Commit 2b149458e2cefa1a53593764ad59c56461b05e55

Authored by Marion Bandet
1 parent 121292c7
Exists in master

mise a jour

build/doctrees/Comparison_WERA-ADCP_Sept2013.doctree
No preview for this file type
build/doctrees/calibration.doctree
No preview for this file type
build/doctrees/dailylog.doctree
No preview for this file type
build/doctrees/environment.pickle
No preview for this file type
build/html/Comparison_WERA-ADCP_Sept2013.html
... ... @@ -54,43 +54,60 @@
54 54 <p>Matlab script used to do the analysis is <strong>RadialVeloCompa_Sept2013_HFR_ADCP_WERA_ADCPcorrected_v2.m</strong></p>
55 55 <p>Steps of the algorithm:</p>
56 56 <p>1- we choose a site to analyze, either PAO (site 1) or PAB (site 2)</p>
  57 +<div class="figure align-center">
  58 +<img alt="_images/sites.png" src="_images/sites.png" />
  59 +<p class="caption">location of HFRs domain in the St Lawrence estuary</p>
  60 +</div>
57 61 <p>2- we load the bathymetry and the HFR sites&#8217;coordinates</p>
58 62 <p>3- we specify if we use the &#8220;old&#8221; or &#8220;new&#8221; calibrations. Usually &#8220;New&#8221;.</p>
59 63 <p>4- we load IML-4 ADCP data (2013) and gps data</p>
60 64 <p>5- we make a list of all the HFR files available for the site of interest.</p>
61 65 <p>6- we analyze the ADCP data (bin 2 only to get near-surface data):</p>
62 66 <blockquote>
63   -<div><p>We look for the indices of the ADCP time vector corresponding to the time period of interest (here 01 to 30 September 2013).</p>
64   -<p>For each index, we look for the ADCP position (xadcp,yadcp)(via the gps coordinates).</p>
65   -<p>We then look for the positions 15min before and 15min after.</p>
66   -<p>We estimate the mean drift of the ADCP within these 30 minutes (Umean_adcp_u, Umean_adcp_v and U_mean_adcp (total)).</p>
67   -<p>We find the radial orientation at the ADCP position given by xadcp,yadcp: azimuth in degrees from HFR site to adcp position</p>
68   -<p>We project U_mean_adcp onto the radial direction to get the radial current components (ur_adcp_proj, vr_adcp_proj).</p>
69   -<p>We store all the meaningful parameters into a structure named adcp.</p>
  67 +<div><ul class="simple">
  68 +<li>We look for the indices of the ADCP time vector corresponding to the time period of interest (here 01 to 30 September 2013).</li>
  69 +<li>For each index, we look for the ADCP position (xadcp,yadcp)(via the gps coordinates).</li>
  70 +<li>We then look for the positions 15min before and 15min after.</li>
  71 +<li>We estimate the mean drift of the ADCP within these 30 minutes (Umean_adcp_u, Umean_adcp_v and U_mean_adcp (total)).</li>
  72 +<li>We find the radial orientation at the ADCP position given by xadcp,yadcp: azimuth in degrees from HFR site to adcp position</li>
  73 +<li>We project U_mean_adcp onto the radial direction to get the radial current components (ur_adcp_proj, vr_adcp_proj).</li>
  74 +<li>We store all the meaningful parameters into a structure named adcp.</li>
  75 +</ul>
70 76 </div></blockquote>
71 77 <p>7- We analyze the HFR data:</p>
72 78 <blockquote>
73   -<div><p>We look for the indices of the HFR time vector corresponding to the time period of interest (here 01 to 30 September 2013)</p>
74   -<p>For each index, we load the corresponding HFR file (i.e. 20132440000_pao.mat). Each file contains a grid (X,Y) with radial currents at each grid point (Ur), a corresponding time vector (t) and the angle and distance from the site (theta,r).</p>
  79 +<div><ul class="simple">
  80 +<li>We look for the indices of the HFR time vector corresponding to the time period of interest (here 01 to 30 September 2013)</li>
  81 +<li>For each index, we load the corresponding HFR file (i.e. 20132440000_pao.mat). Each file contains a grid (X,Y) with radial currents at each grid point (Ur), a corresponding time vector (t) and the angle and distance from the site (theta,r).</li>
  82 +</ul>
75 83 </div></blockquote>
76 84 <div class="figure align-center">
  85 +<img alt="_images/explecoveragegridallpoint.png" src="_images/explecoveragegridallpoint.png" />
  86 +</div>
  87 +<div class="figure align-center">
77 88 <img alt="_images/Radial_ADCPbin2_HFR_PAO_version5_Sept2013.png" src="_images/Radial_ADCPbin2_HFR_PAO_version5_Sept2013.png" />
78 89 <p class="caption">Hourly radial currents from ADCP bin 2 and HFR WERA at PAO - September 2013</p>
79 90 <div class="legend">
80 91 Superimposed are the 48-h averages</div>
81 92 </div>
82   -<p>[[Fichier:gridwithnan_adcp.png]]</p>
83   -<blockquote>
84   -<div><p>We find the HFR Radial velocity at this position and project it onto zonal and meridional components.</p>
85   -<p>We store all the meaningful parameters into a structure named radar.</p>
86   -</div></blockquote>
  93 +<div class="figure align-center">
  94 +<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>
  96 +<div class="legend">
  97 +We store all the meaningful parameters into a structure named radar.</div>
  98 +</div>
87 99 <p>This analysis allows us to compare radial velocity components from each HFR site with the ADCP components.</p>
88 100 </div>
89 101 <div class="section" id="hfr-direction">
90 102 <h1>HFR direction<a class="headerlink" href="#hfr-direction" title="Permalink to this headline">¶</a></h1>
91 103 <p>To verify that the HFR looks in the right direction:</p>
92 104 <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>
93   -<p>[[Fichier:rangeADCP.png]]</p>
  105 +<div class="figure align-center">
  106 +<img alt="_images/explecoveragegrid_rangeADCP.png" src="_images/explecoveragegrid_rangeADCP.png" />
  107 +</div>
  108 +<div class="figure align-center">
  109 +<img alt="_images/explecoveragegrid_rangeADCP2.png" src="_images/explecoveragegrid_rangeADCP2.png" />
  110 +</div>
94 111 <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>
95 112 <p>We store all the meaningful parameters into a structure named range.</p>
96 113 <p>Results from the whole analysis are stored, for example, under:
... ...
build/html/_images/explecoveragegrid2.png 0 → 100644

34 KB

build/html/_images/explecoveragegrid_rangeADCP.png 0 → 100644

21.9 KB

build/html/_images/explecoveragegrid_rangeADCP2.png 0 → 100644

34.2 KB

build/html/_images/explecoveragegridallpoint.png 0 → 100644

33.6 KB

build/html/_images/sites.png 0 → 100644

28 KB

build/html/_sources/Comparison_WERA-ADCP_Sept2013.txt
... ... @@ -7,6 +7,11 @@ Steps of the algorithm:
7 7  
8 8 1- we choose a site to analyze, either PAO (site 1) or PAB (site 2)
9 9  
  10 +.. figure:: figures/sites.png
  11 + :align: center
  12 +
  13 + location of HFRs domain in the St Lawrence estuary
  14 +
10 15 2- we load the bathymetry and the HFR sites'coordinates
11 16  
12 17 3- we specify if we use the "old" or "new" calibrations. Usually "New".
... ... @@ -17,25 +22,32 @@ Steps of the algorithm:
17 22  
18 23 6- we analyze the ADCP data (bin 2 only to get near-surface data):
19 24  
20   - We look for the indices of the ADCP time vector corresponding to the time period of interest (here 01 to 30 September 2013).
  25 + * We look for the indices of the ADCP time vector corresponding to the time period of interest (here 01 to 30 September 2013).
21 26  
22   - For each index, we look for the ADCP position (xadcp,yadcp)(via the gps coordinates).
  27 + * For each index, we look for the ADCP position (xadcp,yadcp)(via the gps coordinates).
23 28  
24   - We then look for the positions 15min before and 15min after.
  29 + * We then look for the positions 15min before and 15min after.
25 30  
26   - We estimate the mean drift of the ADCP within these 30 minutes (Umean_adcp_u, Umean_adcp_v and U_mean_adcp (total)).
  31 + * We estimate the mean drift of the ADCP within these 30 minutes (Umean_adcp_u, Umean_adcp_v and U_mean_adcp (total)).
27 32  
28   - We find the radial orientation at the ADCP position given by xadcp,yadcp: azimuth in degrees from HFR site to adcp position
  33 + * We find the radial orientation at the ADCP position given by xadcp,yadcp: azimuth in degrees from HFR site to adcp position
29 34  
30   - We project U_mean_adcp onto the radial direction to get the radial current components (ur_adcp_proj, vr_adcp_proj).
  35 + * We project U_mean_adcp onto the radial direction to get the radial current components (ur_adcp_proj, vr_adcp_proj).
31 36  
32   - We store all the meaningful parameters into a structure named adcp.
  37 + * We store all the meaningful parameters into a structure named adcp.
33 38  
34 39 7- We analyze the HFR data:
35 40  
36   - We look for the indices of the HFR time vector corresponding to the time period of interest (here 01 to 30 September 2013)
  41 + * We look for the indices of the HFR time vector corresponding to the time period of interest (here 01 to 30 September 2013)
  42 +
  43 + * For each index, we load the corresponding HFR file (i.e. 20132440000_pao.mat). Each file contains a grid (X,Y) with radial currents at each grid point (Ur), a corresponding time vector (t) and the angle and distance from the site (theta,r).
  44 +
  45 +.. figure:: figures/explecoveragegridallpoint.png
  46 + :align: center
  47 +
  48 +
  49 +
37 50  
38   - For each index, we load the corresponding HFR file (i.e. 20132440000_pao.mat). Each file contains a grid (X,Y) with radial currents at each grid point (Ur), a corresponding time vector (t) and the angle and distance from the site (theta,r).
39 51  
40 52 .. figure:: figures/Radial_ADCPbin2_HFR_PAO_version5_Sept2013.png
41 53 :align: center
... ... @@ -50,7 +62,8 @@ Steps of the algorithm:
50 62  
51 63 We then look for the HFR grid point nearest the ADCP position at the time of interest.
52 64  
53   -[[Fichier:gridwithnan_adcp.png]]
  65 +.. figure:: figures/explecoveragegrid2.png
  66 + :align: center
54 67  
55 68 We find the HFR Radial velocity at this position and project it onto zonal and meridional components.
56 69  
... ... @@ -67,7 +80,12 @@ To verify that the HFR looks in the right direction:
67 80  
68 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.
69 82  
70   -[[Fichier:rangeADCP.png]]
  83 +.. figure:: figures/explecoveragegrid_rangeADCP.png
  84 + :align: center
  85 +
  86 +.. figure:: figures/explecoveragegrid_rangeADCP2.png
  87 + :align: center
  88 +
71 89  
72 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).
73 91  
... ...
build/html/_sources/calibration.txt
... ... @@ -133,27 +133,27 @@ Outputs of **WERAcalibration.m** for PAO site are available here: `calibrationPA
133 133 +=============+=================+=============+
134 134 | 1 | 0 | 0 |
135 135 +-------------+-----------------+-------------+
136   -| 2 | -0.6181 | 12.5669 |
  136 +| 2 | -0.6181 | 2.2270 |
137 137 +-------------+-----------------+-------------+
138   -| 3 | -19.9027 | 39.2831 |
  138 +| 3 | -19.9027 | -20.8291 |
139 139 +-------------+-----------------+-------------+
140   -| 4 | 1.2299 | 16.4368 |
  140 +| 4 | 1.2299 | 1.2548 |
141 141 +-------------+-----------------+-------------+
142   -| 5 | -21.2304 | 48.6882 |
  142 +| 5 | -21.2304 | -15.9611 |
143 143 +-------------+-----------------+-------------+
144   -| 6 | 10.7207 | 32.0365 |
  144 +| 6 | 10.7207 | 12.7500 |
145 145 +-------------+-----------------+-------------+
146   -| 7 | -5.2161 | 46.1277 |
  146 +| 7 | -5.2161 | 6.0602 |
147 147 +-------------+-----------------+-------------+
148   -| 8 | -14.8695 | 86.8683 |
  148 +| 8 | -14.8695 | -14.5626 |
149 149 +-------------+-----------------+-------------+
150   -| 9 | -2.5658 | 82.3474 |
  150 +| 9 | -2.5658 | 1.1416 |
151 151 +-------------+-----------------+-------------+
152   -| 10 | -16.1023 | 112.4072 |
  152 +| 10 | -16.1023 | -14.8303 |
153 153 +-------------+-----------------+-------------+
154   -| 11 | -6.7589 | 132.1750 |
  154 +| 11 | -6.7589 | -10.0689 |
155 155 +-------------+-----------------+-------------+
156   -| 12 | -9.7778 | 153.9098 |
  156 +| 12 | -9.7778 | -13.8845 |
157 157 +-------------+-----------------+-------------+
158 158  
159 159 The new phase values were saved under **calibration_pao_29OCT2014.wera**.
... ... @@ -171,27 +171,27 @@ Outputs of WERAcalibration.m for PAB site are available here: `calibrationPAB`_
171 171 +=============+=================+=============+
172 172 | 1 | 0 | 0 |
173 173 +-------------+-----------------+-------------+
174   -| 2 | 1.0514 | 19.6031 |
  174 +| 2 | 1.0514 | -19.6031 |
175 175 +-------------+-----------------+-------------+
176   -| 3 | 8.3719 | -77.3093 |
  176 +| 3 | 8.3719 | 77.3093 |
177 177 +-------------+-----------------+-------------+
178   -| 4 | 2.0496 | 2.8669 |
  178 +| 4 | 2.0496 | -2.8669 |
179 179 +-------------+-----------------+-------------+
180   -| 5 | 13.5527 | -29.2102 |
  180 +| 5 | 13.5527 | 29.2102 |
181 181 +-------------+-----------------+-------------+
182   -| 6 | -3.0394 | 1.9353 |
  182 +| 6 | -3.0394 | -1.9353 |
183 183 +-------------+-----------------+-------------+
184   -| 7 | 0.9866 | 30.6625 |
  184 +| 7 | 0.9866 | -30.6625 |
185 185 +-------------+-----------------+-------------+
186   -| 8 | -2.9561 | 7.2423 |
  186 +| 8 | -2.9561 | -7.2423 |
187 187 +-------------+-----------------+-------------+
188   -| 9 | -1.5691 | 28.9055 |
  188 +| 9 | -1.5691 | -28.9055 |
189 189 +-------------+-----------------+-------------+
190   -| 10 | -2.4549 | 24.0200 |
  190 +| 10 | -2.4549 | -24.0200 |
191 191 +-------------+-----------------+-------------+
192   -| 11 | 1.4106 | 12.9370 |
  192 +| 11 | 1.4106 | -12.9370 |
193 193 +-------------+-----------------+-------------+
194   -| 12 | -2.7529 | 7.4966 |
  194 +| 12 | -2.7529 | -7.4966 |
195 195 +-------------+-----------------+-------------+
196 196  
197 197 The new phase values were saved under **calibration_pab_30OCT2014.wera**.
... ...
build/html/_sources/dailylog.txt
... ... @@ -81,3 +81,21 @@ reprocess calibrations with new, corrected phases:
81 81 - transfer with ssh of old calibrations results
82 82 - work on MEOPAR HQP section for NCE renewal application
83 83  
  84 +**2 NOV 2015:**
  85 +- work on pb with new phases PAO: check shell scripts on WERA serveur
  86 +- try with 1 day (2013244): seems ok
  87 +- process by hand each day: ./do_postprocess_SORT_newCalib.sh -s PAO -y 2013273
  88 +
  89 +**3 NOV 2015:**
  90 +- finish analysis by hand: take .SORT and output .crad_pol_lst
  91 + => do_process_SORT_pol 2013244 2013273 /home/wera/data1/PAO
  92 +
  93 +**5 NOV 2015:**
  94 +- ftp transfer of .crad_pol_lst to local hard Drive
  95 + => ./do_filetransferssh.sh 2013245 2013273
  96 +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 +- use radiallst2uv.m
  98 +
  99 +**the new phases are so closed to the old ones that there isn't any real differences in the radial currents**
  100 +
  101 +
... ...
build/html/calibration.html
... ... @@ -181,47 +181,47 @@
181 181 </tr>
182 182 <tr class="row-even"><td>2</td>
183 183 <td>-0.6181</td>
184   -<td>12.5669</td>
  184 +<td>2.2270</td>
185 185 </tr>
186 186 <tr class="row-odd"><td>3</td>
187 187 <td>-19.9027</td>
188   -<td>39.2831</td>
  188 +<td>-20.8291</td>
189 189 </tr>
190 190 <tr class="row-even"><td>4</td>
191 191 <td>1.2299</td>
192   -<td>16.4368</td>
  192 +<td>1.2548</td>
193 193 </tr>
194 194 <tr class="row-odd"><td>5</td>
195 195 <td>-21.2304</td>
196   -<td>48.6882</td>
  196 +<td>-15.9611</td>
197 197 </tr>
198 198 <tr class="row-even"><td>6</td>
199 199 <td>10.7207</td>
200   -<td>32.0365</td>
  200 +<td>12.7500</td>
201 201 </tr>
202 202 <tr class="row-odd"><td>7</td>
203 203 <td>-5.2161</td>
204   -<td>46.1277</td>
  204 +<td>6.0602</td>
205 205 </tr>
206 206 <tr class="row-even"><td>8</td>
207 207 <td>-14.8695</td>
208   -<td>86.8683</td>
  208 +<td>-14.5626</td>
209 209 </tr>
210 210 <tr class="row-odd"><td>9</td>
211 211 <td>-2.5658</td>
212   -<td>82.3474</td>
  212 +<td>1.1416</td>
213 213 </tr>
214 214 <tr class="row-even"><td>10</td>
215 215 <td>-16.1023</td>
216   -<td>112.4072</td>
  216 +<td>-14.8303</td>
217 217 </tr>
218 218 <tr class="row-odd"><td>11</td>
219 219 <td>-6.7589</td>
220   -<td>132.1750</td>
  220 +<td>-10.0689</td>
221 221 </tr>
222 222 <tr class="row-even"><td>12</td>
223 223 <td>-9.7778</td>
224   -<td>153.9098</td>
  224 +<td>-13.8845</td>
225 225 </tr>
226 226 </tbody>
227 227 </table>
... ... @@ -248,47 +248,47 @@
248 248 </tr>
249 249 <tr class="row-even"><td>2</td>
250 250 <td>1.0514</td>
251   -<td>19.6031</td>
  251 +<td>-19.6031</td>
252 252 </tr>
253 253 <tr class="row-odd"><td>3</td>
254 254 <td>8.3719</td>
255   -<td>-77.3093</td>
  255 +<td>77.3093</td>
256 256 </tr>
257 257 <tr class="row-even"><td>4</td>
258 258 <td>2.0496</td>
259   -<td>2.8669</td>
  259 +<td>-2.8669</td>
260 260 </tr>
261 261 <tr class="row-odd"><td>5</td>
262 262 <td>13.5527</td>
263   -<td>-29.2102</td>
  263 +<td>29.2102</td>
264 264 </tr>
265 265 <tr class="row-even"><td>6</td>
266 266 <td>-3.0394</td>
267   -<td>1.9353</td>
  267 +<td>-1.9353</td>
268 268 </tr>
269 269 <tr class="row-odd"><td>7</td>
270 270 <td>0.9866</td>
271   -<td>30.6625</td>
  271 +<td>-30.6625</td>
272 272 </tr>
273 273 <tr class="row-even"><td>8</td>
274 274 <td>-2.9561</td>
275   -<td>7.2423</td>
  275 +<td>-7.2423</td>
276 276 </tr>
277 277 <tr class="row-odd"><td>9</td>
278 278 <td>-1.5691</td>
279   -<td>28.9055</td>
  279 +<td>-28.9055</td>
280 280 </tr>
281 281 <tr class="row-even"><td>10</td>
282 282 <td>-2.4549</td>
283   -<td>24.0200</td>
  283 +<td>-24.0200</td>
284 284 </tr>
285 285 <tr class="row-odd"><td>11</td>
286 286 <td>1.4106</td>
287   -<td>12.9370</td>
  287 +<td>-12.9370</td>
288 288 </tr>
289 289 <tr class="row-even"><td>12</td>
290 290 <td>-2.7529</td>
291   -<td>7.4966</td>
  291 +<td>-7.4966</td>
292 292 </tr>
293 293 </tbody>
294 294 </table>
... ...
build/html/dailylog.html
... ... @@ -186,6 +186,21 @@
186 186 - investigate on wera server if possible mistake in shell scripts
187 187 - transfer with ssh of old calibrations results
188 188 - 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>
  201 +<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 +- 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>
189 204 </div>
190 205  
191 206  
... ...
build/html/searchindex.js
1   -Search.setIndex({envversion:42,terms:{all:[0,14,12,3,6],reprocess:[12,6],month:6,correl:0,marion:[],follow:[14,3],disk:14,paperposit:[],row:[],content:[14,6],misread:6,middl:[],demet:[],aud:12,rst_checkweraposit:[],program:6,matlab:[0,3,6],under:[0,6],aux:[],time_calib:[],unzip:3,everi:[7,3,6],wera_antennacoord_txt2mat:6,far:15,projet:3,print:[],configuration_:[],volum:[14,12],spectratoprocess:14,octob:[8,10],cyan:0,tri:3,hour:[7,3],hfrmat:3,modify_wera_sort:6,"try":12,measpattern:14,datapresence_log2mat:12,datenum:[],"2min34sec":[],dir:[],pleas:6,direct:[],crop:[],past:14,download:[7,3],"_submesoscal":[],click:6,odf:12,index:0,what:[14,12,3,6],compar:[0,15,6],section:[1,12],advanc:14,abl:6,cell:[],hourli:[0,3,6],conduct:[],"new":7,can:[14,6],codar2:14,codar1:14,gener:7,lon_mid:[],here:[0,6],water:9,accur:15,let:6,modifi:12,legend:[],valu:6,"200px":0,search:[],survei:15,datevec:[],idealpattern:14,precis:[],hfr_data_process:3,permit:6,chang:[14,6],pierr:[],via:[0,3,12],theta_pair:[],pap1_css_:14,appli:6,approxim:3,"_ascii":7,"3e8":[],apm:6,marker:[],instal:[8,10],total:[0,3],fig_h:[],select:0,plot:12,from:7,pere:[],two:6,websit:3,music:[14,6],seasonderadialsetup:6,postprocess:[],taken:6,stage:3,rad2tot:3,more:[1,12],sort:[12,7,6],flamentpab_track_30:6,ylabel:[],flag:14,phases_:[],hold:[],sw_dist:[],retriev:14,ibm:12,currentscombin:[],analys:[],setup:14,work:[3,6],pour:12,cat:6,whatev:[],deg:14,heur:7,ruv2mat:3,want:6,download_codar_rt:3,str2doubl:[],surfac:0,zonal:0,end:[],radial_comparison:0,"r\u00e9sultats_cedric_outardes_2014_avec_latlon":15,check_up:[],newcalibr:7,length:[],write:12,radialvelocompa_sept2013_hfr_adcp_wera_adcpcorrected_v2:[0,12],uqar:[1,7,14,12],verifi:0,csv:3,config:[14,12],updat:6,regener:12,mat:[0,3,6,14,7,12],dataconvers:12,after:[0,14,12],spot:9,diagram:[14,6],befor:[0,14],wrong:6,meopar:[0,1,12,7,6],attent:14,date:[12,7,6],data:[],averag:[0,3,6],youwish:[],"2013244_bkp":12,confus:[],spectra:14,correspond:0,element:[],inform:[],shore:[8,10],allow:0,cs4:14,lambda:[],order:[9,6],oper:6,move:[14,3],meter:[],lst:[7,12],same:[0,12],estuari:[8,9,10],nombr:[],paramet:[0,14],thumb:0,hfr_lsle_20150817t170000z:3,iml:0,late:[],lonlat2km:[],wrt:[],onc:14,lsle:[7,9],main:1,isdir:[],them:6,"return":[],thei:12,dan:12,dai:[14,10,12,7,6],initi:[],systm:[],"break":[],now:[],term:6,name:0,hqp:12,separ:[],februari:[8,10],each:[0,3,6,7,9,10],found:[7,6],reprocess_ogsl_hfr_treat:3,xlp:[14,6],fig_hdl:[],crontab:3,year:7,wavelength:[],extract:0,orient:0,out:12,variabl:[],"3rd":6,open:[14,6],research:[],categori:[],vector:0,calib:[],helzelpab_track_30:6,calib_fil:[],correct:12,red:0,fig_w:[],bathymetri:0,given:[0,6],gridwithnan_adcp:0,org:7,"byte":[],bash:12,care:14,angl:0,unwant:[],keep:[],filter:[14,6],caption:[],renew:12,avec:12,radialconfigs_stf2_20130206_bapm_music402002_nosmooth:[12,6],onto:[0,12],south:8,first:6,origin:[14,6],softwar:6,rang:0,do_process_sort_pol:[12,7,6],ibmassess:12,currentshfrwithaverageexport:3,arrai:10,number:[],system:[7,3],compsnewcalib_radialvelo_adcp_pao_sept2013:0,lat:[],done:6,lat_mid:[],miss:14,size:12,differ:6,script:[0,7,12,3,6],checkdatas:12,sometim:14,spectraseri:14,saint:9,gpx:6,store:[0,14,6],shell:[7,12,3,6],travail:3,option:[],season:[],calib_hr:[],copi:[14,3,6],specifi:[0,6],part:1,save_flag:[],than:[0,7,12],png:0,center:[],stf:[14,3],provid:3,dispers:1,remov:[14,6],delta_phase_th:[],structur:0,project:[0,1],xlabel:[],were:[9,6],posit:[],minut:[0,3,6],toward:[],submesoscal:6,plotradialvelocompa_sept2013_hfr_adcp_wera_v2:12,seri:[],latitud:[],hfr:[],comput:[0,3],adcp_pao_version5adcpcorrected_newcalibrations_v2:0,julian:[7,6],radial:[],ant:[],raw:[12,7,6],"20d":14,have:[8,6,14,12,7,15,10],need:[14,6],ismer:1,calib_min:[],min:3,centimet:[],superimpos:[0,6],note:6,also:14,ideal:14,gps_data:[],take:6,which:6,transmit:[8,10],data1:[12,7,6],juli:[8,10],data2:7,sure:14,track:6,calibration_pao_29oct2014:[12,6],seasond:[14,12],marin:1,ogsl_hfr_treat:3,deploi:9,phase:14,everyth:14,lancertraitementspectracodar:12,radiallst2uv:[7,12],do_filetransferssh:[12,6],clear:[],request:12,doe:[14,3],azimuth:0,left:0,radial2uv:14,calib_year:[],gps_gpx2mat:6,filetransferssh:6,find:[0,1,12,7,6],fichier:0,onli:[0,14],locat:[7,12,3,6],calibration_pao:6,phasedifference_:[],calibration_pab:6,nce:12,theme:[],analyz:0,elseif:[],folder:[14,7,6],u_mean_adcp:0,local:14,oct:[12,6],info:1,calib_tim:[],flament:6,variou:9,get:[0,14],yadcp:0,ssh:[7,3,12],adcp:[],version5_pao_ol_nofullc:7,wera_new_calibr:[12,6],index_timecalib:[],ascii2mat:3,organ:1,helzelpao_track_29:6,mettr:12,common:6,contain:[0,6],rfi:[12,7,6],wiki:6,set:[],incid:[],ftp_transfer:7,matlab_analysi:12,see:6,sec:[],result:[7,3],close:[],"55min":3,best:[],patt:6,rad2deg:[],paocalibr:[],forecast:1,figur:[0,12],between:1,theta:0,betwen:0,"15e6":[],isol:[],currmax:12,southeast:[],extent:7,subfold:7,bodi:[],last:3,delimit:[],helzel:6,umean_adcp_v:0,umean_adcp_u:0,april:[8,7,10],calibration_pab_30oct2014:[12,6],caibrat:[],"15min":0,improv:1,whole:0,load:0,point:[],color:[],css_:14,period:[],walk:6,header:[14,12],drogu:9,diff:0,zeta:[],boat:6,coupl:1,instrument:[9,6],come:14,loggin:[14,7,6],due:6,been:[14,15,12,6],compon:0,much:7,interest:[0,14],ddsit:[],download_wera_rt:3,delet:14,imag:[],radialconfig:[14,12,6],convert:[7,12,3,6],dpng:[],coordin:[0,15,6],togeth:3,calib_valu:[],"_calibr":[],look:[0,6],"_pair":[],"while":6,observ:3,loop:[14,6],"c\u00f4te":10,metric:6,site:[7,3,14],archiv:[14,3],calibrationpao:6,calibrationpab:6,ascii:3,rfi0:[12,6],pap:[14,3],modifcurrmax:12,etc:[12,6],receiv:[8,10,15],media:[0,12,7,6],make:[0,14],belong:6,sqrt:[],pab:[7,3],meridion:0,northwest:[],meopar_marion:12,num2str:[],fill:14,pao:[7,3],phi:[],http:3,webserv:3,closest:0,patt_pap1_2012_12_15:6,sort0:[12,6],radialconfigs_pap1_20130201_bapm_music402002_20dsmooth:14,php:[],lower:[8,9,10],appropri:14,kept:3,hfr_process:3,well:6,exampl:[0,14,7,6],thi:[0,1,3,6,9,12],choos:0,undertaken:6,model:1,bandet:[],usual:0,comment:12,distanc:0,identifi:7,ddist:[],calibr:[],dyndn:7,wee:[],had:9,theoret:[],desktop:14,fortran:6,add:[14,12],lawrenc:[8,9,10],els:[],save:[14,6],modul:[],bin:[0,12,7,6],applic:12,march:[14,8,10,6],fname:[],format:3,phasang:[],uncheck:14,grid:[0,3],know:6,realis:12,process_timeperiod_wera:12,paperunit:[],measur:[14,15],"_rx_coord":[],like:[],hfrdata:3,rangeadcp:0,should:[7,6],spectraprocess:14,server:[7,12,3,14,6],collect:6,either:0,output:7,page:[1,6],r500:[],www:3,right:0,old:[],codarprocess:[],"1st":6,back:14,weraphase_txt2mat:6,sampl:9,mistak:12,home:[7,12,3,6],rsync:[7,12],txt:[14,15,12,6],outard:[],dlmwrite:[],markerfacecolor:[],avoid:[],"2014_10":6,per:7,seagatewireless:[0,12,7,6],estim:0,larg:6,outil:6,refer:6,investig:12,run:[0,3,6,14,7,12],accueil:[],june:[8,10],rawfiles:12,delta_r:[],modsym:[],step:[],januari:[8,10],ruv:[14,3],"20132440000_pao":0,simpler:7,comparison:[],about:1,nanmean:[],bandma01:[0,12,7,6],column:[9,6],codar_wera_ogsl:3,strcmp:[],degre:[0,6],srv:[3,12],nord:10,mean:0,routin:[3,6],figdir:[],within:0,automat:[14,6],compos:[8,10],assess:12,pair:[],vr_adcp_proj:0,weather:[],phasecalibration_:[],your:[],manag:12,pabcalibr:[],span:[],log:3,transfer:[14,12,6],lon:[],transform:[14,6],changenam:6,avail:[0,3,6],start:[14,8,10,6],call:6,r_mid:[],north:10,link:6,yyyyjjj:7,do_postprocess_sort_newcalib:[12,6],line:[14,12],adcpbin2vspaosept2013:0,patt_pap1_2014_01_14_1154_nosmooth:14,codardata:[14,12],made:[],possibl:12,smooth:[14,6],displai:3,until:6,delta_phase_ob:[],record:6,below:1,sum:[],crad_pol_lst:[7,12],"export":3,problem:12,radialconfigs_pap1_20130201_bapm_music402002_nosmooth:[14,12,6],creat:[14,12,6],"48h":0,"int":[],certain:12,nouvel:12,novemb:[8,10],file:[14,7],pap1:[],check:[],ur_adcp_proj:0,antenna:[14,8],titl:[],nan:[],weraprocess:[],survey_dgps_2012:15,field:[1,15,6],other:1,futur:6,papers:[],test:[8,10,12],you:[1,7,14],trash:14,relat:1,symbol:6,drift:[0,1],meaning:0,dropbox:12,calib_jd:[],xadcp:0,longitud:[],phi_ant:[],nfile:[],algorithm:0,directori:[12,3,6],htdoc:3,orientationpaosept2013:0,buoi:[1,9],depth:9,matfil:3,time:[],decemb:[8,10]},objtypes:{},objnames:{},filenames:["Comparison_WERA-ADCP_Sept2013","index","20130826","CurrentsCombination","20130830","20130515","calibration","WERAprocessing","CODARdata","20140506","WERAdata","calibPAB","dailylog","calibPAO","CODARprocessing","checkWERAposition"],titles:["Comparison WERA and ADCP radial velocities September 2013","Welcome to the documentation of High Frequency Radars (CODAR and WERA)","Experiment on August 26, 2013","Current combination and OGSL data feed","Experiment on August 20, 2013","Experiment on May 15, 2013","Calibrations","WERA radial currents processing","CODAR SYSTEM","Experiment on May 06, 2014","WERA SYSTEM","Outputs of WERAcalibration.m for PAB site","Log Work Marion","Outputs of WERAcalibration.m for PAO site","CODAR radial currents processing","Checking WERA Rx Antenna&#8217;s position accuracy"],objects:{},titleterms:{feed:3,calibr:6,old:6,point:[8,10,6],process:[14,7,6],direct:0,indic:[],high:1,radar:1,boisvert:10,result:[],file:[],tabl:[],work:[1,12],pap1:[],check:15,marion:[1,12],acquisit:[8,10],pap:8,now:6,from:6,welcom:1,pere:6,time:[8,10],system:[8,10],accuraci:15,current:[7,3,14,6],quasi:[],postprocess:1,conduct:[],weracalibr:[13,11],aux:10,lsle:[],document:1,codar:[1,8,14,6],pao:[13,10],analysi:[],saint:[8,6],august:[2,4],comparison:[0,6],gener:6,object:6,site:[8,13,11,10],step:6,flavi:[8,6],stf2:[],adcp:0,"new":6,phase:6,radialconfigs_stf2_20121220_bapm_music402002_nosmooth:[],post:[],ogsl:3,data:[8,3,10],outard:10,period:[8,10],utc:6,stf:8,experi:[1,2,5,9,4],antenna:15,radialconfigs_pap1_20121213_wapm_music402002_5dsmooth:[],frequenc:1,veloc:0,hfr:0,list:[],"p\u00e8re":8,documentation_hfr_analysi:[],wera:[0,1,6,7,15,10],combin:3,log:[1,12],mai:[5,9],radial:[0,14,7,6],posit:15,output:[13,11],realtim:[],septemb:0,bandet:[],daili:[],pab:[11,10]}})
2 1 \ No newline at end of file
  2 +Search.setIndex({envversion:42,terms:{all:[0,14,12,3,6],reprocess:[12,6],month:6,correl:0,marion:[],follow:[14,3],disk:14,paperposit:[],row:[],content:[14,6],misread:6,accur:15,demet:[],aud:12,rst_checkweraposit:[],program:6,matlab:[0,3,6],under:[0,6],aux:[],time_calib:[],unzip:3,everi:[7,3,6],wera_antennacoord_txt2mat:6,far:15,projet:3,print:[],configuration_:[],volum:[14,12],spectratoprocess:14,octob:[8,10],cyan:0,isdir:[],hour:[7,3],hfrmat:3,modify_wera_sort:6,"try":12,measpattern:14,datapresence_log2mat:12,datenum:[],dir:[],pleas:6,direct:[],crop:[],past:14,download:[7,3],"_submesoscal":[],click:6,odf:12,index:0,what:[14,12,3,6],compar:[0,15,6],section:[1,12],advanc:14,abl:6,cell:[],hourli:[0,3,6],conduct:[],"new":7,can:[14,6],manag:12,rawfiles:12,codar2:14,codar1:14,gener:7,lon_mid:[],here:[0,6],water:9,middl:[],let:6,modifi:12,legend:[],valu:6,"200px":0,search:[],survei:15,datevec:[],checknewcalib:12,idealpattern:14,precis:[],hfr_data_process:3,permit:6,chang:[14,6],pierr:[],via:[0,3,12],theta_pair:[],pap1_css_:14,appli:6,approxim:3,"_ascii":7,"3e8":[],apm:6,marker:[],instal:[8,10],total:[0,3],"byte":[],select:0,plot:12,from:7,pere:[],two:6,websit:3,music:[14,6],seasonderadialsetup:6,postprocess:[],taken:6,simpler:7,rad2tot:3,more:[1,12],sort:[12,7,6],flamentpab_track_30:6,ylabel:[],flag:14,hold:[],process_timeperiod_wera:12,sw_dist:[],retriev:14,ibm:12,currentscombin:[],local:[14,12],setup:14,work:3,pour:12,cat:6,whatev:[],lawrenc:[0,8,9,10],deg:14,heur:7,want:6,download_codar_rt:3,str2doubl:[],surfac:0,calibrationpab:6,end:[],radial_comparison:0,"r\u00e9sultats_cedric_outardes_2014_avec_latlon":15,check_up:[],newcalibr:7,renew:12,write:12,radialvelocompa_sept2013_hfr_adcp_wera_adcpcorrected_v2:[0,12],uqar:[1,7,14,12],verifi:0,csv:3,config:[14,12],updat:6,regener:12,mat:[0,3,6,14,7,12],modifcurrmax:12,after:[0,14,12],spot:9,diagram:[14,6],befor:[0,14],wrong:6,meopar:[0,1,12,7,6],attent:14,lat:[],data:[],averag:[0,3,6],youwish:[],"2013244_bkp":12,onto:[0,12],hfr:[],correspond:0,element:[],inform:[],shore:[8,10],allow:0,cs4:14,first:6,order:[9,6],oper:6,move:[14,3],meter:[],lst:[7,12],sqrt:[],estuari:[0,8,9,10],nombr:[],paramet:[0,14],thumb:0,hfr_lsle_20150817t170000z:3,iml:0,late:[],lonlat2km:[],wrt:[],onc:14,lsle:[7,9],main:1,tri:3,them:6,"return":[],thei:12,dan:12,dai:[14,10,12,7,6],initi:[],systm:[],"break":[],nov:12,now:[],term:6,name:0,hqp:12,separ:[],februari:[8,10],each:[0,3,6,7,9,12,10],found:[7,6],reprocess_ogsl_hfr_treat:3,xlp:[14,6],fig_hdl:[],domain:0,hard:12,crontab:3,delta_phase_ob:[],year:7,wavelength:[],extract:0,orient:0,out:12,variabl:[],ftp:12,"3rd":6,open:[14,6],research:[],categori:[],vector:0,calib:[],calib_fil:[],correct:12,red:0,serveur:12,fig_w:[],bathymetri:0,given:[0,6],gridwithnan_adcp:[],org:7,fig_h:[],bash:12,care:14,angl:0,unwant:[],keep:[],filter:[14,6],caption:[],length:[],isn:12,avec:12,radialconfigs_stf2_20130206_bapm_music402002_nosmooth:[12,6],confus:[],south:8,lambda:[],origin:[14,6],softwar:6,rang:0,do_process_sort_pol:[12,7,6],ibmassess:12,currentshfrwithaverageexport:3,arrai:10,number:[],system:[7,3],compsnewcalib_radialvelo_adcp_pao_sept2013:0,date:[12,7,6],done:6,lat_mid:[],miss:14,size:12,differ:[12,6],script:[0,7,12,3,6],checkdatas:12,sometim:14,spectraseri:14,saint:9,gpx:6,store:[0,14,6],shell:[7,12,3,6],travail:3,option:[],season:[],calib_hr:[],copi:[14,3,6],specifi:[0,6],part:1,than:[0,7,12],png:0,hfr_process:3,stf:[14,3],provid:3,remov:[14,6],structur:0,project:[0,1],xlabel:[],were:[9,6],posit:[],minut:[0,3,6],toward:[],submesoscal:6,plotradialvelocompa_sept2013_hfr_adcp_wera_v2:12,seri:[],latitud:[],spectra:14,comput:[0,3],adcp_pao_version5adcpcorrected_newcalibrations_v2:0,julian:[7,6],ani:12,ant:[],raw:[12,7,6],"20d":14,have:[8,6,14,12,7,15,10],need:[14,6],ismer:1,seem:12,jour:12,calib_min:[],min:3,centimet:[],superimpos:[0,6],note:6,also:14,ideal:14,exampl:[0,14,7,6],take:[12,6],which:6,transmit:[8,10],data1:[12,7,6],juli:[8,10],data2:7,sure:14,track:6,choos:0,seasond:[14,12],marin:1,ogsl_hfr_treat:3,larg:6,deploi:9,phase:14,model:1,lancertraitementspectracodar:12,do_filetransferssh:[12,6],clear:[],request:12,drive:12,doe:[14,3],azimuth:0,usual:0,radial2uv:14,calib_year:[],gps_gpx2mat:6,filetransferssh:6,distanc:0,find:[0,1,12,7,6],fichier:0,onli:[0,14],optimisationpao:12,locat:[0,7,12,3,6],calibration_pao:6,phasedifference_:[],calibration_pab:6,dispers:1,theme:[],analyz:0,elseif:[],folder:[14,7,6],adcpbin2vspaosept2013:0,analys:[],oct:[12,6],patt_pap1_2014_01_14_1154_nosmooth:14,calib_tim:[],flament:6,variou:9,get:[0,14],yadcp:0,ssh:[7,3,12],adcp:[],theta:0,wera_new_calibr:[12,6],index_timecalib:[],ascii2mat:3,organ:1,helzelpao_track_29:6,mettr:12,common:6,contain:[0,6],rfi:[12,7,6],wiki:6,set:[],incid:[],ftp_transfer:7,matlab_analysi:12,see:6,sec:[],result:[7,3],close:12,"55min":3,best:[],patt:6,rad2deg:[],paocalibr:[],forecast:1,figur:[0,12],between:1,version5_pao_ol_nofullc:7,betwen:0,"15e6":[],isol:[],currmax:12,southeast:[],extent:7,subfold:7,bodi:[],last:3,delimit:[],helzel:6,umean_adcp_v:0,umean_adcp_u:0,april:[8,7,10],calibration_pab_30oct2014:[12,6],caibrat:[],"15min":0,improv:1,whole:0,load:0,point:[],color:[],css_:14,period:[],walk:6,header:[14,12],drogu:9,diff:0,zeta:[],boat:6,coupl:1,fortran:6,come:14,loggin:[14,7,6],"48h":0,due:6,been:[14,15,12,6],compon:0,much:7,interest:[0,14],certain:12,download_wera_rt:3,delet:14,imag:[],convert:[7,12,3,6],nouvel:12,coordin:[0,15,6],togeth:3,calib_valu:[],"_calibr":[],look:[0,6],"_pair":[],"while":6,observ:3,loop:[14,6],bin:[0,12,7,6],"c\u00f4te":10,metric:6,site:[7,3,14],archiv:[14,3],calibrationpao:6,zonal:0,ascii:3,rfi0:[12,6],pap:[14,3],dataconvers:12,version5_pao_old_nofullc:12,etc:[12,6],receiv:[8,10,15],media:[0,12,7,6],make:[0,14],belong:6,same:[0,12],pab:[7,3],meridion:0,northwest:[],meopar_marion:12,num2str:[],fill:14,pao:[7,3],phi:[],finish:12,http:3,webserv:3,closest:0,patt_pap1_2012_12_15:6,hand:12,sort0:[12,6],radialconfigs_pap1_20130201_bapm_music402002_20dsmooth:14,php:[],lower:[8,9,10],appropri:14,kept:3,center:[],well:6,gps_data:[],thi:[0,1,3,6,9,12],calibration_pao_29oct2014:[12,6],undertaken:6,everyth:14,bandet:[],left:0,comment:12,delta_phase_th:[],identifi:7,ddist:[],calibr:[],dyndn:7,wee:[],had:9,theoret:[],desktop:14,instrument:[9,6],add:[14,12],radialconfig:[14,12,6],els:[],save:[14,6],modul:[],real:12,applic:12,march:[14,8,10,6],fname:[],format:3,phasang:[],uncheck:14,grid:[0,3],know:6,realis:12,radiallst2uv:[7,12],paperunit:[],measur:[14,15],"_rx_coord":[],trash:14,like:[],hfrdata:3,rangeadcp:[],should:[7,6],spectraprocess:14,server:[7,12,3,14,6],collect:6,either:0,output:7,page:[1,6],r500:[],www:3,right:0,old:[],nce:12,"1st":6,back:14,weraphase_txt2mat:6,sampl:9,mistak:12,home:[7,12,3,6],rsync:[7,12],txt:[14,15,12,6],outard:[],dlmwrite:[],markerfacecolor:[],avoid:[],"2014_10":6,per:7,seagatewireless:[0,12,7,6],estim:0,phases_:[],outil:6,refer:6,investig:12,run:[0,3,6,14,7,12],accueil:[],drift:[0,1],radial:[],delta_r:[],modsym:[],step:[],januari:[8,10],ruv:[14,3],"20132440000_pao":0,stage:3,comparison:[],about:1,nanmean:[],bandma01:[0,12,7,6],column:[9,6],codar_wera_ogsl:3,strcmp:[],degre:[0,6],srv:[3,12],nord:10,mean:0,routin:[3,6],figdir:[],within:0,automat:[14,6],compos:[8,10],assess:12,pair:[],vr_adcp_proj:0,weather:[],phasecalibration_:[],your:[],helzelpab_track_30:6,pabcalibr:[],span:[],codarprocess:[],transfer:[14,12,6],lon:[],transform:[14,6],changenam:6,avail:[0,3,6],start:[14,8,10,6],call:6,r_mid:[],north:10,link:6,yyyyjjj:7,do_postprocess_sort_newcalib:[12,6],line:[14,12],u_mean_adcp:0,info:1,codardata:[14,12],made:[],possibl:12,smooth:[14,6],displai:3,until:6,ruv2mat:3,record:6,below:1,sum:[],crad_pol_lst:[7,12],"export":3,problem:12,radialconfigs_pap1_20130201_bapm_music402002_nosmooth:[14,12,6],creat:[14,12,6],save_flag:[],"int":[],ddsit:[],dpng:[],novemb:[8,10],file:[14,7],pap1:[],check:[],ur_adcp_proj:0,antenna:[14,8],titl:[],nan:[],weraprocess:[],survey_dgps_2012:15,field:[1,15,6],other:1,futur:6,papers:[],test:[8,10,12],you:[1,7,14],"2min34sec":[],relat:1,symbol:6,june:[8,10],meaning:0,log:3,dropbox:12,calib_jd:[],xadcp:0,longitud:[],phi_ant:[],nfile:[],algorithm:0,directori:[12,3,6],htdoc:3,orientationpaosept2013:0,buoi:[1,9],depth:9,matfil:3,time:[],decemb:[8,10]},objtypes:{},objnames:{},filenames:["Comparison_WERA-ADCP_Sept2013","index","20130826","CurrentsCombination","20130830","20130515","calibration","WERAprocessing","CODARdata","20140506","WERAdata","calibPAB","dailylog","calibPAO","CODARprocessing","checkWERAposition"],titles:["Comparison WERA and ADCP radial velocities September 2013","Welcome to the documentation of High Frequency Radars (CODAR and WERA)","Experiment on August 26, 2013","Current combination and OGSL data feed","Experiment on August 20, 2013","Experiment on May 15, 2013","Calibrations","WERA radial currents processing","CODAR SYSTEM","Experiment on May 06, 2014","WERA SYSTEM","Outputs of WERAcalibration.m for PAB site","Log Work Marion","Outputs of WERAcalibration.m for PAO site","CODAR radial currents processing","Checking WERA Rx Antenna&#8217;s position accuracy"],objects:{},titleterms:{feed:3,calibr:6,old:6,point:[8,10,6],process:[14,7,6],radial:[0,14,7,6],direct:0,indic:[],high:1,radar:1,boisvert:10,result:[],file:[],tabl:[],pap1:[],check:15,hfr:0,pap:8,from:6,welcom:1,pere:6,output:[13,11],system:[8,10],accuraci:15,current:[7,3,14,6],quasi:[],postprocess:1,conduct:[],weracalibr:[13,11],aux:10,lsle:[],document:1,codar:[1,8,14,6],pao:[13,10],analysi:[],ogsl:3,radialconfigs_pap1_20121213_wapm_music402002_5dsmooth:[],saint:[8,6],august:[2,4],utc:6,gener:6,object:6,"new":6,site:[8,13,11,10],outard:10,step:6,stf2:[],adcp:0,flavi:[8,6],phase:6,post:[],now:6,data:[8,3,10],radialconfigs_stf2_20121220_bapm_music402002_nosmooth:[],comparison:[0,6],stf:8,experi:[1,2,5,9,4],antenna:15,acquisit:[8,10],frequenc:1,veloc:0,work:[1,12],list:[],combin:3,"p\u00e8re":8,documentation_hfr_analysi:[],wera:[0,1,6,7,15,10],period:[8,10],log:[1,12],mai:[5,9],time:[8,10],posit:15,marion:[1,12],realtim:[],septemb:0,bandet:[],daili:[],pab:[11,10]}})
3 3 \ No newline at end of file
... ...
source/Comparison_WERA-ADCP_Sept2013.rst
... ... @@ -7,6 +7,11 @@ Steps of the algorithm:
7 7  
8 8 1- we choose a site to analyze, either PAO (site 1) or PAB (site 2)
9 9  
  10 +.. figure:: figures/sites.png
  11 + :align: center
  12 +
  13 + location of HFRs domain in the St Lawrence estuary
  14 +
10 15 2- we load the bathymetry and the HFR sites'coordinates
11 16  
12 17 3- we specify if we use the "old" or "new" calibrations. Usually "New".
... ... @@ -17,25 +22,32 @@ Steps of the algorithm:
17 22  
18 23 6- we analyze the ADCP data (bin 2 only to get near-surface data):
19 24  
20   - We look for the indices of the ADCP time vector corresponding to the time period of interest (here 01 to 30 September 2013).
  25 + * We look for the indices of the ADCP time vector corresponding to the time period of interest (here 01 to 30 September 2013).
21 26  
22   - For each index, we look for the ADCP position (xadcp,yadcp)(via the gps coordinates).
  27 + * For each index, we look for the ADCP position (xadcp,yadcp)(via the gps coordinates).
23 28  
24   - We then look for the positions 15min before and 15min after.
  29 + * We then look for the positions 15min before and 15min after.
25 30  
26   - We estimate the mean drift of the ADCP within these 30 minutes (Umean_adcp_u, Umean_adcp_v and U_mean_adcp (total)).
  31 + * We estimate the mean drift of the ADCP within these 30 minutes (Umean_adcp_u, Umean_adcp_v and U_mean_adcp (total)).
27 32  
28   - We find the radial orientation at the ADCP position given by xadcp,yadcp: azimuth in degrees from HFR site to adcp position
  33 + * We find the radial orientation at the ADCP position given by xadcp,yadcp: azimuth in degrees from HFR site to adcp position
29 34  
30   - We project U_mean_adcp onto the radial direction to get the radial current components (ur_adcp_proj, vr_adcp_proj).
  35 + * We project U_mean_adcp onto the radial direction to get the radial current components (ur_adcp_proj, vr_adcp_proj).
31 36  
32   - We store all the meaningful parameters into a structure named adcp.
  37 + * We store all the meaningful parameters into a structure named adcp.
33 38  
34 39 7- We analyze the HFR data:
35 40  
36   - We look for the indices of the HFR time vector corresponding to the time period of interest (here 01 to 30 September 2013)
  41 + * We look for the indices of the HFR time vector corresponding to the time period of interest (here 01 to 30 September 2013)
  42 +
  43 + * For each index, we load the corresponding HFR file (i.e. 20132440000_pao.mat). Each file contains a grid (X,Y) with radial currents at each grid point (Ur), a corresponding time vector (t) and the angle and distance from the site (theta,r).
  44 +
  45 +.. figure:: figures/explecoveragegridallpoint.png
  46 + :align: center
  47 +
  48 +
  49 +
37 50  
38   - For each index, we load the corresponding HFR file (i.e. 20132440000_pao.mat). Each file contains a grid (X,Y) with radial currents at each grid point (Ur), a corresponding time vector (t) and the angle and distance from the site (theta,r).
39 51  
40 52 .. figure:: figures/Radial_ADCPbin2_HFR_PAO_version5_Sept2013.png
41 53 :align: center
... ... @@ -50,7 +62,8 @@ Steps of the algorithm:
50 62  
51 63 We then look for the HFR grid point nearest the ADCP position at the time of interest.
52 64  
53   -[[Fichier:gridwithnan_adcp.png]]
  65 +.. figure:: figures/explecoveragegrid2.png
  66 + :align: center
54 67  
55 68 We find the HFR Radial velocity at this position and project it onto zonal and meridional components.
56 69  
... ... @@ -67,7 +80,12 @@ To verify that the HFR looks in the right direction:
67 80  
68 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.
69 82  
70   -[[Fichier:rangeADCP.png]]
  83 +.. figure:: figures/explecoveragegrid_rangeADCP.png
  84 + :align: center
  85 +
  86 +.. figure:: figures/explecoveragegrid_rangeADCP2.png
  87 + :align: center
  88 +
71 89  
72 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).
73 91  
... ...
source/calibration.rst
... ... @@ -133,27 +133,27 @@ Outputs of **WERAcalibration.m** for PAO site are available here: `calibrationPA
133 133 +=============+=================+=============+
134 134 | 1 | 0 | 0 |
135 135 +-------------+-----------------+-------------+
136   -| 2 | -0.6181 | 12.5669 |
  136 +| 2 | -0.6181 | 2.2270 |
137 137 +-------------+-----------------+-------------+
138   -| 3 | -19.9027 | 39.2831 |
  138 +| 3 | -19.9027 | -20.8291 |
139 139 +-------------+-----------------+-------------+
140   -| 4 | 1.2299 | 16.4368 |
  140 +| 4 | 1.2299 | 1.2548 |
141 141 +-------------+-----------------+-------------+
142   -| 5 | -21.2304 | 48.6882 |
  142 +| 5 | -21.2304 | -15.9611 |
143 143 +-------------+-----------------+-------------+
144   -| 6 | 10.7207 | 32.0365 |
  144 +| 6 | 10.7207 | 12.7500 |
145 145 +-------------+-----------------+-------------+
146   -| 7 | -5.2161 | 46.1277 |
  146 +| 7 | -5.2161 | 6.0602 |
147 147 +-------------+-----------------+-------------+
148   -| 8 | -14.8695 | 86.8683 |
  148 +| 8 | -14.8695 | -14.5626 |
149 149 +-------------+-----------------+-------------+
150   -| 9 | -2.5658 | 82.3474 |
  150 +| 9 | -2.5658 | 1.1416 |
151 151 +-------------+-----------------+-------------+
152   -| 10 | -16.1023 | 112.4072 |
  152 +| 10 | -16.1023 | -14.8303 |
153 153 +-------------+-----------------+-------------+
154   -| 11 | -6.7589 | 132.1750 |
  154 +| 11 | -6.7589 | -10.0689 |
155 155 +-------------+-----------------+-------------+
156   -| 12 | -9.7778 | 153.9098 |
  156 +| 12 | -9.7778 | -13.8845 |
157 157 +-------------+-----------------+-------------+
158 158  
159 159 The new phase values were saved under **calibration_pao_29OCT2014.wera**.
... ... @@ -171,27 +171,27 @@ Outputs of WERAcalibration.m for PAB site are available here: `calibrationPAB`_
171 171 +=============+=================+=============+
172 172 | 1 | 0 | 0 |
173 173 +-------------+-----------------+-------------+
174   -| 2 | 1.0514 | 19.6031 |
  174 +| 2 | 1.0514 | -19.6031 |
175 175 +-------------+-----------------+-------------+
176   -| 3 | 8.3719 | -77.3093 |
  176 +| 3 | 8.3719 | 77.3093 |
177 177 +-------------+-----------------+-------------+
178   -| 4 | 2.0496 | 2.8669 |
  178 +| 4 | 2.0496 | -2.8669 |
179 179 +-------------+-----------------+-------------+
180   -| 5 | 13.5527 | -29.2102 |
  180 +| 5 | 13.5527 | 29.2102 |
181 181 +-------------+-----------------+-------------+
182   -| 6 | -3.0394 | 1.9353 |
  182 +| 6 | -3.0394 | -1.9353 |
183 183 +-------------+-----------------+-------------+
184   -| 7 | 0.9866 | 30.6625 |
  184 +| 7 | 0.9866 | -30.6625 |
185 185 +-------------+-----------------+-------------+
186   -| 8 | -2.9561 | 7.2423 |
  186 +| 8 | -2.9561 | -7.2423 |
187 187 +-------------+-----------------+-------------+
188   -| 9 | -1.5691 | 28.9055 |
  188 +| 9 | -1.5691 | -28.9055 |
189 189 +-------------+-----------------+-------------+
190   -| 10 | -2.4549 | 24.0200 |
  190 +| 10 | -2.4549 | -24.0200 |
191 191 +-------------+-----------------+-------------+
192   -| 11 | 1.4106 | 12.9370 |
  192 +| 11 | 1.4106 | -12.9370 |
193 193 +-------------+-----------------+-------------+
194   -| 12 | -2.7529 | 7.4966 |
  194 +| 12 | -2.7529 | -7.4966 |
195 195 +-------------+-----------------+-------------+
196 196  
197 197 The new phase values were saved under **calibration_pab_30OCT2014.wera**.
... ...
source/dailylog.rst
... ... @@ -81,3 +81,21 @@ reprocess calibrations with new, corrected phases:
81 81 - transfer with ssh of old calibrations results
82 82 - work on MEOPAR HQP section for NCE renewal application
83 83  
  84 +**2 NOV 2015:**
  85 +- work on pb with new phases PAO: check shell scripts on WERA serveur
  86 +- try with 1 day (2013244): seems ok
  87 +- process by hand each day: ./do_postprocess_SORT_newCalib.sh -s PAO -y 2013273
  88 +
  89 +**3 NOV 2015:**
  90 +- finish analysis by hand: take .SORT and output .crad_pol_lst
  91 + => do_process_SORT_pol 2013244 2013273 /home/wera/data1/PAO
  92 +
  93 +**5 NOV 2015:**
  94 +- ftp transfer of .crad_pol_lst to local hard Drive
  95 + => ./do_filetransferssh.sh 2013245 2013273
  96 +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 +- use radiallst2uv.m
  98 +
  99 +**the new phases are so closed to the old ones that there isn't any real differences in the radial currents**
  100 +
  101 +
... ...
source/figures/explecoveragegrid.png 0 → 100644

21.4 KB

source/figures/explecoveragegrid2.png 0 → 100644

34 KB

source/figures/explecoveragegrid_rangeADCP.png 0 → 100644

21.9 KB

source/figures/explecoveragegrid_rangeADCP2.png 0 → 100644