New Type of SLC Detection Model - 4

Fig. 1 GeoZones "aa"-"br'

I have some good news about the new sea level rise (SLR) and sea level fall (SLF) software model.

The aggregation logic is working to combine all of the tide gauge stations in a geoZone ("aa" - "br") into two groups.

The two groups are either the SLF or SLR type, all aggregated into one of two mean seal level sub-groups.

The logic prior to this had only labelled a tide gauge station as either SLF or SLR.

Fig. 2

The model back then did no work on them, but now aggregation logic is in place, and I can graph any GeoZone on one graph, as an SLF track and an SLR track (Fig. 2 and Fig. 3).

It shows both the SLF and SLR over the years and shows SLF in red, SLR in black (Fig. 2, and Fig. 3).

Even better, I have the future projection software working with the aggregation logic, although it is not yet perfected (maybe tomorrow).

Fig. 3

Which means that the aggregation logic (after having aggregated all the historical sea level values for all tide gauge stations on the planet that are PSMSL into one array) can hand it off the the future projection logic.

Fig. 4 An "SLR only" GeoZone

The future projection logic uses that historical data, as well as the multi-value doubling logic, to project the SLR and/or SLF data out to the year 2100.

See Fig. 4, which among other things, shows where the future projection graph attaches.

It will all (historical & future) still be on one graph.

As you can only give a couple of examples today, but hang on, because some very interesting revelations are on the way.

A final note about PSMSL.

The values are in RLR millimeters, as you can see on the graphs, so read up on RLR millimeters if you haven't yet (About RLR millimeters).

Figure shows the basic idea, which is, RLR millimeters are 7000mm below global mean sea level (it is explained in the link I just gave).

As I understand it.

So in Fig. 4 there is a global mean sea level line at the 7000mm mark.

Anything above the 7000mm line is above the global mean sea level average, and anything below it is below the global mean sea level average.

Anyway, tomorrow I hope to print some graphs with the future SLF and SLR projections on it, as a continuance added to the end of the historical record.

In conclusion, I see the SLC GeoZones as a high level monitoring tool, the sub-zones SLF and SLR as closer monitoring, and when necessary, the individual tide gauge stations as the closest monitoring.