Hello, I see it a bit differently. The 'area: mean time: standard_deviation' cell methods, for example, describe analytical methods that have been applied to derive the data values stored in the array. This is not the case, it seems to me, for the standard name modifiers. The presence of a standard name modifier points to, or defines, some metadata which further describes a data variable's array (either its own array, or another's via ancillary variables).
All the best, David ---- Original message from Jim Biard (09AM 26 Mar 13) > From: Jim Biard <[email protected]> > Date: Tue, 26 Mar 2013 09:14:11 -0400 > To: "[email protected]" <[email protected]> > X-Mailer: Apple Mail (2.1503) > Subject: Re: [CF-metadata] Question from NODC about interplay of standard > name modifiers, cell_methods, etc. > > This has confused and bothered me as well. There doesn't seem to be any > consistency on whether to use cell methods or standard name modifiers for the > various quality measures. Is it just that no one has requested a modifier? > > Jim Biard > Research Scholar > Cooperative Institute for Climate and Satellites > Remote Sensing and Applications Division > National Climatic Data Center > 151 Patton Ave, Asheville, NC 28801-5001 > > [email protected] > 828-271-4900 > > On Mar 26, 2013, at 8:32 AM, "Kenneth S. Casey - NOAA Federal" > <[email protected]> wrote: > > > Jonathon, > > > > Thanks. The picture is clearer now, but I think I still have a question or > > two. Let me try to summarize first, then ask the questions: > > > > Ok, so for example, we have the simple case of the variable containing the > > physical variable of sea water temperature: > > > > float t_an(time, depth, lat, lon) ; > > t_an:standard_name = "sea_water_temperature" ; > > t_an:long_name = "Objectively Analyzed Mean of Sea Water > > Temperature" ; // Expanded long_name following Steve's comment > > t_an:comment = "Objectively analyzed climatologies are the > > objectively interpolated mean fields for an oceanographic variable at > > standard depth levels for the World Ocean." ; > > t_an:cell_methods = "area: mean depth: mean time: mean" ; > > // added space between dimension and method, following Jonathan's comment > > t_an:grid_mapping = "crs" ; > > t_an:units = "degrees_celsius" ; > > t_an:FillValue = 9.96921e+36f ; > > > > And, I would point out there there are cell bounds variables as well for > > lat, lon, depth, and a climatology_bounds for climatological time (time > > axis is a climatological time axis). So, we have a standard name, plus > > cell_methods. > > > > The next case for these data is where we have a statistical value that is > > contained in the variable, but where no standard_name modifier exists? here > > is an example then for standard deviation of that sea water temperature: > > > > float t_sd(time, depth, lat, lon) ; > > t_an:standard_name = "sea_water_temperature" ; // Use the > > physical parameter's standard_name, following Jonathan's comment > > t_an:long_name = "Temporal Standard Deviation about the > > Statistical Mean Sea Water Temperature" ; // Expanded long_name following > > Steve's comment > > t_an:comment = "The temporal standard deviation about the > > statistical mean Sea Water Temperature in each grid-square at each standard > > depth level" ; // just highlighting changes compared to our existing draft > > t_an:cell_methods = "area: mean depth: mean time: > > standard_deviation" ; // sequence is correct I think, take area-depth mean > > first, then compute standard deviation over time > > t_an:grid_mapping = "crs" ; > > t_an:units = "degrees_celsius" ; > > t_an:FillValue = 9.96921e+36f ; > > > > Seems simple enough, though I do need to confirm with Tim that the variable > > is in fact a temporal standard deviation. Now the third case is where > > there exists a relevant standard_name modifier, for example, for the > > standard error of the mean: > > > > float t_se(time, depth, lat, lon) ; > > t_an:standard_name = "sea_water_temperature standard_error" > > ; // Use the physical parameter's standard_name plus modifier, following > > Jonathan's comment > > t_an:long_name = "Standard Error about the Statistical Mean > > Sea Water Temperature" ; // Expanded long_name following Steve's comment > > t_an:comment = "The standard error about the statistical > > mean Sea Water Temperature in each grid-square at each standard depth > > level" ; // just highlighting changes compared to our existing draft > > t_an:cell_methods = "area: mean depth: mean" ; // Is this > > correct?? Since we have a standard name modifier, and no cell_methods > > string for standard error? > > t_an:grid_mapping = "crs" ; > > t_an:units = "degrees_celsius" ; > > t_an:FillValue = 9.96921e+36f > > > > So, my question arises in this last example, where a standard name modifier > > exists. I guess this is the part I don't understand?. is there no > > reference to cell_methods for the time dimension in the standard error > > variable t_se? If so, why is there a standard_error standard_name modifier > > but not one for standard_deviation? > > > > Thanks, Ken > > > > > > > > On Mar 25, 2013, at 1:40 PM, Jonathan Gregory <[email protected]> > > wrote: > > > >> Dear Ken > >> > >>> Thanks for your response too (copied here? is it bad form in a listserv > >>> to consolidate responses like this?) > >> > >> I think it's convenient, myself! > >> > >>> That answer seems so easy and obvious that I wonder if I asked the > >>> question properly! I'll have to ask Tim to be sure, but I think the > >>> standard deviation is the standard deviation over time, of means > >>> generated in each time-area-depth cell. > >> > >>> But I think the question still remains about being able to use a standard > >>> name, which we would like to do of course? I am pretty sure in this > >>> example for this standard deviation variable we should NOT use > >>> sea_water_temperature for standard_name, and that it would be good if > >>> there were more standard name modifiers to choose from. If there were, > >>> perhaps we could set standard name to something like > >>> "sea_water_temperature standard_deviation". > >> > >> You *should* use sea_water_temperature as the standard_name. The > >> standard_name > >> alone is not to be regarded as the description of the metadata. It has to > >> be > >> taken in combination with cell_methods and modifiers. Maybe it seems more > >> surprising that a temporal standard deviation of sea_water_temperature has > >> sea_water_temperature for its standard name, but it's really the same kind > >> of > >> idea - i.e. a statistic - as a temporal mean or a temporal maximum, isn't > >> it. > >> Even if it was variance its standard_name would be sea_water_temperature, > >> and > >> in that case the units would be different too. > >> > >> Cheers > >> > >> Jonathan > > > > Kenneth S. Casey, Ph.D. > > Technical Director > > NOAA National Oceanographic Data Center > > 1315 East-West Highway > > Silver Spring MD 20910 > > 301-713-3272 x133 > > http://www.nodc.noaa.gov > > > > <facebook.png><RSS.png> > > > > _______________________________________________ > > CF-metadata mailing list > > [email protected] > > http://mailman.cgd.ucar.edu/mailman/listinfo/cf-metadata > > _______________________________________________ > CF-metadata mailing list > [email protected] > http://mailman.cgd.ucar.edu/mailman/listinfo/cf-metadata -- David Hassell National Centre for Atmospheric Science (NCAS) Department of Meteorology, University of Reading, Earley Gate, PO Box 243, Reading RG6 6BB, U.K. Tel : 0118 3785613 Fax : 0118 3788316 E-mail: [email protected] _______________________________________________ CF-metadata mailing list [email protected] http://mailman.cgd.ucar.edu/mailman/listinfo/cf-metadata
