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4 changes: 2 additions & 2 deletions deployment.html

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Expand Up @@ -2194,22 +2194,24 @@ <h1>Argo Technical Workshop - Argo Canada Debrief</h1>
<div class="d-article">
<h2 id="meeting-notes">Meeting Notes</h2>
<h3 id="effort-to-standardize-the-argo-mission">Effort to standardize the Argo mission</h3>
<p>Discussion surrounding the technical details of standardizing the Argo mission, including cycle timing (not equal exactly 10 days) and park depth sampling (hourly T/S, 6-hour S). More experienced user groups are going to setup their floats as they see, and the goal is not to control how these groups set up their floats, but to ensure smaller users that may not change the floats from their default configuration have a compliant setup. This setup is</p>
<p>Also, <em>Argo Canada’s sampling is not very typical of the array</em> - we chose a setup that maximized the number of 1 dbar bins within our Iridium plan. 2 dbar bins throughout the water column is more common (CSIRO, Ifremer) or at least to 1000 dbar (UW), with 1 dbar bins only at the very surface. Our current setup returns just under 675 points (18-22 sbd messages, ~6kB). Moving to 1/2/10 with 20/1000 depth thresholds would result in 610 points.</p>
<p>Discussion surrounding the technical details of standardizing the Argo mission, including cycle timing (not equal exactly 10 days) and park depth sampling (hourly T/P, 6-hour S). More experienced user groups will still set up their floats as they see fit. The goal is not to control how these type of groups program their floats, but to ensure smaller users that may not change the floats from their default configuration have an Argo mission compliant setup.</p>
<p>Also, <em>Argo Canada’s sampling is not very typical of the array</em> - we chose a setup that maximized the number of 1 dbar bins within our Iridium plan. 2 dbar bins throughout the water column is more common (CSIRO, Ifremer) or at least to 1000 dbar (UW), with 1 dbar bins only at the very surface. Our current setup returns just under 675 points (18-22 sbd messages, ~6kB). Moving to 1/2/10 with 20/1000 depth thresholds would result in 610 points. Our current park sample strategy is the NKE default, 12 hours, with some exceptions (Dal PROVORs sampling hourly).</p>
<h3 id="connection-with-twr">Connection with TWR</h3>
<p>Connecting with TWR staff was a helpful part of the week including getting some hands on experience with APEX floats. Pre-deployment testing will be similar, though there are some differences in deployment. General notes:</p>
<ul>
<li>shipped in IDLE (pressure activation) mode</li>
<li>work with floats though terminal emulator as before, but physical connection rather than bluetooth</li>
<li>based on physical connection, could have a much easier shipboard setup to test floats (ex. dedicated laptop, macro to run test, teraterm always open and active)</li>
<li>based on physical connection, could have a much easier shipboard setup to test floats (ex. dedicated laptop, macro to run test, teraterm always open and active); unsure if TWR supplies necessary connection?</li>
<li>can fill bottom of the float (? there is a word for this) using a bucket to encourage faster sinking</li>
<li>TWR developing in house tool for production testing that they want to eventually have users access - opportunity to be beta users</li>
<li>TWR will contact us for RUDICS activation</li>
<li>Large amount of onboard storage, all test information, pressure inquiries in IDLE mode stored</li>
<li>Will need to provide rough deployment regions before order is complete, floats need to be specifically ballasted</li>
</ul>
<h3 id="changes-to-pre-deployment-routine">Changes to Pre-deployment Routine</h3>
<p>An emphasis on <em>dockside</em> testing was made, to (1) ensure problems do not arise in transport to a ship and (2) this also minimizes startup time as the GPS almanac will update. Typically we have testing within 1-2 months of a float going on a ship, but I would like to move that up to at least test the week of.</p>
<h3 id="sharing-raw-files-w-manufacturers">Sharing Raw Files w/ Manufacturers</h3>
<p>Strong recommendation to share raw data with float manufacturers so that they have access to the engineering data when helping address issues. Easy with SBD (add manufacturer email address to distribution list) but slightly more complicated with RUDICS. Will work with TWR to ensure they have access to RUDICS data (mirror on their server perhaps?).</p>
<p>Strong recommendation to share raw data with float manufacturers so that they have access to the engineering data when helping address issues. Easy with SBD (add manufacturer email address to distribution list) but slightly more complicated with RUDICS. Will work with TWR to ensure they have access to RUDICS data (mirror on their server perhaps?). Does NKE already have access to the general RUDICS server? Do we need to revoke that?</p>
<h3 id="data-stream---upcoming-new-sensor-on-dal-float">Data Stream - upcoming new sensor on Dal float</h3>
<p>Dalhousie is purchasing a PROVOR CTS5 that will be equipped with an RBR Tridente sensor instead of the SBS FLBB sensor. Data format coming from the float should be very similar, maybe different naming structure, but also may be differences in QC, processing, etc. Something to keep in mind.</p>
<h3 id="polar-deployments">Polar Deployments</h3>
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"title": "About",
"author": [],
"contents": "\nThis site is an unofficial collection of posts related to the development of software to support the Argo international research program. Several projects related to this blog include argoFloats, argodata, and bgcArgoDMQC.\n\n\n\n",
"last_modified": "2024-09-19T20:35:25+00:00"
"last_modified": "2024-09-19T20:42:04+00:00"
},
{
"path": "deployment.html",
"title": "Deployment Planning",
"author": [],
"contents": "\nThis page is used for Canadian Argo groups to coordinate deployment planning, in addition to OceanOps. To submit plans to the website, see instructions on the github page.\nThe map below shows completed and planned deployments for 2024, coloured by institution. Dots with a buoy symbol are locations of completed deployments (deployment location, not most recent profile location), while dots with the loading symbol are planned deployments.\n\n\n\n\n\n\nDeployments since Jan 1, 2024\n\nProgram\nInstitute\nModel\nDate\nLatitude\nLongitude\nShip\nIMEI\nWMO\nSerial No.\nArgo Canada\nIOS\nARVOR\n30 Jan, 2024\n-78.25960\n-171.3442\n🇮🇹 LAURA BASSI\n300534063792910\n4902665\nAI2600-23CA009\nArgo Canada\nIOS\nARVOR\n03 Feb, 2024\n-76.38940\n-159.0156\n🇮🇹 LAURA BASSI\n300534064001540\n4902668\nAI2600-23CA012\nArgo ONC\nONC\nDeep ARVOR\n04 Feb, 2024\n-61.80540\n-64.0131\n🇪🇸 HESPERIDES\n300534063601830\n4902639\nAD2700-23CA007\nArgo ONC\nONC\nDeep ARVOR\n04 Feb, 2024\n-61.80450\n-64.0131\n🇪🇸 HESPERIDES\n300534063500400\n4902638\nAD2700-23CA006\nArgo Canada\nIOS\nARVOR\n06 Feb, 2024\n-76.28980\n-167.3679\n🇮🇹 LAURA BASSI\n300534064001530\n4902669\nAI2600-23CA013\nArgo Canada\nIOS\nARVOR\n06 Feb, 2024\n-76.12490\n-167.5818\n🇮🇹 LAURA BASSI\n300534063892280\n4902664\nAI2600-23CA008\nArgo Canada\nIOS\nARVOR\n06 Feb, 2024\n-75.94500\n-167.8319\n🇮🇹 LAURA BASSI\n300534063795430\n4902667\nAI2600-23CA011\nArgo Canada\nBIO\nPROVOR\n12 Apr, 2024\n43.46980\n-61.4349\n🇨🇦 TELEOST\n300125061376360\n4902622\nP41305-22CA003\nArgo Canada\nSAEON\nARVOR\n17 Apr, 2024\n-39.49820\n25.9525\n🇿🇦 AGULHAS II\n300534063895250\n4902654\nAI2600-23CA005\nArgo Canada\nSAEON\nARVOR\n18 Apr, 2024\n-43.49860\n32.3057\n🇿🇦 AGULHAS II\n300534063998880\n4902657\nAI2600-23CA002\nArgo Canada\nBIO\nPROVOR\n27 Apr, 2024\n43.47210\n-57.5224\n🇨🇦 TELEOST\n300125010915300\n4902676\nP41305-23CA003\nArgo Canada\nIOS\nPROVOR\n04 May, 2024\n49.28000\n-134.6700\n🇨🇦 JOHN P. TULLY\n300125010116590\n4902679\nP44168-23CA001\nArgo ONC\nONC\nDeep ARVOR\n07 May, 2024\n49.83610\n-144.6701\n🇨🇦 JOHN P. TULLY\n300534063507930\n4902631\nAD2700-22CA001\nArgo Dalhousie\nDal\nPROVOR\n13 May, 2024\n56.50100\n-52.5990\n🇮🇪 CELTIC EXPLORER\n300125062423120\n4902686\nP53865-23CA003\nArgo Canada\nBIO\nARVOR\n16 May, 2024\n17.98570\n-65.0987\n🇨🇦 OCEANOLOG\n300534062474370\n4902609\nAI2600-22CA007\nArgo Dalhousie\nDal\nPROVOR\n17 May, 2024\n56.66500\n-48.9770\n🇮🇪 CELTIC EXPLORER\n300125062031400\n4902687\nP53865-23CA004\nArgo Dalhousie\nDal\nPROVOR\n22 May, 2024\n58.42750\n-49.4418\n🇮🇪 CELTIC EXPLORER\n300125062035430\n4902688\nP53865-23CA005\nArgo Canada\nBIO\nPROVOR\n06 Jun, 2024\n59.50450\n-55.0209\n🇨🇦 CAPT. JACQUES CARTIER\n300125010915310\n4902675\nP41305-23CA002\nArgo Canada\nBIO\nPROVOR\n06 Jun, 2024\n59.50440\n-55.0210\n🇨🇦 CAPT. JACQUES CARTIER\n300125010917310\n4902677\nP41305-23CA004\nArgo Canada\nSAEON\nARVOR\n23 Jun, 2024\n-34.02260\n27.8759\n🇿🇦 AGULHAS II\n300534063992920\n4902655\nAI2600-23CA003\nArgo Canada\nSAEON\nARVOR\n25 Jun, 2024\n-35.53350\n28.7671\n🇿🇦 AGULHAS II\n300534063892270\n4902653\nAI2600-23CA001\nArgo Canada\nSAEON\nARVOR\n26 Jun, 2024\n-35.01240\n27.7382\n🇿🇦 AGULHAS II\n300534064005990\n4902649\nAI2632-23CA001\nArgo Canada\nSAEON\nARVOR\n26 Jun, 2024\n-34.48870\n26.6715\n🇿🇦 AGULHAS II\n300534063799390\n4902656\nAI2600-23CA004\nArgo Canada\nIOS\nPROVOR\n30 Jun, 2024\n46.29273\n-128.9364\n🇻🇨 NAUTILUS\n300125061378230\n4902624\nP41305-22CA005\nArgo ONC\nONC\nDeep ARVOR\n30 Jun, 2024\n45.02553\n-131.6146\n🇻🇨 NAUTILUS\n300534063601840\n4902642\nAD2700-23CA010\nArgo ONC\nONC\nDeep ARVOR\n01 Jul, 2024\n43.70781\n-134.1182\n🇻🇨 NAUTILUS\n300534063603830\n4902643\nAD2700-23CA011\nArgo ONC\nONC\nDeep ARVOR\n01 Jul, 2024\n41.85259\n-136.4000\n🇻🇨 NAUTILUS\n300534063508930\n4902644\nAD2700-23CA012\nArgo Canada\nIOS\nPROVOR\n02 Jul, 2024\n37.78102\n-141.7151\n🇻🇨 NAUTILUS\n300125061278120\n4902625\nP41305-22CA006\nArgo Canada\nIOS\nARVOR\n03 Jul, 2024\n36.12010\n-143.5575\n🇻🇨 NAUTILUS\n300534062470450\n4902615\nAI2632-22CA013\nArgo Canada\nBIO\nARVOR\n12 Jul, 2024\n42.44570\n-49.9567\n🇨🇦 LOUIS S. ST. LAURENT\n300534063792390\n4902659\nAI2600-23CA007\nArgo Canada\nBIO\nARVOR\n12 Jul, 2024\n42.44690\n-49.9561\n🇨🇦 LOUIS S. ST. LAURENT\n300534064000560\n4902651\nAI2632-23CA003\nArgo ONC\nONC\nDeep ARVOR\n08 Sep, 2024\n49.11610\n-146.6006\n🇨🇦 SIR WILFRID LAURIER\n300534063709190\n4902641\nAD2700-23CA009\nArgo Canada\nIOS\nPROVOR\n08 Sep, 2024\n48.75590\n-150.9489\n🇨🇦 SIR WILFRID LAURIER\n300125061690470\n4902680\nP44168-23CA002\nArgo ONC\nONC\nDeep ARVOR\n09 Sep, 2024\n48.25360\n-154.9950\n🇨🇦 SIR WILFRID LAURIER\n300534063708190\n4902640\nAD2700-23CA008\n\nPlanned Deployments\n\nProgram\nInstitute\nModel\nDate\nLatitude\nLongitude\nShip\nIMEI\nWMO\nSerial No.\nArgo Canada\nIOS\nPROVOR\n20 Sep, 2024\n50.00\n-145.0\n🇨🇦 JOHN P. TULLY\n300125061277090\n4902629\nP43205-22CA004\nArgo UVic\nIOS\nPROVOR\n20 Sep, 2024\n50.00\n-145.0\n🇨🇦 JOHN P. TULLY\n300125062909910\n4902690\nP53875-23CA001\nArgo Canada\nBIO\nPROVOR\n22 Sep, 2024\n43.50\n-58.0\n🇬🇧 DISCOVERY\n\n\n\nArgo Canada\nBIO\nPROVOR\n24 Sep, 2024\n42.50\n-61.5\n🇬🇧 DISCOVERY\n\n\n\nArgo Canada\nIOS\nARVOR\n01 Oct, 2024\n72.75\n-136.0\n🇨🇦 LOUIS S. ST. LAURENT\n300534063793390\n4902666\nAI2600-23CA010\nArgo Canada\nIOS\nARVOR\n03 Oct, 2024\n73.00\n-150.0\n🇨🇦 LOUIS S. ST. LAURENT\n300534060213390\n4902565\nAI2600-21CA006\n\nOther Deployment Information\nAlthough there is not yet a designated cruise or location, Argo Canada sent 6 ARVOR floats to Cape Town, South Africa via the RRS Discovery in 2023. These floats will be deployed in the Western Indian Ocean where there is a significant gap in the Argo array.\nInventory\n\n\n\nThe table below shows the number of “in stock” floats for each program/institution.\n\nProgram\nInstitute\nARVOR-SBE\nARVOR+DO\nARVOR-RBR\nDeep ARVOR\nPROVOR\nArgo Canada\nBIO\n3\n1\n0\n0\n8\nArgo Canada\nIOS\n2\n4\n2\n0\n8\nArgo Canada\nSAEON\n5\n1\n0\n0\n0\nArgo ONC\nONC\n0\n0\n0\n11\n0\nArgo Dalhousie\nDal\n0\n0\n0\n0\n3\nArgo UVic\nIOS\n0\n0\n0\n0\n2\n\n**note: for BIO floats, 1 each of ARVOR and PROVOR floats have failed their vacuum test and will likely need to be returned to NKE for repair\nThis table shows what the standing stock of floats will be for each program/institution will be following the completion of the deployments listed in the “Planned Deployments” section.\n\nProgram\nInstitute\nARVOR-SBE\nARVOR+DO\nARVOR-RBR\nDeep ARVOR\nPROVOR\nArgo Canada\nBIO\n3\n1\n0\n0\n6\nArgo Canada\nIOS\n0\n4\n2\n0\n7\nArgo Canada\nSAEON\n5\n1\n0\n0\n0\nArgo ONC\nONC\n0\n0\n0\n11\n0\nArgo Dalhousie\nDal\n0\n0\n0\n0\n3\nArgo UVic\nIOS\n0\n0\n0\n0\n1\n\n\n\n\n",
"last_modified": "2024-09-19T20:35:28+00:00"
"last_modified": "2024-09-19T20:42:06+00:00"
},
{
"path": "index.html",
"title": "Argo Canada Development Blog",
"author": [],
"contents": "\n\n\n\n",
"last_modified": "2024-09-19T20:35:28+00:00"
"last_modified": "2024-09-19T20:42:06+00:00"
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"path": "notes.html",
"title": "Argo Canada Development Blog",
"author": [],
"contents": "\n\n\n\n",
"last_modified": "2024-09-19T20:35:29+00:00"
"last_modified": "2024-09-19T20:42:07+00:00"
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{
"path": "samplingplans.html",
"title": "Argo Canada Sampling Plans",
"author": [],
"contents": "\nOn this page you will find definitions of the typical sampling plans Argo Canada uses for their floats depending on model, payload, and mission.\nMetOcean\nNOVA\nnova-default\ndova-default\nNKE\nARVOR\narvor-core-default\narvor-doxy-default\narvor-rbr-1hz\nPROVOR CTS4\nprovor-cts4-configx-default\nprovor-cts4-configy-default\nprovor-cts4-configz-default\nPROVOR CTS5\nprovor-cts5-configx-default\nprovor-cts5-configx-colocate\nprovor-cts5-configx-deeppark\nTeledyne-Webb\nAPEX\napex-historical\n\n\n\n",
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"last_modified": "2024-09-19T20:42:07+00:00"
},
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"path": "summaries.html",
"title": "Argo Canada Development Blog",
"author": [],
"contents": "\n\n\n\n",
"last_modified": "2024-09-19T20:35:30+00:00"
"last_modified": "2024-09-19T20:42:08+00:00"
}
],
"collections": ["posts/posts.json", "notes/notes.json", "yearly_summaries/yearly_summaries.json"]
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<loc>https://argocanada.github.io/blog/notes/2024-09-17-argo-technical-workshop-argo-canada-debrief/</loc>
<lastmod>2024-09-19T20:34:12+00:00</lastmod>
<lastmod>2024-09-19T20:40:43+00:00</lastmod>
</url>
<url>
<loc>https://argocanada.github.io/blog/notes/2024-06-20-argo-canada-data-management-team-updates-june-21-2024/</loc>
<lastmod>2024-09-19T20:34:12+00:00</lastmod>
<lastmod>2024-09-19T20:40:43+00:00</lastmod>
</url>
<url>
<loc>https://argocanada.github.io/blog/notes/2023-11-10-argo-canada-data-management-team-updates-november-10-2023/</loc>
<lastmod>2024-09-19T20:34:12+00:00</lastmod>
<lastmod>2024-09-19T20:40:43+00:00</lastmod>
</url>
<url>
<loc>https://argocanada.github.io/blog/yearly_summaries/2023-12-29-2023/</loc>
<lastmod>2024-09-19T20:34:12+00:00</lastmod>
<lastmod>2024-09-19T20:40:43+00:00</lastmod>
</url>
</urlset>
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