Revision as of 04:19, 19 August 2023 edit WikiCleanerBot (talk \| contribs) Bots 1,007,811 edits m v2.05b - Bot T20 CW#61 - Fix errors for CW project (Reference before punctuation) Tag: WPCleaner ← Previous edit		Revision as of 20:12, 20 August 2023 edit undo Alain Foret (talk \| contribs) 211 edits →Gradient factors (GF) Next edit →
Line 304: User input of [[gradient factor]]s is sometimes available for planning and real time applications. Gradient factors are a calculation trick (Erik C. Baker) ~~consisting~~that inconsists of taking a percentage of each M-Value (e.g. 90%) in order to increase conservatism (shorter duration without mandatory stops, longer and/or deeper stops) by reducing the maximum ~~quantity~~amount of neutral (inert) gas (e.g. nitrogen) accepted when approaching surface (Maximum Value of each tissue compartment at... 9 m, 6 m, 3 m, surface).<ref name="Foret-1" />. It is generally possible to define two GFs: GFlow and GFhigh. GFlow applies to the first (deepest) stop, GFhigh to the last stop (closest to the surface). Any intermediate GFs (between GFlow and GFhigh) are calculated by linear interpolation. Line 310: For dives without mandatory stops, only GFhigh is used, even if a GFlow is defined. Twin GFs (e.g. 80/80) have the same effect than artificially increasing dive time (time taken into account is greater than actual time). ~~Using~~When using printed dive tables, it is like an "impromptu addition of extra increments of depth and time beyond those actually required by the dive, universally known as ''Jesus-factoring''".<ref name="Shields" /> ~~Asymmetrical~~Asymmetric GFs (e.g. 30/70) can be used to force deep stops (e.g. ~~heliox~~Heliox or ~~trimix~~Trimix dives when the algorithm used is not ~~sufficiently~~ conservative enough). Deep stops can be defined as follows: “one or more voluntary or empirically derived decompression stops that are deeper than any prescribed by the algorithm utilized”.<ref name="Deep-Stops" /> GFs can be implemented in dive computers in three ways: * with a preset mode (e.g. L0, L1, L2 ... or P0, P1, P2 ...) corresponding to a decreasing ~~twin~~pair of GFs: 90/90; 85/85; 80/80... ; * leaving GFlow and GFhigh free for input; * by ~~integrating~~including ~~into~~in the algorithm a modification of the GFs according to diver's behavior (profile, ascent speed, etc.). In all cases, the choice of GF values is arbitrary. The term "ZH-L 16 with GF" is misleading. It may give the impression that there is a specific set of parameters for use with GFs. There isn't. Any set of parameters with M-Values (ZH-L, US-Navy, Hahn, RGBM, Comex...) can be used with GF. ==References==

Bühlmann decompression algorithm: Difference between revisions