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User manual: replace heatmap comparison graphic
The new heatmap graphic reflects how the heatmap is now displayed. Also update text describing graphic. Signed-off-by: Rick Walsh <rickmwalsh@gmail.com> Signed-off-by: Dirk Hohndel <dirk@hohndel.org>
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@ -2430,10 +2430,19 @@ http://www.tek-dive.com/portal/upload/M-Values.pdf[Understanding M-values by Eri
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Since the colours of the heat map are not affected by the gradient factor(s), the heat map is also
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applicable when using the VPM-B decompression model.
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The image below shows the profiles and heat maps for two dives to about 45m.
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The inert gas pressures in the fast tissues
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rise much more rapidly, going through the sequence from light blue to light green and orange.
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In contrast, the slow tissues accumulate inert gas at a much slower rate.
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The image below compares the profiles and heat maps for two planned decompression dives to 60m:
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the first using the Bühlmann decompression model, the second using the VPM-B decompression model.
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Both profiles have the same total decompression time, but the VPM-B model requires deeper stops early in the acent phase.
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In both profiles, the inert gas pressures in the faster tissues rise much more rapidly than the slower tissues during
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the descent and bottom phase, with the colors transitioning from light blue through blue and purple to black.
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Similarly, the inert gas pressure in the fast tissues reduces more rapidly than the slow tissues at each decompression stop,
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with colors transitioning from red, orange and yellow to green and black.
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The comparison of the two profiles and heatmaps shows that by including deep stops, the oversaturation gradient in the
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faster tissues early in ascent phase is reduced.
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However, on-gassing of slower tissues continues during the deep stops, which leads to greater oversaturation gradient
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in slower tissues at the end of the dive.
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image::images/tissueHeatmap.jpg["Figure: Inert gas tissue pressure heat-map",align="center"]
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===================================================================================
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