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X-WR-CALNAME:International GNSS Service
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X-WR-CALDESC:Events for International GNSS Service
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TZOFFSETFROM:+0000
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DTSTART:20160101T000000
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BEGIN:VEVENT
DTSTART;VALUE=DATE:20170703
DTEND;VALUE=DATE:20170708
DTSTAMP:20260502T205514
CREATED:20170703T000000Z
LAST-MODIFIED:20220623T205928Z
UID:25878-1499040000-1499471999@igs.org
SUMMARY:IGS Workshop 2017
DESCRIPTION:[vc_row][vc_column][vc_column_text] \nIGS Workshop 2017\nDates and Location \n3-7 July\, 2017 in Paris\, France \n  \nAbout \nThe IGS Central Bureau is pleased to announce that the next IGS Workshop will take place 3-7 July\, 2017.  This workshop will be hosted locally by the Institut National de l’Information Géographique et Forestière (IGN) and the Centre National d’Études Spatiales (CNES) at the University of Paris-Diderot (15 rue Hélène Brion 75013 Paris) in Paris\, France.[/vc_column_text]VISIT EVENT WEBSITE [vc_tta_tabs][vc_tta_section title=”Plenaries” tab_id=”plenaries”]PY00 – Opening – Zuheir Altamimi\n\n\n\n \n\n\n\nIGS Workshop 2017 Introduction\n\nZ. Altamimi\n\n\n\nWelcome by IAG & Local Organizing Committee\n\nZ. Altamimi\n\n\n\nWelcome by IGN\n\nD. Bursaux\n\n\n\nKeynote: Galileo\n\nM. Falcone\n\n\n\nWelcome by IGS\n\nG. Johnston\n\n\n\nWelcome by CNES\n\nJ. Lambin\n\n\n\nWelcome by IGS Central Bureau\n\nR. Neilan\n\n\n\nWelcome by University Paris-Diderot\n\nS. Rousset\n\n\n\n  \n\n  \n\nPY01 – Multi-GNSS & Constellation Monitoring – Oliver Montenbruck\, Qile Zhao\n\n\n\n \n\n\n\nHourly Updated GNSS Orbit and Clock Correction\n\nQ. Chen\n\n\n\nSolar radiation pressure model for BeiDou GEO satellites\n\nJ. Guo\n\n\n\nThe IGS/IGMA Monitoring Pilot Project\n\nU. Hugentobler\n\n\n\nMulti-GNSS real-time precise positioning service and Initial assessment of BDS-3\n\nX. Li\n\n\n\nLatest improvements in CODE’s IGS MGEX solution\n\nL. Prange\n\n\n\nMulti-GNSS SISRE Monitoring – Methodology and Results\n\nP. Steigenberger\n\n\n\n  \n\n  \n\nPY02 – Scientific applications – Geoffrey Blewitt\, Tilo Schöne\n\n\n\n \n\n\n\nEarthscope’s Plate Boundary Observatory (PBO) use of IGS products.\n\nT. Herring\n\n\n\nConstraints on Intra-Continental Strain Rates and Glacial Isostatic Adjustment from Thousands of GPS Velocities\n\nC. Kreemer\n\n\n\nGNSS Augmentation to Tsunami Early Warning Systems\n\nJ. Lauterjung\n\n\n\nEPN-Repro2: A reference tropospheric dataset over Europe\n\nR. Pacione\n\n\n\nA review of recent advances in GNSS-MR\n\nS. Tabibi\n\n\n\nOn the scientific applications of IGS products: An assessment of reprocessed TIGA solutions and combined products\n\nN. Teferle\n\n\n\n  \n\n  \n\nPY03 – Antennas & Biases – Florian Dilssner\, Stefan Schaer\n\n\n\n \n\n\n\nRevisiting the origin of GLONASS inter-frequency phase biases and its implication to IGS Bias-SINEX products\n\nJ. Geng\n\n\n\nPhase Centre Calibration of the Galileo Satellite Navigation Antenna\n\nF. Gonzalez\n\n\n\nAnalysis of GNSS Receiver Biases and Noise using Zero Baseline Techniques\n\nK. Macleod\n\n\n\nType mean antenna PCV models are no longer sufficient to support geodetic analysis\n\nM. Moore\n\n\n\nNew GNSS Bias Products from CODE\n\nS. Schaer\n\n\n\nConsistency antenna products in the MGEX environment\n\nA. Villiger\n\n\n\n  \n\n  \n\nPY04 – Troposphere & Ionosphere – Sharyl Byram\, Andrzej Krankowski\n\n\n\n \n\n\n\nROTI Maps: a new IGS’s ionospheric product characterizing the ionospheric irregularities occurrence\n\nI. Cherniak\n\n\n\nDual-layer tropospheric correction model optimally exploiting GNSS and NWM data\n\nJ. Dousa\n\n\n\nSISTED & GSFLAI solar flare nowcasting products based on GNSS ionospheric monitoring\, part of SSA’s Ionospheric Weather ESC and ESA’s MONITOR service\n\nA. Garcia-Rigo\n\n\n\nHigh rate GPS and GLONASS observations of RT-IGS network to monitor ionospheric irregularities and TEC mapping\n\nR. Ghoddousi-Fard\n\n\n\nParallel computing techniques for global ionospheric modeling\n\nS. Gu\n\n\n\nThe Recent Activities of CAS Ionosphere Analysis Center on GNSS Ionospheric Modeling within IGS\n\nZ. Li\n\n\n\nImprovement in the estimation of troposphere zenith delays using high-accuracy clocks\n\nM. Rothacher\n\n\n\nA new real-time ZTD grid product over China and applications in PPP\n\nW. Zhang\n\n\n\n  \n\n  \n\nPY05 – Infrastructure\, Data Centers & Formats – Nacho Romero\, Carey Noll\, Ken MacLeod\n\n\n\n \n\n\n\nProgress since Sydney IGS Workshop Geoscience Australia\n\nF. Boler\n\n\n\nGeodesyML 0.4 Recently Released\n\nC. Bruyninx\n\n\n\nSome information from CNAV not in proposed message\n\nK. Macleod\n\n\n\nIGS Infrastructure: A Summary\n\nI. Romero\n\n\n\n  \n\n  \n\nPY06 – Real-time – Axel Rülke\, Loukis Agrotis\n\n\n\n \n\n\n\nTowards a flexible real-time and near real-time system for monitoring troposphere\n\nJ. Dousa\n\n\n\nBDS Real-time Precise Products from WHU and its application in NBASS\n\nS. Gu\n\n\n\nReal-time Precise Point Positioning supported with high-resolution troposphere models based on Numerical Weather Prediction\n\nT. Hadas\n\n\n\nExamples of IGS real-time Ionospheric information benefits: Space Weather monitoring\, precise farming and RT-GIMs\n\nM. Hernandez-Pajares\n\n\n\nSSR Technology for scalable Real-Time GNSS Applications.\n\nM. Schmitz\n\n\n\n  \n\n  \n\nPY07 – Analysis Centers – Tom Herring\, Michael Moore\n\n\n\n \n\n\n\nProgress Toward a Standards-Based XML System for IGS Network Site Log Metadata Management and Dissemination Using GeodesyML\n\nF. Boler\n\n\n\nImpact of modern Earth orientation models on GPS precise orbit determination\n\nA. Sibois\n\n\n\nThe ESA/ESOC Analysis Centre progress and improvements\n\nT. Springer\n\n\n\nCODE’s Update of the Clock Products\n\nA. Villiger\n\n\n\nHourly Updated Precise Orbit Products of Quad-constellation Satellites in IGS Analysis Center at Wuhan University\n\nQ. Zhao\n\n\n\n  \n\n  \n\nPY08 – Orbit modelling – Marek Ziebart\, Flavien Mercier\n\n\n\n \n\n\n\nGLONASS Satellite Orbit Modelling\n\nR. Dach\n\n\n\nOrbit/SRP Modelling for Long Term Prediction\n\nB. Polle\n\n\n\nImproved modeling of GPS Block IIF satellites for the GSPM13 solar radiation pressure model\n\nC. Sakumura\n\n\n\nImpact of GPS box-wing models on LEO orbit determination\n\nT. Springer\n\n\n\nMeasuring GNSS Satellite Transmit Power\n\nP. Steigenberger\n\n\n\nNext generation radiation pressure modelling for GNSS space vehicles\n\nM. Ziebart\n\n\n\n  \n\n  \n\nPY09 – Reference Frame – Paul Rebischung\, Zuheir Altamimi\n\n\n\n \n\n\n\nReview of the IGS Contribution to the ITRF\n\nZ. Altamimi\n\n\n\nITRF Anywhere\n\nH. Boomkamp\n\n\n\nModeling environmental loading effects at the observation level in GPS processing\n\nJ. Boy\n\n\n\nReconciling GRACE derived loading deformation with GNSS station position time series\n\nK. Chanard\n\n\n\nThe Impact of GNSS Data on JTRF2014\n\nR. Gross\n\n\n\nEvaluation of the IGS terrestrial frame solutions since the switch to IGS14/igs14.atx\n\nP. Rebischung\n\n\n\n  \n\n  \n\nPY10 – Timing – Gérard Petit\, Michael Coleman\n\n\n\n \n\n\n\nCalibration of DCBs in timing GNSS stations\n\nP. Defraigne\n\n\n\nSub 10-16 frequency transfer with IPPP\n\nG. Petit\n\n\n\nBeiDou and Galileo Carrier-Phase Time Transfer toward TAI Computation\n\nB. Sun\n\n\n\nImproved GNSS-Based Precise Orbit Determination by using highly accurate clocks\,\n\nA. Susnik\n\n\n\nGNSS space clocks assessment based on different IGS and MGEX data\n\nT. Thai\n\n\n\nThe Study of GNSS System Time Differences Monitoring\n\nJ. Zhang\n\n\n\n  \n\n  \n\nPY11 – Sponsors\n\n\n\n \n\n\n\nData Quality: from Tracking to Archiving with no Gaps\n\nF. Clemente\n\n\n\nImproving the Resilience to Interference of a GNSS Reference Station\n\nY. Tawk\n\n\n\n  \n\n  \n\nPY12 – Recommendations\n\n\n\n \n\n\n\nRecommendations\n\nV. Recommendations\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n[/vc_tta_section][vc_tta_section title=”Posters” tab_id=”posters”]PS01 – Multi-GNSS & Constellation Monitoring – Oliver Montenbruck\, Qile Zhao\n\n\n\n \n\n\n\nThe positioning stability tests with the fixed inter-system biases on the Multi-GNSS kinematic PPP\n\nB. Choi\n\n\n\nEstimation and analysis of the short-term variations of multi-GNSS receiver differential code biases using global ionosphere maps\n\nM. Li\n\n\n\nImpact of ambiguity resolution on multi-GNSS real-time precise orbit determination\n\nY. Liu\n\n\n\nDisseminating GNSS satellite attitude for improved clock correction consistency\n\nS. Loyer\n\n\n\nSuppression of GLONASS apparent fluctuation with a period of 8 days\n\nK. Sakai\n\n\n\nMulti-GNSS orbit determination using 2-step PPP approach\n\nI. Selmke\n\n\n\nContinuous Information Aided Rapid Orbit Recovery for Maneuvered BeiDou GEO Satellites\n\nH. Su\n\n\n\nInitial Results of the Precise Orbit Determination for the New-Generation BeiDou Satellites (BeiDou-3) Based on the iGMAS Network\n\nB. Tan\n\n\n\nBeiDou/GPS real-time satellite clocks generation based on connection of hourly observation files\n\nM. Wu\n\n\n\n  \n\n  \n\nPS02 – Scientific applications – Geoffrey Blewitt\, Tilo Schöne\n\n\n\n \n\n\n\nEarth’s response to surface mass loads: inferences from ocean tide loading\n\nP. Clarke\n\n\n\nAutomatic offset detection using HECTOR\n\nR. Fernandes\n\n\n\nThe Copernicus POD Service\n\nJ. Fernandez\n\n\n\nInitial results from a re-processed global network solution for New Zealand CORS\n\nD. Hansen\n\n\n\nHomogenization of GNSS tropospheric products using subspace-based techniques\n\nM. Hoseini\n\n\n\nCoastal Hazards – Subsidence Monitoring with GNSS-controlled Tide Gauges in Indonesia\n\nJ. Illigner\n\n\n\nDetection of Thermospheric Density Variations via Spacecraft Accelerations Observed Using the CASSIOPE GAP Instrument: Initial Investigations\n\nR. Langley\n\n\n\nFY3C onboard GPS/BDS observation quality assessment and precise orbit determination\n\nW. Li\n\n\n\nEGSIEM: scientific combination service for monthly gravity fields\n\nU. Meyer\n\n\n\nGPS-based LEO orbit determination with carrier phase cycle slip fixing over long data gaps\n\nG. Michalak\n\n\n\nDetermination of Kinematics of Central Marmara Fault Using with GPS\n\nV. Özbey\n\n\n\nEnhancing the reliability of GNSS network solutions: Key Performance Indicators and decision models in the new tool “ROBER”\n\nE. Pottiaux\n\n\n\nGGOS Focus Area 3: Understanding and Forecasting Sea-Level Rise and Variability\n\nT. Schöne\n\n\n\nThe use of ITRF velocity field in testing GIA models\n\nK. Vardić\n\n\n\nGNSS Clock Interpolation Impacts on Radio Occultation Bending Angle Retrieval\n\nJ. Weiss\n\n\n\nGNSS on Glaciers – Continuous Monitoring of a Glacier Lake Outburst Flood\n\nC. Zech\n\n\n\n  \n\n  \n\nPS03 – Antennas & Biases – Florian Dilssner\, Stefan Schaer\n\n\n\n \n\n\n\nGroup delay variations of GPS satellite antennas and their temporal stability\n\nS. Beer\n\n\n\nA new 6-axis robot for absolute antenna calibration at the US National Geodetic Survey\n\nA. Bilich\n\n\n\nStudy of satellite dependency of phase biases between receivers and between signals\n\nM. Håkansson\n\n\n\nSignal tracking analysis of (non) multi frequency GNSS antennas\n\nH. Huisman\n\n\n\nDetermining GNSS Phase Biases by Common Clock Approaches\n\nT. Kersten\n\n\n\n  \n\n  \n\nPS04 – Troposphere & Ionosphere – Sharyl Byram\, Andrzej Krankowski\n\n\n\n \n\n\n\nIGS FInal Troposphere Product Update\n\nS. Byram\n\n\n\nAdaptability of GPS BDS Broadcast Ionospheric Models to Solar Activity\n\nN. Cheng\n\n\n\nOptimal estimation of GNSS PWV over the Korean Peninsula and its applications\n\nJ. Cho\n\n\n\nIntercomparison of PWV from MODIS\, radiosonde and GPS at Ankara TUSAGA-Active station\n\nI. Deniz\n\n\n\nAn innovative procedure for 2D PWV monitoring on a wide and orographically complex area with existing infrastructures\n\nI. Ferrando\n\n\n\nTowards precise GNSS tropospheric modeling with TOMION Software\n\nV. Graffigna\n\n\n\nImpact of severe geomagnetic disturbances on GPS precise positioning\n\nS. Irk\n\n\n\nCurrent status and future of ground-based GNSS-meteorology in Europe\n\nJ. Jones\n\n\n\nAnalysis of tropospheric structure from multi-station PPP-analysis\n\nF. Kube\n\n\n\nValidation of the performance of GIM from the new IGS Ionospheric Associate Analysis Center in China\n\nZ. Li\n\n\n\nReal-time cycle slip detection and repair in multi-GNSS\, multi-frequency data processing : Part 2\n\nS. Melachroinos\n\n\n\nNear-Real Time Zenith Total Delay Estimation System Using GPS with Precise Point Positioning Strategy in Australian Region\n\nM. Moore\n\n\n\nHomogenization of the water vapour time series using the penalized maximal t test modified to account for first-order autoregressive noise\n\nT. Ning\n\n\n\nPreliminary analysis of a method to improve the initial conditions of the ionosphere for ionospheric tomography\n\nF. Prol\n\n\n\nThe Influence of Stochastic Processes on the Significance of Zenith Wet Delay Trends\n\nN. Teferle\n\n\n\nDeveloping a new ionosphere activity index to monitor the ionospheric irregularities with multi-GNSS observations\n\nN. Wang\n\n\n\nSome aspects of improving precision of ionospheric modeling\n\nW. Xie\n\n\n\n  \n\n  \n\nPS05 – Infrastructure\, Data Centers & Formats – Nacho Romero\, Carey Noll\, Ken MacLeod\n\n\n\n \n\n\n\nGNSS in a Spectrum-Challenged Future: Adjacent Band Interference Impacts on High-Precision GNSS Receiver Performance\n\nF. Blume\n\n\n\nGPS/GNSS Data and Metadata Services at the UNAVCO Data Center: Progress on RINEX3 Data Access and IGS Site Log XML Implementation\n\nF. Boler\n\n\n\nTowards GNSS Services – The new Data Monitoring Center of the GFZ\n\nM. Bradke\n\n\n\nImproved Monitoring of GNSS Station Performance at the EPN Central Bureau\n\nC. Bruyninx\n\n\n\nReinforcing the U.S. National GNSS Reference Network\n\nK. Choi\n\n\n\nActivities at the CODE Analysis Center\n\nR. Dach\n\n\n\nGNSS data quality control with G-Nut/Anubis in large research infrastructures\n\nJ. Dousa\n\n\n\nGNSS Data Availability of the Sentinels Satellites\n\nJ. Fernandez\n\n\n\nScreening\, Monitoring and Processing GNSS Data and Products at BKG\n\nM. Goltz\n\n\n\nGFZRNX – RINEX GNSS Data Conversion an Manipulation Toolbox\n\nT. Nischan\n\n\n\nAn Update on the CDDIS IGS Global Data Center\n\nC. Noll\n\n\n\nSONEL: Evolutions of the TIGA GNSS@TG Data Center\n\nE. Prouteau\n\n\n\nESOC Station Network Status and Progress\n\nN. Romero\n\n\n\nReal-time streaming from the cloud – Geoscience Australia’s data centre migration to Amazon Web Services\n\nR. Ruddick\n\n\n\nAvailability and Completeness of IGS Tracking Data\n\nS. Schaer\n\n\n\nmagicGNSS web service: 8 years of lessons learned from the GNSS Community\n\nG. Tobias\n\n\n\nGNSS Quality Control Improvements and Provider Performance Tracking at the Crustal Dynamics Data Information System (CDDIS)\n\nJ. Woo\n\n\n\n  \n\n  \n\nPS06 – Real-time – Axel Rülke\, Loukis Agrotis\n\n\n\n \n\n\n\nIGS Real Time Service Status\n\nL. Agrotis\n\n\n\nReal-Time Data and Product Performance Metrics at NASA GSFCG CDDIS\n\nS. Blevins\n\n\n\nFully populated Variance Covariance Matrices and the float ambiguity solution – Real Time Kinematic applications\n\nK. Gael\n\n\n\nAn Efficient Solution of Real-Time GNSS Data Processing and its application in satellite clock estimation\n\nS. Gu\n\n\n\nGPS\, GLONASS\, Galileo and BeiDou real-time products validation\n\nK. Kazmierski\n\n\n\nGNSS CORS and Network-RTK service in Korea\n\nH. Kim\n\n\n\nmagicGNSS’ contribution to IGS’ Real Time Service\n\nG. Tobias\n\n\n\nResearch on Real-time Precise Point Positioning Algorithm Based on Broadcast Ephemeris and Global Reference Network\n\nF. Ye\n\n\n\nUCAR COSMIC Support and Contribution to IGS RTS\n\nY. Yoon\n\n\n\n  \n\n  \n\nPS07 – Analysis Centers – Tom Herring\, Michael Moore\n\n\n\n \n\n\n\nUSNO Analysis Center Update\n\nS. Byram\n\n\n\nActivities at the CODE Analysis Center\n\nR. Dach\n\n\n\nIGS Analysis Center at GFZ: Activities and Developments\n\nB. Männel\n\n\n\nStatus and Future Plans at the JPL IGS Analysis Center\n\nD. Murphy\n\n\n\nEnsuring a smooth operational transition from GIPSY-OASIS to GipsyX: product verification and validation overview\n\nA. Sibois\n\n\n\nGlobal GNSS processing based on the raw observation approach\n\nS. Strasser\n\n\n\nComparing NGS Repro2 Solutions to IGS Repro2 (IGS14) products\n\nS. Yoon\n\n\n\n  \n\n  \n\nPS08 – Orbit modelling – Marek Ziebart\, Flavien Mercier\n\n\n\n \n\n\n\nGNSS orbit validation using SLR observations at CODE\n\nA. Grahsl\n\n\n\nA new yaw attitude algorithm for BDS MEO and IGSOs\n\nS. Melachroinos\n\n\n\nNumerical Simulation of the full 1st-orderPost Newtonian Corrections for the GPS and GLONASS satellites\n\nK. Roh\n\n\n\nValidating EGSIEM Reprocessing Products by LEO POD and PPP\n\nA. Sušnik\n\n\n\n  \n\n  \n\nPS09 – Reference Frame – Paul Rebischung\, Zuheir Altamimi\n\n\n\n \n\n\n\nAliasing Effects of Short-Period Errors in GNSS Time Series\n\nK. Abraha\n\n\n\nEvaluation of ITRF2014 Solutions\n\nR. Dach\n\n\n\nOptical Inter-Satellite Links for Global Navigation Satellite Systems\n\nM. Stetter\n\n\n\n  \n\n  \n\nPS10 – Timing – Gérard Petit\, Michael Coleman\n\n\n\n \n\n\n\nGPS-BEIDOU time transfer comparisons\n\nS. Junqueira\n\n\n\nExperimental research on BeiDou time transfer using the NIM made GNSS time and frequency receivers at the BIPM in Euro-Asia link\n\nK. Liang\n\n\n\n\n\n\n\n\n\n\n\n\n[/vc_tta_section][vc_tta_section title=”Participants” tab_id=”participants”][vc_column_text]IGS Workshop 2017 Participants[/vc_column_text][/vc_tta_section][vc_tta_section title=”Videos” tab_id=”videos”][vc_column_text] \nVideos\n[/vc_column_text][vc_raw_html]JTNDZGl2JTIwY2xhc3MlM0QlMjJ2aWRlb1dyYXBwZXIlMjIlM0UlMEElMjAlMjAlM0NpZnJhbWUlMjB3aWR0aCUzRCUyMjU2MCUyMiUyMGhlaWdodCUzRCUyMjM0OSUyMiUyMHNyYyUzRCUyMmh0dHBzJTNBJTJGJTJGd3d3LnlvdXR1YmUuY29tJTJGZW1iZWQlMkZ2aWRlb3NlcmllcyUzRmxpc3QlM0RQTDdteEZOLXdtLTZadDQycmZISFkzelFVdXZob1RLYi1lJTIyJTIwZnJhbWVib3JkZXIlM0QlMjIwJTIyJTIwYWxsb3dmdWxsc2NyZWVuJTNFJTNDJTJGaWZyYW1lJTNFJTBBJTNDJTJGZGl2JTNF[/vc_raw_html][/vc_tta_section][/vc_tta_tabs][/vc_column][/vc_row]
URL:https://igs.org/event/igs-workshop-2017/
LOCATION:University of Paris-Diderot\, 15 Rue Hélène Brion\, Paris\, Paris-13E-Arrondissement\, 75013\, France
CATEGORIES:IGS Workshops
ATTACH;FMTTYPE=image/png:https://igs.org/wp-content/uploads/2020/08/workshop2017-presents.png
ORGANIZER;CN="International GNSS Service":MAILTO:CB@igs.org
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