bat_mif.faq.html

Frequently-anticipated questions:

• What does this data set describe
  1. How should this data set be cited
  2. What geographic area does the data set cover
  3. What does it look like
  4. Does the data set describe conditions during a particular time period
  5. What is the general form of this data set
  6. How does the data set represent geographic features
  7. How does the data set describe geographic features
• Who produced the data set
  1. Who are the originators of the data set
  2. Who also contributed to the data set
  3. To whom should users address questions about the data
• Why was the data set created
• How was the data set created
  1. From what previous works were the data drawn
  2. How were the data generated, processed, and modified
  3. What similar or related data should the user be aware of
• How reliable are the data; what problems remain in the data set
  1. How well have the observations been checked
  2. How accurate are the geographic locations
  3. How accurate are the heights or depths
  4. Where are the gaps in the data What is missing
  5. How consistent are the relationships among the data, including topology
• How can someone get a copy of the data set
  1. Are there legal restrictions on access or use of the data
  2. Who distributes the data
  3. What's the catalog number I need to order this data set
  4. What legal disclaimers am I supposed to read
  5. How can I download or order the data
• Who wrote the metadata

What does this data set describe

1. How should this data set be cited

   Sagy, Yael, and Finlayson, David, 2007, bat_mid - Sidescan sonar bathymetry image of the entier region : USGS Data Series 320-XXXX (publication in process), U.S. Geological Survey, Santa Cruz, CA.

   Online Links:

   • <URL:https://pubs.usgs.gov/ds/320)>

2. What geographic area does the data set cover

   West_Bounding_Coordinate: -123.636582

   East_Bounding_Coordinate: -123.542726

   North_Bounding_Coordinate: 48.170833

   South_Bounding_Coordinate: 48.136590

3. What does it look like

4. Does the data set describe conditions during a particular time period

   Beginning_Date: 15-Mar-2005

   Ending_Date: 31-Mar-2005

   Currentness_Reference: Ground Condition

5. What is the general form of this data set

   Geospatial_Data_Presentation_Form: map

6. How does the data set represent geographic features
   1. How are geographic features stored in the data set

      This is a Raster data set. It contains the following raster data types:

      • Dimensions 3753 x 6952 x 1, type Grid Cell

   2. What coordinate system is used to represent geographic features

      Grid_Coordinate_System_Name: Universal Transverse Mercator

      Universal_Transverse_Mercator:

      UTM_Zone_Number: 10

      Transverse_Mercator:

      Scale_Factor_at_Central_Meridian: 0.999600

      Longitude_of_Central_Meridian: -123.000000

      Latitude_of_Projection_Origin: 0.000000

      False_Easting: 500000.000000

      False_Northing: 0.000000

      Planar coordinates are encoded using row and column
      Abscissae (x-coordinates) are specified to the nearest 1.000000
      Ordinates (y-coordinates) are specified to the nearest 1.000000
      Planar coordinates are specified in meters

      The horizontal datum used is D_WGS_1984.
      The ellipsoid used is WGS_1984.
      The semi-major axis of the ellipsoid used is 6378137.000000.
      The flattening of the ellipsoid used is 1/298.257224.
      

7. How does the data set describe geographic features

Who produced the data set

1. Who are the originators of the data set (may include formal authors, digital compilers, and editors)
   • Yael Sagy
   • David Finlayson

2. Who also contributed to the data set

   The authors would like to thank, Larry Kooker, Mike Boyle, Gerry Hatcher, Dave Hogg, and Hank Chezar at the USGS Marine Facility (Redwood City, CA) contributed field support and logistical support. Andrew Stevenson from the USGS Coastal and Marine Program. The R/V Karluk was piloted by Katherine Peet from NOAA.
   

3. To whom should users address questions about the data
   Guy R. Cochrane
   United States Geological Survey (USGS) Coastal and Marine Geology Program (CMGP)
   Geophysicist
   USGS, 400 Natural Bridges Drive
   Santa Cruz, CA 95060-5792
   USA
   

   (831) 427-4754 (voice)
   (831) 427-4748 (FAX)
   gcochrane@usgs.gov
   

Why was the data set created

These data are intended for science researchers, students, policy
makers, and the general public. The data can be
used with geographic information systems (GIS) software
to display geologic and oceanographic information.

How was the data set created

1. From what previous works were the data drawn

2. How were the data generated, processed, and modified

   Date: 09-Sep-2006 (process 1 of 3)

   The following processing steps were applied in the same manner to all of the three bathymetry grids: bat_east, bat_mid, and bat_west. Started with .sxr files that were the output from A 234 kHz Interferometric Submetrix
   Sonar System. We used Swath Processor (SEA SWATH_Plus) to process the sonar data. The .sxr files were imported into SEA SWath Processor, inserting adjustments and offset information such as ship's motion, tides, velocity of sound profiles, and relative sensor positions. Lines were processed one by one and filter parameters were adjusted for each area and julian date that the data was collected. The output is a .txt file that was leter on grided and converted to an ESRGRID using Grid Processor and DMAgic softwares. In the following we describe all the parameters used in Swath Processor listed by area and Julian date (in output file format choose ASCII file and Attitude and Position):
   EdizHook Day 03.15.2005 (Julian day 74); Bathy filters; Low-Amp = 20000, Range; Near Range (Max. Amplitude) = 3 m, Near Range (Min. Amplitude) = 5 m, Phase Confidence = 50 %, Phase Smooth; Number of Points = 3, Angle Proximity; Window = 25, Range = 0.1, threshold = 7, Minimum elevation = -90 degree, Box; Min. Depth = 2 m, Max. Depth = 90 m, Median; Sample Window size = 3, Along track 1; Max. Depth Difference = 3 m, Window Size = 2 m, Learn Rate = 0.6, Along track 2; Learn Rate = 0.6, Mean; Window size = 1 m. Set Filters; Approximate water Depth = 15 m, Maximum Range Required = 251 m, Seabed Variation = Flat, Filter Level = Light. Speed of sound; SOS Form; SOS table, Use of SOS Table; Full ray tracing, Default SOS; 1481. 1; Position; 467555 E 5332648 N, Time (HMS); 18;20;0, DMY; 15.3.2005.
   Day 03.16.2005 (Julian day 75); Bathy filters; Low-Amp = 110, Range; Near Range (Max. Amplitude) = 2 m, Near Range (Min. Amplitude) = 5 m, Phase Confidence = 50 %, Phase Smooth; Number of Points = 3, Angle Proximity; Window = 25, Range = 0.2, threshold = 7, Minimum elevation = -90 degree, Box; Min. Depth = 2 m, Max. Depth = 80 m, Median; Sample Window size = 3, Along track 1; Max. Depth Difference = 1 m, Window Size = 2 m, Learn Rate = 0.6, Along track 2; Max. Depth Difference = 0.3 m, Window Size = 2 m, Learn Rate = 0.6, Mean; Window size = 1 m. Set Filters; Approximate water Depth = 15 m, Maximum Range Required = 251 m, Seabed Variation = Flat, Filter Level = Light. Speed of sound; SOS Form; Auxiliary Port, Use of SOS Table; Full ray tracing, Default SOS; 1481. 1; Position; 467555 E 5332648 N, Time (HMS); 18;20;0, DMY; 15.3.2005.
   Day 03.19.2005 (Julian day 78); Bathy filters; Low-Amp = 110, Range; Near Range (Max. Amplitude) = 1 m, Near Range (Min. Amplitude) = 2 m, Phase Confidence = 40 %, Phase Smooth; Number of Points = 3, Angle Proximity; Window = 15, Range = 0.1, threshold = 5, Minimum elevation = -90 degree, Box; Min. Depth = 1 m, Max. Depth = 25 m, Min. Horiz. Range = 0 m, Max. Horiz. Range = 80 m, Median; Sample Window size = 3, Along track 1; Max. Depth Difference = 3 m, Window Size = 10 m, Learn Rate = 0.6, Along track 2; Max. Depth Difference = 0.5 m, Window Size = 2 m, Learn Rate = 0.6, Mean; Window size = 1 m. Set Filters; Approximate water Depth = 5 m, Maximum Range Required = 80 m, Seabed Variation = Flat, Filter Level = Medium. Speed of sound; SOS Form; Auxiliary Port, Use of SOS Table; Full ray tracing, Default SOS; 1481. 1; Position; 455822 E 5332255 N, Time (HMS); 19;00;0, DMY; 18.3.2005. 2; Position; 456198 E 5332224 N, Time (HMS); 22;30;0, DMY; 17.3.2005. 3; Position; 465180 E 5332059 N, Time (HMS); 18;00;0, DMY; 19.3.2005.
   Day 03.21.2005 (Julian day 80); Bathy filters; Low-Amp = 110, Range; Near Range (Max. Amplitude) = 2 m, Near Range (Min. Amplitude) = 4 m, Phase Confidence = 50 %, Phase Smooth; Number of Points = 3, Angle Proximity; Window = 25, Range = 0.1, threshold = 7, Minimum elevation = -90 degree, Box; Min. Depth = 3 m, Max. Depth = 40 m, Median; Sample Window size = 3, Along track 1; Max. Depth Difference = 3 m, Window Size = 5 m, Learn Rate = 0.6, Along track 2; Max. Depth Difference = 1 m, Window Size = 2 m, Learn Rate = 0.6, Mean; Window size = 1 m. Set Filters; Approximate water Depth = 5 m, Maximum Range Required = 80 m, Seabed Variation = Flat, Filter Level = Medium. Speed of sound; SOS Form; Auxiliary Port, Use of SOS Table; Full ray tracing, Default SOS; 1481. 1; Position; 455822 E 5332255 N, Time (HMS); 19;00;0, DMY; 18.3.2005. 2; Position; 456198 E 5332224 N, Time (HMS); 22;30;0, DMY; 17.3.2005. 3; Position; 465180 E 5332059 N, Time (HMS); 18;00;0, DMY; 19.3.2005. 4; Position; 458858 E 5333511 N, Time (HMS); 18;20;0, DMY; 21.3.2005.
   Day 03.27.2005 (Julian day 86); Bathy filters; Low-Amp = 110, Range; Near Range (Max. Amplitude) = 2 m, Near Range (Min. Amplitude) = 4 m, Phase Confidence = 42 %, Phase Smooth; Number of Points = 3, Angle Proximity; Window = 5, Range = 0.3, threshold = 2, Minimum elevation = -90 degree, Box; Min. Depth = 1 m, Max. Depth = 15 m, Median; Sample Window size = 3, Along track 1; Max. Depth Difference = 2 m, Window Size = 5 m, Learn Rate = 0.6, Along track 2; Max. Depth Difference = 0.5 m, Window Size = 2 m, Learn Rate = 0.6, Mean; Window size = 1 m. Set Filters; Approximate water Depth = 5 m, Maximum Range Required = 80 m, Seabed Variation = Flat, Filter Level = Medium. Speed of sound; SOS Form; Auxiliary Port, Use of SOS Table; Full ray tracing, Default SOS; 1481. 1; Position; 454066 E 5332807 N, Time (HMS); 21;30;0, DMY; 27.3.2005.
   Elwha Day 03.17.2005 (Julian day 76); Bathy filters; Low-Amp = 100, Range; Near Range (Max. Amplitude) = 2 m, Near Range (Min. Amplitude) = 4 m, Phase Confidence = 42 %, Phase Smooth; Number of Points = 3, Angle Proximity; Window = 25, Range = 0.1, threshold = 7, Minimum elevation = -90 degree, Box; Min. Depth = 1 m, Max. Depth = 40 m, Median; Sample Window size = 3, Along track 1; Max. Depth Difference = 2 m, Window Size = 7 m, Learn Rate = 0.6, Along track 2; Max. Depth Difference = 0.5 m, Window Size = 2 m, Learn Rate = 0.6, Mean; Window size = 1 m. Set Filters; Approximate water Depth = 15 m, Maximum Range Required = 251 m, Seabed Variation = Flat, Filter Level = Light. Speed of sound; SOS Form; Auxiliary Port, Use of SOS Table; First value in table, Default SOS; 1481. 1; Position; 458233 E 5334156 N, Time (HMS); 18;50;0, DMY; 17.3.2005 (SVP 4). 2; Position; 456198 E 5332224 N, Time (HMS); 22;30;0, DMY; 17.3.2005.
   Day 03.18.2005 (Julian day 77); Bathy filters; Low-Amp = 110, Range; Near Range (Max. Amplitude) = 5 m, Near Range (Min. Amplitude) = 9 m, Phase Confidence = 42 %, Phase Smooth; Number of Points = 3, Angle Proximity; Window = 25, Range = 0.1, threshold = 3, Minimum elevation = -90 degree, Box; Min. Depth = 10 m, Max. Depth = 40 m, Median; Sample Window size = 3, Along track 1; Max. Depth Difference = 3 m, Window Size = 7 m, Learn Rate = 0.6, Along track 2; Max. Depth Difference = 0.5 m, Window Size = 2 m, Learn Rate = 0.6, Mean; Window size = 1 m. Set Filters; Approximate water Depth = 15 m, Maximum Range Required = 251 m, Seabed Variation = Flat, Filter Level = Light. Speed of sound; SOS Form; Auxiliary Port, Use of SOS Table; Full ray tracing, Default SOS; 1481. 1; Position; 455822 E 5332255 N, Time (HMS); 19;00;0, DMY; 18.3.2005.
   Day 03.19.2005 (Julian day 78); Bathy filters; Low-Amp = 110, Range; Near Range (Max. Amplitude) = 1 m, Near Range (Min. Amplitude) = 2 m, Phase Confidence = 40 %, Phase Smooth; Number of Points = 3, Angle Proximity; Window = 15, Range = 0.1, threshold = 5, Minimum elevation = -90 degree, Box; Min. Depth = 1 m, Max. Depth = 25 m, Min. Horiz. Range = 0 m, Max. Horiz. Range = 80 m, Median; Sample Window size = 3, Along track 1; Max. Depth Difference = 3 m, Window Size = 10 m, Learn Rate = 0.6, Along track 2; Max. Depth Difference = 0.5 m, Window Size = 2 m, Learn Rate = 0.6, Mean; Window size = 1 m. Set Filters; Approximate water Depth = 5 m, Maximum Range Required = 80 m, Seabed Variation = Flat, Filter Level = Medium. Speed of sound; SOS Form; Auxiliary Port, Use of SOS Table; Full ray tracing, Default SOS; 1481. 1; Position; 455822 E 5332255 N, Time (HMS); 19;00;0, DMY; 18.3.2005. 2; Position; 456198 E 5332224 N, Time (HMS); 22;30;0, DMY; 17.3.2005. 3; Position; 465180 E 5332059 N, Time (HMS); 18;00;0, DMY; 19.3.2005.
   Day 03.21.2005 (Julian day 80); Bathy filters; Low-Amp = 110, Range; Near Range (Max. Amplitude) = 2 m, Near Range (Min. Amplitude) = 4 m, Phase Confidence = 50 %, Phase Smooth; Number of Points = 3, Angle Proximity; Window = 25, Range = 0.1, threshold = 7, Minimum elevation = -90 degree, Box; Min. Depth = 3 m, Max. Depth = 40 m, Median; Sample Window size = 3, Along track 1; Max. Depth Difference = 3 m, Window Size = 5 m, Learn Rate = 0.6, Along track 2; Max. Depth Difference = 1 m, Window Size = 2 m, Learn Rate = 0.6, Mean; Window size = 1 m. Set Filters; Approximate water Depth = 5 m, Maximum Range Required = 80 m, Seabed Variation = Flat, Filter Level = Medium. Speed of sound; SOS Form; Auxiliary Port, Use of SOS Table; Full ray tracing, Default SOS; 1481. 1; Position; 455822 E 5332255 N, Time (HMS); 19;00;0, DMY; 18.3.2005. 2; Position; 456198 E 5332224 N, Time (HMS); 22;30;0, DMY; 17.3.2005. 3; Position; 465180 E 5332059 N, Time (HMS); 18;00;0, DMY; 19.3.2005. 4; Position; 458858 E 5333511 N, Time (HMS); 18;20;0, DMY; 21.3.2005.
   Day 03.25.2005 (Julian day 84); Bathy filters; Low-Amp = 110, Range; Near Range (Max. Amplitude) = 2 m, Near Range (Min. Amplitude) = 3 m, Phase Confidence = 50 %, Phase Smooth; Number of Points = 3, Angle Proximity; Window = 25, Range = 0.1, threshold = 7, Minimum elevation = -90 degree, Box; Min. Depth = 3 m, Max. Depth = 45 m, Median; Sample Window size = 3, Along track 1; Max. Depth Difference = 2 m, Window Size = 5 m, Learn Rate = 0.6, Along track 2; Max. Depth Difference = 0.5 m, Window Size = 2 m, Learn Rate = 0.6, Mean; Window size = 1 m. Set Filters; Approximate water Depth = 5 m, Maximum Range Required = 80 m, Seabed Variation = Flat, Filter Level = Medium. Speed of sound; SOS Form; Auxiliary Port, Use of SOS Table; Full ray tracing, Default SOS; 1481. 1; Position; 452746 E 5333399 N, Time (HMS); 21;00;0, DMY; 25.3.2005.
   Day 03.27.2005 (Julian day 86); Bathy filters; Low-Amp = 110, Range; Near Range (Max. Amplitude) = 2 m, Near Range (Min. Amplitude) = 4 m, Phase Confidence = 50 %, Phase Smooth; Number of Points = 3, Angle Proximity; Window = 25, Range = 0.1, threshold = 7, Minimum elevation = -90 degree, Box; Min. Depth = 1 m, Max. Depth = 15 m, Median; Sample Window size = 3, Along track 1; Max. Depth Difference = 2 m, Window Size = 5 m, Learn Rate = 0.6, Along track 2; Max. Depth Difference = 0.5 m, Window Size = 2 m, Learn Rate = 0.6, Mean; Window size = 1 m. Set Filters; Approximate water Depth = 5 m, Maximum Range Required = 80 m, Seabed Variation = Flat, Filter Level = Medium. Speed of sound; SOS Form; Auxiliary Port, Use of SOS Table; Full ray tracing, Default SOS; 1481. 1; Position; 454066 E 5332807 N, Time (HMS); 21;30;0, DMY; 27.3.2005.
   ElwhaEast Day 03.17.2005 (Julian day 76); Bathy filters; Low-Amp = 100, Range; Near Range (Max. Amplitude) = 2 m, Near Range (Min. Amplitude) = 4 m, Phase Confidence = 42 %, Phase Smooth; Number of Points = 3, Angle Proximity; Window = 25, Range = 0.1, threshold = 7, Minimum elevation = -90 degree, Box; Min. Depth = 1 m, Max. Depth = 40 m, Median; Sample Window size = 3, Along track 1; Max. Depth Difference = 2 m, Window Size = 7 m, Learn Rate = 0.6, Along track 2; Max. Depth Difference = 0.5 m, Window Size = 2 m, Learn Rate = 0.6, Mean; Window size = 1 m. Set Filters; Approximate water Depth = 15 m, Maximum Range Required = 251 m, Seabed Variation = Flat, Filter Level = Light. Speed of sound; SOS Form; Auxiliary Port, Use of SOS Table; First value in table, Default SOS; 1481. 1; Position; 458233 E 5334156 N, Time (HMS); 18;50;0, DMY; 17.3.2005 (SVP 4). 2; Position; 456198 E 5332224 N, Time (HMS); 22;30;0, DMY; 17.3.2005.
   Day 03.19.2005 (Julian day 78); Bathy filters; Low-Amp = 110, Range; Near Range (Max. Amplitude) = 1 m, Near Range (Min. Amplitude) = 2 m, Phase Confidence = 40 %, Phase Smooth; Number of Points = 3, Angle Proximity; Window = 15, Range = 0.1, threshold = 5, Minimum elevation = -90 degree, Box; Min. Depth = 1 m, Max. Depth = 25 m, Min. Horiz. Range = 0 m, Max. Horiz. Range = 80 m, Median; Sample Window size = 3, Along track 1; Max. Depth Difference = 3 m, Window Size = 10 m, Learn Rate = 0.6, Along track 2; Max. Depth Difference = 0.5 m, Window Size = 2 m, Learn Rate = 0.6, Mean; Window size = 1 m. Set Filters; Approximate water Depth = 5 m, Maximum Range Required = 80 m, Seabed Variation = Flat, Filter Level = Medium. Speed of sound; SOS Form; Auxiliary Port, Use of SOS Table; Full ray tracing, Default SOS; 1481. 1; Position; 455822 E 5332255 N, Time (HMS); 19;00;0, DMY; 18.3.2005. 2; Position; 456198 E 5332224 N, Time (HMS); 22;30;0, DMY; 17.3.2005. 3; Position; 465180 E 5332059 N, Time (HMS); 18;00;0, DMY; 19.3.2005.
   Day 03.21.2005 (Julian day 80); Bathy filters; Low-Amp = 110, Range; Near Range (Max. Amplitude) = 2 m, Near Range (Min. Amplitude) = 4 m, Phase Confidence = 50 %, Phase Smooth; Number of Points = 3, Angle Proximity; Window = 25, Range = 0.1, threshold = 7, Minimum elevation = -90 degree, Box; Min. Depth = 3 m, Max. Depth = 40 m, Median; Sample Window size = 3, Along track 1; Max. Depth Difference = 3 m, Window Size = 5 m, Learn Rate = 0.6, Along track 2; Max. Depth Difference = 1 m, Window Size = 2 m, Learn Rate = 0.6, Mean; Window size = 1 m. Set Filters; Approximate water Depth = 5 m, Maximum Range Required = 80 m, Seabed Variation = Flat, Filter Level = Medium. Speed of sound; SOS Form; Auxiliary Port, Use of SOS Table; Full ray tracing, Default SOS; 1481. 1; Position; 455822 E 5332255 N, Time (HMS); 19;00;0, DMY; 18.3.2005. 2; Position; 456198 E 5332224 N, Time (HMS); 22;30;0, DMY; 17.3.2005. 3; Position; 465180 E 5332059 N, Time (HMS); 18;00;0, DMY; 19.3.2005. 4; Position; 458858 E 5333511 N, Time (HMS); 18;20;0, DMY; 21.3.2005.
   Day 03.24.2005 (Julian day 83); Bathy filters; Low-Amp = 110, Range; Near Range (Max. Amplitude) = 2 m, Near Range (Min. Amplitude) = 4 m, Phase Confidence = 45 %, Phase Smooth; Number of Points = 3, Angle Proximity; Window = 25, Range = 0.1, threshold = 7, Minimum elevation = -90 degree, Box; Min. Depth = 3 m, Max. Depth = 30 m, Max. Horiz. Range = 60 m, Median; Sample Window size = 3, Along track 1; Max. Depth Difference = 2 m, Window Size = 5 m, Learn Rate = 0.6, Along track 2; Max. Depth Difference = 0.5 m, Window Size = 2 m, Learn Rate = 0.6, Mean; Window size = 1 m. Set Filters; Approximate water Depth = 5 m, Maximum Range Required = 80 m, Seabed Variation = Flat, Filter Level = Medium. Speed of sound; SOS Form; Auxiliary Port, Use of SOS Table; Full ray tracing, Default SOS; 1481. 1; Position; 454066 E 5332807 N, Time (HMS); 21;30;0, DMY; 24.3.2005.
   Day 03.25.2005 (Julian day 84); Bathy filters; Low-Amp = 110, Range; Near Range (Max. Amplitude) = 2 m, Near Range (Min. Amplitude) = 3 m, Phase Confidence = 50 %, Phase Smooth; Number of Points = 3, Angle Proximity; Window = 25, Range = 0.1, threshold = 7, Minimum elevation = -90 degree, Box; Min. Depth = 3 m, Max. Depth = 45 m, Median; Sample Window size = 3, Along track 1; Max. Depth Difference = 2 m, Window Size = 5 m, Learn Rate = 0.6, Along track 2; Max. Depth Difference = 0.5 m, Window Size = 2 m, Learn Rate = 0.6, Mean; Window size = 1 m. Set Filters; Approximate water Depth = 5 m, Maximum Range Required = 80 m, Seabed Variation = Flat, Filter Level = Medium. Speed of sound; SOS Form; Auxiliary Port, Use of SOS Table; Full ray tracing, Default SOS; 1481. 1; Position; 452746 E 5333399 N, Time (HMS); 21;00;0, DMY; 25.3.2005.
   Day 03.27.2005 (Julian day 86); Bathy filters; Low-Amp = 110, Range; Near Range (Max. Amplitude) = 2 m, Near Range (Min. Amplitude) = 4 m, Phase Confidence = 50 %, Phase Smooth; Number of Points = 3, Angle Proximity; Window = 25, Range = 0.1, threshold = 7, Minimum elevation = -90 degree, Box; Min. Depth = 1 m, Max. Depth = 15 m, Median; Sample Window size = 3, Along track 1; Max. Depth Difference = 2 m, Window Size = 5 m, Learn Rate = 0.6, Along track 2; Max. Depth Difference = 0.5 m, Window Size = 2 m, Learn Rate = 0.6, Mean; Window size = 1 m. Set Filters; Approximate water Depth = 5 m, Maximum Range Required = 80 m, Seabed Variation = Flat, Filter Level = Medium. Speed of sound; SOS Form; Auxiliary Port, Use of SOS Table; Full ray tracing, Default SOS; 1481. 1; Position; 454066 E 5332807 N, Time (HMS); 21;30;0, DMY; 27.3.2005.
   FreshwaterBay Day 03.24.2005 (Julian day 83); Bathy filters; Low-Amp = 110, Range; Near Range (Max. Amplitude) = 2 m, Near Range (Min. Amplitude) = 4 m, Phase Confidence = 45 %, Phase Smooth; Number of Points = 3, Angle Proximity; Window = 25, Range = 0.1, threshold = 7, Minimum elevation = -90 degree, Box; Min. Depth = 3 m, Max. Depth = 30 m, Max. Horiz. Range = 60 m, Median; Sample Window size = 3, Along track 1; Max. Depth Difference = 2 m, Window Size = 5 m, Learn Rate = 0.6, Along track 2; Max. Depth Difference = 0.5 m, Window Size = 2 m, Learn Rate = 0.6, Mean; Window size = 1 m. Set Filters; Approximate water Depth = 5 m, Maximum Range Required = 80 m, Seabed Variation = Flat, Filter Level = Medium. Speed of sound; SOS Form; Auxiliary Port, Use of SOS Table; Full ray tracing, Default SOS; 1481. 1; Position; 454066 E 5332807 N, Time (HMS); 21;30;0, DMY; 24.3.2005.
   Day 03.25.2005 (Julian day 84); Bathy filters; Low-Amp = 110, Range; Near Range (Max. Amplitude) = 2 m, Near Range (Min. Amplitude) = 3 m, Phase Confidence = 50 %, Phase Smooth; Number of Points = 3, Angle Proximity; Window = 25, Range = 0.1, threshold = 7, Minimum elevation = -90 degree, Box; Min. Depth = 3 m, Max. Depth = 45 m, Median; Sample Window size = 3, Along track 1; Max. Depth Difference = 2 m, Window Size = 5 m, Learn Rate = 0.6, Along track 2; Max. Depth Difference = 0.5 m, Window Size = 2 m, Learn Rate = 0.6, Mean; Window size = 1 m. Set Filters; Approximate water Depth = 5 m, Maximum Range Required = 80 m, Seabed Variation = Flat, Filter Level = Medium. Speed of sound; SOS Form; Auxiliary Port, Use of SOS Table; Full ray tracing, Default SOS; 1481. 1; Position; 452746 E 5333399 N, Time (HMS); 21;00;0, DMY; 25.3.2005.
   

   Date: 22-Sep-2006 (process 2 of 3)

   The .sxp files outputed from Swath Processor were imported to Grid Processor and exported as text files. Text files were imported into DMagic and exported as .asc files. Then the .asc files were imported to ArcMap and converted to an ESRIGRID format.
   
   

   Date: 30-Sep-2006 (process 3 of 3)

   In ArcGIS, The individual swath grids were mosaiced atop adjacent nearshore swaths sequentially. The nearshore side of each swath was masked to remove far-range and noisy data areas without producing gaps or exposing lower quality data in the adjacent swath when overlain on the mosaic. Mosaicing was done by manually drawing a mask around the best possible data for each line. Best possible data was determined subjectively and included the least
   no data values as possible in the overlapping areas. Where the swaths overlapped the data in the underlying deeper edge of the mosaic were overwritten by the values in the masked swath, values were not averaged where overlap occurred, to preserve data texture.
   Merging the masked lines (create a mosaic) together using Mosaic To New Raster with the option "First" such that the better lines are on top and so to avoid averaging overlapping areas (in order to preserve rugosity).
   
   
   

3. What similar or related data should the user be aware of

How reliable are the data; what problems remain in the data set

1. How well have the observations been checked

   unknown

2. How accurate are the geographic locations

   On the order of 10 meters

3. How accurate are the heights or depths

4. Where are the gaps in the data What is missing

   unknown

5. How consistent are the relationships among the observations, including topology

   Logical Consistency untested

How can someone get a copy of the data set

Are there legal restrictions on access or use of the data

Access_Constraints: None

Use_Constraints: None

1. Who distributes the data set (Distributor 1 of 1)
   United States Geological Survey (USGS) Coastal and Marine Geology Program (CMGP)
   c/o Guy R. Cochrane
   Geophysicist
   USGS, 400 Natural Bridges Drive
   Santa Cruz, CA 95060-5792
   USA
   

   (831) 427-4754 (voice)
   (831) 427-4748 (FAX)
   gcochrane@usgs.gov
   

2. What's the catalog number I need to order this data set

3. What legal disclaimers am I supposed to read

   
   Please recognize the U.S. Geological Survey (USGS) as the source of
   this information.
   
   
   Although these data have been used by the U.S. Geological Survey,
   U.S. Department of the Interior, no warranty expressed or implied
   is made by the U.S. Geological Survey as to the accuracy of the
   data.
   
   
   The act of distribution shall not constitute any such warranty,
   and no responsibility is assumed by the U.S. Geological Survey in
   the use of this data, software, or related materials.
   
   
   

4. How can I download or order the data

Who wrote the metadata

Dates:

Last modified: 2007
Last Reviewed: 2007

Metadata author:

United States Geological Survey (USGS) Coastal and Marine Geology Program (CMGP)
c/o Guy R. Cochrane
Geophysicist
USGS, 400 Natural Bridges Drive
Santa Cruz, CA 95060-5792
USA

(831) 427-4754 (voice)
(831) 427-4748 (FAX)
gcochrane@usgs.gov

Metadata standard:

FGDC Content Standards for Digital Geospatial Metadata ("CSDGM version 2") (FGDC-STD-001-1998)