Commit 54645489b3ba54329d1abfb04b853aa6739fd939

Authored by Marion Bandet
1 parent 2b149458
Exists in master

update HFR direction

Showing 31 changed files with 223 additions and 73 deletions   Show diff stats
build/doctrees/Comparison_WERA-ADCP_Sept2013.doctree
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build/doctrees/dailylog.doctree
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build/doctrees/environment.pickle
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build/html/Comparison_WERA-ADCP_Sept2013.html
... ... @@ -56,7 +56,7 @@
56 56 <p>1- we choose a site to analyze, either PAO (site 1) or PAB (site 2)</p>
57 57 <div class="figure align-center">
58 58 <img alt="_images/sites.png" src="_images/sites.png" />
59   -<p class="caption">location of HFRs domain in the St Lawrence estuary</p>
  59 +<p class="caption"><em>location of HFRs domain in the St Lawrence estuary</em></p>
60 60 </div>
61 61 <p>2- we load the bathymetry and the HFR sites&#8217;coordinates</p>
62 62 <p>3- we specify if we use the &#8220;old&#8221; or &#8220;new&#8221; calibrations. Usually &#8220;New&#8221;.</p>
... ... @@ -86,35 +86,75 @@
86 86 </div>
87 87 <div class="figure align-center">
88 88 <img alt="_images/Radial_ADCPbin2_HFR_PAO_version5_Sept2013.png" src="_images/Radial_ADCPbin2_HFR_PAO_version5_Sept2013.png" />
89   -<p class="caption">Hourly radial currents from ADCP bin 2 and HFR WERA at PAO - September 2013</p>
  89 +<p class="caption"><em>Hourly radial currents from ADCP bin 2 and HFR WERA at PAO - September 2013 - superimposed are the 48-h averages</em></p>
90 90 <div class="legend">
91   -Superimposed are the 48-h averages</div>
  91 +<ul class="simple">
  92 +<li>We then look for the HFR grid point nearest the ADCP position at the time of interest.</li>
  93 +</ul>
  94 +</div>
92 95 </div>
93 96 <div class="figure align-center">
94 97 <img alt="_images/explecoveragegrid2.png" src="_images/explecoveragegrid2.png" />
95   -<p class="caption">We find the HFR Radial velocity at this position and project it onto zonal and meridional components.</p>
  98 +<p class="caption"><em>example of grid coverage</em></p>
96 99 <div class="legend">
97   -We store all the meaningful parameters into a structure named radar.</div>
  100 +<ul class="simple">
  101 +<li>We find the HFR Radial velocity at this position and project it onto zonal and meridional components.</li>
  102 +<li>We store all the meaningful parameters into a structure named radar.</li>
  103 +</ul>
  104 +</div>
98 105 </div>
99 106 <p>This analysis allows us to compare radial velocity components from each HFR site with the ADCP components.</p>
100 107 </div>
101 108 <div class="section" id="hfr-direction">
102 109 <h1>HFR direction<a class="headerlink" href="#hfr-direction" title="Permalink to this headline">¶</a></h1>
103 110 <p>To verify that the HFR looks in the right direction:</p>
104   -<p>For each time step of the time period of interest, we compute the distance from the HFR site to each grid point. We select the grid points that are at the same range from the HFR site than the grid point closest to the ADCP.</p>
  111 +<p># For each time step of the time period of interest, we compute the distance from the HFR site to each grid point. We select the grid points that are at the same range from the HFR site than the grid point closest to the ADCP.</p>
105 112 <div class="figure align-center">
106 113 <img alt="_images/explecoveragegrid_rangeADCP.png" src="_images/explecoveragegrid_rangeADCP.png" />
107 114 </div>
108 115 <div class="figure align-center">
109 116 <img alt="_images/explecoveragegrid_rangeADCP2.png" src="_images/explecoveragegrid_rangeADCP2.png" />
110 117 </div>
111   -<p>For each of these grid point (in cyan in the figure), we compute the azimuth the the site coordinates and we extract the radial velocity (total) and its components (zonal and meridional).</p>
112   -<p>We store all the meaningful parameters into a structure named range.</p>
  118 +<p># For each of these grid point (in cyan in the figure), we compute the azimuth the the site coordinates and we extract the radial velocity (total) and its components (zonal and meridional).</p>
  119 +<p>#We store all the meaningful parameters into a structure named range.</p>
113 120 <p>Results from the whole analysis are stored, for example, under:
114 121 /run/media/bandma01/SeagateWireless/MEOPAR/Matlab/Analysis/Radial_Comparison/201309/ADCP-PAO/ADCP_PAO_version5adcpCorrected_newcalibrations_v2.mat</p>
115   -<p>[[Fichier:CompsNewCalib_RadialVelo_ADCP_PAO_Sept2013.png|200px|thumb|left|Comparison of radial velocities from ADCP bin 2 and HFR WERA at PAO site September 2013]]</p>
116   -<p>[[Fichier:orientationPAOSept2013.png|200px|thumb|left|RMS diff and correlation from radial velocities compared betwen ADCP bin 2 and HFR WERA at PAO site September 2013]]</p>
117   -<p>[[Fichier:ADCPbin2vsPAOSept2013.png|200px|thumb|left|radial velocities from ADCP bin 2 vs HFR WERA at PAO site September 2013 - in red: 48h averages]]]]</p>
  122 +<p><strong>RESULTS WITH OLD CALIBRATIONS</strong></p>
  123 +<p>generated with PlotRadialVeloCompa_Sept2013_HFR_ADCP_WERA_v2.m</p>
  124 +<div class="figure align-center">
  125 +<img alt="_images/PlotRadialVeloCompa_Sept2013_HFR_ADCP_WERA_v2_oldcalib_01.png" src="_images/PlotRadialVeloCompa_Sept2013_HFR_ADCP_WERA_v2_oldcalib_01.png" />
  126 +<p class="caption"><em>Comparison of radial velocities from ADCP bin 2 and HFR WERA at PAO site September 2013</em></p>
  127 +</div>
  128 +<div class="figure align-center">
  129 +<img alt="_images/PlotRadialVeloCompa_Sept2013_HFR_ADCP_WERA_v2_oldcalib_02.png" src="_images/PlotRadialVeloCompa_Sept2013_HFR_ADCP_WERA_v2_oldcalib_02.png" />
  130 +</div>
  131 +<div class="figure align-center">
  132 +<img alt="_images/PlotRadialVeloCompa_Sept2013_HFR_ADCP_WERA_v2_oldcalib_03.png" src="_images/PlotRadialVeloCompa_Sept2013_HFR_ADCP_WERA_v2_oldcalib_03.png" />
  133 +</div>
  134 +<div class="figure align-center">
  135 +<img alt="_images/PlotRadialVeloCompa_Sept2013_HFR_ADCP_WERA_v2_oldcalib_04.png" src="_images/PlotRadialVeloCompa_Sept2013_HFR_ADCP_WERA_v2_oldcalib_04.png" />
  136 +</div>
  137 +<div class="figure align-center">
  138 +<img alt="_images/Plot_WERA_direction_Sept2013_ADCP_oldcalib_03.png" src="_images/Plot_WERA_direction_Sept2013_ADCP_oldcalib_03.png" />
  139 +</div>
  140 +<p><strong>RESULTS WITH NEW CALIBRATIONS</strong></p>
  141 +<p>generated with PlotRadialVeloCompa_Sept2013_HFR_ADCP_WERA_v2.m</p>
  142 +<div class="figure align-center">
  143 +<img alt="_images/PlotRadialVeloCompa_Sept2013_HFR_ADCP_WERA_v2_newcalib_01.png" src="_images/PlotRadialVeloCompa_Sept2013_HFR_ADCP_WERA_v2_newcalib_01.png" />
  144 +</div>
  145 +<div class="figure align-center">
  146 +<img alt="_images/PlotRadialVeloCompa_Sept2013_HFR_ADCP_WERA_v2_newcalib_02.png" src="_images/PlotRadialVeloCompa_Sept2013_HFR_ADCP_WERA_v2_newcalib_02.png" />
  147 +</div>
  148 +<div class="figure align-center">
  149 +<img alt="_images/PlotRadialVeloCompa_Sept2013_HFR_ADCP_WERA_v2_newcalib_03.png" src="_images/PlotRadialVeloCompa_Sept2013_HFR_ADCP_WERA_v2_newcalib_03.png" />
  150 +</div>
  151 +<div class="figure align-center">
  152 +<img alt="_images/PlotRadialVeloCompa_Sept2013_HFR_ADCP_WERA_v2_newcalib_04.png" src="_images/PlotRadialVeloCompa_Sept2013_HFR_ADCP_WERA_v2_newcalib_04.png" />
  153 +</div>
  154 +<div class="figure align-center">
  155 +<img alt="_images/Plot_WERA_direction_Sept2013_ADCP_newcalib_03.png" src="_images/Plot_WERA_direction_Sept2013_ADCP_newcalib_03.png" />
  156 +<p class="caption"><em>RMS diff and correlation from radial velocities compared betwen 1/ ADCP bin 2 and HFR WERA at PAO site September 2013 (HFR grid point closest to ADCP location) and 2/ using model data at ADCP location and at HFR grid point closest to ADCP</em></p>
  157 +</div>
118 158 </div>
119 159  
120 160  
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build/html/_sources/Comparison_WERA-ADCP_Sept2013.txt
... ... @@ -10,7 +10,7 @@ Steps of the algorithm:
10 10 .. figure:: figures/sites.png
11 11 :align: center
12 12  
13   - location of HFRs domain in the St Lawrence estuary
  13 + *location of HFRs domain in the St Lawrence estuary*
14 14  
15 15 2- we load the bathymetry and the HFR sites'coordinates
16 16  
... ... @@ -45,29 +45,23 @@ Steps of the algorithm:
45 45 .. figure:: figures/explecoveragegridallpoint.png
46 46 :align: center
47 47  
48   -
49   -
50   -
51   -
52 48 .. figure:: figures/Radial_ADCPbin2_HFR_PAO_version5_Sept2013.png
53 49 :align: center
54 50  
55   - Hourly radial currents from ADCP bin 2 and HFR WERA at PAO - September 2013
56   -
57   - Superimposed are the 48-h averages
  51 + *Hourly radial currents from ADCP bin 2 and HFR WERA at PAO - September 2013 - superimposed are the 48-h averages*
58 52  
59 53  
60   -.. [Fichier:Exple_allgridpt.png]] [[Fichier:Gridwithnan.png]]
61   -
62   -
63   - We then look for the HFR grid point nearest the ADCP position at the time of interest.
  54 + * We then look for the HFR grid point nearest the ADCP position at the time of interest.
64 55  
65 56 .. figure:: figures/explecoveragegrid2.png
66 57 :align: center
67 58  
68   - We find the HFR Radial velocity at this position and project it onto zonal and meridional components.
  59 + *example of grid coverage*
  60 +
  61 +
  62 + * We find the HFR Radial velocity at this position and project it onto zonal and meridional components.
69 63  
70   - We store all the meaningful parameters into a structure named radar.
  64 + * We store all the meaningful parameters into a structure named radar.
71 65  
72 66  
73 67 This analysis allows us to compare radial velocity components from each HFR site with the ADCP components.
... ... @@ -78,7 +72,7 @@ HFR direction
78 72  
79 73 To verify that the HFR looks in the right direction:
80 74  
81   -For each time step of the time period of interest, we compute the distance from the HFR site to each grid point. We select the grid points that are at the same range from the HFR site than the grid point closest to the ADCP.
  75 +# For each time step of the time period of interest, we compute the distance from the HFR site to each grid point. We select the grid points that are at the same range from the HFR site than the grid point closest to the ADCP.
82 76  
83 77 .. figure:: figures/explecoveragegrid_rangeADCP.png
84 78 :align: center
... ... @@ -87,19 +81,56 @@ For each time step of the time period of interest, we compute the distance from
87 81 :align: center
88 82  
89 83  
90   -For each of these grid point (in cyan in the figure), we compute the azimuth the the site coordinates and we extract the radial velocity (total) and its components (zonal and meridional).
  84 +# For each of these grid point (in cyan in the figure), we compute the azimuth the the site coordinates and we extract the radial velocity (total) and its components (zonal and meridional).
  85 +
  86 +#We store all the meaningful parameters into a structure named range.
91 87  
92   -We store all the meaningful parameters into a structure named range.
93 88  
94 89 Results from the whole analysis are stored, for example, under:
95 90 /run/media/bandma01/SeagateWireless/MEOPAR/Matlab/Analysis/Radial_Comparison/201309/ADCP-PAO/ADCP_PAO_version5adcpCorrected_newcalibrations_v2.mat
96 91  
  92 +**RESULTS WITH OLD CALIBRATIONS**
  93 +
  94 +generated with PlotRadialVeloCompa_Sept2013_HFR_ADCP_WERA_v2.m
  95 +
  96 +.. figure:: figures/radialvelocities/PlotRadialVeloCompa_Sept2013_HFR_ADCP_WERA_v2_oldcalib_01.png
  97 + :align: center
  98 +
  99 + *Comparison of radial velocities from ADCP bin 2 and HFR WERA at PAO site September 2013*
  100 +
97 101  
98   -[[Fichier:CompsNewCalib_RadialVelo_ADCP_PAO_Sept2013.png|200px|thumb|left|Comparison of radial velocities from ADCP bin 2 and HFR WERA at PAO site September 2013]]
  102 +.. figure:: figures/radialvelocities/PlotRadialVeloCompa_Sept2013_HFR_ADCP_WERA_v2_oldcalib_02.png
  103 + :align: center
99 104  
  105 +.. figure:: figures/radialvelocities/PlotRadialVeloCompa_Sept2013_HFR_ADCP_WERA_v2_oldcalib_03.png
  106 + :align: center
  107 +
  108 +.. figure:: figures/radialvelocities/PlotRadialVeloCompa_Sept2013_HFR_ADCP_WERA_v2_oldcalib_04.png
  109 + :align: center
  110 +
  111 +.. figure:: figures/radialvelocities/Plot_WERA_direction_Sept2013_ADCP_oldcalib_03.png
  112 + :align: center
  113 +
  114 +**RESULTS WITH NEW CALIBRATIONS**
  115 +
  116 +generated with PlotRadialVeloCompa_Sept2013_HFR_ADCP_WERA_v2.m
  117 +
  118 +.. figure:: figures/radialvelocities/PlotRadialVeloCompa_Sept2013_HFR_ADCP_WERA_v2_newcalib_01.png
  119 + :align: center
  120 +
  121 +.. figure:: figures/radialvelocities/PlotRadialVeloCompa_Sept2013_HFR_ADCP_WERA_v2_newcalib_02.png
  122 + :align: center
  123 +
  124 +.. figure:: figures/radialvelocities/PlotRadialVeloCompa_Sept2013_HFR_ADCP_WERA_v2_newcalib_03.png
  125 + :align: center
  126 +
  127 +.. figure:: figures/radialvelocities/PlotRadialVeloCompa_Sept2013_HFR_ADCP_WERA_v2_newcalib_04.png
  128 + :align: center
  129 +
  130 +.. figure:: figures/radialvelocities/Plot_WERA_direction_Sept2013_ADCP_newcalib_03.png
  131 + :align: center
100 132  
101   -[[Fichier:orientationPAOSept2013.png|200px|thumb|left|RMS diff and correlation from radial velocities compared betwen ADCP bin 2 and HFR WERA at PAO site September 2013]]
  133 + *RMS diff and correlation from radial velocities compared betwen 1/ ADCP bin 2 and HFR WERA at PAO site September 2013 (HFR grid point closest to ADCP location) and 2/ using model data at ADCP location and at HFR grid point closest to ADCP*
102 134  
103 135  
104   -[[Fichier:ADCPbin2vsPAOSept2013.png|200px|thumb|left|radial velocities from ADCP bin 2 vs HFR WERA at PAO site September 2013 - in red: 48h averages]]]]
105 136  
... ...
build/html/_sources/dailylog.txt
... ... @@ -75,6 +75,7 @@ reprocess calibrations with new, corrected phases:
75 75  
76 76  
77 77 **29 OCT 2015:**
  78 +
78 79 - work on figures of WERA PAO generated with new phases.
79 80 - realise there is a problem with new calibration output files: they are the same as with the old calibrations...
80 81 - investigate on wera server if possible mistake in shell scripts
... ... @@ -82,20 +83,32 @@ reprocess calibrations with new, corrected phases:
82 83 - work on MEOPAR HQP section for NCE renewal application
83 84  
84 85 **2 NOV 2015:**
  86 +
85 87 - work on pb with new phases PAO: check shell scripts on WERA serveur
86 88 - try with 1 day (2013244): seems ok
87 89 - process by hand each day: ./do_postprocess_SORT_newCalib.sh -s PAO -y 2013273
88 90  
89 91 **3 NOV 2015:**
  92 +
90 93 - finish analysis by hand: take .SORT and output .crad_pol_lst
91 94 => do_process_SORT_pol 2013244 2013273 /home/wera/data1/PAO
92 95  
93 96 **5 NOV 2015:**
  97 +
94 98 - ftp transfer of .crad_pol_lst to local hard Drive
95 99 => ./do_filetransferssh.sh 2013245 2013273
96 100 rsync -v -e ssh wera@132.215.11.14:~/data1/PAO/${JOUR}/results/new/*.crad_pol_lst /run/media/bandma01/SeagateWireless/MEOPAR/DATA/HFRs/WERAs/PAO/optimisationPAO/version5_PAO_old_nofullcal/checkNewCalib/
97 101 - use radiallst2uv.m
98 102  
99   -**the new phases are so closed to the old ones that there isn't any real differences in the radial currents**
  103 +**the new phases are so close to the old ones that there isn't any real differences in the radial currents**
  104 +
  105 +
  106 +**16 Nov 2015:**
  107 +
  108 +- work on HFR WERA direction
  109 +
  110 +**17 Nov 2015:**
  111 +
  112 +- generate PlotRadialVeloCompa_Sept2013_HFR_ADCP_WERA_v2.m for old and new calibrations (PAO)
100 113  
101 114  
... ...
build/html/dailylog.html
... ... @@ -180,27 +180,49 @@
180 180 </dl>
181 181 <p>3- WERA PAO: convert lst files to .mat for new calibrations using radiallst2uv.m
182 182 - use RadialVeloCompa_Sept2013_HFR_ADCP_WERA_ADCPcorrected_v2.m to generate new .mat data and use PlotRadialVeloCompa_Sept2013_HFR_ADCP_WERA_v2.m to generate new plots.</p>
183   -<p><strong>29 OCT 2015:</strong>
184   -- work on figures of WERA PAO generated with new phases.
185   -- realise there is a problem with new calibration output files: they are the same as with the old calibrations...
186   -- investigate on wera server if possible mistake in shell scripts
187   -- transfer with ssh of old calibrations results
188   -- work on MEOPAR HQP section for NCE renewal application</p>
189   -<p><strong>2 NOV 2015:</strong>
190   -- work on pb with new phases PAO: check shell scripts on WERA serveur
191   -- try with 1 day (2013244): seems ok
192   -- process by hand each day: ./do_postprocess_SORT_newCalib.sh -s PAO -y 2013273</p>
193   -<p><strong>3 NOV 2015:</strong>
194   -- finish analysis by hand: take .SORT and output .crad_pol_lst</p>
195   -<blockquote>
196   -<div>=&gt; do_process_SORT_pol 2013244 2013273 /home/wera/data1/PAO</div></blockquote>
197   -<p><strong>5 NOV 2015:</strong>
198   -- ftp transfer of .crad_pol_lst to local hard Drive</p>
199   -<blockquote>
200   -<div>=&gt; ./do_filetransferssh.sh 2013245 2013273</div></blockquote>
  183 +<p><strong>29 OCT 2015:</strong></p>
  184 +<ul class="simple">
  185 +<li>work on figures of WERA PAO generated with new phases.</li>
  186 +<li>realise there is a problem with new calibration output files: they are the same as with the old calibrations...</li>
  187 +<li>investigate on wera server if possible mistake in shell scripts</li>
  188 +<li>transfer with ssh of old calibrations results</li>
  189 +<li>work on MEOPAR HQP section for NCE renewal application</li>
  190 +</ul>
  191 +<p><strong>2 NOV 2015:</strong></p>
  192 +<ul class="simple">
  193 +<li>work on pb with new phases PAO: check shell scripts on WERA serveur</li>
  194 +<li>try with 1 day (2013244): seems ok</li>
  195 +<li>process by hand each day: ./do_postprocess_SORT_newCalib.sh -s PAO -y 2013273</li>
  196 +</ul>
  197 +<p><strong>3 NOV 2015:</strong></p>
  198 +<ul>
  199 +<li><dl class="first docutils">
  200 +<dt>finish analysis by hand: take .SORT and output .crad_pol_lst</dt>
  201 +<dd><p class="first last">=&gt; do_process_SORT_pol 2013244 2013273 /home/wera/data1/PAO</p>
  202 +</dd>
  203 +</dl>
  204 +</li>
  205 +</ul>
  206 +<p><strong>5 NOV 2015:</strong></p>
  207 +<ul>
  208 +<li><dl class="first docutils">
  209 +<dt>ftp transfer of .crad_pol_lst to local hard Drive</dt>
  210 +<dd><p class="first last">=&gt; ./do_filetransferssh.sh 2013245 2013273</p>
  211 +</dd>
  212 +</dl>
  213 +</li>
  214 +</ul>
201 215 <p>rsync -v -e ssh <a class="reference external" href="mailto:wera&#37;&#52;&#48;132&#46;215&#46;11&#46;14">wera<span>&#64;</span>132<span>&#46;</span>215<span>&#46;</span>11<span>&#46;</span>14</a>:~/data1/PAO/${JOUR}/results/new/<a href="#id1"><span class="problematic" id="id2">*</span></a>.crad_pol_lst /run/media/bandma01/SeagateWireless/MEOPAR/DATA/HFRs/WERAs/PAO/optimisationPAO/version5_PAO_old_nofullcal/checkNewCalib/
202 216 - use radiallst2uv.m</p>
203   -<p><strong>the new phases are so closed to the old ones that there isn&#8217;t any real differences in the radial currents</strong></p>
  217 +<p><strong>the new phases are so close to the old ones that there isn&#8217;t any real differences in the radial currents</strong></p>
  218 +<p><strong>16 Nov 2015:</strong></p>
  219 +<ul class="simple">
  220 +<li>work on HFR WERA direction</li>
  221 +</ul>
  222 +<p><strong>17 Nov 2015:</strong></p>
  223 +<ul class="simple">
  224 +<li>generate PlotRadialVeloCompa_Sept2013_HFR_ADCP_WERA_v2.m for old and new calibrations (PAO)</li>
  225 +</ul>
204 226 </div>
205 227  
206 228  
... ...
build/html/searchindex.js
1   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3 3 \ No newline at end of file
... ...
source/Comparison_WERA-ADCP_Sept2013.rst
... ... @@ -10,7 +10,7 @@ Steps of the algorithm:
10 10 .. figure:: figures/sites.png
11 11 :align: center
12 12  
13   - location of HFRs domain in the St Lawrence estuary
  13 + *location of HFRs domain in the St Lawrence estuary*
14 14  
15 15 2- we load the bathymetry and the HFR sites'coordinates
16 16  
... ... @@ -45,29 +45,23 @@ Steps of the algorithm:
45 45 .. figure:: figures/explecoveragegridallpoint.png
46 46 :align: center
47 47  
48   -
49   -
50   -
51   -
52 48 .. figure:: figures/Radial_ADCPbin2_HFR_PAO_version5_Sept2013.png
53 49 :align: center
54 50  
55   - Hourly radial currents from ADCP bin 2 and HFR WERA at PAO - September 2013
56   -
57   - Superimposed are the 48-h averages
  51 + *Hourly radial currents from ADCP bin 2 and HFR WERA at PAO - September 2013 - superimposed are the 48-h averages*
58 52  
59 53  
60   -.. [Fichier:Exple_allgridpt.png]] [[Fichier:Gridwithnan.png]]
61   -
62   -
63   - We then look for the HFR grid point nearest the ADCP position at the time of interest.
  54 + * We then look for the HFR grid point nearest the ADCP position at the time of interest.
64 55  
65 56 .. figure:: figures/explecoveragegrid2.png
66 57 :align: center
67 58  
68   - We find the HFR Radial velocity at this position and project it onto zonal and meridional components.
  59 + *example of grid coverage*
  60 +
  61 +
  62 + * We find the HFR Radial velocity at this position and project it onto zonal and meridional components.
69 63  
70   - We store all the meaningful parameters into a structure named radar.
  64 + * We store all the meaningful parameters into a structure named radar.
71 65  
72 66  
73 67 This analysis allows us to compare radial velocity components from each HFR site with the ADCP components.
... ... @@ -78,7 +72,7 @@ HFR direction
78 72  
79 73 To verify that the HFR looks in the right direction:
80 74  
81   -For each time step of the time period of interest, we compute the distance from the HFR site to each grid point. We select the grid points that are at the same range from the HFR site than the grid point closest to the ADCP.
  75 +# For each time step of the time period of interest, we compute the distance from the HFR site to each grid point. We select the grid points that are at the same range from the HFR site than the grid point closest to the ADCP.
82 76  
83 77 .. figure:: figures/explecoveragegrid_rangeADCP.png
84 78 :align: center
... ... @@ -87,19 +81,56 @@ For each time step of the time period of interest, we compute the distance from
87 81 :align: center
88 82  
89 83  
90   -For each of these grid point (in cyan in the figure), we compute the azimuth the the site coordinates and we extract the radial velocity (total) and its components (zonal and meridional).
  84 +# For each of these grid point (in cyan in the figure), we compute the azimuth the the site coordinates and we extract the radial velocity (total) and its components (zonal and meridional).
  85 +
  86 +#We store all the meaningful parameters into a structure named range.
91 87  
92   -We store all the meaningful parameters into a structure named range.
93 88  
94 89 Results from the whole analysis are stored, for example, under:
95 90 /run/media/bandma01/SeagateWireless/MEOPAR/Matlab/Analysis/Radial_Comparison/201309/ADCP-PAO/ADCP_PAO_version5adcpCorrected_newcalibrations_v2.mat
96 91  
  92 +**RESULTS WITH OLD CALIBRATIONS**
  93 +
  94 +generated with PlotRadialVeloCompa_Sept2013_HFR_ADCP_WERA_v2.m
  95 +
  96 +.. figure:: figures/radialvelocities/PlotRadialVeloCompa_Sept2013_HFR_ADCP_WERA_v2_oldcalib_01.png
  97 + :align: center
  98 +
  99 + *Comparison of radial velocities from ADCP bin 2 and HFR WERA at PAO site September 2013*
  100 +
97 101  
98   -[[Fichier:CompsNewCalib_RadialVelo_ADCP_PAO_Sept2013.png|200px|thumb|left|Comparison of radial velocities from ADCP bin 2 and HFR WERA at PAO site September 2013]]
  102 +.. figure:: figures/radialvelocities/PlotRadialVeloCompa_Sept2013_HFR_ADCP_WERA_v2_oldcalib_02.png
  103 + :align: center
99 104  
  105 +.. figure:: figures/radialvelocities/PlotRadialVeloCompa_Sept2013_HFR_ADCP_WERA_v2_oldcalib_03.png
  106 + :align: center
  107 +
  108 +.. figure:: figures/radialvelocities/PlotRadialVeloCompa_Sept2013_HFR_ADCP_WERA_v2_oldcalib_04.png
  109 + :align: center
  110 +
  111 +.. figure:: figures/radialvelocities/Plot_WERA_direction_Sept2013_ADCP_oldcalib_03.png
  112 + :align: center
  113 +
  114 +**RESULTS WITH NEW CALIBRATIONS**
  115 +
  116 +generated with PlotRadialVeloCompa_Sept2013_HFR_ADCP_WERA_v2.m
  117 +
  118 +.. figure:: figures/radialvelocities/PlotRadialVeloCompa_Sept2013_HFR_ADCP_WERA_v2_newcalib_01.png
  119 + :align: center
  120 +
  121 +.. figure:: figures/radialvelocities/PlotRadialVeloCompa_Sept2013_HFR_ADCP_WERA_v2_newcalib_02.png
  122 + :align: center
  123 +
  124 +.. figure:: figures/radialvelocities/PlotRadialVeloCompa_Sept2013_HFR_ADCP_WERA_v2_newcalib_03.png
  125 + :align: center
  126 +
  127 +.. figure:: figures/radialvelocities/PlotRadialVeloCompa_Sept2013_HFR_ADCP_WERA_v2_newcalib_04.png
  128 + :align: center
  129 +
  130 +.. figure:: figures/radialvelocities/Plot_WERA_direction_Sept2013_ADCP_newcalib_03.png
  131 + :align: center
100 132  
101   -[[Fichier:orientationPAOSept2013.png|200px|thumb|left|RMS diff and correlation from radial velocities compared betwen ADCP bin 2 and HFR WERA at PAO site September 2013]]
  133 + *RMS diff and correlation from radial velocities compared betwen 1/ ADCP bin 2 and HFR WERA at PAO site September 2013 (HFR grid point closest to ADCP location) and 2/ using model data at ADCP location and at HFR grid point closest to ADCP*
102 134  
103 135  
104   -[[Fichier:ADCPbin2vsPAOSept2013.png|200px|thumb|left|radial velocities from ADCP bin 2 vs HFR WERA at PAO site September 2013 - in red: 48h averages]]]]
105 136  
... ...
source/dailylog.rst
... ... @@ -75,6 +75,7 @@ reprocess calibrations with new, corrected phases:
75 75  
76 76  
77 77 **29 OCT 2015:**
  78 +
78 79 - work on figures of WERA PAO generated with new phases.
79 80 - realise there is a problem with new calibration output files: they are the same as with the old calibrations...
80 81 - investigate on wera server if possible mistake in shell scripts
... ... @@ -82,20 +83,32 @@ reprocess calibrations with new, corrected phases:
82 83 - work on MEOPAR HQP section for NCE renewal application
83 84  
84 85 **2 NOV 2015:**
  86 +
85 87 - work on pb with new phases PAO: check shell scripts on WERA serveur
86 88 - try with 1 day (2013244): seems ok
87 89 - process by hand each day: ./do_postprocess_SORT_newCalib.sh -s PAO -y 2013273
88 90  
89 91 **3 NOV 2015:**
  92 +
90 93 - finish analysis by hand: take .SORT and output .crad_pol_lst
91 94 => do_process_SORT_pol 2013244 2013273 /home/wera/data1/PAO
92 95  
93 96 **5 NOV 2015:**
  97 +
94 98 - ftp transfer of .crad_pol_lst to local hard Drive
95 99 => ./do_filetransferssh.sh 2013245 2013273
96 100 rsync -v -e ssh wera@132.215.11.14:~/data1/PAO/${JOUR}/results/new/*.crad_pol_lst /run/media/bandma01/SeagateWireless/MEOPAR/DATA/HFRs/WERAs/PAO/optimisationPAO/version5_PAO_old_nofullcal/checkNewCalib/
97 101 - use radiallst2uv.m
98 102  
99   -**the new phases are so closed to the old ones that there isn't any real differences in the radial currents**
  103 +**the new phases are so close to the old ones that there isn't any real differences in the radial currents**
  104 +
  105 +
  106 +**16 Nov 2015:**
  107 +
  108 +- work on HFR WERA direction
  109 +
  110 +**17 Nov 2015:**
  111 +
  112 +- generate PlotRadialVeloCompa_Sept2013_HFR_ADCP_WERA_v2.m for old and new calibrations (PAO)
100 113  
101 114  
... ...
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