; Jörg-Uwe Pott; Kai Polsterer |
| The Future of LOFAR Data Services |
434 |
Sangeeth Kochanthara; John Swinbank; Hanno Holties |
| Writing Software That Will Continue to Work |
438 |
Jessica Mink |
| ViaLactea Knowledge Base: Status and Perspectives |
442 |
Marco Molinaro; Robert Butora; Giuseppe Tudisco; Fabio Vitello; Milena Benedettini; Sergio Molinari |
| The Astronomical Table Serialisation System Query Tool (QATSS) and Its Ecosystem |
446 |
F.-X. Pineau; G. Landais |
| Improving CI/CD Workflow Efficiency with Kubernetes and an Automated Bot System |
450 |
Arianna Ranabhat |
| MADYS: A Unified Framework for Parameter Estimation of Young Stars and Directly-Imaged Planets |
454 |
V. Squicciarini |
| The Continuing Evolution of the Data Central Web Service |
458 |
James Tocknell |
| Modernizing IRAF to Support Gemini Data Reduction |
461 |
Michael Fitzpatrick; Vinicius Placco; Adam Bolton; Brian Merino; Susan Ridgway; Letizia Stanghellini |
| An Original Way to Manage Huge Astronomical Tables |
465 |
G. Landais; F. Pineau; P. Ocvirk; A. Vizier-Fontanesi; A. Lepicier; A. Vanhulle |
| RFInder: Radio Frequency Interference Data Evaluation and Reduction |
469 |
Athanaseus J. Ramaila; Filippo M. Maccagni |
| To Monorepo or Not to Monorepo: A Multi-Lingual, Telescope-Agnostic Steering Control System |
473 |
Nicholas Bruce; Dustin Lagoy; David A. Del Rizzo |
| PEG-ify ADQL |
477 |
Grégory Mantelet; Markus Demleitner; Jon Juaristi-Campillo |
| The Current State of Julia Software Libraries for Astronomy |
481 |
Paul Barrett |
| Perl Metaprogrammed TikZ Spectra for the AAOmega Spectrograph |
485 |
T. N. Stenborg |
| PyCPL: The ESO Common Pipeline Library in Python v1.0 |
488 |
Mrunmayi S. Deshpande; Nuria P. F. Lorente; Anthony Horton; Brent Miszalski; Ralf Palsa; Lars Lundin; Anthony Heng; Aidan Farrell |
| Bright Star Subtraction Pipeline for LSST: Progress Review |
492 |
Amir E. Bazkiaei,1,2,3 Lee S. Kelvin; Sarah Brough; Simon J. O’Toole; Aaron Watkins; Morgen A. Schmitz |
| IAU CPS Tools to Address Satellite Constellation Interference |
497 |
Michelle Dadighat; Meredith L. Rawls; Siegfried Eggl; Mike Peel; Constance E. Walker |
