NetCDF DWI.nc {

dimensions:
	time = 46 ;
	alongshore = 2178 ;
	depthzone = 6 ;
	stringsize = 100 ;

variables:
	// Preference 'PRESERVE_FVD':  false,
	// dimensions consistent with ncBrowse, not with native MATLAB netcdf package.
	int32 epsg([]), shape = [1]
		epsg:grid_mapping_name = "Oblique Stereographic" 
		epsg:semi_major_axis = 6.3774e+006 
		epsg:semi_minor_axis = 6.35608e+006 
		epsg:inverse_flattening = 299.153 
		epsg:latitude_of_projection_origin = 52.0922 
		epsg:longitude_of_projection_origin = 5.23155 
		epsg:false_easting = 155000 
		epsg:false_northing = 463000 
		epsg:scale_factor_at_projection_origin = 0.999908 
		epsg:comment = "value is equal to EPSG code" 
	int32 id(alongshore), shape = [2178]
		id:long_name = "identifier" 
		id:comment = "sum of area code (x1000000) and alongshore coordinate" 
	int32 areacode(alongshore), shape = [2178]
		areacode:long_name = "area code" 
		areacode:comment = "codes for the 15 coastal areas as defined by rijkswaterstaat" 
	char areaname(alongshore,stringsize), shape = [2178 100]
		areaname:long_name = "area name" 
		areaname:comment = "names for the 15 coastal areas as defined by rijkswaterstaat" 
	double alongshore(alongshore), shape = [2178]
		alongshore:long_name = "alongshore coordinate" 
		alongshore:units = "m" 
		alongshore:comment = "alongshore coordinate within the 15 coastal areas as defined by rijkswaterstaat" 
	double time(time), shape = [46]
		time:standard_name = "time" 
		time:axis = "T" 
		time:units = "days since 1970-01-01 00:00 +1:00" 
		time:comment = "measurement year" 
	int32 upper_boundary(depthzone), shape = [6]
		upper_boundary:long_name = "Upper boundary of depth zone" 
		upper_boundary:units = "m" 
		upper_boundary:comment = "Depth relative to NAP" 
	int32 lower_boundary(depthzone), shape = [6]
		lower_boundary:long_name = "Lower boundary of depth zone" 
		lower_boundary:units = "m" 
		lower_boundary:comment = "Depth relative to NAP" 
	double landward_boundary(time,alongshore,depthzone), shape = [46 2178 6]
		landward_boundary:long_name = "Landward boundary of depth zone" 
		landward_boundary:units = "m" 
		landward_boundary:comment = "Distance from RSP to upper boundary" 
	double seaward_boundary(time,alongshore,depthzone), shape = [46 2178 6]
		seaward_boundary:long_name = "Seaward boundary of depth zone" 
		seaward_boundary:units = "m" 
		seaward_boundary:comment = "Distance from RSP to lower boundary" 
	double horizontal_volume(time,alongshore,depthzone), shape = [46 2178 6]
		horizontal_volume:long_name = "Volume between upper and lower boundaries" 
		horizontal_volume:units = "m3/m" 
		horizontal_volume:comment = "Volume between upper and lower boundaries" 
	double horizontal_volume_rsp(time,alongshore,depthzone), shape = [46 2178 6]
		horizontal_volume_rsp:long_name = "Distcance to volume between upper and lower boundaries" 
		horizontal_volume_rsp:units = "m" 
		horizontal_volume_rsp:comment = "Sum of landwardboundary and normalised volume (divided by upper-lower boundary)" 
	double horizontal_volume_x(time,alongshore,depthzone), shape = [46 2178 6]
		horizontal_volume_x:long_name = "Position of volume in RD: x" 
		horizontal_volume_x:units = "m" 
		horizontal_volume_x:comment = "Position of volume in RD: x" 
	double horizontal_volume_y(time,alongshore,depthzone), shape = [46 2178 6]
		horizontal_volume_y:long_name = "Position of volume in RD: y" 
		horizontal_volume_y:units = "m" 
		horizontal_volume_y:comment = "Position of volume in RD: y" 
	double horizontal_volume_lat(time,alongshore,depthzone), shape = [46 2178 6]
		horizontal_volume_lat:long_name = "Position of volume in WGS84: lat" 
		horizontal_volume_lat:units = "degrees_west" 
		horizontal_volume_lat:comment = "Position of volume in WGS84: lat" 
	double horizontal_volume_lon(time,alongshore,depthzone), shape = [46 2178 6]
		horizontal_volume_lon:long_name = "Position of volume in WGS84: lon" 
		horizontal_volume_lon:units = "degrees_east" 
		horizontal_volume_lon:comment = "Position of volume in WGS84: lon" 
	double vertical_volume(time,alongshore,depthzone), shape = [46 2178 6]
		vertical_volume:long_name = "Volume between landward and seaward boundaries" 
		vertical_volume:units = "m3/m" 
		vertical_volume:comment = "Reference level is lower boundary" 
	double vertical_volume_rsp(time,alongshore,depthzone), shape = [46 2178 6]
		vertical_volume_rsp:long_name = "Distcance to volume between landward and seaward boundaries" 
		vertical_volume_rsp:units = "m" 
		vertical_volume_rsp:comment = "Sum of landwardboundary and normalised volume (divided by uB_vVolume-reference)" 
	double vertical_volume_x(time,alongshore,depthzone), shape = [46 2178 6]
		vertical_volume_x:long_name = "Position of volume in RD: x" 
		vertical_volume_x:units = "m" 
		vertical_volume_x:comment = "Position of volume in RD: x" 
	double vertical_volume_y(time,alongshore,depthzone), shape = [46 2178 6]
		vertical_volume_y:long_name = "Position of volume in RD: y" 
		vertical_volume_y:units = "m" 
		vertical_volume_y:comment = "Position of volume in RD: y" 
	double vertical_volume_lat(time,alongshore,depthzone), shape = [46 2178 6]
		vertical_volume_lat:long_name = "Position of volume in WGS84: lat" 
		vertical_volume_lat:units = "degrees_west" 
		vertical_volume_lat:comment = "Position of volume in WGS84: lat" 
	double vertical_volume_lon(time,alongshore,depthzone), shape = [46 2178 6]
		vertical_volume_lon:long_name = "Position of volume in WGS84: lon" 
		vertical_volume_lon:units = "degrees_east" 
		vertical_volume_lon:comment = "Position of volume in WGS84: lon" 
	double vertical_volume_upperboundary(time,alongshore,depthzone), shape = [46 2178 6]
		vertical_volume_upperboundary:long_name = "Depth at landward boundary" 
		vertical_volume_upperboundary:units = "m" 
		vertical_volume_upperboundary:comment = "Depth relative to NAP" 

//global Attributes:
		:title = "deep water indicators" 
		:institution = "Rijkswaterstaat" 
		:source = "on shore measurements" 
		:history = "Data processed from Jarkus database, created on 31-Oct-2011 09:20:04" 
		:references = "original source: http://www.rijkswaterstaat.nl , Deltares storage: http://opendap.deltares.nl/thredds/dodsC/opendap/rijkswaterstaat/jarkus/ , converted with script DWI2nc.m" 
		:Conventions = "CF-1.5" 
		:spatial_ref = "COMPD_CS["Amersfoort / RD New + NAP",PROJCS["Amersfoort / RD New",GEOGCS["Amersfoort",DATUM["Amersfoort",SPHEROID["Bessel 1841",6377397.155,299.1528128,AUTHORITY["EPSG","7004"]],TOWGS84[565.04,49.91,465.84,-0.40939438743923684,-0.35970519561431136,1.868491000350572,0.8409828680306614],AUTHORITY["EPSG","6289"]],PRIMEM["Greenwich",0.0,AUTHORITY["EPSG","8901"]],UNIT["degree",0.017453292519943295],AXIS["Geodetic latitude",NORTH],AXIS["Geodetic longitude",EAST],AUTHORITY["EPSG","4289"]],PROJECTION["Oblique Stereographic",AUTHORITY["EPSG","9809"]],PARAMETER["central_meridian",5.387638888888891],PARAMETER["latitude_of_origin",52.15616055555556],PARAMETER["scale_factor",0.9999079],PARAMETER["false_easting",155000.0],PARAMETER["false_northing",463000.0],UNIT["m",1.0],AXIS["Easting",EAST],AXIS["Northing",NORTH],AUTHORITY["EPSG","28992"]],VERT_CS["Normaal Amsterdams Peil",VERT_DATUM["Normaal Amsterdams Peil",2005,AUTHORITY["EPSG","5109"]],UNIT["m",1.0],AXIS["Gravity-related height",UP],AUTHORITY["EPSG","5709"]],AUTHORITY["EPSG","7415"]]" 
		:reference_year = 1990 

}