Virgo TDS

3.0

https://tds.virgo-gw.eu/ql/?i=VIR

COPYRIGHT

GraWIToN

PPPS

Virgo

?

?

LOG-IN

View Code details

?

This is not the latest Release of this Code

?

Title

?

GW transient un-modeled searches and characterization of the waveform signal

Author(s)

?

Lazzaro Claudia

Document type

?

Presentation

Code

?

VIR-0539A-18

Uploaded document(s)

?

- You do not have permission to view files attached to this Code.

Date Code requested

?

22:03, Sunday, 22 July, 2018

Code creator

?

lazzaro

Referral URI

?

https://tds.virgo-gw.eu/ql/?c=13436

Wait time

?

This Code has been frozen and can only be modified by creating a new Release.

Referees

LIGO DCC URI

ArXiv URI

Journal

Journal URI

Circulation date

LVC presentation date

Publication date

Speaker

Type

Invited

Abstract

Access Privileges

?

VIEW

CREATE NEW RELEASE

LVC

Accessible by users in the following groups:

Virgo, LSC

Series

?

GO TO THE LATEST RELEASE OF THIS CODE

Other Releases of this Code

?

- VIR-0539B-18 (25/07/18)

Related Codes

?

- Prospects for Advanced gravitational wave detector network (VIR-0901A-17)
- Searches for long-duration gravitational wave transients in LIGO and Virgo data (VIR-0215A-21)
- Topics in LIGO/Virgo Search and Data Analysis Methods (VIR-0297A-21)
- "Advanced Virgo: Status of the Detector, Latest Results and Future Prospects" - Virgo review within the Special Universe Issue "Italian Research Facilities for Fundamental Physics" (VIR-0728A-21)
- "Characterization of the gravitational wave emission from binary neutron stars mergers" (VIR-1269A-19)
- 2017-2018 LSC-Virgo Data Analysis White Paper (VIR-0435D-17)
- A CNNs and LSTMs core-collapse supernova gravitational wave classification on O2 noise (VIR-0318B-21)
- A New Method to Observe Gravitational Waves emitted by Core Collapse Supernovae (VIR-0621C-18)
- A New Method to Observe Gravitational Waves emitted by Core Collapse Supernovae (VIR-0635D-18)
- A Preliminary Analysis and Proposal for Virgo Data Management (VIR-0523C-20)
- A highly accurate, self-consistent EOB model for nonprecessing coalescing black hole binaries (VIR-0801A-21)
- ALBUS: Anomaly detector for Long duration BUrst Searches (VIR-0060A-21)
- Advanced Virgo Computing Needs 2019 (VIR-0818B-18)
- All-sky search for long-duration gravitational-wave bursts in the third Advanced LIGO and Advanced Virgo run (VIR-0878A-21)
- An optimal reconstruction of gravitational wave polarizations without model assumptions (VIR-0987A-21)
- Anomaly Detection in Time-Frequency maps using Generative Adversarial Networks (VIR-0611A-20)
- Axisymmetric models for neutron star merger remnants with realistic thermal and rotational profiles. (VIR-1006B-20)
- BSN postmerger with stamp (O2 & O3) (VIR-0833A-17)
- Blind Gravitational-wave Polarisation Reconstruction from noisy observations (VIR-0748A-18)
- Burst Review Policy and Guidelines (VIR-0824A-20)
- Burst Virgo co-chair appointment (VIR-0837A-20)
- Burst group activities update (VIR-0027A-18)
- Burst group overview (VIR-0205A-18)
- Burst group overview (VIR-0371A-21)
- Burst group overview (VIR-0845A-21)
- Burst group update (VIR-0598A-20)
- Burst group update VW nov 2020 (VIR-0897A-20)
- Burst land: personal overview on status and future (VIR-0845A-20)
- Burst overview (VIR-0398B-14)
- Burst overview (Virgo week) (VIR-0083A-21)
- Burst update ( Virgo contribution ) (VIR-0030B-17)
- Burst update VW April27 2020 (VIR-0402A-20)
- Burst update Virgo week 5-8 Nov 2018 (VIR-0764A-18)
- Close Hyperbolic Encounters of Black Holes: signatures and parameter estimation (VIR-0389A-21)
- Computing Infrastructure and Data Processing for Offline Analyses @ Nov 2018 Virgo Week (VIR-0756A-18)
- Constraints on cosmic strings using data from the first Advanced LIGO Observing run. (VIR-0753A-17)
- Core-Collapse Supernova Search Strategy: Gravitational Waves and Low-Energy Neutrinos (VIR-0508A-21)
- DA Update (VIR-0416A-20)
- DA report to VSC (VIR-0112A-21)
- DA report to VSC (VIR-0347A-20)
- DA report to VSC (VIR-0530A-20)
- DA report to VSC (VIR-0658A-20)
- DA report to VSC (VIR-0712A-20)
- DA report to VSC (VIR-0800A-20)
- DA report to the STAC (VIR-0476D-20)
- DA report to the VSC (VIR-0166A-21)
- DA report to the VSC - Publication plan (VIR-0198A-20)
- DPRC: CBC and Burst section (VIR-1082A-20)
- Data Analysis General Update (VIR-0422A-21)
- Data Analysis Report to VSC (VIR-0003A-21)
- Data Analysis Report to VSC (VIR-0234A-21)
- Data Analysis Report to VSC (VIR-0421A-21)
- Data Analysis Report to VSC (VIR-0509A-21)
- Data Analysis Report to VSC (VIR-0867A-20)
- Data Analysis Report to VSC (VIR-0973A-21)
- Data Analysis Report to VSC (VIR-1020A-21)
- Data Analysis Report to VSC (VIR-1100A-20)
- Data Analysis Report to the VSC (VIR-0502A-20)
- Data Analysis report to VSC (VIR-0300A-21)
- Data Analysis report to VSC (VIR-0947A-20)
- Data Analysis report to VSC (VIR-1047A-20)
- Data Release Policy discussion recordings (VIR-1086A-20)
- Data analysis general update (VIR-0105A-20)
- Data analysis general update (VIR-0111A-21)
- Data analysis general update (VIR-0854A-21)
- Data analysis report to VSC (VIR-0855A-21)
- Data analysis report to VSC 25/3/2020 (VIR-0304B-20)
- Data analysis report to the EGO Council (VIR-0511B-20)
- Data analysis report to the STAC (VIR-0530A-21)
- Data analysis update (VIR-0498A-18)
- Data analysis update (VIR-0975A-20)
- Data analysis update to VSC (VIR-0632A-21)
- Data quality plans from Virgo (What you should expect to see soon...) (VIR-0461A-13)
- Deep Learning classification for Gravitational Waves from Core-Collapse Supernovae (VIR-1248A-19)
- Deep Learning classification for Gravitational Waves from Core-Collapse Supernovae (VIR-1249A-19)
- Deep Learning classification for Gravitational Waves from Core-Collapse Supernovae (VIR-1250A-19)
- Deep learning for multimessenger core-collapse supernova detection (VIR-0976B-20)
- DetChar/DA liaison charge description (VIR-0013A-21)
- Detection of GW bursts with chirplet-like template families (VIR-0263B-10)
- Detection of gravitational wave transients: estimating signal waveforms errors with minimal assumptions (VIR-0482A-17)
- Disclosing the features of transient gravitational waves independently from waveform models (VIR-0292A-19)
- Disclosing the features of transient gravitational waves independently from waveform models (VIR-0728A-19)
- Driving unmodelled gravitational-wave transient searches using astrophysical information (VIR-0254D-18)
- Electromagnetic follow-ups of triple coincidences (VIR-0639A-10)
- Enhancing un-modelled gravitational wave searches (VIR-0386C-17)
- Entering the multi messenger area of Astronomy (VIR-0264A-19)
- Estimation of waveform uncertanities with CWB (VIR-0309A-16)
- Expanding Core-Collapse Supernova Search Horizon of Neutrino Detectors (VIR-1145A-19)
- Exploiting Neutron Star mergers with a network of advanced gravitational-wave detectors (VIR-0122A-18)
- Exploring GW detection using Deep Learning methods (VIR-0973A-20)
- Extracting the post-merger gravitational wave signal from binary neutron stars. (VIR-0687C-17)
- Foundation Policies and Technical Goals of the LVC Multi-Messenger Follow-up Program (VIR-0117B-18)
- GPUs in gravitational wave physics (VIR-0394A-14)
- GW transient event naming convention: second report and recommendation (VIR-0429B-20)
- GW transient searches to probe Neutron star physics (VIR-0524A-17)
- GW transient un-modeled searches and characterization of the waveform signal using cWB (VIR-1019A-20)
- GW transient un-modeled searches and characterization of the waveform signal using cWB algorithm (VIR-0852A-20)
- GW-handbook chapter: Machine learning for characterization of gravitational wave data (VIR-0826A-20)
- Gravitational Wave detectors of near future (VIR-1178A-19)
- Gravitational wave emission from bar-mode instability in core-collapse supernovae (VIR-0719A-21)
- Gravitational wave signature of proto-neutron star convection: I. MHD numerical simulations (VIR-0221A-21)
- Gravitational waves astronomy with LIGO and Virgo interferometers (VIR-0879A-20)
- Gravitational waves from binary black hole mergers surrounded by scalar field clouds: Numerical simulations and observational implications. (VIR-0131A-21)
- Image based classification of transients from simulated LSST data. EGO Internship report on Machine Learning, under E. Cuoco supervision. (VIR-0924A-18)
- Implementation of the rROF de-noising method in the cWB pipeline for gravitational-wave data analysis (VIR-0364B-21)
- Inference of proto-neutron star properties from gravitational wave data in CCSN (VIR-0895A-20)
- Inference of proto-neutron star properties from gravitational-wave data in core-collapse supernovae (VIR-0994A-20)
- Is Λ(M) enough to probe the high density equation of state? An analysis with meta modelling¶ 20m (VIR-0388A-21)
- Joint searches of gravitational waves and high-energy neutrinos (VIR-0356A-10)
- LIGO-Virgo search for eccentric BBH in O1-O2 data (VIR-0765A-18)
- LIGO-Virgo searches for generic transient gravitational waves using cWB (VIR-0686A-17)
- LVK Publication Planning Procedures (VIR-0696A-20)
- Linear-oscillation spectrum of proto-neutron stars (VIR-0559A-17)
- Long Duration Burst Search: GWPyxel¶ (VIR-0608A-20)
- Long Search O2 results with cWB (VIR-0476A-18)
- Looking for Core-Collapse Supernovae with Gravitational Waves and Low-energy Neutrinos (VIR-0760A-21)
- Low Latency EM infrastructure for OPA - VSC (VIR-0630A-18)
- Low latency discussion at Virgo Week: introduction (VIR-0605A-20)
- Machine-Learning Classification Of Core-Collapse Supernovae And Detector Glitches (VIR-0205A-19)
- Method to detect higher multipole radiation in gravitational waves from compact binary coalescences in the "coherent WaveBurst" pipeline. (VIR-0517A-21)
- Methods and results on the search for gravitational wave echoes in the post-merger phase after binary black hole coalescences. (VIR-0480A-21)
- Methods and results on the search for gravitational wave echoes in the post-merger phase after binary black hole coalescences. (VIR-0829A-21)
- Methods and results on the search for gravitational wave signals in the post-merger phase after a binary black hole coalescences. (VIR-0679A-21)
- Minimally-modeled search of higher multipole gravitational-wave radiation in compact binary coalescences (VIR-0781B-21)
- Minutes of the transient F2F meeting, January 22nd 2018 (VIR-0078A-18)
- Multimessenger Analysis Strategy for Core-Collapse Supernova Search: Gravitational Waves and Low-energy Neutrinos (VIR-0504A-21)
- Multimessenger Analysis Strategy for Core-Collapse Supernova Search: Gravitational Waves and Low-energy Neutrinos (VIR-0673A-21)
- Multimessenger Analysis Strategy for Core-Collapse Supernova Search: Gravitational Waves and Low-energy Neutrinos (VIR-0674A-21)
- Multimessenger Analysis Strategy for Core-Collapse Supernova Search: Gravitational Waves and Low-energy Neutrinos (VIR-0717A-21)
- New Burst/CBC chairs candidates presentations (VIR-0840A-20)
- New Method to Combine Statistics from Different Experiments (LEN-GW) for Joint Core-Collapse Supernova (CCSN) Search (VIR-0757A-18)
- Noise Monitor Application by introducing the bispectral Higher-Order Spectral Analysis (HOSA) (VIR-0004A-13)
- Nonlinear waveform reconstruction study - Higher-Order Spectral Analysis (HOSA) (VIR-0426A-12)
- O1 and O2 single Interferometer triggers in association with Fermi-GBM events (VIR-0032A-19)
- O1 overview and schedule LV-EM Forum Telecon (Thursday, May 12, 2016) (VIR-0237A-16)
- O3 CWB preliminary detchar analysis (VIR-0404A-19)
- O3b cWB Alerts and CED (VIR-0028A-20)
- Omicron tutorial (VIR-0135A-15)
- Omicron: an algorithm to detect and characterize transient events in gravitational-wave detectors (VIR-0545C-14)
- On the bar-mode instability of spinning bosonic stars (VIR-0908A-20)
- Open data and data analysis: introduction (VIR-0491A-20)
- Open data: input from the burst group (VIR-0495A-20)
- Optical follow-up program with TAROT and Zadko: lessons learned (VIR-0223A-12)
- Overview of cWB off-line results for Stellar Mass BBH search on O2 run (VIR-0203A-18)
- PMNS-Virgo-week (VIR-0826A-17)
- Parameter Estimation with Gravitational Waves (VIR-0288A-21)
- Present results and future challenges with the network of gravitational wave detectors. Invited Presentation at: Current problems in theoretical physics: Gravitational Waves Vietri Sul Mare 2018/03/26 http://paft18.sa.infn.it/ (VIR-0159A-18)
- Prospects about X- and gamma-ray counterparts to gravitational wave signals with INTEGRAL (VIR-0815A-17)
- PySTAMPAS : a long-duration transient, gravitational-wave search pipeline (VIR-0908D-21)
- PySTAMPAS: a long transient gravitational wave search pipeline (VIR-0699A-20)
- Recent GW results from the LIGO-Virgo-Kagra Collaboration (VIR-0876A-21)
- Recent observations of GWs by LIGO and Virgo detectors (VIR-0991A-21)
- Results from LIGO Virgo KAGRA Collaboration for last observing run (VIR-0950B-21)
- Review of the content of the repository for the ligo.skymap.acceptance.tests (VIR-1033A-20)
- Robust estimation of the waveform of gravitational-wave transient signals by a general method (VIR-0688A-17)
- Robustness of templates for detecting gravitational wave bursts from cosmic strings cusps and kinks. (VIR-0361A-16)
- Rotating CCSNe parameter estimation (VIR-0974A-20)
- STAC presentation on Offline Pipelines (VIR-0700A-18)
- Search Plan: LSC-Virgo Searches For Transient Gravitational Waves From Isolated Neutron Stars (VIR-0252A-15)
- Search for unmodeled long duration gravitational waves for Advanced LIGO and Advanced Virgo's third observing run (VIR-0482A-21)
- Search for unmodeled long duration gravitational waves for Advanced LIGO and Advanced Virgo's third observing run (VIR-0778A-21)
- Search for unmodeled long duration gravitational waves for Advanced LIGO and Advanced Virgo's third observing run (VIR-0779A-21)
- Search for unmodeled long duration gravitational waves for Advanced LIGO and Advanced Virgo's third observing run (VIR-0952A-21)
- Search for Long-duration Gravitational-wave Signals Associated with Magnetar Giant Flares (VIR-0374A-21)
- Search for Long-duration Gravitational-wave Signals Associated with Magnetar Giant Flares (VIR-0436B-21)
- Search for black hole hyperbolic encounters with gravitational wave detectors (VIR-1038A-21)
- Search for gravitational wave transient searches in LIGO-Virgo data (VIR-0864A-19)
- Search for gravitational waves with short time duration in the Advanced LIGO and Virgo (VIR-0215B-19)
- Search for multimessenger events during LIGO/Virgo era (VIR-0454A-21)
- Search plan: GW transients from cosmic strings (VIR-0251A-15)
- Searching gravitational wave signals in the post-merger phase after a binary black hole coalescences. (VIR-0518A-21)
- Searching gravitational waves from eccentric binary black holes (VIR-0196B-16)
- Sky localization with Virgo - GWsky comparison (VIR-0625B-17)
- Slides - A joint GW/GRB Bayesian study for low-luminosity short GRB population - Virgo Week July 2021 Presentation (VIR-0783A-21)
- Status of the implementation of the rROF de-noising method in the cWB pipeline (VIR-0906A-20)
- Status report of the search for coincidences between GWs and low Energy neutrino signals from CCSNe (VIR-0310A-16)
- Strategy to Search for Core-collapse Supernovae in Multimessenger Era: Low-Energy Neutrinos and Gravitational Waves (VIR-0896A-21)
- Summary of the April 23 meeting with astronomers (VIR-0177B-15)
- The LSC-Virgo White Paper on Gravitational Wave Data Analysis and Astrophysics (2018-2019 edition) (VIR-0119B-18)
- The LSC-Virgo White Paper on Gravitational Wave Data Analysis and Astrophysics (Summer 2019 edition) (VIR-0812B-19)
- The LSC-Virgo-KAGRA Observational Science White Paper (Summer 2020 edition) (VIR-0666B-20)
- The LSC-Virgo-KAGRA Observational Science White Paper (Summer 2021 edition) (VIR-0753D-21)
- The Low-Latency R&D subgroup (VIR-0264A-18)
- The O3 run and the LVC alert system: lessons learned (VIR-0920A-20)
- The document on data release policy (VIR-0648B-20)
- The search of higher multipole radiation in gravitational waves from compact binary coalescences by a minimally-modelled pipeline (VIR-0761A-21)
- Tool based on un-modeled transient search to extract Post merger neutron stars properties (VIR-0440A-17)
- Torino group presentation (VIR-0735A-18)
- Total-variation methods for gravitational-wave denoising: performance tests on Advanced LIGO data (VIR-0331A-18)
- Towards the AdV computing model update: CDP part (to be presented at ECC meeting) (VIR-0706C-18)
- Understanding gravitational-wave emission from core-collapse supernovae (VIR-0156A-19)
- Unmodeled characterization of post-merger gravitational wave emission from binary neutron stars coalescence (VIR-0213A-20)
- Update circular for LIGO/Virgo G270580: candidate retraction (VIR-0514A-17)
- Update on ER14 cWB online Virgo contribution (VIR-0323A-19)
- Upgrades of coherentWaveBurst for burst searches in the O2 run (VIR-0437A-16)
- VIRGO-the-future (my personal vision) (VIR-0486B-20)
- VW Presentation - Expanding Core-Collapse Supernova Search Horizon of Multimessenger Detectors (VIR-0069A-20)
- Virgo offline computing and data processing (VIR-0541A-19)
- Virgo offline computing and data processing (VIR-0782A-18)
- Virgo-week PE_slides (VIR-0848A-17)
- Was GW190814 a Black Hole - Strange Quark Star system? (VIR-0812A-21)
- Wavegraph clustering for coherent waveburst - Principles, applications, improvements. (VIR-0259A-16)
- Wavegraph updates: method paper & O2 results (VIR-0673A-17)
- Wavelet graphs for the detection of gravitational waves: application to eccentric binary black holes (VIR-0091A-19)
- Wavelet-based search for gravitational wave detection - Updates (VIR-0026F-17)
- What can be learned from a proto-neutron star's mass and radius? (VIR-0001A-21)
- Xpipeline closed-box results: the effects of adding Virgo on the global sensitivity of the network for the O2 GRBs with 3 Detectors online (updated with 50% Upper Limits) (VIR-0538D-18)
- cWB ER13 offline analysis (VIR-0093A-19)
- cWB low latency: ER13 and O3 plans (VIR-0039B-19)
- cWB offline O2 searches related to CBC sources (VIR-0825A-17)
- coherent Waveburst, a pipeline for unmodeled gravitational-wave data analysis (VIR-0310C-20)
- coherentWaveBurst contribution to current LVC papers (VIR-0387A-20)

Presentation requests

- Invitations received by members of the Collaboration, to present Virgo or parts of it, must be forwarded to the VEB. In order to ensure a fair distribution of talks to individuals and institutions, the VEB will select a speaker from the Collaboration, trying to keep a good balance between respecting the wishes of conference organizers and the requirement of a fair share of presentations among Collaboration members and the need to promote young colleagues.
- Full Virgo Collaboration Publication and Presentation Rules are available here.