These data were collected as part of GNSS-A operations on the Cascadia Subduction Zone, and can provide estimates of crustal deformation rates along the plate boundary. The data were collected on missions starting in 2016 by a remotely-operated Wave Glider system. The Wave Glider collects GNSS data while ranging to an array of seafloor transponders. All of the GNSS-A sites are located on the accretionary prism. The bcsonardyne files are in ASCII format and contain raw two-way acoustic travel time between the Wave Glider transducer and the seafloor transponders.The file names identify the site, date, time and Wave Glider ID. The data files were generated with NSF funding as part of the projects called Constraining Slip Distribution of the Cascadia Subduction Zone Offshore Central Oregon with Seafloor Geodesy; and, Assessing the State of Locking on the Frontal Thrust of the Cascadia Subduction Zone With Seafloor Geodesy.

These data were collected as part of GNSS-A operations on the Cascadia Subduction Zone, and can provide estimates of crustal deformation rates along the plate boundary. The data were collected on missions starting in 2016 by a remotely-operated Wave Glider system. The Wave Glider collects GNSS data while ranging to an array of seafloor transponders. All of the GNSS-A sites are located on the accretionary prism. These files provide the site coordinates, transponder IDs, Wave Glider transducer-antenna offsets, sensor models, file descriptions, and other documentation related to a Wave Glider mission and GNSS-A site. The file names identify the site, year and Wave Glider ID. The data files were generated with NSF funding as part of the projects called Constraining Slip Distribution of the Cascadia Subduction Zone Offshore Central Oregon with Seafloor Geodesy; and, Assessing the State of Locking on the Frontal Thrust of the Cascadia Subduction Zone With Seafloor Geodesy.

This CTD data set was collected as part of GNSS-A operations on the Cascadia Subduction Zone. Sound velocity profiles derived from the CTD data may be used as a reference model for calculating the two-way travel time when ranging to the seafloor transponders. The original CTD data files were acquired during UNOLS cruises AT26-20 (2014) and RR1808 (2018), when the seafloor transponder arrays were first deployed. The data files presented here are derived from those CTD data, are in ASCII format and provide processed sound velocity data near each GNSS-A array. The file names identify the site and crusie ID. The data files were generated with NSF funding as part of the projects called Constraining Slip Distribution of the Cascadia Subduction Zone Offshore Central Oregon with Seafloor Geodesy; and, Assessing the State of Locking on the Frontal Thrust of the Cascadia Subduction Zone With Seafloor Geodesy.

These data were collected as part of GNSS-A operations on the Cascadia Subduction Zone, and can provide estimates of crustal deformation rates along the plate boundary. The data were collected on missions starting in 2016 by a remotely-operated Wave Glider system. The Wave Glider collects GNSS data while ranging to an array of seafloor transponders. All of the GNSS-A sites are located on the accretionary prism. The bcnovatel files are in ASCII format and contain raw inertial navigation system navigational data from the Wave Glider. The file names identify the site, date, time and Wave Glider ID. The data files were generated with NSF funding as part of the projects called Constraining Slip Distribution of the Cascadia Subduction Zone Offshore Central Oregon with Seafloor Geodesy; and, Assessing the State of Locking on the Frontal Thrust of the Cascadia Subduction Zone With Seafloor Geodesy.

These data were collected as part of GNSS-A operations on the Cascadia Subduction Zone, and can provide estimates of crustal deformation rates along the plate boundary. The data were collected on missions starting in 2016 by a remotely-operated Wave Glider system. The Wave Glider collects GNSS data while ranging to an array of seafloor transponders. All of the GNSS-A sites are located on the accretionary prism. The RINEX files are in ASCII format and contain raw pseudoranges collected by the GNSS antenna aboard the Wave Glider. The data were extracted from the bcnovatel files, and reformatted in RINEX. The file names identify the site, date, time and Wave Glider ID. The data files were generated with NSF funding as part of the projects called Constraining Slip Distribution of the Cascadia Subduction Zone Offshore Central Oregon with Seafloor Geodesy; and, Assessing the State of Locking on the Frontal Thrust of the Cascadia Subduction Zone With Seafloor Geodesy.

This data set was acquired with Kongsberg Maritime EM302 Multibeam Sonar during R/V Thomas G. Thompson expedition TN311 conducted in 2014 (Chief Scientist: Dr. C. David Chadwell, Investigators: Dr. C. David Chadwell, James Gibson). These data files are of NetCDF Grid format and include Swath Bathymetry data that were processed after acquisition.

This data set was acquired with Kongsberg Maritime EM302 Multibeam Sonar during R/V Thomas G. Thompson expedition TN311 conducted in 2014 (Chief Scientist: Dr. C. David Chadwell, Investigators: Dr. C. David Chadwell, James Gibson). These data files are of MBSystem-compatible format and include Acoustic Backscatter and Swath Bathymetry data that were processed after acquisition.