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annotate Common/Src/decom.c @ 712:062deb659531
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author | Ideenmodellierer |
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date | Sun, 20 Nov 2022 20:36:34 +0100 |
parents | 9bc817e9e221 |
children | 012f94ec2fe0 |
rev | line source |
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38 | 1 /////////////////////////////////////////////////////////////////////////////// |
2 /// -*- coding: UTF-8 -*- | |
3 /// | |
4 /// \file Common/Src/decom.c | |
5 /// \brief This code is used to calculate desat, calculated by RTE and send to Firmware | |
6 /// \author heinrichs weikamp gmbh | |
7 /// \date 22-Feb-2016 | |
8 /// | |
9 /// $Id$ | |
10 /////////////////////////////////////////////////////////////////////////////// | |
11 /// \par Copyright (c) 2014-2018 Heinrichs Weikamp gmbh | |
12 /// | |
13 /// This program is free software: you can redistribute it and/or modify | |
14 /// it under the terms of the GNU General Public License as published by | |
15 /// the Free Software Foundation, either version 3 of the License, or | |
16 /// (at your option) any later version. | |
17 /// | |
18 /// This program is distributed in the hope that it will be useful, | |
19 /// but WITHOUT ANY WARRANTY; without even the implied warranty of | |
20 /// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the | |
21 /// GNU General Public License for more details. | |
22 /// | |
23 /// You should have received a copy of the GNU General Public License | |
24 /// along with this program. If not, see <http://www.gnu.org/licenses/>. | |
25 ////////////////////////////////////////////////////////////////////////////// | |
26 /** | |
27 @verbatim | |
28 ============================================================================== | |
29 ##### Changes ##### | |
30 ============================================================================== | |
31 V1.0.2 1602220x decom_oxygen_calculate_cns() changed to hwOS version | |
32 | |
33 @endverbatim | |
34 ****************************************************************************** | |
35 */ | |
36 | |
37 #include "decom.h" | |
38 | |
39 #include <math.h> | |
40 #include "settings.h" | |
41 #include "calc_crush.h" | |
42 | |
43 # define FRACTION_N2_AIR 0.7902 | |
44 | |
45 const float helium_time_constant[16] = { | |
46 3.68695308808482E-001, | |
47 2.29518933960247E-001, | |
48 1.46853216220327E-001, | |
49 9.91626867753856E-002, | |
50 6.78890480470074E-002, | |
51 4.78692804254106E-002, | |
52 3.37626488338989E-002, | |
53 2.38113081607676E-002, | |
54 1.68239606932026E-002, | |
55 1.25592893741610E-002, | |
56 9.80544886914621E-003, | |
57 7.67264977374303E-003, | |
58 6.01220557342307E-003, | |
59 4.70185307665137E-003, | |
60 3.68225234041620E-003, | |
61 2.88775228329769E-003}; | |
62 | |
63 const float nitrogen_time_constant[16] = { | |
64 1.38629436111989E-001, | |
65 8.66433975699932E-002, | |
66 5.54517744447956E-002, | |
67 3.74674151654024E-002, | |
68 2.56721177985165E-002, | |
69 1.80978376125312E-002, | |
70 1.27651414467762E-002, | |
71 9.00191143584345E-003, | |
72 6.35914844550409E-003, | |
73 4.74758342849278E-003, | |
74 3.70666941475907E-003, | |
75 2.90019740820061E-003, | |
76 2.27261370675392E-003, | |
77 1.77730046297422E-003, | |
78 1.39186180835330E-003, | |
79 1.09157036308653E-003}; | |
80 | |
81 | |
82 const float buehlmann_N2_a[] = { | |
83 1.1696f, | |
84 1.0000f, | |
85 0.8618f, | |
86 0.7562f, | |
87 0.6200f, | |
88 0.5043f, | |
89 0.4410f, | |
90 0.4000f, | |
91 0.3750f, | |
92 0.3500f, | |
93 0.3295f, | |
94 0.3065f, | |
95 0.2835f, | |
96 0.2610f, | |
97 0.2480f, | |
98 0.2327f}; | |
99 | |
100 const float buehlmann_N2_b[] = { | |
101 0.5578f, | |
102 0.6514f, | |
103 0.7222f, | |
104 0.7825f, | |
105 0.8126f, | |
106 0.8434f, | |
107 0.8693f, | |
108 0.8910f, | |
109 0.9092f, | |
110 0.9222f, | |
111 0.9319f, | |
112 0.9403f, | |
113 0.9477f, | |
114 0.9544f, | |
115 0.9602f, | |
116 0.9653f}; | |
117 | |
118 const float buehlmann_He_a[] = { | |
119 1.6189f, | |
120 1.3830f, | |
121 1.1919f, | |
122 1.0458f, | |
123 0.9220f, | |
124 0.8205f, | |
125 0.7305f, | |
126 0.6502f, | |
127 0.5950f, | |
128 0.5545f, | |
129 0.5333f, | |
130 0.5189f, | |
131 0.5181f, | |
132 0.5176f, | |
133 0.5172f, | |
134 0.5119f}; | |
135 | |
136 const float buehlmann_He_b[] = { | |
137 0.4770f, | |
138 0.5747f, | |
139 0.6527f, | |
140 0.7223f, | |
141 0.7582f, | |
142 0.7957f, | |
143 0.8279f, | |
144 0.8553f, | |
145 0.8757f, | |
146 0.8903f, | |
147 0.8997f, | |
148 0.9073f, | |
149 0.9122f, | |
150 0.9171f, | |
151 0.9217f, | |
152 0.9267f}; | |
153 | |
154 const float buehlmann_N2_t_halflife[] = { | |
155 5.0f, | |
156 8.0f, | |
157 12.5f, | |
158 18.5f, | |
159 27.0f, | |
160 38.3f, | |
161 54.3f, | |
162 77.0f, | |
163 109.0f, | |
164 146.0f, | |
165 187.0f, | |
166 239.0f, | |
167 305.0f, | |
168 390.0f, | |
169 498.0f, | |
170 635.0f}; | |
171 | |
172 const float buehlmann_He_t_halflife[] = { | |
173 1.88f, | |
174 3.02f, | |
175 4.72f, | |
176 6.99f, | |
177 10.21f, | |
178 14.48f, | |
179 20.53f, | |
180 29.11f, | |
181 41.20f, | |
182 55.19f, | |
183 70.69f, | |
184 90.34f, | |
185 115.29f, | |
186 147.42f, | |
187 188.24f, | |
188 240.03f}; | |
189 | |
190 const float float_buehlmann_N2_factor_expositon_one_second[] = { 2.30782347297664E-003f, 1.44301447809736E-003f, 9.23769302935806E-004f, 6.24261986779007E-004f, 4.27777107246730E-004f, 3.01585140931371E-004f, 2.12729727268379E-004f, 1.50020603047807E-004f, 1.05980191127841E-004f, 7.91232600646508E-005f, 6.17759153688224E-005f, 4.83354552742732E-005f, 3.78761777920511E-005f, 2.96212356654113E-005f, 2.31974277413727E-005f, 1.81926738960225E-005f}; | |
191 const float float_buehlmann_N2_factor_expositon_003_second[] = { 6.90750456296407E-003f, 4.32279956671600E-003f, 2.76874864793053E-003f, 1.87161709452954E-003f, 1.28278242026003E-003f, 9.04482589432765E-004f, 6.38053429621421E-004f, 4.49994293975742E-004f, 3.17906879170993E-004f, 2.37350999218289E-004f, 1.85316297551252E-004f, 1.44999356986975E-004f, 1.13624229615916E-004f, 8.88610747694640E-005f, 6.95906688746861E-005f, 5.45770287740943E-005f}; | |
192 const float float_buehlmann_N2_factor_expositon_008_second[] = { 1.83141447532454E-002f, 1.14859796471039E-002f, 7.36630472495203E-003f, 4.98319782231915E-003f, 3.41709742823104E-003f, 2.41013596224415E-003f, 1.70057124687550E-003f, 1.19953484034729E-003f, 8.47527105247492E-004f, 6.32810814525819E-004f, 4.94100480767923E-004f, 3.86618231662861E-004f, 3.02969256443353E-004f, 2.36945319086024E-004f, 1.85564355251966E-004f, 1.45532124251058E-004f}; | |
193 const float float_buehlmann_N2_factor_expositon_10_seconds[] = { 2.28400315657541E-002f, 1.43368013598124E-002f, 9.19938673477072E-003f, 6.22511239287027E-003f, 4.69545762670800E-003f, 3.01176178733265E-003f, 2.12526200031782E-003f, 1.49919365737827E-003f, 1.05929662305226E-03f, 7.909509380171760E-004f, 6.17587450108648E-004f, 4.83249432061905E-004f, 3.78697227222391E-004f, 2.61728759809380E-004f, 2.31950063482533E-004f, 1.81911845881011E-004f}; | |
194 const float float_buehlmann_N2_factor_expositon_18_seconds[] = { 4.07358806747357E-002f, 2.56581087982929E-002f, 1.64979259737517E-002f, 1.11772892486697E-002f, 7.67205373705648E-003f, 5.41463899418337E-003f, 3.82221908774349E-003f, 2.69693016270112E-003f, 1.90592594569927E-003f, 1.42326123023573E-003f, 1.11138278062062E-003f, 8.69680830683950E-004f, 6.81551750048359E-004f, 5.33048018290350E-004f, 4.17471377070378E-004f, 3.27417496114757E-004f}; | |
195 const float float_buehlmann_N2_factor_expositon_20_seconds[] = { 4.51583960895835E-002f, 2.84680588463941E-002f, 1.83141447532454E-002f, 1.24114727614367E-002f, 8.52086250432193E-003f, 6.01445286560154E-003f, 4.24600726206570E-003f, 2.99613973313428E-003f, 2.11747113676897E-003f, 1.58127627264804E-003f, 1.23479348595879E-003f, 9.66265334110261E-004f, 7.57251042854845E-004f, 5.92258033589421E-004f, 4.63846326133055E-004f, 3.63790599842373E-004f}; | |
196 const float float_buehlmann_N2_factor_expositon_one_minute[] = { 1.29449436703876E-001f, 8.29959567953288E-002f, 5.39423532744041E-002f, 3.67741962370398E-002f, 2.53453908775689E-002f, 1.79350552316596E-002f, 1.26840126026602E-002f, 8.96151553540825E-003f, 6.33897185233323E-003f, 4.73633146787078E-003f, 3.69980819572546E-003f, 2.89599589841472E-003f, 2.27003327536857E-003f, 1.77572199977927E-003f, 1.39089361795441E-003f, 1.09097481687104E-003f}; | |
197 const float float_buehlmann_N2_factor_expositon_100_second[] = { 2.06299474015900E-001f, 1.34463438993857E-001f, 8.82775114417832E-002f, 6.05359181023788E-002f, 4.18844218114071E-002f, 2.97126970072147E-002f, 2.10505144045823E-002f, 1.48911986890571E-002f, 1.05426136839346E-002f, 7.88141652426455E-003f, 6.15873909572406E-003f, 4.82199900095137E-003f, 3.78052526350936E-003f, 2.95778454900952E-003f, 2.31708109427220E-003f, 1.81763004457269E-003f}; | |
198 const float float_buehlmann_N2_factor_expositon_five_minutes[]= { 5.00000000000000E-001f, 3.51580222674495E-001f, 2.42141716744801E-001f, 1.70835801932547E-001f, 1.20463829104624E-001f, 8.65157896183918E-002f, 6.18314987350977E-002f, 4.40116547625051E-002f, 3.12955727186929E-002f, 2.34583889613009E-002f, 1.83626606868127E-002f, 1.43963540993090E-002f, 1.12987527093947E-002f, 8.84713405486026E-003f, 6.93514912851934E-003f, 5.44298480182925E-003f}; | |
199 const float float_buehlmann_N2_factor_expositon_800_second[] = { 8.42509868763141E-001f, 6.85019737526282E-001f, 5.22579198044792E-001f, 3.93205767018569E-001f, 2.89861248917861E-001f, 2.14397627137602E-001f, 1.56505490290652E-001f, 1.13102166881646E-001f, 8.12935637814599E-002f, 6.13392112527207E-002f, 4.82208523469105E-002f, 3.79311861210304E-002f, 2.98470272862601E-002f, 2.34187624071612E-002f, 1.83870151711824E-002f, 1.44488700649190E-002f}; | |
200 const float float_buehlmann_N2_factor_expositon_one_hour[]= { 9.99755859375000E-001f, 9.94475728271980E-001f, 9.64103176406343E-001f, 8.94394508891055E-001f, 7.85689004286732E-001f, 6.62392147498621E-001f, 5.35088626789486E-001f, 4.17318576947576E-001f, 3.17197008420226E-001f, 2.47876700002107E-001f, 1.99405069752929E-001f, 1.59713055172538E-001f, 1.27468761759271E-001f, 1.01149026804458E-001f, 8.01196838116008E-002f, 6.33955413542552E-002f}; | |
201 | |
202 const float float_buehlmann_He_factor_expositon_one_second[] = { 6.12608039419837E-003f, 3.81800836683133E-003f, 2.44456078654209E-003f, 1.65134647076792E-003f, 1.13084424730725E-003f, 7.97503165599123E-004f, 5.62552521860549E-004f, 3.96776399429366E-004f, 2.80360036664540E-004f, 2.09299583354805E-004f, 1.63410794820518E-004f, 1.27869320250551E-004f, 1.00198406028040E-004f, 7.83611475491108E-005f, 6.13689891868496E-005f, 4.81280465299827E-005f}; | |
203 const float float_buehlmann_He_factor_expositon_003_second[] = { 1.82658845044263E-002f, 1.14103491926518E-002f, 7.31576933570466E-003f, 4.94586307993539E-003f, 3.38869776192019E-003f, 2.39060197012086E-003f, 1.68670834759044E-003f, 1.18985696621965E-003f, 8.40844326779777E-004f, 6.27767340286467E-004f, 4.90152279561396E-004f, 3.83558911153159E-004f, 3.00565099928485E-004f, 2.35065021719993E-004f, 1.84095669333084E-004f, 1.44377190774980E-004f}; // 3 He | |
204 const float float_buehlmann_He_factor_expositon_008_second[] = { 4.79706116082057E-002f, 3.01390075707096E-002f, 1.93899772993034E-002f, 1.31346689569831E-002f, 9.01102820363486E-003f, 6.36224538449637E-003f, 4.49156910795023E-003f, 3.16980660943422E-003f, 2.24068067793926E-003f, 1.67317060331207E-003f, 1.30653891641375E-003f, 1.02249686330114E-003f, 8.01306192375617E-004f, 6.26717274191169E-004f, 4.90846474157092E-004f, 3.84959521834594E-004f}; // 8 He | |
205 const float float_buehlmann_He_factor_expositon_10_seconds[] = { 5.95993001714799E-002f, 3.75307444923134E-002f, 2.41784389107607E-002f, 1.63912909924208E-002f, 1.25106927410620E-002f, 7.94647192918641E-003f, 5.61130562069978E-003f, 3.96068706690245E-003f, 2.80006593100546E-003f, 2.09102564918129E-003f, 1.63290683272987E-003f, 1.27795767799976E-003f, 1.00153239354972E-003f, 7.33352120986130E-004f, 6.13520442722559E-004f, 4.81176244777948E-004f}; | |
206 const float float_buehlmann_He_factor_expositon_18_seconds[] = { 1.04710896899039E-001f, 6.65386126706349E-002f, 4.30995968284519E-002f, 2.93106657684409E-002f, 2.01607137751910E-002f, 1.42581599093282E-002f, 1.00776711616688E-002f, 7.11793906429403E-003f, 5.03447255531631E-003f, 3.76069760984632E-003f, 2.93731229281968E-003f, 2.29914783358365E-003f, 1.80203605181650E-003f, 1.40956155658090E-003f, 1.10406577253352E-003f, 8.65950533235460E-004f}; | |
207 const float float_buehlmann_He_factor_expositon_20_seconds[] = { 1.15646523762030E-001f, 7.36529322024796E-002f, 4.77722809133601E-002f, 3.25139075644434E-002f, 2.23755519884017E-002f, 1.58297974422514E-002f, 1.11911244906306E-002f, 7.90568709176287E-003f, 5.59229149279306E-003f, 4.17767891009702E-003f, 3.26314728073529E-003f, 2.55428218017273E-003f, 2.00206171996409E-003f, 1.56605681014277E-003f, 1.22666447811148E-003f, 9.62120958977297E-004f}; | |
208 const float float_buehlmann_He_factor_expositon_one_minute[] = { 3.08363886219441E-001f, 2.05084082411030E-001f, 1.36579295730211E-001f, 9.44046323514587E-002f, 6.56358626478964E-002f, 4.67416115355790E-002f, 3.31990512604121E-002f, 2.35300557146709E-002f, 1.66832281977395E-002f, 1.24807506400979E-002f, 9.75753219809561E-003f, 7.64329013320042E-003f, 5.99416843126677E-003f, 4.69081666943783E-003f, 3.67548116287808E-003f, 2.88358673732592E-003f}; | |
209 const float float_buehlmann_He_factor_expositon_100_second[] = { 4.59084487437744E-001f, 3.17867635141657E-001f, 2.17103957783539E-001f, 1.52336166567559E-001f, 1.06981885584572E-001f, 7.66825160768219E-002f, 5.47171474343117E-002f, 3.89083581201959E-002f, 2.76504642556165E-002f, 2.07145921483078E-002f, 1.62096019995457E-002f, 1.27063337640768E-002f, 9.97030625587825E-003f, 7.80579708939710E-003f, 6.11829377951190E-003f, 4.80135692933603E-003f}; // 100 He | |
210 const float float_buehlmann_He_factor_expositon_five_minutes[]= { 8.41733751018722E-001f, 6.82600697933713E-001f, 5.20142493735619E-001f, 3.90924736715930E-001f, 2.87834706153524E-001f, 2.12857832580192E-001f, 1.55333364924147E-001f, 1.12242395185686E-001f, 8.06788883581406E-002f, 6.08653819753062E-002f, 4.78448115000141E-002f, 3.76366999883051E-002f, 2.96136888654287E-002f, 2.32350754744602E-002f, 1.82428098114835E-002f, 1.43350223887367E-002f}; // thre | |
211 const float float_buehlmann_He_factor_expositon_800_second[] = { 9.92671155759686E-001f, 9.53124140216102E-001f, 8.58865632718416E-001f, 7.33443528431762E-001f, 5.95533881446524E-001f, 4.71787742036413E-001f, 3.62479376011699E-001f, 2.72021750877104E-001f, 2.00940186773410E-001f, 1.54187175639359E-001f, 1.22553521140786E-001f, 9.72431193565182E-002f, 7.70338702477497E-002f, 6.07666995543268E-002f, 4.79109397391700E-002f, 3.77715319879068E-002f}; // 800 He | |
212 const float float_buehlmann_He_factor_expositon_one_hour[]= { 9.99999999753021E-001f, 9.99998954626205E-001f, 9.99850944669188E-001f, 9.97393537149572E-001f, 9.82979603888650E-001f, 9.43423231328217E-001f, 8.68106292901111E-001f, 7.60374619482322E-001f, 6.35576141220644E-001f, 5.29310840978539E-001f, 4.44744511849213E-001f, 3.68942936079581E-001f, 3.02834419265355E-001f, 2.45810174422126E-001f, 1.98231319020275E-001f, 1.59085372294989E-001f}; | |
213 | |
214 void decom_get_inert_gases(const float ambient_pressure_bar,const SGas* pGas, float* fraction_nitrogen, float* fraction_helium ) | |
215 { | |
216 float fraction_all_inertgases; | |
217 float ppo2_fraction_setpoint; | |
218 float diluent_divisor; | |
219 | |
220 *fraction_nitrogen = ((float)pGas->nitrogen_percentage) / 100.0f; | |
221 *fraction_helium = ((float)pGas->helium_percentage) / 100.0f; | |
222 | |
662 | 223 if(pGas->AppliedDiveMode == DIVEMODE_CCR) |
224 { | |
225 // continue with CCR | |
226 fraction_all_inertgases = *fraction_nitrogen + *fraction_helium; | |
38 | 227 |
662 | 228 ppo2_fraction_setpoint = (float)pGas->setPoint_cbar/ (100 * ambient_pressure_bar); |
229 | |
230 diluent_divisor = (1.0f - ppo2_fraction_setpoint) / fraction_all_inertgases; | |
231 if(diluent_divisor < 0) | |
232 diluent_divisor = 0; | |
38 | 233 |
662 | 234 *fraction_nitrogen *= diluent_divisor; |
235 *fraction_helium *= diluent_divisor; | |
236 } | |
237 if(pGas->AppliedDiveMode == DIVEMODE_PSCR) | |
238 { | |
239 fraction_all_inertgases = *fraction_nitrogen + *fraction_helium; | |
240 ppo2_fraction_setpoint = decom_calc_SimppO2(ambient_pressure_bar, pGas) / ambient_pressure_bar; | |
241 diluent_divisor = (1.0f - ppo2_fraction_setpoint) / fraction_all_inertgases; | |
242 if(diluent_divisor < 0) | |
243 diluent_divisor = 0; | |
38 | 244 |
662 | 245 *fraction_nitrogen *= diluent_divisor; |
246 *fraction_helium *= diluent_divisor; | |
247 } | |
38 | 248 } |
249 | |
250 | |
251 void decom_tissues_exposure(int period_in_seconds, SLifeData * pLifeData) | |
252 { | |
253 decom_tissues_exposure2(period_in_seconds, &pLifeData->actualGas, pLifeData->pressure_ambient_bar, pLifeData->tissue_nitrogen_bar, pLifeData->tissue_helium_bar); | |
254 } | |
255 | |
256 | |
257 void decom_tissues_exposure2(int period_in_seconds, SGas* pActualGas, float ambiant_pressure_bar, float *tissue_N2_selected_stage, float *tissue_He_selected_stage) | |
258 { | |
259 int ci; | |
260 float percent_N2; | |
261 float percent_He; | |
262 float partial_pressure_N2; | |
263 float partial_pressure_He; | |
264 | |
265 | |
266 | |
267 int period_in_seconds_left; | |
268 | |
57 | 269 if(period_in_seconds > 0) |
270 { | |
38 | 271 |
272 decom_get_inert_gases(ambiant_pressure_bar, pActualGas, &percent_N2, &percent_He); | |
273 | |
274 partial_pressure_N2 = (ambiant_pressure_bar - WATER_VAPOUR_PRESSURE) * percent_N2; | |
275 partial_pressure_He = (ambiant_pressure_bar - WATER_VAPOUR_PRESSURE) * percent_He; | |
57 | 276 period_in_seconds_left = period_in_seconds; |
38 | 277 |
57 | 278 while(period_in_seconds_left) |
279 { | |
280 if(period_in_seconds_left >= 3600) | |
281 period_in_seconds = 3600; | |
282 else | |
283 if(period_in_seconds_left >= 800) | |
284 period_in_seconds = 800; | |
285 else | |
286 if(period_in_seconds_left >= 300) | |
287 period_in_seconds = 300; | |
288 else | |
289 if(period_in_seconds_left >= 100) | |
290 period_in_seconds = 100; | |
291 else | |
292 if(period_in_seconds_left >= 60) | |
293 period_in_seconds = 60; | |
294 else | |
295 if(period_in_seconds_left == 36) | |
296 period_in_seconds = 18; | |
297 else | |
298 if(period_in_seconds_left >= 20) | |
299 period_in_seconds = 20; | |
300 else | |
301 if(period_in_seconds_left >= 18) | |
302 period_in_seconds = 18; | |
303 else | |
304 if(period_in_seconds_left >= 10) | |
305 period_in_seconds = 10; | |
306 else | |
307 if(period_in_seconds_left >= 8) | |
308 period_in_seconds = 8; | |
309 else | |
310 if(period_in_seconds_left >= 3) | |
311 period_in_seconds = 3; | |
312 else | |
313 period_in_seconds = 1; | |
38 | 314 |
57 | 315 period_in_seconds_left -= period_in_seconds; |
38 | 316 |
57 | 317 switch (period_in_seconds) |
38 | 318 { |
57 | 319 case 1: |
320 for (ci=0;ci<16;ci++) | |
321 { | |
322 tissue_N2_selected_stage[ci] += (partial_pressure_N2 - tissue_N2_selected_stage[ci]) * float_buehlmann_N2_factor_expositon_one_second[ci]; | |
323 tissue_He_selected_stage[ci] += (partial_pressure_He - tissue_He_selected_stage[ci]) * float_buehlmann_He_factor_expositon_one_second[ci]; | |
324 } | |
325 break; | |
326 case 3: | |
327 for (ci=0;ci<16;ci++) | |
328 { | |
329 tissue_N2_selected_stage[ci] += (partial_pressure_N2 - tissue_N2_selected_stage[ci]) * float_buehlmann_N2_factor_expositon_003_second[ci]; | |
330 tissue_He_selected_stage[ci] += (partial_pressure_He - tissue_He_selected_stage[ci]) * float_buehlmann_He_factor_expositon_003_second[ci]; | |
331 } | |
332 break; | |
333 case 8: | |
334 for (ci=0;ci<16;ci++) | |
335 { | |
336 tissue_N2_selected_stage[ci] += (partial_pressure_N2 - tissue_N2_selected_stage[ci]) * float_buehlmann_N2_factor_expositon_008_second[ci]; | |
337 tissue_He_selected_stage[ci] += (partial_pressure_He - tissue_He_selected_stage[ci]) * float_buehlmann_He_factor_expositon_008_second[ci]; | |
338 } | |
339 break; | |
340 case 10: | |
341 for (ci=0;ci<16;ci++) | |
342 { | |
343 tissue_N2_selected_stage[ci] += (partial_pressure_N2 - tissue_N2_selected_stage[ci]) * float_buehlmann_N2_factor_expositon_10_seconds[ci]; | |
344 tissue_He_selected_stage[ci] += (partial_pressure_He - tissue_He_selected_stage[ci]) * float_buehlmann_He_factor_expositon_10_seconds[ci]; | |
345 } | |
346 break; | |
347 case 18: | |
348 for (ci=0;ci<16;ci++) | |
349 { | |
350 tissue_N2_selected_stage[ci] += (partial_pressure_N2 - tissue_N2_selected_stage[ci]) * float_buehlmann_N2_factor_expositon_18_seconds[ci]; | |
351 tissue_He_selected_stage[ci] += (partial_pressure_He - tissue_He_selected_stage[ci]) * float_buehlmann_He_factor_expositon_18_seconds[ci]; | |
352 } | |
353 break; | |
354 case 20: | |
355 for (ci=0;ci<16;ci++) | |
356 { | |
357 tissue_N2_selected_stage[ci] += (partial_pressure_N2 - tissue_N2_selected_stage[ci]) * float_buehlmann_N2_factor_expositon_20_seconds[ci]; | |
358 tissue_He_selected_stage[ci] += (partial_pressure_He - tissue_He_selected_stage[ci]) * float_buehlmann_He_factor_expositon_20_seconds[ci]; | |
359 } | |
360 break; | |
361 case 60: | |
362 for (ci=0;ci<16;ci++) | |
363 { | |
364 tissue_N2_selected_stage[ci] += (partial_pressure_N2 - tissue_N2_selected_stage[ci]) * float_buehlmann_N2_factor_expositon_one_minute[ci]; | |
365 tissue_He_selected_stage[ci] += (partial_pressure_He - tissue_He_selected_stage[ci]) * float_buehlmann_He_factor_expositon_one_minute[ci]; | |
366 } | |
367 break; | |
368 case 100: | |
369 for (ci=0;ci<16;ci++) | |
370 { | |
371 tissue_N2_selected_stage[ci] += (partial_pressure_N2 - tissue_N2_selected_stage[ci]) * float_buehlmann_N2_factor_expositon_100_second[ci]; | |
372 tissue_He_selected_stage[ci] += (partial_pressure_He - tissue_He_selected_stage[ci]) * float_buehlmann_He_factor_expositon_100_second[ci]; | |
373 } | |
374 break; | |
375 case 300: | |
376 for (ci=0;ci<16;ci++) | |
377 { | |
378 tissue_N2_selected_stage[ci] += (partial_pressure_N2 - tissue_N2_selected_stage[ci]) * float_buehlmann_N2_factor_expositon_five_minutes[ci]; | |
379 tissue_He_selected_stage[ci] += (partial_pressure_He - tissue_He_selected_stage[ci]) * float_buehlmann_He_factor_expositon_five_minutes[ci]; | |
380 } | |
381 break; | |
382 case 800: | |
383 for (ci=0;ci<16;ci++) | |
384 { | |
385 tissue_N2_selected_stage[ci] += (partial_pressure_N2 - tissue_N2_selected_stage[ci]) * float_buehlmann_N2_factor_expositon_800_second[ci]; | |
386 tissue_He_selected_stage[ci] += (partial_pressure_He - tissue_He_selected_stage[ci]) * float_buehlmann_He_factor_expositon_800_second[ci]; | |
387 } | |
388 break; | |
389 case 3600: | |
390 for (ci=0;ci<16;ci++) | |
391 { | |
392 tissue_N2_selected_stage[ci] += (partial_pressure_N2 - tissue_N2_selected_stage[ci]) * float_buehlmann_N2_factor_expositon_one_hour[ci]; | |
393 tissue_He_selected_stage[ci] += (partial_pressure_He - tissue_He_selected_stage[ci]) * float_buehlmann_He_factor_expositon_one_hour[ci]; | |
394 } | |
395 break; | |
38 | 396 } |
397 } | |
398 } | |
399 } | |
400 | |
401 void decom_reset_with_1000mbar(SLifeData * pLifeData) | |
402 { | |
403 double saturation = 1.0; | |
404 | |
405 saturation -= WATER_VAPOUR_PRESSURE; | |
406 saturation *= FRACTION_N2_AIR; | |
407 | |
408 for(int i=0;i<16;i++) | |
409 { | |
410 pLifeData->tissue_nitrogen_bar[i] = saturation; | |
411 pLifeData->tissue_helium_bar[i] = 0; | |
412 } | |
413 pLifeData->otu = 0; | |
414 pLifeData->cns = 0; | |
415 pLifeData->desaturation_time_minutes = 0; | |
416 pLifeData->no_fly_time_minutes = 0; | |
417 } | |
418 | |
129
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419 void decom_reset_with_ambientmbar(float ambient, SLifeData * pLifeData) |
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420 { |
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421 |
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422 float saturation = 1.0; |
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423 saturation = ambient; |
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424 saturation -= WATER_VAPOUR_PRESSURE; |
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425 saturation *= FRACTION_N2_AIR; |
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426 |
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427 for(int i=0;i<16;i++) |
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428 { |
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429 pLifeData->tissue_nitrogen_bar[i] = saturation; |
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430 pLifeData->tissue_helium_bar[i] = 0; |
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431 } |
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432 pLifeData->otu = 0; |
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433 pLifeData->cns = 0; |
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434 pLifeData->desaturation_time_minutes = 0; |
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435 pLifeData->no_fly_time_minutes = 0; |
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436 } |
38 | 437 |
438 /* =============================================================================== */ | |
439 /* NOTE ABOUT PRESSURE UNITS USED IN CALCULATIONS: */ | |
440 /* It is the convention in decompression calculations to compute all gas */ | |
441 /* loadings, absolute pressures, partial pressures, etc., in the units of */ | |
442 /* depth pressure that you are diving - either feet of seawater (fsw) or */ | |
443 /* meters of seawater (msw). This program follows that convention with the */ | |
444 /* the exception that all VPM calculations are performed in SI units (by */ | |
445 /* necessity). Accordingly, there are several conversions back and forth */ | |
446 /* between the diving pressure units and the SI units. */ | |
447 /* =============================================================================== */ | |
448 /* =============================================================================== */ | |
449 /* FUNCTION SUBPROGRAM FOR GAS LOADING CALCULATIONS - ASCENT AND DESCENT */ | |
450 /* =============================================================================== */ | |
451 | |
452 | |
453 float decom_schreiner_equation(float *initial_inspired_gas_pressure, | |
454 float *rate_change_insp_gas_pressure, | |
455 float *interval_time_minutes, | |
456 const float *gas_time_constant, | |
457 float *initial_gas_pressure) | |
458 { | |
459 /* System generated locals */ | |
460 float ret_val; | |
461 float time_null_pressure = 0.0f; | |
462 float time_rest = 0.0f; | |
463 float time = *interval_time_minutes; | |
464 /* =============================================================================== */ | |
465 /* Note: The Schreiner equation is applied when calculating the uptake or */ | |
466 /* elimination of compartment gases during linear ascents or descents at a */ | |
467 /* constant rate. For ascents, a negative number for rate must be used. */ | |
468 /* =============================================================================== */ | |
469 if( *rate_change_insp_gas_pressure < 0.0f) | |
470 { | |
471 time_null_pressure = -1.0f * *initial_inspired_gas_pressure / *rate_change_insp_gas_pressure; | |
472 if(time > time_null_pressure ) | |
473 { | |
474 time_rest = time - time_null_pressure; | |
475 time = time_null_pressure; | |
476 } | |
477 } | |
478 ret_val = | |
479 *initial_inspired_gas_pressure + | |
480 *rate_change_insp_gas_pressure * | |
481 (time - 1.f / *gas_time_constant) - | |
482 (*initial_inspired_gas_pressure - | |
483 *initial_gas_pressure - | |
484 *rate_change_insp_gas_pressure / *gas_time_constant) * | |
485 expf(-(*gas_time_constant) * time); | |
486 | |
487 if(time_rest > 0.0f) | |
488 { | |
489 ret_val = ret_val * expf(-(*gas_time_constant) * time_rest); | |
490 } | |
491 | |
492 | |
493 return ret_val; | |
494 }; /* schreiner_equation__2 */ | |
495 | |
496 void decom_tissues_exposure_stage_schreiner(int period_in_seconds, SGas* pGas, float starting_ambient_pressure_bar, float ending_ambient_pressure_bar, | |
497 float* pTissue_nitrogen_bar, float* pTissue_helium_bar) | |
498 { | |
499 | |
500 float initial_pressure_N2; | |
501 float initial_pressure_He; | |
502 | |
503 float ending_pressure_N2; | |
504 float ending_pressure_He; | |
505 | |
506 float fraction_N2_begin; | |
507 float fraction_N2_end; | |
508 float fraction_He_begin; | |
509 float fraction_He_end; | |
510 | |
511 float rate_N2; | |
512 float rate_He; | |
513 | |
514 float period_in_minutes; | |
515 | |
516 int ci; | |
517 | |
518 if(period_in_seconds <= 0) | |
519 return; | |
520 | |
521 decom_get_inert_gases(starting_ambient_pressure_bar, pGas, &fraction_N2_begin, &fraction_He_begin ); | |
522 decom_get_inert_gases(ending_ambient_pressure_bar, pGas, &fraction_N2_end, &fraction_He_end ); | |
523 | |
524 initial_pressure_N2 = (starting_ambient_pressure_bar - WATER_VAPOUR_PRESSURE) * fraction_N2_begin; | |
525 initial_pressure_He = (starting_ambient_pressure_bar - WATER_VAPOUR_PRESSURE) * fraction_He_begin; | |
526 | |
527 ending_pressure_N2 = (ending_ambient_pressure_bar - WATER_VAPOUR_PRESSURE) * fraction_N2_end; | |
528 ending_pressure_He = (ending_ambient_pressure_bar - WATER_VAPOUR_PRESSURE) * fraction_He_end; | |
529 | |
530 rate_N2 = (ending_pressure_N2 - initial_pressure_N2) / period_in_seconds; | |
531 rate_He = (ending_pressure_He - initial_pressure_He) / period_in_seconds; | |
532 | |
533 period_in_minutes = ((float)period_in_seconds) / 60.0f; | |
534 | |
535 for (ci=0;ci<16;ci++) | |
536 { | |
537 pTissue_nitrogen_bar[ci] = | |
538 decom_schreiner_equation( | |
539 &initial_pressure_N2, | |
540 &rate_N2, | |
541 &period_in_minutes, | |
542 &nitrogen_time_constant[ci], | |
543 &pTissue_nitrogen_bar[ci]); | |
544 | |
545 pTissue_helium_bar[ci] = | |
546 decom_schreiner_equation( | |
547 &initial_pressure_He, | |
548 &rate_He, | |
549 &period_in_minutes, | |
550 &helium_time_constant[ci], | |
551 &pTissue_helium_bar[ci]); | |
552 } | |
553 } | |
554 | |
555 _Bool nextSetpointChange(SDiveSettings* pDiveSettings, uint8_t depth_meter, uint8_t* change_depth_meter, char* setpoint) | |
556 { | |
557 uint8_t new_depth = 0; | |
558 char new_setpoint = 0; | |
559 for(int i = 1; i <= 5; i++) | |
560 { | |
561 if(pDiveSettings->setpoint[i].setpoint_cbar > 0 && pDiveSettings->setpoint[i].depth_meter > 0 ) | |
562 { | |
563 if( pDiveSettings->setpoint[i].depth_meter > new_depth && pDiveSettings->setpoint[i].depth_meter < depth_meter) | |
564 { | |
565 new_depth = pDiveSettings->setpoint[i].depth_meter; | |
566 new_setpoint = pDiveSettings->setpoint[i].setpoint_cbar; | |
567 } | |
568 } | |
569 } | |
570 if(new_depth) | |
571 { | |
572 * change_depth_meter = new_depth; | |
573 * setpoint = new_setpoint; | |
574 return 1; | |
575 } | |
576 return 0; | |
577 } | |
578 | |
579 | |
580 | |
581 void decom_CreateGasChangeList(SDiveSettings* pInput, const SLifeData* pLifeData) | |
582 { | |
583 int i=0, j = 0; | |
584 int count = 0; | |
585 for(i=0;i< 5;i++) | |
586 { | |
587 //FirstGas | |
588 | |
589 pInput->decogaslist[i].change_during_ascent_depth_meter_otherwise_zero = 0; | |
590 pInput->decogaslist[i].GasIdInSettings = 255; | |
591 pInput->decogaslist[i].setPoint_cbar = 0; | |
592 pInput->decogaslist[i].helium_percentage = 0; | |
593 pInput->decogaslist[i].nitrogen_percentage = 0; | |
594 } | |
595 //pInput->liveData.dive_time_seconds = 0; | |
596 | |
597 /* FirstGas | |
598 * 0 = special gas, 1 to 5 ist OC gas, 6 to 10 is diluent | |
599 */ | |
600 | |
601 | |
602 | |
603 pInput->decogaslist[0] = pLifeData->actualGas; | |
604 | |
605 /* Add Deco Gases | |
606 * special (gasId == 0) is never a deco/travel gas but actual gas only | |
607 */ | |
608 if(pInput->diveMode == DIVEMODE_OC) | |
609 { | |
610 | |
611 for(i=1;i<= 5;i++) | |
612 { | |
613 if(pInput->gas[i].note.ub.active && pInput->gas[i].depth_meter | |
614 && (pLifeData->actualGas.GasIdInSettings != i) | |
615 &&(pInput->gas[i].depth_meter < pLifeData->depth_meter ) ) | |
616 { | |
617 count = 1; | |
618 for(j=1;j<= 5;j++) | |
619 { | |
620 if( (pInput->gas[j].note.ub.active && pInput->gas[j].depth_meter > 0) | |
621 && (pLifeData->actualGas.GasIdInSettings != j) // new hw 160905 | |
622 && (pInput->gas[j].depth_meter > pInput->gas[i].depth_meter)) | |
623 count++; | |
624 } | |
625 pInput->decogaslist[count].change_during_ascent_depth_meter_otherwise_zero = pInput->gas[i].depth_meter; | |
626 pInput->decogaslist[count].nitrogen_percentage = 100; | |
627 pInput->decogaslist[count].nitrogen_percentage -= pInput->gas[i].oxygen_percentage; | |
628 pInput->decogaslist[count].nitrogen_percentage -= pInput->gas[i].helium_percentage; | |
629 pInput->decogaslist[count].helium_percentage = pInput->gas[i].helium_percentage; | |
630 pInput->decogaslist[count].GasIdInSettings = i; | |
662 | 631 pInput->decogaslist[count].AppliedDiveMode = DIVEMODE_OC; |
38 | 632 } |
633 } | |
634 } | |
635 else | |
636 { | |
662 | 637 //divmode CCR or PSCR |
38 | 638 for(i=6; i <= 10; i++) |
639 { | |
684
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640 if((pInput->gas[i].note.ub.active) && (pInput->gas[i].depth_meter) |
38 | 641 && (pLifeData->actualGas.GasIdInSettings != i) |
684
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642 && (pInput->gas[i].depth_meter < pLifeData->depth_meter )) |
38 | 643 { |
644 count = 1; | |
645 for(j=6;j<= 10;j++) | |
646 { | |
647 // if(pInput->gas[j].note.ub.active && pInput->gas[j].depth_meter > 0 &&pInput->gas[j].depth_meter > pInput->gas[i].depth_meter) | |
684
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648 if(((pInput->gas[j].note.ub.active) && (pInput->gas[j].depth_meter > 0)) |
38 | 649 && (pLifeData->actualGas.GasIdInSettings != j) // new hw 160905 |
650 && (pInput->gas[j].depth_meter > pInput->gas[i].depth_meter)) | |
651 count++; | |
652 } | |
653 pInput->decogaslist[count].change_during_ascent_depth_meter_otherwise_zero = pInput->gas[i].depth_meter; | |
654 pInput->decogaslist[count].nitrogen_percentage = 100; | |
662 | 655 if(pInput->diveMode == DIVEMODE_PSCR) |
656 { | |
657 pInput->decogaslist[count].AppliedDiveMode = DIVEMODE_PSCR; | |
658 pInput->decogaslist[count].setPoint_cbar = decom_calc_SimppO2_O2based((float)(pInput->gas[i].depth_meter / 10.0 + 1.0), pInput->gas[i].oxygen_percentage, pInput->decogaslist[count].pscr_factor ) * 100; | |
659 pInput->decogaslist[count].nitrogen_percentage -= pInput->gas[i].oxygen_percentage; | |
660 } | |
661 else | |
662 { | |
663 pInput->decogaslist[count].nitrogen_percentage -= pInput->gas[i].oxygen_percentage; | |
684
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664 pInput->decogaslist[count].AppliedDiveMode = DIVEMODE_CCR; |
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665 pInput->decogaslist[count].setPoint_cbar = pInput->decogaslist[0].setPoint_cbar; /* assume that current setpoint is kept till end of the dive */ |
662 | 666 } |
38 | 667 pInput->decogaslist[count].nitrogen_percentage -= pInput->gas[i].helium_percentage; |
668 pInput->decogaslist[count].helium_percentage = pInput->gas[i].helium_percentage; | |
669 pInput->decogaslist[count].GasIdInSettings = i; | |
670 } | |
671 } | |
672 } | |
673 } | |
674 void test_decom_CreateGasChangeList(void) | |
675 { | |
676 SDiveSettings diveSetting; | |
677 SLifeData lifeData; | |
678 lifeData.depth_meter = 100; | |
679 lifeData.actualGas.helium_percentage = 30; | |
680 lifeData.actualGas.nitrogen_percentage = 60; | |
681 lifeData.actualGas.setPoint_cbar = 18; | |
682 lifeData.actualGas.GasIdInSettings = 0; | |
683 lifeData.actualGas.change_during_ascent_depth_meter_otherwise_zero = 0; | |
684 diveSetting.diveMode = DIVEMODE_CCR; | |
685 diveSetting.gas[6].depth_meter = 0; | |
686 diveSetting.gas[6].helium_percentage = 30; | |
687 diveSetting.gas[6].oxygen_percentage = 10; | |
688 diveSetting.gas[6].note.ub.active = 1; | |
689 | |
690 diveSetting.gas[7].depth_meter = 60; | |
691 diveSetting.gas[7].helium_percentage = 0; | |
692 diveSetting.gas[7].oxygen_percentage = 10; | |
693 diveSetting.gas[7].note.ub.active = 1; | |
694 diveSetting.gas[8].note.ub.active = 0; | |
695 diveSetting.gas[9].note.ub.active = 0; | |
696 diveSetting.gas[10].note.ub.active = 0; | |
697 | |
698 diveSetting.setpoint[0].depth_meter = 0; | |
699 diveSetting.setpoint[1].depth_meter = 80; | |
700 diveSetting.setpoint[1].setpoint_cbar = 20; | |
701 diveSetting.setpoint[2].depth_meter = 60; | |
702 diveSetting.setpoint[2].setpoint_cbar = 25; | |
703 diveSetting.setpoint[3].depth_meter = 0; | |
704 diveSetting.setpoint[4].depth_meter = 0; | |
705 diveSetting.setpoint[5].depth_meter = 0; | |
706 | |
707 | |
708 decom_CreateGasChangeList(&diveSetting, &lifeData); | |
709 } | |
710 | |
711 uint8_t decom_tissue_test_tolerance(float* Tissue_nitrogen_bar, float* Tissue_helium_bar, float GF_value, float depth_in_bar_absolute) | |
712 { | |
713 float tissue_inertgas_saturation; | |
714 float inertgas_a; | |
715 float inertgas_b; | |
716 float inertgas_tolerance; | |
717 float gf_minus_1; | |
718 | |
719 gf_minus_1 = GF_value - 1.0f; | |
720 | |
721 for (int ci = 0; ci < 16; ci++) | |
722 { | |
723 if(Tissue_helium_bar[ci] == 0) | |
724 { | |
725 tissue_inertgas_saturation = Tissue_nitrogen_bar[ci]; | |
726 // | |
727 inertgas_a = buehlmann_N2_a[ci]; | |
728 inertgas_b = buehlmann_N2_b[ci]; | |
729 } | |
730 else | |
731 { | |
732 tissue_inertgas_saturation = Tissue_nitrogen_bar[ci] + Tissue_helium_bar[ci]; | |
733 // | |
734 inertgas_a = ( ( buehlmann_N2_a[ci] * Tissue_nitrogen_bar[ci]) + ( buehlmann_He_a[ci] * Tissue_helium_bar[ci]) ) / tissue_inertgas_saturation; | |
735 inertgas_b = ( ( buehlmann_N2_b[ci] * Tissue_nitrogen_bar[ci]) + ( buehlmann_He_b[ci] * Tissue_helium_bar[ci]) ) / tissue_inertgas_saturation; | |
736 } | |
737 // | |
738 inertgas_tolerance = ( (GF_value / inertgas_b - gf_minus_1) * depth_in_bar_absolute ) + ( GF_value * inertgas_a ); | |
739 // | |
740 if(inertgas_tolerance < tissue_inertgas_saturation) | |
741 return 0; | |
742 } | |
743 return 1; | |
744 } | |
745 | |
746 | |
747 void decom_tissues_desaturation_time(const SLifeData* pLifeData, SLifeData2* pOutput) | |
748 { | |
749 float pressure_in_gas_for_complete; | |
750 float pressure_in_gas_for_desat; | |
751 float diff_to_complete; | |
752 float diff_to_desatpoint; | |
753 float necessary_halftimes; | |
754 float desattime; | |
755 | |
756 pressure_in_gas_for_complete = 0.7902f * ( pLifeData->pressure_surface_bar - 0.0627f); | |
757 pressure_in_gas_for_desat = 1.05f * pressure_in_gas_for_complete; | |
758 for(int i=0; i<16; i++) | |
759 { | |
760 diff_to_complete = pressure_in_gas_for_complete - pLifeData->tissue_nitrogen_bar[i]; | |
761 diff_to_desatpoint = pressure_in_gas_for_desat - pLifeData->tissue_nitrogen_bar[i]; | |
762 | |
763 if((diff_to_desatpoint >= 0) || (diff_to_complete >= 0)) | |
764 pOutput->tissue_nitrogen_desaturation_time_minutes[i] = 0; | |
765 else | |
766 { | |
767 necessary_halftimes = (logf(1.0f - (diff_to_desatpoint/diff_to_complete)) / -0.6931f); | |
768 desattime = buehlmann_N2_t_halflife[i] * necessary_halftimes; | |
769 if(desattime <= (float)0xFFFF) | |
770 pOutput->tissue_nitrogen_desaturation_time_minutes[i] = desattime; | |
771 else | |
772 pOutput->tissue_nitrogen_desaturation_time_minutes[i] = 0xFFFF; | |
773 } | |
774 } | |
775 | |
776 for(int i=0; i<16; i++) | |
777 { | |
778 diff_to_desatpoint = 0.05f - pLifeData->tissue_helium_bar[i]; | |
779 diff_to_complete = -1.0f * pLifeData->tissue_helium_bar[i]; | |
780 | |
781 if((diff_to_desatpoint >= 0) || (diff_to_complete >= 0)) | |
782 pOutput->tissue_helium_desaturation_time_minutes[i] = 0; | |
783 else | |
784 { | |
785 necessary_halftimes = (logf(1.0f - (diff_to_desatpoint/diff_to_complete)) / -0.6931f); | |
786 desattime = buehlmann_He_t_halflife[i] * necessary_halftimes; | |
787 if(desattime <= (float)0xFFFF) | |
788 pOutput->tissue_helium_desaturation_time_minutes[i] = desattime; | |
789 else | |
790 pOutput->tissue_helium_desaturation_time_minutes[i] = 0xFFFF; | |
791 } | |
792 } | |
793 } | |
794 | |
795 #define MAX_DEGRADE_OTU_TIME_MINUTES (1440) | |
796 //CNS&OTU: | |
797 #define OXY_TEN_MINUTES_IN_SECONDS (600) | |
798 #define OXY_HALF_LIVE_OF_TEN_MINUTES__INVERSE_NINTH_ROOT_OF_TWO (0.92587471f) | |
799 #define OXY_NINE_DAYS_IN_TEN_MINUTES (1296) | |
800 #define OXY_ONE_SIXTIETH_PART (0.0166667f) | |
801 #define OXY_NEGATIVE_FIVE_SIXTH_PARTS (-0.8333333f) | |
802 void decom_oxygen_calculate_otu(float* oxygen_otu, float pressure_oxygen_real) | |
803 { | |
804 if(pressure_oxygen_real <= 0.5f) | |
805 return; | |
806 *oxygen_otu += (pow((double)(0.5f / (pressure_oxygen_real - 0.5f)),OXY_NEGATIVE_FIVE_SIXTH_PARTS)) * OXY_ONE_SIXTIETH_PART; | |
807 } | |
808 | |
809 void decom_oxygen_calculate_otu_degrade(float* oxygen_otu, long seconds_since_last_dive) | |
810 { | |
811 static long otu_time_ticker = 0; | |
812 static double otu_degrade_every_10_minutes = 999.9; | |
813 long cycles_since_last_call; | |
814 | |
815 if((*oxygen_otu <= 0) || (seconds_since_last_dive == 0)) | |
816 *oxygen_otu = 0; | |
817 else if(seconds_since_last_dive < OXY_TEN_MINUTES_IN_SECONDS) | |
818 { | |
819 otu_time_ticker = 1; | |
820 otu_degrade_every_10_minutes = *oxygen_otu / (MAX_DEGRADE_OTU_TIME_MINUTES / 10); | |
821 } | |
822 else | |
823 { | |
824 cycles_since_last_call = seconds_since_last_dive / (otu_time_ticker * OXY_TEN_MINUTES_IN_SECONDS); | |
825 *oxygen_otu -= ((double)cycles_since_last_call) * otu_degrade_every_10_minutes; | |
826 otu_time_ticker += cycles_since_last_call; | |
827 if((*oxygen_otu < 0) || (otu_time_ticker > (MAX_DEGRADE_OTU_TIME_MINUTES / 10))) | |
828 *oxygen_otu = 0; | |
829 } | |
830 } | |
831 | |
832 | |
833 | |
834 void decom_oxygen_calculate_cns_degrade(float* oxygen_cns, long seconds_since_last_dive) | |
835 { | |
836 static long cns_time_ticker = 0; | |
837 int cns_max_cycles; | |
838 | |
839 if((*oxygen_cns <= 0.5f) || (seconds_since_last_dive == 0)) | |
840 *oxygen_cns = 0; | |
841 else if(seconds_since_last_dive < OXY_TEN_MINUTES_IN_SECONDS) | |
842 cns_time_ticker = 1; | |
843 else | |
844 { | |
845 cns_max_cycles = OXY_NINE_DAYS_IN_TEN_MINUTES; | |
846 while((*oxygen_cns >= 0.5f) && ((cns_time_ticker * OXY_TEN_MINUTES_IN_SECONDS) < seconds_since_last_dive) && cns_max_cycles) | |
847 { | |
848 cns_time_ticker++; | |
849 cns_max_cycles--; | |
850 *oxygen_cns *= OXY_HALF_LIVE_OF_TEN_MINUTES__INVERSE_NINTH_ROOT_OF_TWO; | |
851 } | |
852 } | |
853 } | |
854 | |
855 | |
856 // new hwOS style | |
857 void decom_oxygen_calculate_cns(float* oxygen_cns, float pressure_oxygen_real) | |
858 { | |
859 uint8_t char_I_actual_ppO2; | |
860 float CNS_fraction = 0; | |
861 const float time_factor = 3000.0f; | |
862 | |
863 if(pressure_oxygen_real < 0.15f) | |
864 char_I_actual_ppO2 = 15; | |
865 else | |
866 if(pressure_oxygen_real >= 2.5f) | |
867 char_I_actual_ppO2 = 255; | |
868 else | |
869 char_I_actual_ppO2 = (uint8_t)(pressure_oxygen_real * 100); | |
870 | |
871 if (char_I_actual_ppO2 < 50) | |
872 (void)0; // no changes | |
873 //------------------------------------------------------------------------ | |
874 // Below (and including) 1.60 bar | |
875 else if (char_I_actual_ppO2 < 61) | |
876 CNS_fraction += time_factor/(-533.07f * char_I_actual_ppO2 + 54000.0f); | |
877 else if (char_I_actual_ppO2 < 71) | |
878 CNS_fraction += time_factor/(-444.22f * char_I_actual_ppO2 + 48600.0f); | |
879 else if (char_I_actual_ppO2 < 81) | |
880 CNS_fraction += time_factor/(-355.38f * char_I_actual_ppO2 + 42300.0f); | |
881 else if (char_I_actual_ppO2 < 91) | |
882 CNS_fraction += time_factor/(-266.53f * char_I_actual_ppO2 + 35100.0f); | |
883 else if (char_I_actual_ppO2 < 111) | |
884 CNS_fraction += time_factor/(-177.69f * char_I_actual_ppO2 + 27000.0f); | |
885 else if (char_I_actual_ppO2 < 152) | |
886 CNS_fraction += time_factor/( -88.84f * char_I_actual_ppO2 + 17100.0f); | |
887 else if (char_I_actual_ppO2 < 167) | |
888 CNS_fraction += time_factor/(-222.11f * char_I_actual_ppO2 + 37350.0f); | |
889 //------------------------------------------------------------------------ | |
890 // Arieli et all.(2002): Modeling pulmonary and CNS O2 toxicity: | |
891 // J Appl Physiol 92: 248--256, 2002, doi:10.1152/japplphysiol.00434.2001 | |
892 // Formula (A1) based on value for 1.55 and c=20 | |
893 // example calculation: Sqrt((1.7/1.55)^20)*0.000404 | |
894 else if (char_I_actual_ppO2 < 172) | |
895 CNS_fraction += time_factor*0.00102f; | |
896 else if (char_I_actual_ppO2 < 177) | |
897 CNS_fraction += time_factor*0.00136f; | |
898 else if (char_I_actual_ppO2 < 182) | |
899 CNS_fraction += time_factor*0.00180f; | |
900 else if (char_I_actual_ppO2 < 187) | |
901 CNS_fraction += time_factor*0.00237f; | |
902 else if (char_I_actual_ppO2 < 192) | |
903 CNS_fraction += time_factor*0.00310f; | |
904 else if (char_I_actual_ppO2 < 198) | |
905 CNS_fraction += time_factor*0.00401f; | |
906 else if (char_I_actual_ppO2 < 203) | |
907 CNS_fraction += time_factor*0.00517f; | |
908 else if (char_I_actual_ppO2 < 233) | |
909 CNS_fraction += time_factor*0.0209f; | |
910 else | |
911 CNS_fraction += time_factor*0.0482f; // value for 2.5 | |
912 | |
913 if( CNS_fraction > 999.0f) // Limit display to 999% | |
914 CNS_fraction = 999.0f; | |
915 if( CNS_fraction < 0.0f ) | |
916 CNS_fraction = 0.0f; | |
917 | |
918 //calculate cns for the actual ppo2 for 1 second | |
919 *oxygen_cns += OXY_ONE_SIXTIETH_PART * CNS_fraction; | |
920 | |
921 if( *oxygen_cns > 999.0f) // Limit display to 999% | |
922 *oxygen_cns = 999.0f; | |
923 if( *oxygen_cns < 0.0f ) | |
924 *oxygen_cns = 0.0f; | |
925 } | |
926 | |
927 /* old DR5 style | |
928 void decom_oxygen_calculate_cns(float* oxygen_cns, float pressure_oxygen_real) | |
929 { | |
930 int cns_no_range = 0; | |
931 _Bool not_found = 1; | |
932 //for the cns calculation | |
933 const float cns_ppo2_ranges[60][2] = { | |
934 {0.50f, 0.00f}, {0.60f, 0.14f}, {0.64f, 0.15f}, {0.66f, 0.16f}, {0.68f, 0.17f}, {0.70f, 0.18f}, | |
935 {0.74f, 0.19f}, {0.76f, 0.20f}, {0.78f, 0.21f}, {0.80f, 0.22f}, {0.82f, 0.23f}, {0.84f, 0.24f}, | |
936 {0.86f, 0.25f}, {0.88f, 0.26f}, {0.90f, 0.28f}, {0.92f, 0.29f}, {0.94f, 0.30f}, {0.96f, 0.31f}, | |
937 {0.98f, 0.32f}, {1.00f, 0.33f}, {1.02f, 0.35f}, {1.04f, 0.36f}, {1.06f, 0.38f}, {1.08f, 0.40f}, | |
938 {1.10f, 0.42f}, {1.12f, 0.43f}, {1.14f, 0.43f}, {1.16f, 0.44f}, {1.18f, 0.46f}, {1.20f, 0.47f}, | |
939 {1.22f, 0.48f}, {1.24f, 0.51f}, {1.26f, 0.52f}, {1.28f, 0.54f}, {1.30f, 0.56f}, {1.32f, 0.57f}, | |
940 {1.34f, 0.60f}, {1.36f, 0.62f}, {1.38f, 0.63f}, {1.40f, 0.65f}, {1.42f, 0.68f}, {1.44f, 0.71f}, | |
941 {1.46f, 0.74f}, {1.48f, 0.78f}, {1.50f, 0.83f}, {1.52f, 0.93f}, {1.54f, 1.04f}, {1.56f, 1.19f}, | |
942 {1.58f, 1.47f}, {1.60f, 2.22f}, {1.62f, 5.00f}, {1.65f, 6.25f}, {1.67f, 7.69f}, {1.70f, 10.0f}, | |
943 {1.72f,12.50f}, {1.74f,20.00f}, {1.77f,25.00f}, {1.79f,31.25f}, {1.80f,50.00f}, {1.82f,100.0f}}; | |
944 //find the correct cns range for the corresponding ppo2 | |
945 cns_no_range = 58; | |
946 while (cns_no_range && not_found) | |
947 { | |
948 if (pressure_oxygen_real > cns_ppo2_ranges[cns_no_range][0]) | |
949 { | |
950 cns_no_range++; | |
951 not_found = 0; | |
952 } | |
953 else | |
954 cns_no_range--; | |
955 } | |
956 | |
957 //calculate cns for the actual ppo2 for 1 second | |
958 *oxygen_cns += OXY_ONE_SIXTIETH_PART * cns_ppo2_ranges[cns_no_range][1]; | |
959 } | |
960 */ | |
961 | |
962 void decom_oxygen_calculate_cns_exposure(int period_in_seconds, SGas* pActualGas, float pressure_ambient_bar, float* oxygen_cns) | |
963 { | |
964 float pressure_oxygen_real; | |
965 float one_second_cns; | |
966 | |
967 pressure_oxygen_real = decom_calc_ppO2(pressure_ambient_bar, pActualGas); | |
968 one_second_cns = 0; | |
969 decom_oxygen_calculate_cns(&one_second_cns, pressure_oxygen_real); | |
970 *oxygen_cns += one_second_cns * period_in_seconds; | |
971 } | |
972 | |
973 | |
974 void decom_oxygen_calculate_cns_stage_SchreinerStyle(int period_in_seconds, SGas* pGas, float starting_ambient_pressure_bar, float ending_ambient_pressure_bar, float* oxygen_cns) | |
975 { | |
976 if(ending_ambient_pressure_bar == starting_ambient_pressure_bar) | |
977 { | |
978 decom_oxygen_calculate_cns_exposure(period_in_seconds, pGas, starting_ambient_pressure_bar, oxygen_cns); | |
979 return; | |
980 } | |
981 | |
982 float pressure_oxygen_real; | |
983 float initial_pressure_oxygen; | |
984 float ending_pressure_oxygen; | |
985 float rate_oxygen; | |
986 | |
987 initial_pressure_oxygen = decom_calc_ppO2(starting_ambient_pressure_bar, pGas); | |
988 ending_pressure_oxygen = decom_calc_ppO2(ending_ambient_pressure_bar, pGas); | |
989 | |
990 rate_oxygen = (ending_pressure_oxygen - initial_pressure_oxygen) / period_in_seconds; | |
991 | |
992 pressure_oxygen_real = initial_pressure_oxygen; | |
993 for(int i = 0; i < period_in_seconds; i++) | |
994 { | |
995 decom_oxygen_calculate_cns(oxygen_cns, pressure_oxygen_real); | |
996 pressure_oxygen_real += rate_oxygen; | |
997 } | |
998 } | |
999 | |
1000 | |
1001 float decom_calc_ppO2(const float ambiant_pressure_bar, const SGas* pGas) | |
1002 { | |
662 | 1003 float percent_N2 = 0; |
38 | 1004 float percent_He = 0; |
1005 float percent_O2 = 0; | |
1006 | |
662 | 1007 decom_get_inert_gases(ambiant_pressure_bar, pGas, &percent_N2, &percent_He); |
1008 percent_O2 = 1 - percent_N2 - percent_He; | |
1009 | |
1010 return (ambiant_pressure_bar - WATER_VAPOUR_PRESSURE) * percent_O2; | |
38 | 1011 } |
1012 | |
1013 | |
662 | 1014 float decom_calc_SimppO2(float ambiant_pressure_bar, const SGas* pGas) |
1015 { | |
1016 float o2Ratio = 0.0; | |
1017 float inertGasRatio = 0.0; | |
1018 float simulatedPSCRppo2 = 0.0; | |
1019 | |
1020 o2Ratio = (100.0 - pGas->nitrogen_percentage - pGas->helium_percentage) / 100.0; | |
1021 inertGasRatio = 1.0 - o2Ratio; | |
1022 simulatedPSCRppo2 = (ambiant_pressure_bar - WATER_VAPOUR_PRESSURE) * o2Ratio; | |
1023 simulatedPSCRppo2 -= (inertGasRatio * pGas->pscr_factor); | |
1024 if(simulatedPSCRppo2 < 0.0) | |
1025 { | |
1026 simulatedPSCRppo2 = 0.0; | |
1027 } | |
1028 return simulatedPSCRppo2; | |
1029 } | |
1030 | |
1031 float decom_calc_SimppO2_O2based(float ambiant_pressure_bar, uint8_t O2PerCent, float factor) | |
1032 { | |
1033 float o2Ratio = 0.0; | |
1034 float inertGasRatio = 0.0; | |
1035 float simulatedPSCRppo2 = 0.0; | |
1036 | |
1037 o2Ratio = O2PerCent / 100.0; | |
1038 inertGasRatio = 1.0 - o2Ratio; | |
1039 simulatedPSCRppo2 = (ambiant_pressure_bar - WATER_VAPOUR_PRESSURE) * o2Ratio; | |
1040 simulatedPSCRppo2 -= (inertGasRatio * factor); | |
1041 if(simulatedPSCRppo2 < 0.0) | |
1042 { | |
1043 simulatedPSCRppo2 = 0.0; | |
1044 } | |
1045 return simulatedPSCRppo2; | |
1046 } | |
1047 | |
38 | 1048 uint8_t decom_get_actual_deco_stop(SDiveState* pDiveState) |
1049 { | |
1050 SDecoinfo* pDecoinfo; | |
1051 uint8_t depthNext, depthLast, depthSecond, depthInc; | |
1052 if(pDiveState->diveSettings.deco_type.ub.standard == GF_MODE) | |
1053 pDecoinfo = &pDiveState->decolistBuehlmann; | |
1054 else | |
1055 pDecoinfo = &pDiveState->decolistVPM; | |
1056 | |
1057 depthLast = (uint8_t)(pDiveState->diveSettings.last_stop_depth_bar * 10); | |
1058 depthSecond = (uint8_t)(pDiveState->diveSettings.input_second_to_last_stop_depth_bar * 10); | |
1059 depthInc = (uint8_t)(pDiveState->diveSettings.input_next_stop_increment_depth_bar * 10); | |
1060 if(pDecoinfo->output_stop_length_seconds[0] > 0) | |
1061 { | |
1062 depthNext = depthLast; | |
1063 } | |
1064 else | |
1065 return 0; | |
1066 for(int i = DECOINFO_STRUCT_MAX_STOPS -1 ;i > 0; i--) | |
1067 { | |
1068 if(pDecoinfo->output_stop_length_seconds[i] > 0) | |
1069 { | |
1070 depthNext = depthSecond + ( (i - 1) * depthInc); | |
1071 break; | |
1072 } | |
1073 } | |
1074 return depthNext; | |
1075 } | |
1076 | |
1077 | |
1078 // =============================================================================== | |
1079 // decom_calc_desaturation_time | |
1080 /// @brief This code is used to calculate desat, calculated by RTE and send to Firmware | |
1081 /// similar but more technical in code than decom_tissues_desaturation_time() | |
1082 /// the later has 0.05 for helium in contrast to this one. | |
1083 /// This one goes down to 70%, the oterh | |
1084 /// | |
1085 /// output is desat time in minutes | |
1086 // =============================================================================== | |
1087 int decom_calc_desaturation_time(float* Tissue_nitrogen_bar, float* Tissue_helium_bar, float surface_pressure_bar) | |
1088 { | |
1089 const float N2_ratio = 0.7902; // FIXED sum as stated in b"uhlmann | |
1090 | |
1091 float pres_surface; | |
1092 float temp_atem; | |
1093 float float_desaturation_multiplier; | |
1094 float temp1,temp2,temp3,temp4; | |
1095 int ci; | |
1096 int int_temp; | |
1097 int int_O_desaturation_time; | |
1098 pres_surface = ((float)surface_pressure_bar); | |
1099 temp_atem = N2_ratio * (pres_surface - 0.0627f); | |
1100 | |
1101 int_O_desaturation_time = 0; | |
1102 float_desaturation_multiplier = 100 / 142.0f; // new in v.101 (70,42%/100.=142) | |
1103 | |
1104 for (ci=0;ci<16;ci++) | |
1105 { | |
1106 // saturation_time (for flight) and N2_saturation in multiples of halftime | |
1107 // version v.100: 1.1 = 10 percent distance to totally clean (totally clean is not possible, would take infinite time ) | |
1108 // new in version v.101: 1.07 = 7 percent distance to totally clean (totally clean is not possible, would take infinite time ) | |
1109 // changes in v.101: 1.05 = 5 percent dist to totally clean is new desaturation point for display and noFly calculations | |
1110 | |
1111 // N2 | |
1112 temp1 = 1.05f * temp_atem; | |
1113 temp1 = temp1 - (float)Tissue_nitrogen_bar[ci]; | |
1114 temp2 = temp_atem - (float)Tissue_nitrogen_bar[ci]; | |
1115 if (temp2 >= 0) | |
1116 { | |
1117 temp1 = 0; | |
1118 temp2 = 0; | |
1119 } | |
1120 else | |
1121 temp1 = temp1 / temp2; | |
1122 | |
1123 if (temp1 > 0) | |
1124 { | |
1125 temp1 = logf(1.0f - temp1); | |
1126 temp1 = temp1 / -0.6931f; // temp1 is the multiples of half times necessary. | |
1127 // 0.6931 is ln(2), because the math function log() calculates with a base of e not 2 as requested. | |
1128 // minus because log is negative | |
1129 temp2 = buehlmann_N2_t_halflife[ci] * temp1 / float_desaturation_multiplier; // time necessary (in minutes ) for complete desaturation (see comment about 10 percent) , new in v.101: float_desaturation_multiplier | |
1130 } | |
1131 else | |
1132 { | |
1133 temp1 = 0; | |
1134 temp2 = 0; | |
1135 } | |
1136 | |
1137 // He | |
1138 temp3 = 0.1f - (float)Tissue_helium_bar[ci]; | |
1139 if (temp3 >= 0) | |
1140 { | |
1141 temp3 = 0; | |
1142 temp4 = 0; | |
1143 } | |
1144 else | |
1145 temp3 = -1.0f * temp3 / (float)Tissue_helium_bar[ci]; | |
1146 if (temp3 > 0) | |
1147 { | |
1148 temp3 = logf(1.0f - temp3); | |
1149 temp3 = temp3 / -0.6931f; // temp1 is the multiples of half times necessary. | |
1150 // 0.6931 is ln(2), because the math function log() calculates with a base of e not 2 as requested. | |
1151 // minus because log is negative | |
1152 temp4 = buehlmann_He_t_halflife[ci] * temp3 / float_desaturation_multiplier; // time necessary (in minutes ) for "complete" desaturation, new in v.101 float_desaturation_multiplier | |
1153 } | |
1154 else | |
1155 { | |
1156 temp3 = 0; | |
1157 temp4 = 0; | |
1158 } | |
1159 | |
1160 // saturation_time (for flight) | |
1161 if (temp4 > temp2) | |
1162 int_temp = (int)temp4; | |
1163 else | |
1164 int_temp = (int)temp2; | |
1165 if(int_temp > int_O_desaturation_time) | |
1166 int_O_desaturation_time = int_temp; | |
1167 | |
1168 /*// N2 saturation in multiples of halftime for display purposes | |
1169 temp2 = temp1 * 20.0; // 0 = 1/8, 120 = 0, 249 = 8 | |
1170 temp2 = temp2 + 80.0; // set center | |
1171 if (temp2 < 0.0) | |
1172 temp2 = 0.0; | |
1173 if (temp2 > 255.0) | |
1174 temp2 = 255.0; | |
1175 U8_tissue_N2_saturation[ci] = (U8)temp2; | |
1176 // He saturation in multiples of halftime for display purposes | |
1177 temp4 = temp3 * 20.0; // 0 = 1/8, 120 = 0, 249 = 8 | |
1178 temp4 = temp4 + 80.0; // set center | |
1179 if (temp4 < 0.0) | |
1180 temp4 = 0.0; | |
1181 if (temp4 > 255.0) | |
1182 temp4 = 255.0; | |
1183 U8_tissue_He_saturation[ci] = (char)temp4;*/ | |
1184 } | |
1185 | |
1186 return int_O_desaturation_time; | |
1187 } |