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Documentation: Merge and update french translations
Signed-off-by: Guillaume GARDET <guillaume.gardet@free.fr>
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@ -8,7 +8,7 @@ msgid ""
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msgstr ""
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msgstr ""
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"Project-Id-Version: subsurface-manual VERSION\n"
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"Project-Id-Version: subsurface-manual VERSION\n"
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"Report-Msgid-Bugs-To: subsurface@subsurface-divelog.org\n"
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"Report-Msgid-Bugs-To: subsurface@subsurface-divelog.org\n"
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"POT-Creation-Date: 2017-10-20 22:41+0200\n"
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"POT-Creation-Date: 2017-11-28 08:47+0100\n"
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"PO-Revision-Date: YEAR-MO-DA HO:MI+ZONE\n"
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"PO-Revision-Date: YEAR-MO-DA HO:MI+ZONE\n"
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"Last-Translator: FULL NAME <EMAIL@ADDRESS>\n"
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"Last-Translator: FULL NAME <EMAIL@ADDRESS>\n"
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"Language-Team: LANGUAGE <LL@li.org>\n"
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"Language-Team: LANGUAGE <LL@li.org>\n"
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@ -1038,10 +1038,10 @@ Sur les systèmes d’exploitation de type Unix, l’utilisateur a-t-il
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</li>
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</li>
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</ul></div>
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</ul></div>
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<div class="paragraph"><p>Si l’ordinateur utilisant <em>Subsurface</em> ne reconnaît pas l’adaptateur USB en
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<div class="paragraph"><p>Si l’ordinateur utilisant <em>Subsurface</em> ne reconnaît pas l’adaptateur USB en
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ne montrant pas le bon nom de périphérique à côté du Point de monage, il est
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ne montrant pas le bon nom de périphérique à côté du Point de montage, il
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possible que le câble ou l’adaptateur USB soit fautif. Un câble défectueux
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est possible que le câble ou l’adaptateur USB soit fautif. Un câble
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est la cause la plus courante de problème de communication entre un
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défectueux est la cause la plus courante de problème de communication entre
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ordinateur de plongée et <em>Subsurface</em>. Il est également possible que
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un ordinateur de plongée et <em>Subsurface</em>. Il est également possible que
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<em>Subsurface</em> ne puisse pas interpréter les données. Réalisez un
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<em>Subsurface</em> ne puisse pas interpréter les données. Réalisez un
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téléchargement de diagnostic en cochant les deux cases suivantes dans la
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téléchargement de diagnostic en cochant les deux cases suivantes dans la
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boîte de dialogue de téléchargement décrite ci-dessus:</p></div>
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boîte de dialogue de téléchargement décrite ci-dessus:</p></div>
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@ -1380,7 +1380,7 @@ dive location.</p></div>
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<img src="images/Globe_image2.jpg" alt="FIGURE:Location creation panel" />
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<img src="images/Globe_image2.jpg" alt="FIGURE:Location creation panel" />
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</div>
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</div>
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</div>
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</div>
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<div class="paragraph"><p>There are three ways of adding the the coordinates:</p></div>
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<div class="paragraph"><p>Il existe trois façons d’ajouter des coordonnées :</p></div>
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<div class="paragraph"><p><strong>(1):</strong> Entrer les coordonnées manuellement si vous les connaissez,
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<div class="paragraph"><p><strong>(1):</strong> Entrer les coordonnées manuellement si vous les connaissez,
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en utilisant un des quatre formats avec la latitude suivie de la longitude :</p></div>
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en utilisant un des quatre formats avec la latitude suivie de la longitude :</p></div>
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<div class="literalblock">
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<div class="literalblock">
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@ -1401,7 +1401,7 @@ géolocalisation de ce site. Les informations du site de plongée pourront
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être modifiées ultérieurement, en cliquant sur l’icône de globe à droite du
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être modifiées ultérieurement, en cliquant sur l’icône de globe à droite du
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nom du site de plongée, dans l'"onglet notes".</p></div>
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nom du site de plongée, dans l'"onglet notes".</p></div>
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<div class="paragraph"><p><strong>(2):</strong> Use the Dive Map to specify the coordinates. The Dive map now shows
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<div class="paragraph"><p><strong>(2):</strong> Use the Dive Map to specify the coordinates. The Dive map now shows
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all the existing dive lications in grey as well as an additional marker in red
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all the existing dive locations in grey as well as an additional marker in red
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(image B above). Drag the red marker to the location of the dive site being entered.
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(image B above). Drag the red marker to the location of the dive site being entered.
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The map can be dragged and zoomed using the mouse wheel. Position the red marker
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The map can be dragged and zoomed using the mouse wheel. Position the red marker
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by dragging it on the map, zooming in on the appropriate part of the map and placing
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by dragging it on the map, zooming in on the appropriate part of the map and placing
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@ -1419,15 +1419,21 @@ dive site name in the <strong>Notes tab</strong>.</p></div>
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<div class="paragraph"><p>Once the dive location data have been saved, the dive on the Dive List has a
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<div class="paragraph"><p>Once the dive location data have been saved, the dive on the Dive List has a
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globe icon immediately to the left of the location name of a particular
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globe icon immediately to the left of the location name of a particular
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dive.</p></div>
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dive.</p></div>
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<div class="paragraph"><p><strong>(3):</strong> Utiliser l’application Subsurface-Mobile ou l’application <em>Subsurface</em> Companion avec un
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<div class="paragraph"><p><strong>(3):</strong> Obtenir les coordonnées en utilisant soit l’application Subsurface-Mobile, soit l’application <em>Subsurface</em> Companion avec un
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périphérique Android ou un iPhone avec GPS si les coordonnées du site de plongée ont été stockées
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périphérique Android ou un iPhone avec GPS si les coordonnées du site de plongée ont été stockées
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en utilisant une de ces applications.
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en utilisant une de ces applications.
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<a href="#S_Companion">Cliquez ici pour plus d’information</a></p></div>
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<a href="#S_Companion">Cliquez ici pour plus d’information</a></p></div>
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<div class="paragraph"><p><strong>Important</strong>: les coordonnées GPS d’un site de plongée sont liées au nom de
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<div class="admonitionblock">
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lieu - ainsi, <strong>enregistrer</strong> un site de plongée avec uniquement les coordonnées mais aucun nom
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<table><tr>
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causera des problèmes. (Subsurface pensera que toutes ces
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<td class="icon">
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plongées ont le même lieu et tentera de garder leurs coordonnées GPS
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<img src="images/icons/warning2.png" alt="Warning" />
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identiques).</p></div>
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</td>
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<td class="content">Les coordonnées GPS d’un site de plongée sont liées au nom de lieu - ainsi,
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<strong>enregistrer</strong> un site de plongée avec uniquement les coordonnées mais aucun
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nom causera des problèmes. (Subsurface pensera que toutes cesplongées ont le
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même lieu et tentera de garder leurs coordonnées GPSidentiques).</td>
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</tr></table>
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</div>
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<div class="paragraph"><p><strong>Recherche du nom d’un site de plongée</strong>: si vous avez entré les coordonnées dans la boîte
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<div class="paragraph"><p><strong>Recherche du nom d’un site de plongée</strong>: si vous avez entré les coordonnées dans la boîte
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de texte appropriée, vous pouvez lancer une recherche de nom sur base des coordonnées.
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de texte appropriée, vous pouvez lancer une recherche de nom sur base des coordonnées.
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Ceci est réalisé lorsque <em>Subsurface</em> utilise Internet pour trouver le nom d’un site de plongée
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Ceci est réalisé lorsque <em>Subsurface</em> utilise Internet pour trouver le nom d’un site de plongée
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@ -1665,19 +1671,19 @@ disque de l’ordinateur.</p></div>
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<div class="paragraph" id="S_ImportingAlienDiveLogs"><p>Many divers log their dives using the proprietary software provided by the
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<div class="paragraph" id="S_ImportingAlienDiveLogs"><p>Many divers log their dives using the proprietary software provided by the
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manufacturers of their dive computers. <em>Subsurface</em> can import dive logs
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manufacturers of their dive computers. <em>Subsurface</em> can import dive logs
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from a range of other dive log software. While import from some software is
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from a range of other dive log software. While import from some software is
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supported natively, others require export of the the dive log to an
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supported natively, others require export of the dive log to an intermediate
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intermediate format that can then be imported into <em>Subsurface</em>. Currently,
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format that can then be imported into <em>Subsurface</em>. Currently, <em>Subsurface</em>
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<em>Subsurface</em> supports importing CSV log files from several sources. Dive
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supports importing CSV log files from several sources. Dive log import from
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log import from APD LogViewer, XP5, Sensus and Seabear files are
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APD LogViewer, XP5, Sensus and Seabear files are preconfigured, but because
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preconfigured, but because the import is flexible, users can configure their
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the import is flexible, users can configure their own imports. Manually
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own imports. Manually kept log files (e.g. a spreadsheet) can also be
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kept log files (e.g. a spreadsheet) can also be imported by configuring the
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imported by configuring the CSV import. <em>Subsurface</em> can also import UDDF
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CSV import. <em>Subsurface</em> can also import UDDF and UDCF files used by some
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and UDCF files used by some dive log software and some dive computers, like
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dive log software and some dive computers, like the Heinrichs & Weikamp
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the Heinrichs & Weikamp DR5. Finally, for some dive log software like Mares
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DR5. Finally, for some dive log software like Mares Dive Organizer we
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Dive Organizer we currently recommend importing the logbook first into a web
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currently recommend importing the logbook first into a web service like
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service like <em>divelogs.de</em> and then import from there with
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<em>divelogs.de</em> and then import from there with <em>Subsurface</em>. Divelogs.de
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<em>Subsurface</em>. Divelogs.de supports a few additional logbook formats that
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supports a few additional logbook formats that <em>Subsurface</em> currently cannot
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<em>Subsurface</em> currently cannot handle.</p></div>
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handle.</p></div>
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<div class="paragraph"><p>If the format of other software is supported natively on Subsurface, select
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<div class="paragraph"><p>If the format of other software is supported natively on Subsurface, select
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either <em>Import → Import log files</em> or <em>File → Open log file</em>. Notice that
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either <em>Import → Import log files</em> or <em>File → Open log file</em>. Notice that
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the import adds the imported data to the current <strong>Dive list</strong>, and the open
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the import adds the imported data to the current <strong>Dive list</strong>, and the open
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@ -2138,11 +2144,11 @@ humain. Voici les mêmes informations dans un format séparé par des
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tabulations :</p></div>
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tabulations :</p></div>
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<div class="literalblock">
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<div class="literalblock">
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<div class="content">
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<div class="content">
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<pre><code>Dive site Dive date Time Dive_duration Dive_depth Dive buddy
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<pre><code>Dive site Dive date Time Dive_duration Dive_depth Dive buddy
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Illovo Beach 2012-11-23 10:45 46:15 18.4 John Smith
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Illovo Beach 2012-11-23 10:45 46:15 18.4 John Smith
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Key Largo 2012-11-24 09:12 34:15 20.4 Jason McDonald
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Key Largo 2012-11-24 09:12 34:15 20.4 Jason McDonald
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Wismar Baltic 2012-12-01 10:13 35:27 15.4 Dieter Albrecht
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Wismar Baltic 2012-12-01 10:13 35:27 15.4 Dieter Albrecht
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Pulau Weh 2012-12-20 09:46 55:56 38.6 Karaeng Bontonompo</code></pre>
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Pulau Weh 2012-12-20 09:46 55:56 38.6 Karaeng Bontonompo</code></pre>
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</div></div>
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</div></div>
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<div class="paragraph"><p>It is clear why many people prefer the TAB-delimited format to the
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<div class="paragraph"><p>It is clear why many people prefer the TAB-delimited format to the
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comma-delimited format. The disadvantage is that you cannot see the TAB
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comma-delimited format. The disadvantage is that you cannot see the TAB
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@ -2283,19 +2289,19 @@ If the diver moves, a trace of the route is obtained by saving a location every
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</div>
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</div>
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<div class="sect4">
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<div class="sect4">
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<h5 id="_activate_the_automated_recording_of_gps_locations">Activate the automated recording of GPS locations</h5>
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<h5 id="_activate_the_automated_recording_of_gps_locations">Activate the automated recording of GPS locations</h5>
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<div class="paragraph"><p>The <em>Subsurface-mobile</em> main menu has a checkbox at the bottom left labled
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<div class="paragraph"><p>The <em>Subsurface-mobile</em> GPS menu has an option at the bottom labled <em>Run
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<em>Run location service</em> (see image below). Checking the box starts the
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location service</em> (see image below). Selecting this starts the automated
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automated recording of GPS positions.</p></div>
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recording of GPS positions.</p></div>
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<div class="imageblock" style="text-align:center;">
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<div class="imageblock" style="text-align:center;">
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<div class="content">
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<div class="content">
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<img src="images/MobileMenu.jpg" alt="FIGURE: Subsurface-mobile main menu" />
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<img src="images/MobileGpsMenu.jpg" alt="FIGURE: Subsurface-mobile GPS menu" />
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</div>
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</div>
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</div>
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</div>
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</div>
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</div>
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<div class="sect4">
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<div class="sect4">
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<h5 id="_after_the_dive_stop_the_automated_recording_of_gps_locations">After the dive, stop the automated recording of GPS locations</h5>
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<h5 id="_after_the_dive_stop_the_automated_recording_of_gps_locations">After the dive, stop the automated recording of GPS locations</h5>
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<div class="paragraph"><p>Uncheck the check box at the bottom left of the <em>Subsurface-mobile</em> main
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<div class="paragraph"><p>Select the menu option <em>Disable location service</em> at the bottom of the
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menu.</p></div>
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<em>Subsurface-mobile</em> GPS menu.</p></div>
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</div>
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</div>
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<div class="sect4">
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<div class="sect4">
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<h5 id="_upload_the_gps_locations_onto_the_em_subsurface_em_internet_server">Upload the GPS locations onto the <em>Subsurface</em> Internet server.</h5>
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<h5 id="_upload_the_gps_locations_onto_the_em_subsurface_em_internet_server">Upload the GPS locations onto the <em>Subsurface</em> Internet server.</h5>
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@ -3126,7 +3132,7 @@ other digital sources</a> and
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data into a known directory. From the main menu of <em>Subsurface</em>, select
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data into a known directory. From the main menu of <em>Subsurface</em>, select
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<em>Import → Import log files</em> to bring up the <a href="#Unified_import">universal
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<em>Import → Import log files</em> to bring up the <a href="#Unified_import">universal
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import dialogue</a>. As explained in that section, the bottom right hand of the
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import dialogue</a>. As explained in that section, the bottom right hand of the
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import dialogue contains a dropdown list (labled <em>Filter:</em>) of appropriate
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import dialogue contains a dropdown list (labeled <em>Filter:</em>) of appropriate
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devices that currently include (Poseidon) MkVI or APD log viewer
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devices that currently include (Poseidon) MkVI or APD log viewer
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files. Import for other CCR equipment is under active development. Having
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files. Import for other CCR equipment is under active development. Having
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selected the appropriate CCR format and the directory where the original
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selected the appropriate CCR format and the directory where the original
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@ -3193,7 +3199,7 @@ pressure and the setpoint values, as shown below.</p></div>
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</div>
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</div>
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</div>
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</div>
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<div class="paragraph"><p>The second checkbox allows the display of the data from each individual
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<div class="paragraph"><p>The second checkbox allows the display of the data from each individual
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oxygen sensor of the CCR equipment. The data for each sensor is colour-coded
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oxygen sensor of the CCR equipment. The data for each sensor is color-coded
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as follows:</p></div>
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as follows:</p></div>
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<div class="ulist"><ul>
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<div class="ulist"><ul>
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<li>
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<li>
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@ -3554,11 +3560,11 @@ divers breathing gases other than air. Their values are dependent on the
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composition of the breathing gas. The EAD is the depth of a hypothetical air
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composition of the breathing gas. The EAD is the depth of a hypothetical air
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dive that has the same partial pressure of nitrogen as the current depth of
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dive that has the same partial pressure of nitrogen as the current depth of
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the nitrox dive at hand. A nitrox dive leads to the same decompression
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the nitrox dive at hand. A nitrox dive leads to the same decompression
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obligation as an air dive to the depth equalling the EAD. The END is the
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obligation as an air dive to the depth equaling the EAD. The END is the
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depth of a hypothetical air dive that has the same sum of partial pressures
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depth of a hypothetical air dive that has the same sum of partial pressures
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of the narcotic gases nitrogen and oxygen as the current trimix dive. A
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of the narcotic gases nitrogen and oxygen as the current trimix dive. A
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trimix diver can expect the same narcotic effect as a diver breathing air
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trimix diver can expect the same narcotic effect as a diver breathing air
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diving at a depth equalling the END.</td>
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diving at a depth equaling the END.</td>
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</tr></table>
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</tr></table>
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</div>
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</div>
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<div class="paragraph"><p>La figure (<strong>B</strong>) ci-dessous affiche une boîte d’information avec un ensemble
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<div class="paragraph"><p>La figure (<strong>B</strong>) ci-dessous affiche une boîte d’information avec un ensemble
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@ -3911,7 +3917,7 @@ after 23 minutes. Cylinders with air are shown as a light blue bar.</td>
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<td class="content">
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<td class="content">
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<div class="paragraph"><p>Display the tissue heat-map. The heat map summarises, for the duration of
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<div class="paragraph"><p>Display the tissue heat-map. The heat map summarises, for the duration of
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the dive, the inert gas tissue pressures for each of the 16 tissue
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the dive, the inert gas tissue pressures for each of the 16 tissue
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compartments of the Bühlmann model. Blue colours mean low gas pressures in a
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compartments of the Bühlmann model. Blue colors mean low gas pressures in a
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tissue compartment and thus on-gassing, green to red means excess gas in the
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tissue compartment and thus on-gassing, green to red means excess gas in the
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tissue and thus off-gassing. Fast to slow tissues are indicated from top to
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tissue and thus off-gassing. Fast to slow tissues are indicated from top to
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bottom. The figure below explains in greater detail how the heat map can be
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bottom. The figure below explains in greater detail how the heat map can be
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@ -3929,19 +3935,19 @@ with the quick tissue compartments on the left and the slow tissue
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compartments on the right. Refer to the section on the
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compartments on the right. Refer to the section on the
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<a href="#S_gas_pressure_graph">Gas Pressure Graph</a> for more details on the
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<a href="#S_gas_pressure_graph">Gas Pressure Graph</a> for more details on the
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different elements of this graph.</p></div>
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different elements of this graph.</p></div>
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<div class="paragraph"><p>Image <strong>B</strong> shows a gradient of unique colours, spanning the whole range of
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<div class="paragraph"><p>Image <strong>B</strong> shows a gradient of unique colors, spanning the whole range of
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inert gas pressures. It is possible to map the height of each of the dark
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inert gas pressures. It is possible to map the height of each of the dark
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green vertical bars of <strong>A</strong> to a colour in <strong>B</strong>. For instance, the fastest
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green vertical bars of <strong>A</strong> to a color in <strong>B</strong>. For instance, the fastest
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(leftmost) dark green verical bar in <strong>A</strong> has a height corresponding to the
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(leftmost) dark green vertical bar in <strong>A</strong> has a height corresponding to the
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medium green part of <strong>B</strong>. The height of this bar can therefore be summarised
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medium green part of <strong>B</strong>. The height of this bar can therefore be summarised
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using a medium green colour. Similarly, the highest dark green bar in <strong>A</strong> is
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using a medium green color. Similarly, the highest dark green bar in <strong>A</strong> is
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as high as the yellow part of <strong>B</strong>. The 14 remaining tissue pressure bars in
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as high as the yellow part of <strong>B</strong>. The 14 remaining tissue pressure bars in
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<strong>A</strong> can also be translated to colours. The colours represent three ranges of
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<strong>A</strong> can also be translated to colors. The colors represent three ranges of
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tissue inert gas pressure:</p></div>
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tissue inert gas pressure:</p></div>
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<div class="ulist"><ul>
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<div class="ulist"><ul>
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<li>
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<li>
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<p>
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<p>
|
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The bottom range in <strong>B</strong> (marked <em>On-gassing</em>) includes colours from light
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The bottom range in <strong>B</strong> (marked <em>On-gassing</em>) includes colors from light
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blue to black, representing tissue gas pressures below the equilibrium
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blue to black, representing tissue gas pressures below the equilibrium
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pressure of inert gas (bottom horizontal line in <strong>A</strong>). The measurement unit
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pressure of inert gas (bottom horizontal line in <strong>A</strong>). The measurement unit
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is the % of inert gas pressure, relative to the equilibrium inert gas
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is the % of inert gas pressure, relative to the equilibrium inert gas
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||||||
|
@ -3955,8 +3961,8 @@ The bottom range in <strong>B</strong> (marked <em>On-gassing</em>) includes col
|
||||||
</li>
|
</li>
|
||||||
<li>
|
<li>
|
||||||
<p>
|
<p>
|
||||||
The central range in <strong>B</strong> includes the colours from black to light green,
|
The central range in <strong>B</strong> includes the colors from black to light green, when
|
||||||
when the inert gas pressure of a tissue compartment is higher than the
|
the inert gas pressure of a tissue compartment is higher than the
|
||||||
equilibrium pressure but less than the ambient pressure. In this zone
|
equilibrium pressure but less than the ambient pressure. In this zone
|
||||||
decompression is not very efficient because the gradient of inert gas
|
decompression is not very efficient because the gradient of inert gas
|
||||||
pressure from tissue to the environment is relatively small and indicated by
|
pressure from tissue to the environment is relatively small and indicated by
|
||||||
|
@ -3965,42 +3971,41 @@ The central range in <strong>B</strong> includes the colours from black to light
|
||||||
</li>
|
</li>
|
||||||
<li>
|
<li>
|
||||||
<p>
|
<p>
|
||||||
The top range in <strong>B</strong> (marked <em>Off-gassing</em>) includes colours from light
|
The top range in <strong>B</strong> (marked <em>Off-gassing</em>) includes colors from light green
|
||||||
green to red and white, repesenting tissue gas pressures above that of the
|
to red and white, repesenting tissue gas pressures above that of the total
|
||||||
total ambient pressure (top of light green area of <strong>A</strong>). The measurement
|
ambient pressure (top of light green area of <strong>A</strong>). The measurement unit is
|
||||||
unit is the % of inert gas pressure above ambient pressure, relative to the
|
the % of inert gas pressure above ambient pressure, relative to the Bühlmann
|
||||||
Bühlmann M-value gradient (bottom of red area in <strong>A</strong>). These tissue
|
M-value gradient (bottom of red area in <strong>A</strong>). These tissue pressures are
|
||||||
pressures are normally reached while ascending to a shallower depth. Below
|
normally reached while ascending to a shallower depth. Below a value of
|
||||||
a value of 100%, this range indicates efficient off-gassing of inert gas
|
100%, this range indicates efficient off-gassing of inert gas from the
|
||||||
from the tissue compartment into the environment. Usually, efficient
|
tissue compartment into the environment. Usually, efficient off-gassing is
|
||||||
off-gassing is indicated by light green, yellow or orange colours. Above
|
indicated by light green, yellow or orange colors. Above 100% (red to white
|
||||||
100% (red to white in <strong>B</strong>) the M-value gradient is exceeded and the
|
in <strong>B</strong>) the M-value gradient is exceeded and the probability of
|
||||||
probability of decompression sickness increases markedly.
|
decompression sickness increases markedly.
|
||||||
</p>
|
</p>
|
||||||
</li>
|
</li>
|
||||||
</ul></div>
|
</ul></div>
|
||||||
<div class="paragraph"><p>Image <strong>C</strong> shows the colour mapping of each of the vertical bars in <strong>A</strong>, the
|
<div class="paragraph"><p>Image <strong>C</strong> shows the color mapping of each of the vertical bars in <strong>A</strong>, the
|
||||||
fast tissues (on the left in <strong>A</strong>) depicted at the top and the slow tissue
|
fast tissues (on the left in <strong>A</strong>) depicted at the top and the slow tissue
|
||||||
compartments at the bottom of <strong>C</strong>. The highest vertical bar in <strong>A</strong> (vertical
|
compartments at the bottom of <strong>C</strong>. The highest vertical bar in <strong>A</strong> (vertical
|
||||||
bar 3rd from the left) is presented as the yellow rectangle 3rd from the top
|
bar 3rd from the left) is presented as the yellow rectangle 3rd from the top
|
||||||
in <strong>C</strong>. The 16 vertical bars in <strong>A</strong> are now presented as a vertical column
|
in <strong>C</strong>. The 16 vertical bars in <strong>A</strong> are now presented as a vertical column
|
||||||
of 16 coloured rectangles, representing a snapshot of tissue compartment gas
|
of 16 colored rectangles, representing a snapshot of tissue compartment gas
|
||||||
pressures at a particular instant during the dive.</p></div>
|
pressures at a particular instant during the dive.</p></div>
|
||||||
<div class="paragraph"><p>Image <strong>D</strong> is a compilation of similar colour mappings of 16 tissue
|
<div class="paragraph"><p>Image <strong>D</strong> is a compilation of similar color mappings of 16 tissue
|
||||||
compartments during a 10-minute period of a dive, the colours representing
|
compartments during a 10-minute period of a dive, the colors representing
|
||||||
the inert gas loading of a tissue compartment at a point in time during the
|
the inert gas loading of a tissue compartment at a point in time during the
|
||||||
dive. Faster tissues are shown at the top and slower tissues at the bottom,
|
dive. Faster tissues are shown at the top and slower tissues at the bottom,
|
||||||
with time forming the horizontal axis of the graph. The column of rectangles
|
with time forming the horizontal axis of the graph. The column of rectangles
|
||||||
in <strong>C</strong> can be found on the horizontal axis between 9 and 10 minutes.</p></div>
|
in <strong>C</strong> can be found on the horizontal axis between 9 and 10 minutes.</p></div>
|
||||||
<div class="paragraph"><p>The colours of the heat map are not affected by the gradient factor
|
<div class="paragraph"><p>The colors of the heat map are not affected by the gradient factor
|
||||||
settings. This is because the heat map indicates tissue pressures relative
|
settings. This is because the heat map indicates tissue pressures relative
|
||||||
to the Bühlmann M-value gradient, and not relative to any specific gradient
|
to the Bühlmann M-value gradient, and not relative to any specific gradient
|
||||||
factor. For more information external to this manual see:</p></div>
|
factor. For more information external to this manual see:</p></div>
|
||||||
<div class="paragraph"><p><a href="http://www.tek-dive.com/portal/upload/M-Values.pdf">Understanding M-values by
|
<div class="paragraph"><p><a href="http://www.tek-dive.com/portal/upload/M-Values.pdf">Understanding M-values by
|
||||||
Erik Baker, <em>Immersed</em> Vol. 3, No. 3.</a></p></div>
|
Erik Baker, <em>Immersed</em> Vol. 3, No. 3.</a></p></div>
|
||||||
<div class="paragraph"><p>Since the colours of the heat map are not affected by the gradient
|
<div class="paragraph"><p>Since the colors of the heat map are not affected by the gradient factor(s),
|
||||||
factor(s), the heat map is also applicable when using the VPM-B
|
the heat map is also applicable when using the VPM-B decompression model.</p></div>
|
||||||
decompression model.</p></div>
|
|
||||||
<div class="paragraph"><p>The image below compares the profiles and heat maps for two planned
|
<div class="paragraph"><p>The image below compares the profiles and heat maps for two planned
|
||||||
decompression dives to 60m: the first using the Bühlmann decompression
|
decompression dives to 60m: the first using the Bühlmann decompression
|
||||||
model, the second using the VPM-B decompression model. Both profiles have
|
model, the second using the VPM-B decompression model. Both profiles have
|
||||||
|
@ -4105,8 +4110,8 @@ after the dive, or of landscapes as seen from the boat.</td>
|
||||||
<td class="icon">
|
<td class="icon">
|
||||||
<img src="images/icons/inAndOutPhoto.png" alt="Note" />
|
<img src="images/icons/inAndOutPhoto.png" alt="Note" />
|
||||||
</td>
|
</td>
|
||||||
<td class="content">This dive has photographs taken both during the dive and immdiately before
|
<td class="content">Cette plongée contient à la fois des photos prises pendant la plongée, et
|
||||||
or after the dive.</td>
|
juste avant ou juste après la plongée.</td>
|
||||||
</tr></table>
|
</tr></table>
|
||||||
</div>
|
</div>
|
||||||
</div>
|
</div>
|
||||||
|
@ -5095,10 +5100,7 @@ Bühlmann: Set the <em>gradient factors</em> (GFLow and GFHigh) for calculcating
|
||||||
respect to inert gas loading and the deeper the ceilings are. Gradient
|
respect to inert gas loading and the deeper the ceilings are. Gradient
|
||||||
factors of 20/60 are considered conservative and values of 70/90 are considered
|
factors of 20/60 are considered conservative and values of 70/90 are considered
|
||||||
harsh.
|
harsh.
|
||||||
In addition decide whether to check the <em>GFLow at max. depth</em> box. If checked, GF_Low is used for the
|
For more information see:
|
||||||
deepest dive depth and linearly increased up to the GF_High value at the surface. If unchecked,
|
|
||||||
GF_Low is used between the deepest dive depth and the first deco stop, after which the
|
|
||||||
gradient factor linearly increases up to the GF_High value at the surface. For more information see:
|
|
||||||
</p>
|
</p>
|
||||||
</li>
|
</li>
|
||||||
<li>
|
<li>
|
||||||
|
@ -5500,12 +5502,12 @@ Define the amount of gas the cylinder must have at the end of the bottom
|
||||||
<p>
|
<p>
|
||||||
Define the depth of the dive by dragging the waypoints (white dots) on the
|
Define the depth of the dive by dragging the waypoints (white dots) on the
|
||||||
dive profile or (even better) defining the appropriate depths using the
|
dive profile or (even better) defining the appropriate depths using the
|
||||||
table under <em>Dive planner points</em> as desribed under the previous heading. If
|
table under <em>Dive planner points</em> as described under the previous
|
||||||
this is a multilevel dive, set the appropriate dive depths to represent the
|
heading. If this is a multilevel dive, set the appropriate dive depths to
|
||||||
dive plan by adding waypoints to the dive profile or by adding appropriate
|
represent the dive plan by adding waypoints to the dive profile or by adding
|
||||||
dive planner points to the <em>Dive Planner Points</em> table. <em>Subsurface</em> will
|
appropriate dive planner points to the <em>Dive Planner Points</em>
|
||||||
automatically extend the bottom section of the dive to the maximum duration
|
table. <em>Subsurface</em> will automatically extend the bottom section of the dive
|
||||||
within the no-decompression limits (NDL).
|
to the maximum duration within the no-decompression limits (NDL).
|
||||||
</p>
|
</p>
|
||||||
</li>
|
</li>
|
||||||
<li>
|
<li>
|
||||||
|
@ -5621,7 +5623,7 @@ the limit of the gas supply but that an appropriate reserve is kept
|
||||||
for unforeseen circumstances.
|
for unforeseen circumstances.
|
||||||
For technical diving, this reserve can be up to 66% of the total available gas.
|
For technical diving, this reserve can be up to 66% of the total available gas.
|
||||||
In addition to calculating the total gas consumption for every cylinder the planner provides one way
|
In addition to calculating the total gas consumption for every cylinder the planner provides one way
|
||||||
of calculating the recommended volume of bottom gas which is needed for safe asscent to the
|
of calculating the recommended volume of bottom gas which is needed for safe ascent to the
|
||||||
first deco gas change depth or the surface. This procedure is called the "minimum gas" or "rock bottom"
|
first deco gas change depth or the surface. This procedure is called the "minimum gas" or "rock bottom"
|
||||||
consideration and it is used by various (but not all)
|
consideration and it is used by various (but not all)
|
||||||
technical diving organisations. See the text below for a detailed explanation.</p></div>
|
technical diving organisations. See the text below for a detailed explanation.</p></div>
|
||||||
|
@ -5714,10 +5716,13 @@ transition in deco</em> option is checked, the transitions are shown separately
|
||||||
from the segment durations at a particular level.</p></div>
|
from the segment durations at a particular level.</p></div>
|
||||||
<div class="paragraph"><p>The planner has a check box <em>Display plan variations</em>. By checking this box,
|
<div class="paragraph"><p>The planner has a check box <em>Display plan variations</em>. By checking this box,
|
||||||
the planner provides information about a dive that is a little deeper or
|
the planner provides information about a dive that is a little deeper or
|
||||||
slightly longer than the planned dive. This can be found near the top of the
|
slightly longer than the planned dive. This is found near the top of the
|
||||||
<em>Dive plan details</em> where the dive duration is indicated. Checking this
|
<em>Dive plan details</em> where the dive duration is indicated. The information is
|
||||||
option creates a lot of additional computation, to such a degree that the
|
intended to be used if it is necessary to modify the ascent "on the fly" in
|
||||||
planner is slower than otherwise. The information is typically given as:</p></div>
|
the case of unexpected deviations from the dive plan during the dive.
|
||||||
|
Checking this option creates a lot of additional computation, to such a
|
||||||
|
degree that the planner is slower than otherwise. The information is
|
||||||
|
typically given as:</p></div>
|
||||||
<div class="literalblock">
|
<div class="literalblock">
|
||||||
<div class="content">
|
<div class="content">
|
||||||
<pre><code>Runtime: 53min + 0:52/m + 4:21/min</code></pre>
|
<pre><code>Runtime: 53min + 0:52/m + 4:21/min</code></pre>
|
||||||
|
@ -5732,56 +5737,52 @@ Calculated dive duration is 53 min.
|
||||||
<li>
|
<li>
|
||||||
<p>
|
<p>
|
||||||
For each extra meter in depth during the bottom phase of the dive, the
|
For each extra meter in depth during the bottom phase of the dive, the
|
||||||
duration increases by 52 seconds.
|
ascent duration increases by 52 seconds.
|
||||||
</p>
|
</p>
|
||||||
</li>
|
</li>
|
||||||
<li>
|
<li>
|
||||||
<p>
|
<p>
|
||||||
For each extra minute of bottom time, the duration increases by 4 min 21
|
For each extra minute of bottom time, the duration increases by 4 min 21
|
||||||
sec. Thus, if the bottom time is two minutes longer than planned, the dive
|
sec. Thus, if the bottom time is two minutes longer than planned, ascent
|
||||||
duration will be (2+2*4min 21 sec) = 10 minutes 42 sec longer and would
|
duration duration will be (2 * 4min 21 sec) = 8 minutes 42 sec longer and
|
||||||
probably require that each deco stop is 10:42/53:00 = 20% longer than
|
would probably require that each deco stop is 8:42/53:00 = around 16% longer
|
||||||
planned. These calculations are only applicable for small deviations from
|
than planned. These calculations are only applicable for small deviations
|
||||||
the dive plan, not for larger deviations.
|
from the dive plan, not for larger deviations.
|
||||||
</p>
|
|
||||||
</li>
|
|
||||||
<li>
|
|
||||||
<p>
|
|
||||||
Minimum gas requirements*
|
|
||||||
</p>
|
</p>
|
||||||
</li>
|
</li>
|
||||||
</ul></div>
|
</ul></div>
|
||||||
|
<div class="paragraph"><p><strong>Minimum gas requirements</strong></p></div>
|
||||||
<div class="paragraph"><p>The planner also estimates the <strong>minimum gas</strong> pressure required for safe
|
<div class="paragraph"><p>The planner also estimates the <strong>minimum gas</strong> pressure required for safe
|
||||||
ascent after an event that causes the dive to be aborted. The calculation
|
ascent after an event that causes the dive to be aborted. The calculation
|
||||||
assumes that in worst case an out of gas (OoG) situation could occur at the
|
assumes that in worst case an out of gas (OoG) situation occurs at the end
|
||||||
end of the planned bottom time at maximum depth. This OoG event forces the
|
of the planned bottom time at maximum depth. This OoG event forces the buddy
|
||||||
buddy team the share the gas of one diver and to stay at maximum depth for
|
team the share the gas of one diver and that they require an additional
|
||||||
an additional number of minutes. At the same moment the combined SAC of
|
period of time at maximum depth to solve the problem at hand. In addition
|
||||||
both divers is increased by a estimated factor compared to the SAC factor of
|
the combined SAC of both divers is increased by an estimated factor compared
|
||||||
a single diver under normal conditions. The result of the minimum gas
|
to the SAC factor of a single diver under normal conditions. The result of
|
||||||
calculation for the bottom gas is printed to the planner output. No
|
the minimum gas calculation for the bottom gas is printed to the planner
|
||||||
automatic checks are performed based on this result. The feature only gives
|
output. No automatic checks are performed based on this result. The feature
|
||||||
valid results for simple, rectengular shaped single level dive profiles. For
|
only gives valid results for simple, rectangular shaped single level dive
|
||||||
multi level dives one would need to check every leg of the profile
|
profiles. For multi level dives one would need to check every leg of the
|
||||||
independently.</p></div>
|
profile independently.</p></div>
|
||||||
<div class="paragraph"><p>There are two selector boxes on the left of the <em>Dive plan details</em>:</p></div>
|
<div class="paragraph"><p>There are two selector boxes on the left of the <em>Dive plan details</em>:</p></div>
|
||||||
<div class="ulist"><ul>
|
<div class="ulist"><ul>
|
||||||
<li>
|
<li>
|
||||||
<p>
|
<p>
|
||||||
<strong>SAC factor</strong>. This is your estimate of the degree to which your SAC increases if a critical problem arises underwater,
|
<strong>SAC factor</strong>. This is an estimate of the degree to which your SAC increases if a critical problem arises underwater,
|
||||||
e.g. gas sharing or entanglement. Realistic values range from 2 to 5, reflecting the gas use of two divers sharing
|
e.g. gas sharing or entanglement. Realistic values range from 2 to 5, reflecting the gas use of two divers sharing
|
||||||
a single gas cylinder after an OoG situation.
|
a single gas cylinder after an OoG situation.
|
||||||
</p>
|
</p>
|
||||||
</li>
|
</li>
|
||||||
<li>
|
<li>
|
||||||
<p>
|
<p>
|
||||||
<strong>Problem solving time</strong>. This is your estimate of how long you would take to solve the problem before starting the ascent
|
<strong>Problem solving time</strong>. This is an estimate of how long you would take to solve the problem before starting the ascent
|
||||||
to terminate the dive. The default value is 2 minutes.
|
to terminate the dive. The default value is 2 minutes.
|
||||||
</p>
|
</p>
|
||||||
</li>
|
</li>
|
||||||
</ul></div>
|
</ul></div>
|
||||||
<div class="paragraph"><p>Using the above information, the planner then estimates what the minimum
|
<div class="paragraph"><p>Using the above information, the planner then estimates what the minimum
|
||||||
botom gas cylinder pressure needs to be for a safe ascent. This information
|
bottom gas cylinder pressure needs to be for a safe ascent. This information
|
||||||
is given near the bottom of the <em>Dive plan details</em>, following the
|
is given near the bottom of the <em>Dive plan details</em>, following the
|
||||||
calculation of bottom gas used during the dive if it exactly follows the
|
calculation of bottom gas used during the dive if it exactly follows the
|
||||||
plan. the minimum gas is typically given as:</p></div>
|
plan. the minimum gas is typically given as:</p></div>
|
||||||
|
@ -5841,11 +5842,11 @@ within the framework of your formal training to perform dive planning.</td>
|
||||||
The parameters of the pSCR dive can be set by selecting <em>File → Preferences → Profile</em>
|
The parameters of the pSCR dive can be set by selecting <em>File → Preferences → Profile</em>
|
||||||
from the main menu, where the gas consumption calculation takes into account the pSCR dump
|
from the main menu, where the gas consumption calculation takes into account the pSCR dump
|
||||||
ratio (default 1:10) as well as the metabolic rate. The calculation also takes the oxygen drop
|
ratio (default 1:10) as well as the metabolic rate. The calculation also takes the oxygen drop
|
||||||
accross the mouthpiece of the rebreather into account. If the
|
across the mouthpiece of the rebreather into account. If the
|
||||||
pO<sub>2</sub> drops below what is considered safe, a warning appears in the <em>Dive plan
|
pO<sub>2</sub> drops below what is considered safe, a warning appears in the <em>Dive plan
|
||||||
details</em>. A typical pSCR cylinder setup is very similar to an open circuit dive;
|
details</em>. A typical pSCR cylinder setup is very similar to an open circuit dive;
|
||||||
one or more drive cilinders, possibly with different bottom and decompression
|
one or more drive cylinders, possibly with different bottom and decompression
|
||||||
gasses, including gas switches during the dive like in open circuit diving.
|
gases, including gas switches during the dive like in open circuit diving.
|
||||||
Therefore, the setup of the <em>Available gases</em> and the <em>Dive planner points</em> tables
|
Therefore, the setup of the <em>Available gases</em> and the <em>Dive planner points</em> tables
|
||||||
are very similar to that of a open circuit dive plan, described above. However, no oxygen setpoints
|
are very similar to that of a open circuit dive plan, described above. However, no oxygen setpoints
|
||||||
are specified for pSCR dives. Below is a dive plan for a pSCR dive. The dive is comparable
|
are specified for pSCR dives. Below is a dive plan for a pSCR dive. The dive is comparable
|
||||||
|
@ -5953,14 +5954,14 @@ Change the date and time of the <em>dive plan</em> to coincide with that of the
|
||||||
<p>
|
<p>
|
||||||
In the <em>Dive List</em>, highlight the dive plan as well as the data for the real
|
In the <em>Dive List</em>, highlight the dive plan as well as the data for the real
|
||||||
dive and merge the two dives, making use of the Dive List Context Menu
|
dive and merge the two dives, making use of the Dive List Context Menu
|
||||||
(available by righ-clicking a dive).
|
(available by right-clicking a dive).
|
||||||
</p>
|
</p>
|
||||||
</li>
|
</li>
|
||||||
</ul></div>
|
</ul></div>
|
||||||
<div class="paragraph"><p>The text version of the dive plan is appended to the Notes in the <em>Notes
|
<div class="paragraph"><p>The text version of the dive plan is appended to the Notes in the <em>Notes
|
||||||
Tab</em>. With this merged dive highlighted in the <em>Dive List</em>, switch between
|
Tab</em>. With this merged dive highlighted in the <em>Dive List</em>, switch between
|
||||||
the planned profile and the real-life profile using the
|
the planned profile and the real-life profile using the
|
||||||
righ-arrow/left-arrow keyboard keys.</p></div>
|
right-arrow/left-arrow keyboard keys.</p></div>
|
||||||
</div>
|
</div>
|
||||||
</div>
|
</div>
|
||||||
</div>
|
</div>
|
||||||
|
@ -6599,7 +6600,7 @@ hci0: Type: BR/EDR Bus: USB
|
||||||
RX bytes:1026 acl:0 sco:0 events:47 errors:0
|
RX bytes:1026 acl:0 sco:0 events:47 errors:0
|
||||||
TX bytes:449 acl:0 sco:0 commands:46 errors:0</code></pre>
|
TX bytes:449 acl:0 sco:0 commands:46 errors:0</code></pre>
|
||||||
</div></div>
|
</div></div>
|
||||||
<div class="paragraph"><p>Check that the status now includes <code><em>UP</em>, <em>RUNNING</em> AND <em>AUTH</em></code>.</p></div>
|
<div class="paragraph"><p>Check that the status now includes <em><code>UP</code></em>, <em><code>RUNNING</code></em> AND <em><code>AUTH</code></em>.</p></div>
|
||||||
<div class="paragraph"><p>If there are multiple controllers running, it’s easiest to turn off the
|
<div class="paragraph"><p>If there are multiple controllers running, it’s easiest to turn off the
|
||||||
unused controller(s). For example, for <code>hci1</code>:</p></div>
|
unused controller(s). For example, for <code>hci1</code>:</p></div>
|
||||||
<div class="literalblock">
|
<div class="literalblock">
|
||||||
|
@ -7919,7 +7920,7 @@ salvaged after being overwritten by new dives.</p></div>
|
||||||
<div id="footer">
|
<div id="footer">
|
||||||
<div id="footer-text">
|
<div id="footer-text">
|
||||||
Last updated
|
Last updated
|
||||||
2017-10-20 22:56:42 CEST
|
2017-11-28 08:54:18 CET
|
||||||
</div>
|
</div>
|
||||||
</div>
|
</div>
|
||||||
</body>
|
</body>
|
||||||
|
|
|
@ -494,10 +494,10 @@ Vérifiez les éléments suivants:
|
||||||
A]
|
A]
|
||||||
|
|
||||||
Si l'ordinateur utilisant _Subsurface_ ne reconnaît pas l'adaptateur USB en
|
Si l'ordinateur utilisant _Subsurface_ ne reconnaît pas l'adaptateur USB en
|
||||||
ne montrant pas le bon nom de périphérique à côté du Point de monage, il est
|
ne montrant pas le bon nom de périphérique à côté du Point de montage, il
|
||||||
possible que le câble ou l'adaptateur USB soit fautif. Un câble défectueux
|
est possible que le câble ou l'adaptateur USB soit fautif. Un câble
|
||||||
est la cause la plus courante de problème de communication entre un
|
défectueux est la cause la plus courante de problème de communication entre
|
||||||
ordinateur de plongée et _Subsurface_. Il est également possible que
|
un ordinateur de plongée et _Subsurface_. Il est également possible que
|
||||||
_Subsurface_ ne puisse pas interpréter les données. Réalisez un
|
_Subsurface_ ne puisse pas interpréter les données. Réalisez un
|
||||||
téléchargement de diagnostic en cochant les deux cases suivantes dans la
|
téléchargement de diagnostic en cochant les deux cases suivantes dans la
|
||||||
boîte de dialogue de téléchargement décrite ci-dessus:
|
boîte de dialogue de téléchargement décrite ci-dessus:
|
||||||
|
@ -803,7 +803,7 @@ dive location.
|
||||||
|
|
||||||
image::images/Globe_image2.jpg["FIGURE:Location creation panel", align="center"]
|
image::images/Globe_image2.jpg["FIGURE:Location creation panel", align="center"]
|
||||||
|
|
||||||
There are three ways of adding the the coordinates:
|
Il existe trois façons d'ajouter des coordonnées :
|
||||||
|
|
||||||
*(1):* Entrer les coordonnées manuellement si vous les connaissez,
|
*(1):* Entrer les coordonnées manuellement si vous les connaissez,
|
||||||
en utilisant un des quatre formats avec la latitude suivie de la longitude :
|
en utilisant un des quatre formats avec la latitude suivie de la longitude :
|
||||||
|
@ -825,7 +825,7 @@ géolocalisation de ce site. Les informations du site de plongée pourront
|
||||||
nom du site de plongée, dans l'"onglet notes".
|
nom du site de plongée, dans l'"onglet notes".
|
||||||
|
|
||||||
*(2):* Use the Dive Map to specify the coordinates. The Dive map now shows
|
*(2):* Use the Dive Map to specify the coordinates. The Dive map now shows
|
||||||
all the existing dive lications in grey as well as an additional marker in red
|
all the existing dive locations in grey as well as an additional marker in red
|
||||||
(image B above). Drag the red marker to the location of the dive site being entered.
|
(image B above). Drag the red marker to the location of the dive site being entered.
|
||||||
The map can be dragged and zoomed using the mouse wheel. Position the red marker
|
The map can be dragged and zoomed using the mouse wheel. Position the red marker
|
||||||
by dragging it on the map, zooming in on the appropriate part of the map and placing
|
by dragging it on the map, zooming in on the appropriate part of the map and placing
|
||||||
|
@ -842,16 +842,17 @@ Once the dive location data have been saved, the dive on the Dive List has a
|
||||||
globe icon immediately to the left of the location name of a particular
|
globe icon immediately to the left of the location name of a particular
|
||||||
dive.
|
dive.
|
||||||
|
|
||||||
*(3):* Utiliser l'application Subsurface-Mobile ou l'application _Subsurface_ Companion avec un
|
*(3):* Obtenir les coordonnées en utilisant soit l'application Subsurface-Mobile, soit l'application _Subsurface_ Companion avec un
|
||||||
périphérique Android ou un iPhone avec GPS si les coordonnées du site de plongée ont été stockées
|
périphérique Android ou un iPhone avec GPS si les coordonnées du site de plongée ont été stockées
|
||||||
en utilisant une de ces applications.
|
en utilisant une de ces applications.
|
||||||
xref:S_Companion[Cliquez ici pour plus d'information]
|
xref:S_Companion[Cliquez ici pour plus d'information]
|
||||||
|
|
||||||
*Important*: les coordonnées GPS d'un site de plongée sont liées au nom de
|
[icon="images/icons/warning2.png"]
|
||||||
lieu - ainsi, *enregistrer* un site de plongée avec uniquement les coordonnées mais aucun nom
|
[WARNING]
|
||||||
causera des problèmes. (Subsurface pensera que toutes ces
|
Les coordonnées GPS d'un site de plongée sont liées au nom de lieu - ainsi,
|
||||||
plongées ont le même lieu et tentera de garder leurs coordonnées GPS
|
*enregistrer* un site de plongée avec uniquement les coordonnées mais aucun
|
||||||
identiques).
|
nom causera des problèmes. (Subsurface pensera que toutes cesplongées ont le
|
||||||
|
même lieu et tentera de garder leurs coordonnées GPSidentiques).
|
||||||
|
|
||||||
*Recherche du nom d'un site de plongée*: si vous avez entré les coordonnées dans la boîte
|
*Recherche du nom d'un site de plongée*: si vous avez entré les coordonnées dans la boîte
|
||||||
de texte appropriée, vous pouvez lancer une recherche de nom sur base des coordonnées.
|
de texte appropriée, vous pouvez lancer une recherche de nom sur base des coordonnées.
|
||||||
|
@ -1076,19 +1077,19 @@ disque de l'ordinateur.
|
||||||
Many divers log their dives using the proprietary software provided by the
|
Many divers log their dives using the proprietary software provided by the
|
||||||
manufacturers of their dive computers. _Subsurface_ can import dive logs
|
manufacturers of their dive computers. _Subsurface_ can import dive logs
|
||||||
from a range of other dive log software. While import from some software is
|
from a range of other dive log software. While import from some software is
|
||||||
supported natively, others require export of the the dive log to an
|
supported natively, others require export of the dive log to an intermediate
|
||||||
intermediate format that can then be imported into _Subsurface_. Currently,
|
format that can then be imported into _Subsurface_. Currently, _Subsurface_
|
||||||
_Subsurface_ supports importing CSV log files from several sources. Dive
|
supports importing CSV log files from several sources. Dive log import from
|
||||||
log import from APD LogViewer, XP5, Sensus and Seabear files are
|
APD LogViewer, XP5, Sensus and Seabear files are preconfigured, but because
|
||||||
preconfigured, but because the import is flexible, users can configure their
|
the import is flexible, users can configure their own imports. Manually
|
||||||
own imports. Manually kept log files (e.g. a spreadsheet) can also be
|
kept log files (e.g. a spreadsheet) can also be imported by configuring the
|
||||||
imported by configuring the CSV import. _Subsurface_ can also import UDDF
|
CSV import. _Subsurface_ can also import UDDF and UDCF files used by some
|
||||||
and UDCF files used by some dive log software and some dive computers, like
|
dive log software and some dive computers, like the Heinrichs & Weikamp
|
||||||
the Heinrichs & Weikamp DR5. Finally, for some dive log software like Mares
|
DR5. Finally, for some dive log software like Mares Dive Organizer we
|
||||||
Dive Organizer we currently recommend importing the logbook first into a web
|
currently recommend importing the logbook first into a web service like
|
||||||
service like _divelogs.de_ and then import from there with
|
_divelogs.de_ and then import from there with _Subsurface_. Divelogs.de
|
||||||
_Subsurface_. Divelogs.de supports a few additional logbook formats that
|
supports a few additional logbook formats that _Subsurface_ currently cannot
|
||||||
_Subsurface_ currently cannot handle.
|
handle.
|
||||||
|
|
||||||
If the format of other software is supported natively on Subsurface, select
|
If the format of other software is supported natively on Subsurface, select
|
||||||
either _Import -> Import log files_ or _File -> Open log file_. Notice that
|
either _Import -> Import log files_ or _File -> Open log file_. Notice that
|
||||||
|
@ -1430,11 +1431,11 @@ Les données ci-dessus ne sont pas aisément lisible pour un être
|
||||||
humain. Voici les mêmes informations dans un format séparé par des
|
humain. Voici les mêmes informations dans un format séparé par des
|
||||||
tabulations :
|
tabulations :
|
||||||
|
|
||||||
Dive site Dive date Time Dive_duration Dive_depth Dive buddy
|
Dive site Dive date Time Dive_duration Dive_depth Dive buddy
|
||||||
Illovo Beach 2012-11-23 10:45 46:15 18.4 John Smith
|
Illovo Beach 2012-11-23 10:45 46:15 18.4 John Smith
|
||||||
Key Largo 2012-11-24 09:12 34:15 20.4 Jason McDonald
|
Key Largo 2012-11-24 09:12 34:15 20.4 Jason McDonald
|
||||||
Wismar Baltic 2012-12-01 10:13 35:27 15.4 Dieter Albrecht
|
Wismar Baltic 2012-12-01 10:13 35:27 15.4 Dieter Albrecht
|
||||||
Pulau Weh 2012-12-20 09:46 55:56 38.6 Karaeng Bontonompo
|
Pulau Weh 2012-12-20 09:46 55:56 38.6 Karaeng Bontonompo
|
||||||
|
|
||||||
It is clear why many people prefer the TAB-delimited format to the
|
It is clear why many people prefer the TAB-delimited format to the
|
||||||
comma-delimited format. The disadvantage is that you cannot see the TAB
|
comma-delimited format. The disadvantage is that you cannot see the TAB
|
||||||
|
@ -1560,16 +1561,16 @@ If the diver moves, a trace of the route is obtained by saving a location every
|
||||||
|
|
||||||
===== Activate the automated recording of GPS locations
|
===== Activate the automated recording of GPS locations
|
||||||
|
|
||||||
The _Subsurface-mobile_ main menu has a checkbox at the bottom left labled
|
The _Subsurface-mobile_ GPS menu has an option at the bottom labled _Run
|
||||||
_Run location service_ (see image below). Checking the box starts the
|
location service_ (see image below). Selecting this starts the automated
|
||||||
automated recording of GPS positions.
|
recording of GPS positions.
|
||||||
|
|
||||||
image::images/MobileMenu.jpg["FIGURE: Subsurface-mobile main menu", align="center"]
|
image::images/MobileGpsMenu.jpg["FIGURE: Subsurface-mobile GPS menu", align="center"]
|
||||||
|
|
||||||
===== After the dive, stop the automated recording of GPS locations
|
===== After the dive, stop the automated recording of GPS locations
|
||||||
|
|
||||||
Uncheck the check box at the bottom left of the _Subsurface-mobile_ main
|
Select the menu option _Disable location service_ at the bottom of the
|
||||||
menu.
|
_Subsurface-mobile_ GPS menu.
|
||||||
|
|
||||||
===== Upload the GPS locations onto the _Subsurface_ Internet server.
|
===== Upload the GPS locations onto the _Subsurface_ Internet server.
|
||||||
|
|
||||||
|
@ -2244,7 +2245,7 @@ B>> for more complete information. Use that software to download the dive
|
||||||
data into a known directory. From the main menu of _Subsurface_, select
|
data into a known directory. From the main menu of _Subsurface_, select
|
||||||
_Import -> Import log files_ to bring up the xref:Unified_import[universal
|
_Import -> Import log files_ to bring up the xref:Unified_import[universal
|
||||||
import dialogue]. As explained in that section, the bottom right hand of the
|
import dialogue]. As explained in that section, the bottom right hand of the
|
||||||
import dialogue contains a dropdown list (labled _Filter:_) of appropriate
|
import dialogue contains a dropdown list (labeled _Filter:_) of appropriate
|
||||||
devices that currently include (Poseidon) MkVI or APD log viewer
|
devices that currently include (Poseidon) MkVI or APD log viewer
|
||||||
files. Import for other CCR equipment is under active development. Having
|
files. Import for other CCR equipment is under active development. Having
|
||||||
selected the appropriate CCR format and the directory where the original
|
selected the appropriate CCR format and the directory where the original
|
||||||
|
@ -2298,7 +2299,7 @@ pressure and the setpoint values, as shown below.
|
||||||
image::images/CCR_setpoint_f20.jpg["FIGURE: CCR setpoint and pO~2~ graph", align="center"]
|
image::images/CCR_setpoint_f20.jpg["FIGURE: CCR setpoint and pO~2~ graph", align="center"]
|
||||||
|
|
||||||
The second checkbox allows the display of the data from each individual
|
The second checkbox allows the display of the data from each individual
|
||||||
oxygen sensor of the CCR equipment. The data for each sensor is colour-coded
|
oxygen sensor of the CCR equipment. The data for each sensor is color-coded
|
||||||
as follows:
|
as follows:
|
||||||
|
|
||||||
- Sensor 1: grey
|
- Sensor 1: grey
|
||||||
|
@ -2550,11 +2551,11 @@ divers breathing gases other than air. Their values are dependent on the
|
||||||
composition of the breathing gas. The EAD is the depth of a hypothetical air
|
composition of the breathing gas. The EAD is the depth of a hypothetical air
|
||||||
dive that has the same partial pressure of nitrogen as the current depth of
|
dive that has the same partial pressure of nitrogen as the current depth of
|
||||||
the nitrox dive at hand. A nitrox dive leads to the same decompression
|
the nitrox dive at hand. A nitrox dive leads to the same decompression
|
||||||
obligation as an air dive to the depth equalling the EAD. The END is the
|
obligation as an air dive to the depth equaling the EAD. The END is the
|
||||||
depth of a hypothetical air dive that has the same sum of partial pressures
|
depth of a hypothetical air dive that has the same sum of partial pressures
|
||||||
of the narcotic gases nitrogen and oxygen as the current trimix dive. A
|
of the narcotic gases nitrogen and oxygen as the current trimix dive. A
|
||||||
trimix diver can expect the same narcotic effect as a diver breathing air
|
trimix diver can expect the same narcotic effect as a diver breathing air
|
||||||
diving at a depth equalling the END.
|
diving at a depth equaling the END.
|
||||||
|
|
||||||
La figure (*B*) ci-dessous affiche une boîte d'information avec un ensemble
|
La figure (*B*) ci-dessous affiche une boîte d'information avec un ensemble
|
||||||
quasiment complet de données.
|
quasiment complet de données.
|
||||||
|
@ -2818,7 +2819,7 @@ image::images/ShowCylinders_f20.jpg["Figure: Cylinder use graph", align="center"
|
||||||
====================================================================================
|
====================================================================================
|
||||||
Display the tissue heat-map. The heat map summarises, for the duration of
|
Display the tissue heat-map. The heat map summarises, for the duration of
|
||||||
the dive, the inert gas tissue pressures for each of the 16 tissue
|
the dive, the inert gas tissue pressures for each of the 16 tissue
|
||||||
compartments of the Bühlmann model. Blue colours mean low gas pressures in a
|
compartments of the Bühlmann model. Blue colors mean low gas pressures in a
|
||||||
tissue compartment and thus on-gassing, green to red means excess gas in the
|
tissue compartment and thus on-gassing, green to red means excess gas in the
|
||||||
tissue and thus off-gassing. Fast to slow tissues are indicated from top to
|
tissue and thus off-gassing. Fast to slow tissues are indicated from top to
|
||||||
bottom. The figure below explains in greater detail how the heat map can be
|
bottom. The figure below explains in greater detail how the heat map can be
|
||||||
|
@ -2835,17 +2836,17 @@ compartments on the right. Refer to the section on the
|
||||||
xref:S_gas_pressure_graph[Gas Pressure Graph] for more details on the
|
xref:S_gas_pressure_graph[Gas Pressure Graph] for more details on the
|
||||||
different elements of this graph.
|
different elements of this graph.
|
||||||
|
|
||||||
Image *B* shows a gradient of unique colours, spanning the whole range of
|
Image *B* shows a gradient of unique colors, spanning the whole range of
|
||||||
inert gas pressures. It is possible to map the height of each of the dark
|
inert gas pressures. It is possible to map the height of each of the dark
|
||||||
green vertical bars of *A* to a colour in *B*. For instance, the fastest
|
green vertical bars of *A* to a color in *B*. For instance, the fastest
|
||||||
(leftmost) dark green verical bar in *A* has a height corresponding to the
|
(leftmost) dark green vertical bar in *A* has a height corresponding to the
|
||||||
medium green part of *B*. The height of this bar can therefore be summarised
|
medium green part of *B*. The height of this bar can therefore be summarised
|
||||||
using a medium green colour. Similarly, the highest dark green bar in *A* is
|
using a medium green color. Similarly, the highest dark green bar in *A* is
|
||||||
as high as the yellow part of *B*. The 14 remaining tissue pressure bars in
|
as high as the yellow part of *B*. The 14 remaining tissue pressure bars in
|
||||||
*A* can also be translated to colours. The colours represent three ranges of
|
*A* can also be translated to colors. The colors represent three ranges of
|
||||||
tissue inert gas pressure:
|
tissue inert gas pressure:
|
||||||
|
|
||||||
- The bottom range in *B* (marked _On-gassing_) includes colours from light
|
- The bottom range in *B* (marked _On-gassing_) includes colors from light
|
||||||
blue to black, representing tissue gas pressures below the equilibrium
|
blue to black, representing tissue gas pressures below the equilibrium
|
||||||
pressure of inert gas (bottom horizontal line in *A*). The measurement unit
|
pressure of inert gas (bottom horizontal line in *A*). The measurement unit
|
||||||
is the % of inert gas pressure, relative to the equilibrium inert gas
|
is the % of inert gas pressure, relative to the equilibrium inert gas
|
||||||
|
@ -2856,41 +2857,41 @@ tissue inert gas pressure:
|
||||||
gas pressure in the tissue compartment equals that of the water in which the
|
gas pressure in the tissue compartment equals that of the water in which the
|
||||||
diver is. The equilibrium pressure changes according to depth.
|
diver is. The equilibrium pressure changes according to depth.
|
||||||
|
|
||||||
- The central range in *B* includes the colours from black to light green,
|
- The central range in *B* includes the colors from black to light green, when
|
||||||
when the inert gas pressure of a tissue compartment is higher than the
|
the inert gas pressure of a tissue compartment is higher than the
|
||||||
equilibrium pressure but less than the ambient pressure. In this zone
|
equilibrium pressure but less than the ambient pressure. In this zone
|
||||||
decompression is not very efficient because the gradient of inert gas
|
decompression is not very efficient because the gradient of inert gas
|
||||||
pressure from tissue to the environment is relatively small and indicated by
|
pressure from tissue to the environment is relatively small and indicated by
|
||||||
dark green areas of the heat map.
|
dark green areas of the heat map.
|
||||||
|
|
||||||
- The top range in *B* (marked _Off-gassing_) includes colours from light
|
- The top range in *B* (marked _Off-gassing_) includes colors from light green
|
||||||
green to red and white, repesenting tissue gas pressures above that of the
|
to red and white, repesenting tissue gas pressures above that of the total
|
||||||
total ambient pressure (top of light green area of *A*). The measurement
|
ambient pressure (top of light green area of *A*). The measurement unit is
|
||||||
unit is the % of inert gas pressure above ambient pressure, relative to the
|
the % of inert gas pressure above ambient pressure, relative to the Bühlmann
|
||||||
Bühlmann M-value gradient (bottom of red area in *A*). These tissue
|
M-value gradient (bottom of red area in *A*). These tissue pressures are
|
||||||
pressures are normally reached while ascending to a shallower depth. Below
|
normally reached while ascending to a shallower depth. Below a value of
|
||||||
a value of 100%, this range indicates efficient off-gassing of inert gas
|
100%, this range indicates efficient off-gassing of inert gas from the
|
||||||
from the tissue compartment into the environment. Usually, efficient
|
tissue compartment into the environment. Usually, efficient off-gassing is
|
||||||
off-gassing is indicated by light green, yellow or orange colours. Above
|
indicated by light green, yellow or orange colors. Above 100% (red to white
|
||||||
100% (red to white in *B*) the M-value gradient is exceeded and the
|
in *B*) the M-value gradient is exceeded and the probability of
|
||||||
probability of decompression sickness increases markedly.
|
decompression sickness increases markedly.
|
||||||
|
|
||||||
Image *C* shows the colour mapping of each of the vertical bars in *A*, the
|
Image *C* shows the color mapping of each of the vertical bars in *A*, the
|
||||||
fast tissues (on the left in *A*) depicted at the top and the slow tissue
|
fast tissues (on the left in *A*) depicted at the top and the slow tissue
|
||||||
compartments at the bottom of *C*. The highest vertical bar in *A* (vertical
|
compartments at the bottom of *C*. The highest vertical bar in *A* (vertical
|
||||||
bar 3rd from the left) is presented as the yellow rectangle 3rd from the top
|
bar 3rd from the left) is presented as the yellow rectangle 3rd from the top
|
||||||
in *C*. The 16 vertical bars in *A* are now presented as a vertical column
|
in *C*. The 16 vertical bars in *A* are now presented as a vertical column
|
||||||
of 16 coloured rectangles, representing a snapshot of tissue compartment gas
|
of 16 colored rectangles, representing a snapshot of tissue compartment gas
|
||||||
pressures at a particular instant during the dive.
|
pressures at a particular instant during the dive.
|
||||||
|
|
||||||
Image *D* is a compilation of similar colour mappings of 16 tissue
|
Image *D* is a compilation of similar color mappings of 16 tissue
|
||||||
compartments during a 10-minute period of a dive, the colours representing
|
compartments during a 10-minute period of a dive, the colors representing
|
||||||
the inert gas loading of a tissue compartment at a point in time during the
|
the inert gas loading of a tissue compartment at a point in time during the
|
||||||
dive. Faster tissues are shown at the top and slower tissues at the bottom,
|
dive. Faster tissues are shown at the top and slower tissues at the bottom,
|
||||||
with time forming the horizontal axis of the graph. The column of rectangles
|
with time forming the horizontal axis of the graph. The column of rectangles
|
||||||
in *C* can be found on the horizontal axis between 9 and 10 minutes.
|
in *C* can be found on the horizontal axis between 9 and 10 minutes.
|
||||||
|
|
||||||
The colours of the heat map are not affected by the gradient factor
|
The colors of the heat map are not affected by the gradient factor
|
||||||
settings. This is because the heat map indicates tissue pressures relative
|
settings. This is because the heat map indicates tissue pressures relative
|
||||||
to the Bühlmann M-value gradient, and not relative to any specific gradient
|
to the Bühlmann M-value gradient, and not relative to any specific gradient
|
||||||
factor. For more information external to this manual see:
|
factor. For more information external to this manual see:
|
||||||
|
@ -2898,9 +2899,8 @@ factor. For more information external to this manual see:
|
||||||
http://www.tek-dive.com/portal/upload/M-Values.pdf[Understanding M-values by
|
http://www.tek-dive.com/portal/upload/M-Values.pdf[Understanding M-values by
|
||||||
Erik Baker, _Immersed_ Vol. 3, No. 3.]
|
Erik Baker, _Immersed_ Vol. 3, No. 3.]
|
||||||
|
|
||||||
Since the colours of the heat map are not affected by the gradient
|
Since the colors of the heat map are not affected by the gradient factor(s),
|
||||||
factor(s), the heat map is also applicable when using the VPM-B
|
the heat map is also applicable when using the VPM-B decompression model.
|
||||||
decompression model.
|
|
||||||
|
|
||||||
The image below compares the profiles and heat maps for two planned
|
The image below compares the profiles and heat maps for two planned
|
||||||
decompression dives to 60m: the first using the Bühlmann decompression
|
decompression dives to 60m: the first using the Bühlmann decompression
|
||||||
|
@ -2990,8 +2990,8 @@ after the dive, or of landscapes as seen from the boat.
|
||||||
|
|
||||||
[icon="images/icons/inAndOutPhoto.png"]
|
[icon="images/icons/inAndOutPhoto.png"]
|
||||||
[NOTE]
|
[NOTE]
|
||||||
This dive has photographs taken both during the dive and immdiately before
|
Cette plongée contient à la fois des photos prises pendant la plongée, et
|
||||||
or after the dive.
|
juste avant ou juste après la plongée.
|
||||||
|
|
||||||
[[S_Renumber]]
|
[[S_Renumber]]
|
||||||
=== Renuméroter les plongées
|
=== Renuméroter les plongées
|
||||||
|
@ -3694,10 +3694,7 @@ image::images/Pref4_f23.jpg["FIGURE: Preferences Graph page", align="center"]
|
||||||
respect to inert gas loading and the deeper the ceilings are. Gradient
|
respect to inert gas loading and the deeper the ceilings are. Gradient
|
||||||
factors of 20/60 are considered conservative and values of 70/90 are considered
|
factors of 20/60 are considered conservative and values of 70/90 are considered
|
||||||
harsh.
|
harsh.
|
||||||
In addition decide whether to check the _GFLow at max. depth_ box. If checked, GF_Low is used for the
|
For more information see:
|
||||||
deepest dive depth and linearly increased up to the GF_High value at the surface. If unchecked,
|
|
||||||
GF_Low is used between the deepest dive depth and the first deco stop, after which the
|
|
||||||
gradient factor linearly increases up to the GF_High value at the surface. For more information see:
|
|
||||||
|
|
||||||
*** http://www.tek-dive.com/portal/upload/M-Values.pdf[Understanding M-values by Erik Baker, _Immersed_ Vol. 3, No. 3.]
|
*** http://www.tek-dive.com/portal/upload/M-Values.pdf[Understanding M-values by Erik Baker, _Immersed_ Vol. 3, No. 3.]
|
||||||
|
|
||||||
|
@ -3935,12 +3932,12 @@ calculation of the nitrogen load incurred during previous dives.
|
||||||
|
|
||||||
- Define the depth of the dive by dragging the waypoints (white dots) on the
|
- Define the depth of the dive by dragging the waypoints (white dots) on the
|
||||||
dive profile or (even better) defining the appropriate depths using the
|
dive profile or (even better) defining the appropriate depths using the
|
||||||
table under _Dive planner points_ as desribed under the previous heading. If
|
table under _Dive planner points_ as described under the previous
|
||||||
this is a multilevel dive, set the appropriate dive depths to represent the
|
heading. If this is a multilevel dive, set the appropriate dive depths to
|
||||||
dive plan by adding waypoints to the dive profile or by adding appropriate
|
represent the dive plan by adding waypoints to the dive profile or by adding
|
||||||
dive planner points to the _Dive Planner Points_ table. _Subsurface_ will
|
appropriate dive planner points to the _Dive Planner Points_
|
||||||
automatically extend the bottom section of the dive to the maximum duration
|
table. _Subsurface_ will automatically extend the bottom section of the dive
|
||||||
within the no-decompression limits (NDL).
|
to the maximum duration within the no-decompression limits (NDL).
|
||||||
|
|
||||||
- La vitesse de remontée peut être modifiée. Les vitesses de remontée par
|
- La vitesse de remontée peut être modifiée. Les vitesses de remontée par
|
||||||
défaut sont celles qui sont considérées comme sûres pour les plongées
|
défaut sont celles qui sont considérées comme sûres pour les plongées
|
||||||
|
@ -4047,7 +4044,7 @@ the limit of the gas supply but that an appropriate reserve is kept
|
||||||
for unforeseen circumstances.
|
for unforeseen circumstances.
|
||||||
For technical diving, this reserve can be up to 66% of the total available gas.
|
For technical diving, this reserve can be up to 66% of the total available gas.
|
||||||
In addition to calculating the total gas consumption for every cylinder the planner provides one way
|
In addition to calculating the total gas consumption for every cylinder the planner provides one way
|
||||||
of calculating the recommended volume of bottom gas which is needed for safe asscent to the
|
of calculating the recommended volume of bottom gas which is needed for safe ascent to the
|
||||||
first deco gas change depth or the surface. This procedure is called the "minimum gas" or "rock bottom"
|
first deco gas change depth or the surface. This procedure is called the "minimum gas" or "rock bottom"
|
||||||
consideration and it is used by various (but not all)
|
consideration and it is used by various (but not all)
|
||||||
technical diving organisations. See the text below for a detailed explanation.
|
technical diving organisations. See the text below for a detailed explanation.
|
||||||
|
@ -4145,10 +4142,13 @@ from the segment durations at a particular level.
|
||||||
|
|
||||||
The planner has a check box _Display plan variations_. By checking this box,
|
The planner has a check box _Display plan variations_. By checking this box,
|
||||||
the planner provides information about a dive that is a little deeper or
|
the planner provides information about a dive that is a little deeper or
|
||||||
slightly longer than the planned dive. This can be found near the top of the
|
slightly longer than the planned dive. This is found near the top of the
|
||||||
_Dive plan details_ where the dive duration is indicated. Checking this
|
_Dive plan details_ where the dive duration is indicated. The information is
|
||||||
option creates a lot of additional computation, to such a degree that the
|
intended to be used if it is necessary to modify the ascent "on the fly" in
|
||||||
planner is slower than otherwise. The information is typically given as:
|
the case of unexpected deviations from the dive plan during the dive.
|
||||||
|
Checking this option creates a lot of additional computation, to such a
|
||||||
|
degree that the planner is slower than otherwise. The information is
|
||||||
|
typically given as:
|
||||||
|
|
||||||
Runtime: 53min + 0:52/m + 4:21/min
|
Runtime: 53min + 0:52/m + 4:21/min
|
||||||
|
|
||||||
|
@ -4156,40 +4156,40 @@ This indicates:
|
||||||
|
|
||||||
* Calculated dive duration is 53 min.
|
* Calculated dive duration is 53 min.
|
||||||
* For each extra meter in depth during the bottom phase of the dive, the
|
* For each extra meter in depth during the bottom phase of the dive, the
|
||||||
duration increases by 52 seconds.
|
ascent duration increases by 52 seconds.
|
||||||
* For each extra minute of bottom time, the duration increases by 4 min 21
|
* For each extra minute of bottom time, the duration increases by 4 min 21
|
||||||
sec. Thus, if the bottom time is two minutes longer than planned, the dive
|
sec. Thus, if the bottom time is two minutes longer than planned, ascent
|
||||||
duration will be (2+2*4min 21 sec) = 10 minutes 42 sec longer and would
|
duration duration will be (2 * 4min 21 sec) = 8 minutes 42 sec longer and
|
||||||
probably require that each deco stop is 10:42/53:00 = 20% longer than
|
would probably require that each deco stop is 8:42/53:00 = around 16% longer
|
||||||
planned. These calculations are only applicable for small deviations from
|
than planned. These calculations are only applicable for small deviations
|
||||||
the dive plan, not for larger deviations.
|
from the dive plan, not for larger deviations.
|
||||||
|
|
||||||
* Minimum gas requirements*
|
*Minimum gas requirements*
|
||||||
|
|
||||||
The planner also estimates the *minimum gas* pressure required for safe
|
The planner also estimates the *minimum gas* pressure required for safe
|
||||||
ascent after an event that causes the dive to be aborted. The calculation
|
ascent after an event that causes the dive to be aborted. The calculation
|
||||||
assumes that in worst case an out of gas (OoG) situation could occur at the
|
assumes that in worst case an out of gas (OoG) situation occurs at the end
|
||||||
end of the planned bottom time at maximum depth. This OoG event forces the
|
of the planned bottom time at maximum depth. This OoG event forces the buddy
|
||||||
buddy team the share the gas of one diver and to stay at maximum depth for
|
team the share the gas of one diver and that they require an additional
|
||||||
an additional number of minutes. At the same moment the combined SAC of
|
period of time at maximum depth to solve the problem at hand. In addition
|
||||||
both divers is increased by a estimated factor compared to the SAC factor of
|
the combined SAC of both divers is increased by an estimated factor compared
|
||||||
a single diver under normal conditions. The result of the minimum gas
|
to the SAC factor of a single diver under normal conditions. The result of
|
||||||
calculation for the bottom gas is printed to the planner output. No
|
the minimum gas calculation for the bottom gas is printed to the planner
|
||||||
automatic checks are performed based on this result. The feature only gives
|
output. No automatic checks are performed based on this result. The feature
|
||||||
valid results for simple, rectengular shaped single level dive profiles. For
|
only gives valid results for simple, rectangular shaped single level dive
|
||||||
multi level dives one would need to check every leg of the profile
|
profiles. For multi level dives one would need to check every leg of the
|
||||||
independently.
|
profile independently.
|
||||||
|
|
||||||
There are two selector boxes on the left of the _Dive plan details_:
|
There are two selector boxes on the left of the _Dive plan details_:
|
||||||
|
|
||||||
* *SAC factor*. This is your estimate of the degree to which your SAC increases if a critical problem arises underwater,
|
* *SAC factor*. This is an estimate of the degree to which your SAC increases if a critical problem arises underwater,
|
||||||
e.g. gas sharing or entanglement. Realistic values range from 2 to 5, reflecting the gas use of two divers sharing
|
e.g. gas sharing or entanglement. Realistic values range from 2 to 5, reflecting the gas use of two divers sharing
|
||||||
a single gas cylinder after an OoG situation.
|
a single gas cylinder after an OoG situation.
|
||||||
* *Problem solving time*. This is your estimate of how long you would take to solve the problem before starting the ascent
|
* *Problem solving time*. This is an estimate of how long you would take to solve the problem before starting the ascent
|
||||||
to terminate the dive. The default value is 2 minutes.
|
to terminate the dive. The default value is 2 minutes.
|
||||||
|
|
||||||
Using the above information, the planner then estimates what the minimum
|
Using the above information, the planner then estimates what the minimum
|
||||||
botom gas cylinder pressure needs to be for a safe ascent. This information
|
bottom gas cylinder pressure needs to be for a safe ascent. This information
|
||||||
is given near the bottom of the _Dive plan details_, following the
|
is given near the bottom of the _Dive plan details_, following the
|
||||||
calculation of bottom gas used during the dive if it exactly follows the
|
calculation of bottom gas used during the dive if it exactly follows the
|
||||||
plan. the minimum gas is typically given as:
|
plan. the minimum gas is typically given as:
|
||||||
|
@ -4225,11 +4225,11 @@ _Open circuit_ in the dropdown list.
|
||||||
The parameters of the pSCR dive can be set by selecting _File -> Preferences -> Profile_
|
The parameters of the pSCR dive can be set by selecting _File -> Preferences -> Profile_
|
||||||
from the main menu, where the gas consumption calculation takes into account the pSCR dump
|
from the main menu, where the gas consumption calculation takes into account the pSCR dump
|
||||||
ratio (default 1:10) as well as the metabolic rate. The calculation also takes the oxygen drop
|
ratio (default 1:10) as well as the metabolic rate. The calculation also takes the oxygen drop
|
||||||
accross the mouthpiece of the rebreather into account. If the
|
across the mouthpiece of the rebreather into account. If the
|
||||||
pO~2~ drops below what is considered safe, a warning appears in the _Dive plan
|
pO~2~ drops below what is considered safe, a warning appears in the _Dive plan
|
||||||
details_. A typical pSCR cylinder setup is very similar to an open circuit dive;
|
details_. A typical pSCR cylinder setup is very similar to an open circuit dive;
|
||||||
one or more drive cilinders, possibly with different bottom and decompression
|
one or more drive cylinders, possibly with different bottom and decompression
|
||||||
gasses, including gas switches during the dive like in open circuit diving.
|
gases, including gas switches during the dive like in open circuit diving.
|
||||||
Therefore, the setup of the _Available gases_ and the _Dive planner points_ tables
|
Therefore, the setup of the _Available gases_ and the _Dive planner points_ tables
|
||||||
are very similar to that of a open circuit dive plan, described above. However, no oxygen setpoints
|
are very similar to that of a open circuit dive plan, described above. However, no oxygen setpoints
|
||||||
are specified for pSCR dives. Below is a dive plan for a pSCR dive. The dive is comparable
|
are specified for pSCR dives. Below is a dive plan for a pSCR dive. The dive is comparable
|
||||||
|
@ -4329,12 +4329,12 @@ to do this:
|
||||||
real-life dive from the _dive computer_.
|
real-life dive from the _dive computer_.
|
||||||
- In the _Dive List_, highlight the dive plan as well as the data for the real
|
- In the _Dive List_, highlight the dive plan as well as the data for the real
|
||||||
dive and merge the two dives, making use of the Dive List Context Menu
|
dive and merge the two dives, making use of the Dive List Context Menu
|
||||||
(available by righ-clicking a dive).
|
(available by right-clicking a dive).
|
||||||
|
|
||||||
The text version of the dive plan is appended to the Notes in the _Notes
|
The text version of the dive plan is appended to the Notes in the _Notes
|
||||||
Tab_. With this merged dive highlighted in the _Dive List_, switch between
|
Tab_. With this merged dive highlighted in the _Dive List_, switch between
|
||||||
the planned profile and the real-life profile using the
|
the planned profile and the real-life profile using the
|
||||||
righ-arrow/left-arrow keyboard keys.
|
right-arrow/left-arrow keyboard keys.
|
||||||
|
|
||||||
== Lancer _Subsurface_ depuis la ligne de commande
|
== Lancer _Subsurface_ depuis la ligne de commande
|
||||||
_Subsurface_ can be launched from the command-line to set some specialised
|
_Subsurface_ can be launched from the command-line to set some specialised
|
||||||
|
@ -4688,7 +4688,7 @@ power on the controller and enable authentication:
|
||||||
RX bytes:1026 acl:0 sco:0 events:47 errors:0
|
RX bytes:1026 acl:0 sco:0 events:47 errors:0
|
||||||
TX bytes:449 acl:0 sco:0 commands:46 errors:0
|
TX bytes:449 acl:0 sco:0 commands:46 errors:0
|
||||||
|
|
||||||
Check that the status now includes +'UP', 'RUNNING' AND 'AUTH'+.
|
Check that the status now includes '+UP+', '+RUNNING+' AND '+AUTH+'.
|
||||||
|
|
||||||
If there are multiple controllers running, it's easiest to turn off the
|
If there are multiple controllers running, it's easiest to turn off the
|
||||||
unused controller(s). For example, for +hci1+:
|
unused controller(s). For example, for +hci1+:
|
||||||
|
|
Loading…
Reference in a new issue