Astronomical Data Analysis Software & Systems XIV

October 24 - 27, 2004
Pasadena California

ADASS 2004


Poster Sessions in Piazza



Monday, October 25th

P1.1.1 ESA-VO: European Space Based Astronomy through the VO
P1.1.2 Data Mining in Distributed Databases for Interacting Galaxies
P1.1.3 Integrating Legacy Code Into Virtual Observatories - A Test Case
P1.1.4 Data Mining in the Era of Virtual Observatories
P1.1.5 GALEX Services for the Virtual Observatory
P1.1.6 VOTFilter, Bridging VO Services to Industrial Desktop Application
P1.1.7 MySpace: distributed data storage for the VO
P1.1.8 The Multimission Archive at the Space Telescope Science Institute in the context of VO activities
P1.1.9 ROME (Request Object Management Environment)
P1.1.10 A Source Extraction Web Service with Cross Matching Capability
P1.1.11 VO Software: Overview of the past twelve months of Prototypes & Tools
P1.1.12 XML data in the Virtual Observatory
P1.1.13 Distributed Data Mining for Astrophysical Data
P1.1.14 Spectral Energy Distribution Data Model for the VO
P1.1.15 Creating Data that Never Die: Building a Spectrograph Data Pipeline in the Virtual Observatory Era
P1.1.16 MaxBCG: The Importance of Database Systems for the Virtual Observatory and the Grid
P1.1.17 VWhere: An Extensible Filtering and Data Exploration Guilet
P1.1.18 New NED XML/VOtable Services and Client Interface Applications
P1.1.19 K-12 Education with the National Virtual Observatory
P1.1.20 Development of a Virtual Observatory Prototype in ALMA-Japan
P1.1.21 A metadata layer to enable VO-compliant access to the ESO/ST-ECF Archive
P1.1.22 Merger of VO Data Model, Ontology, and High Level Query
P1.1.23 Structured Query Language for Virtual Observatory
P1.1.24 Japanese Virtual Observatory (JVO) prototype 2
P1.1.25 Theory in a Virtual Observatory: some demo
P1.1.26 A quantity-based object-relational hybrid system for the VO: the NOAO NX system implementing a catalog model
P1.2.1 Assembly and Classification of Spectral Energy Distributions – A new VO Web Service
P1.2.2 FROG: Time Series Analysis for the Web Service Era
P1.2.3 The Chandra Bibliography Database: Bibliographic Statistics
P1.2.4 MIGALE: millstones and roadmap
P1.2.5 Telescope Observation Markup Language (TOML) Definition and Use
P1.2.6 The CIAO Website Unveiled
P1.2.7 VOStat: a distributed statistical toolkit for the Virtual Observatory
P1.2.8 The ESO Telescope Bibliography Web Interface -- Linking Publications and Observations
P1.2.9 WBUCS: A web simulator for deep galaxy fields
P1.2.10 Configurable format conversion tool from XML to FITS with binary extensions
P1.2.11 Automatic Electronic Transfer of Astronomical Data and Metadata
P1.2.12 Spreading DIRT with Web Services
P1.2.13 XML Web Services at CDS
P1.2.14 The AAS Professional-Amateur Electronic Registry
P1.2.15 A New SIMBAD Software and System - Simbad 4
P1.2.16 RADAR: A Fast, Scaleable and Distributable Archive Inventory Service
P1.3.1 An Astrocomp-Grid based parallel tool for the analysis of light curve sequences of magnetically active close binaries
P1.3.2 AstroGrid and the Registry: Enabling Resource Discovery
P1.3.3 Integration of an MPP system and astrophysical applications in the INFN-GRID
P1.3.4 The AstroGrid Common Execution Architecture
P1.3.5 A Java Thick Client User Interface for Grid Processing.
P1.3.6 The Publisher's AstroGrid Library
P1.3.7 EdSkyQuery-G: a data federation Grid architecture for astronomy
P1.3.8 Grist: Grid Data Mining for Astronomy
P1.3.9 The AstroGrid Portal and Workflow
P1.3.10 The VST data reduction: an application for GRID infrastructure
P1.3.11 Access Control in AstroGrid Software
P1.3.12 Integrated Access to Solar Data using EGSO
P1.3.13 Prototypes of a Computational Grid for the Planck Satellite
P1.3.14 WebCom-G: Implementing an astronomical data analysis pipeline on a Grid-type infrastructure
P1.3.15 Astronomical database related applications in the Grid.it project
P1.3.16 Grid-related activity in progress at INAF

Tuesday, October 26th

P2.1.1 matplotlib - a portable Python plotting package
P2.1.2 Mosaicing with interferometric radio telescopes: Efficient algorithm for imaging and image plane corrections.
P2.1.3 Software for detection of Optical Transients in observations with Rapid Wide-Field Camera
P2.1.4 The BUCS Library for Cloning Complete Galaxy Samples
P2.1.5 Extending Sherpa with S-Lang
P2.1.6 A visualisation system for large remote astronomical images
P2.1.7 Extending and Customising DS9
P2.1.8 Radio Frequency Interference excision without a reference horn
P2.1.9 Two-Dimensional Fitting of Brightness Profiles in Galaxy Images with Evolution Strategies
P2.1.10 Porting the Starlink Software Collection to GNU Autoconf
P2.1.11 Requirements for a Future Astronomical Data Analysis Environment
P2.1.12 Multidrizzle: Automated Image Combination and Cosmic-Ray Identification Software
P2.1.13 Harmonic development of an arbitrary function of the Moon/Sun/planets coordinates to Poisson series
P2.1.14 AXedrizzle - Spectral 2D Resampling using Drizzle
P2.1.15 A survey of software for the manipulation and visualisation of 3-D sub-mm spectral line datasets
P2.1.16 Generalized algorithm of entropic deconvolution
P2.1.17 Using FITSCUT to Create Color Images
P2.1.18 WAX: A High Performance Spatial Auto-Correlation Application
P2.1.19 Image smoothing and segmentation based on Shrira-Pesenson equation
P2.1.20 SALSA:an interactive tool for parallel analysis and visualization of Astronomical data sets
P2.1.21 A Data Analysis Package for Bolometer Ground Testing
P2.1.22 Improved Reduction Algorithm for ISOPHOT-S Chopped Observations
P2.1.23 Taming The Measurement Equation With MeqTrees
P2.1.24 Monte Carlo Image Analysis in Radio Interferometry
P2.1.25 Making the Most of Missing Values: Object Clustering with Partial Data in Astronomy
P2.1.26 JDBC Driver for the AIPS++ Table System
P2.1.27 The Visible Light Magnetograph at the Big Bear Solar Observatory: hardware and software, first results
P2.2.1 Using Perl in Basic Science and Calibration Pipelines for Spitzer Infrared Array Camera Data
P2.2.2 A photometric comparison of the Eclipse and ORAC-DR pipelines for ISAAC
P2.2.3 Design of the SCUBA-2 Quick-Look Display and Data Reduction Pipeline
P2.2.4 MIPS Germanium Pipeline Organization and Implementation
P2.2.5 Caltrans Keeps the Spitzer Pipelines Moving
P2.2.6 VISTA Data Flow System: Pipeline Processing for WFCAM and VISTA
P2.2.7 Time Domain Explorations With Digital Sky Surveys
P2.2.8 Spectral Extraction in the Spitzer IRS Pipeline
P2.2.10 Planck/LFI Pipeline - The Demonstration Model
P2.2.11 FLIPPER: a FLexIble PiPEline fRamework
P2.2.12 Wavelength calibration in physical model based calibration pipelines
P2.3.1 Analyzing the Cas A Megasecond in Less than a Megasecond
P2.3.2 Linearization of Spitzer Infrared Spectrometer Data Via Minimization of Chi-Square With Correlated Errors
P2.3.3 Post-pipeline processing of Deep Spitzer data for the GOODS Legacy Project
P2.3.4 Towards the Optimal Association of Hubble ACS Images.
P2.3.5 Concurrent science and wavecal COS data
P2.3.6 Real time response DB system of MAXI ground software
P2.3.7 Mission in a Nutshell: The Gaia Parameter Database
P2.3.8 Global covariance analysis of the SIM astrometric grid
P2.3.9 Processing of 24 Micron Data at the Spitzer Science Center: the First Year of Flight Data
P2.3.10 The Impact of the ACIS Readout Streak and Pileup on Chandra Source Detection
P2.3.11 Hubble Space Telescope – Science Instruments Trending
P2.3.12 Modern Statistical Methods for GLAST Event Analysis
P2.3.13 Filtering of signal dependent noise applied to MIPS (70mn and 24mn).
P2.3.14 Use of the GENIE software for Automated Detection of Features From MSX/Spitzer Images
P2.3.15 The COSMOS 2-Degree HST Survey: Data Handling and Mining
P2.3.16 JAVA based Astronomical Software - The HERSCHEL/PACS Common Software System (PCSS) as example

Wednesday, October 27th

P3.1.1 FITS World Coordinates for DEIMOS Slitmasks
P3.1.2 The Use of CANbus in CARMA
P3.1.3 Architecture of the eSTAR/WFCAM Transient Object Detection Agent
P3.1.4 IRAF Package for GNIRS Data Reduction
P3.1.5 An Overview of the Mount Stromlo Observatory Telescope Control System
P3.1.6 N-body simulations with GRAPE-6a and MD-GRAPE2 acceleration hardware
P3.1.7 Optimizing Observing Sequence Design for both Periodic and Non-periodic Phenomena: A Bayesian Approach
P3.1.8 The Remote Control System for the ASTE Telescope
P3.1.9 The ALMA Real Time Monitor and Control Bus
P3.1.10 On the use of IDL for instrument control.
P3.1.11 The CARMA Database System
P3.1.12 Database of Instrumental Characteristics in a Real Observatory
P3.1.13 The EVLA Software System Overall Design
P3.1.14 Building a General Purpose Beowulf Cluster for Astrophysics Research
P3.1.15 A new Data Flow System for the Nordic Optical Telescope
P3.1.16 The CARMA Correlator
P3.1.17 PESO - The Python Based Control System of Ond\v{r}ejov 2m Telescope
P3.1.18 The robotic Liverpool Telescope data flow model
P3.1.19 Managing ESO's Operations Data Flow systems
P3.1.20 Gbit/s I/O at the European VLBI data processor - clustered silicon and long fiber
P3.1.21 Telescope Automation and Remote Observing Software (TAROS)
P3.1.22 Optical Camera with high temporal resolution to search for transients in the wide field
P3.2.1 INTEGRAL reprocessed data and public data archive
P3.2.2 The Design of the W. M. Keck Observatory Archive
P3.2.3 Software Architecture of the Spitzer Space Telescope Uplink/Archive
P3.2.4 Data Processing Discovery Agents in Gemini Science Archive
P3.2.5 The D4A Digitiser
P3.2.6 FITS keyword database at the European Southern Observatory
P3.2.7 Overview of the Gemini Science Archive
P3.2.8 Meta-Data Management in the Gemini Science Archive
P3.2.9 The Architecture of the NASA/IPAC Infrared Science Archive (IRSA)
P3.2.10 FITS Image Cutout
P3.2.11 Mining the Astronomical Archives for the "Tadpole" Galaxy
P3.2.12 Astronomical Computing within Data Archives
P3.2.13 The WFCAM Science Archive and other WFAU work
P3.2.14 ESO Archive Services
P3.2.15 Recent developments of the ISO Data Archive
P3.2.16 The NOAO Data Cache Initiative - Building a Distributed Online Datastore
P3.2.17 FITS Query Language
P3.2.18 The SIP Convention for Representing Distortion in FITS Image Headers
P3.2.19 New Features for VO-Enabled Data Intensive Science with the SDSS Data Release 3
P3.2.20 SOLARNET – The federation of the Italian solar data archives
P3.2.21 A Conceptual Domain Model for the NOAO Science ArchivE
P3.2.22 A Case Study of Applying Object-Relational Persistence in Astronomy Data Archiving

CalTech
IPAC






For additional information please contact adass@ipac.caltech.edu