Protokol o polohovem vyrovnani site                                   
Lokalita: BLANSKO                                              Datum: 15/04/19
------------------------------------------------------------------------------

Rozbor vyrovnani polohove site
------------------------------

Pocet velicin pouzitych ve vyrovani: ........................... 182
Pocet nadbytecnych velicin: .................................... 69
Jednotkova stredni chyba aposteriori: .......................... 0.8031
Kriticka hodnota chi-kvadrat pro test 1: ....................... 1.1382
Pravdepodobnost, ze na zaklade testu 1 bude 
presnost oznacena za nedodrzenou neopravnene: .................. 5.0 %

Pocet podminek pro regularizaci: ............................... 3
Pocet radku matice linearniho modelu: .......................... 185
Pocet sloupcu matice linearniho modelu: ........................ 116
Defekt matice: ................................................. 0
Vypoctena hodnota poctu nadbytecnych velicin: .................. 68.99998
Odhad jedn. str. ch. pri vylouceni podezreleho mereni: ......... 0.7656
Index nejpodezrelejsiho mereni: ................................ 99
Jednotkova str. ch. jen z delkovych velicin: ................... 0.8882
Jednotkova str. ch. jen z nedelkovych velicin: ................. 0.5386
Pouzita standardni odchylka sigma .............................. 1.0000
Na zaklade statistickeho testu 1 nelze presnost mereni prohlasit
za nedodrzenou (na hladine vyznamnosti 5.0 %).


Informace o vyrovnani merenych velicin
--------------------------------------
           CB1        CB2        CB3      hodnota  AprStr    L      VNorm Oprava Apost  Vyrovnana    FC
   1 D       4001       4002               35.435    5.4     51.8  -0.485     -2   3.4     35.433  0.370 [1,3]
   2 S       4001       4002     ST0001  220.2657   89.9     42.7  -0.803    -44  71.5   220.2613  0.204 [1,3]
   3 D       4001       4018               75.204    5.4      6.3  -0.434     -2   3.4     75.202  0.380 [1,2]
   4 S       4001       4018     ST0001    0.0018   42.5     -9.5   0.803     10  40.7     0.0028  0.042 [1,2]
   5 D       4002       4001               35.431    5.4     55.9   0.498      2   3.4     35.433  0.370 [1,5]
   6 S       4002       4001     ST0002   20.2603   89.9     36.0  -0.049     -2  75.0    20.2601  0.166 [1,5]
   7 D       4002       4003               58.977    5.4    -44.2  -1.366     -6   3.4     58.971  0.372 [1,6]
   8 S       4002       4003     ST0002  198.2273   54.1    -13.0   0.049      1  51.1   198.2274  0.057 [1,6]
   9 D       4003       4002               58.964    5.4    -31.8   1.550      7   3.4     58.971  0.372 [1,8]
  10 S       4003       4002     ST0003    0.0013   54.1     -5.1  -1.132    -40  40.9   399.9973  0.245 [1,8]
  11 D       4003       4011              127.174    5.5    -23.0  -0.631     -2   4.0    127.172  0.277 [1,9]
  12 S       4003       4011     ST0003  308.5311   25.3     42.6  -0.374     -6  20.0   308.5305  0.212 [1,9]
  13 D       4003       4012              176.164    5.5    -33.3  -1.398     -6   3.8    176.158  0.308 [1,10]
  14 S       4003       4012     ST0003  307.1881   18.5    -22.1   0.874      8  16.2   307.1889  0.124 [1,10]
  15 D       4003       4005               32.460    5.4    -22.0  -0.444     -2   3.6     32.458  0.339 [1,15]
  16 S       4003       4005     ST0004  219.5285   98.1    -95.5   0.518     33  74.9   219.5317  0.237 [1,15]
  17 D       4003       4020               59.078    5.4    -24.5  -0.636     -2   4.2     59.076  0.226 [1,13]
  18 S       4003       4020     ST0004    0.0054   54.0     51.3  -0.974    -22  49.1     0.0032  0.092 [1,13]
  19 D       4003       4029               67.161    5.4     -0.1  -0.204     -1   3.8     67.160  0.294 [1,17]
  20 S       4003       4029     ST0004  106.2051   47.6    -17.4   0.573      9  44.7   106.2060  0.061 [1,17]
  21 D       4004       4005               55.265    5.4     12.3  -0.835     -1   5.3     55.264  0.027 [1,20]
  22 S       4004       4005     ST0005    0.0059   57.7     30.9  -0.550    -13  52.8     0.0046  0.085 [1,20]
  23 D       4004       4028               60.461    5.4    -25.0  -0.505     -2   3.6     60.459  0.330 [1,22]
  24 S       4004       4028     ST0005  292.8702   52.8    -25.9   0.550     11  49.1   292.8713  0.071 [1,22]
  25 D       4005       4003               32.458    5.4    -20.0   0.060      0   3.6     32.458  0.339 [1,25]
  26 S       4005       4003     ST0006  215.7527   98.2    -40.3  -0.147     -9  77.1   215.7518  0.215 [1,25]
  27 D       4005       4006              130.088    5.5     10.0   0.281      1   3.1    130.089  0.434 [1,24]
  28 S       4005       4006     ST0006    0.0009   24.8      2.6   0.147      1  24.5     0.0010  0.012 [1,24]
  29 D       4006       4005              130.089    5.5      8.9   0.043      0   3.1    130.089  0.434 [1,27]
  30 S       4006       4005     ST0007  200.0018   24.8    -55.8   0.406      4  22.4   200.0022  0.097 [1,27]
  31 D       4006       4007               58.593    5.4     -6.3  -0.537     -2   3.5     58.590  0.362 [1,29]
  32 S       4006       4007     ST0007   82.9701   54.5    219.6  -0.728    -26  41.7    82.9676  0.235 [1,29]
  33 D       4006       4023               42.739    5.4    -15.3  -0.351     -1   3.7     42.737  0.315 [1,31]
  34 S       4006       4023     ST0007  332.9883   74.6   -164.1   0.505     22  61.2   332.9904  0.179 [1,31]
  35 D       4006       4025               50.287    5.4    -20.0  -0.568     -2   3.5     50.284  0.348 [1,30]
  36 S       4006       4025     ST0007   22.0101   63.4    182.2   0.515     22  46.7    22.0123  0.264 [1,30]
  37 D       4006       4026               51.894    5.4      7.7  -0.575     -2   3.3     51.891  0.390 [1,28]
  38 S       4006       4026     ST0007  193.7742   61.5      3.8  -0.620    -30  38.9   193.7712  0.367 [1,28]
  39 D       4007       4006               58.590    5.4     -3.7   0.091      0   3.5     58.590  0.362 [1,34]
  40 S       4007       4006     ST0008  164.6454   54.5    145.3   0.597     17  46.5   164.6471  0.146 [1,34]
  41 D       4007       4008               69.931    5.4    -10.8  -0.356     -2   3.4     69.929  0.375 [1,35]
  42 S       4007       4008     ST0008    0.0001   45.7   -102.2  -0.597    -12  41.1   399.9989  0.101 [1,35]
  43 D       4008       4007               69.930    5.4     -9.9  -0.134     -1   3.4     69.929  0.375 [1,39]
  44 S       4008       4007     ST0009  116.5233   45.7    -14.5   0.546     13  38.5   116.5247  0.157 [1,39]
  45 D       4008       4009               48.287    5.4    -22.3  -0.685     -3   3.3     48.284  0.397 [1,38]
  46 S       4008       4009     ST0009    3.4622   66.0     15.9  -0.005     -0  41.7     3.4622  0.368 [1,38]
  47 D       4008       4010              125.526    5.5    -17.1   1.200      6   2.8    125.532  0.484 [1,37]
  48 S       4008       4010     ST0009    2.2977   25.7      2.2  -0.402     -4  23.4     2.2973  0.087 [1,37]
  49 D       4009       4008               48.288    5.4    -22.7  -0.772     -3   3.3     48.284  0.397 [1,41]
  50 S       4009       4008     ST0010    0.0013   66.0     11.0   0.046      1  58.0     0.0014  0.121 [1,41]
  51 D       4009       4010               77.267    5.4     -9.7  -1.577     -6   3.7     77.260  0.328 [1,42]
  52 S       4009       4010     ST0010  198.1073   41.4     -4.3  -0.046     -1  39.5   198.1073  0.046 [1,42]
  53 D       4010       4008              125.531    5.5    -22.1   0.136      1   2.8    125.532  0.484 [1,45]
  54 S       4010       4008     ST0011    0.0010   25.7     36.9   0.544      3  24.9     0.0013  0.029 [1,45]
  55 D       4010       4011               41.546    5.4      6.3  -0.230     -1   3.1     41.545  0.430 [1,44]
  56 S       4010       4011     ST0011  190.7412   76.7   -330.0  -0.544    -30  54.0   190.7382  0.297 [1,44]
  57 D       4010       4008              125.531    5.5    -22.1   0.139      1   2.8    125.532  0.484 [1,47]
  58 S       4010       4008     ST0012    0.0008   25.7     61.0  -0.747     -5  24.9     0.0003  0.029 [1,47]
  59 D       4010       4011               41.547    5.4      5.1  -0.487     -2   3.1     41.545  0.430 [1,48]
  60 S       4010       4011     ST0012  190.7324   76.7   -227.7   0.747     41  54.0   190.7364  0.297 [1,48]
  61 D       4010       4021               74.600    5.4     -3.5  -0.119     -1   3.1     74.600  0.424 [1,49]
  62 S       4010       4021     ST0012  293.5151   42.9    -83.4  -0.083     -1  39.9   293.5150  0.069 [1,49]
  63 D       4010       4022               33.982    5.4    -13.1  -2.508>   -11   3.1     33.971  0.421 [1,50]
  64 S       4010       4022     ST0012  282.3974   93.8    -73.8   0.083      6  56.7   282.3980  0.395 [1,50]
  65 D       4011       4010               41.541    5.4     11.1   0.863      4   3.1     41.545  0.430 [1,53]
  66 S       4011       4010     ST0013  294.9027   76.7    -70.7  -0.662    -26  65.7   294.9001  0.144 [1,53]
  67 D       4011       4012               49.087    5.4     -5.2   0.161      1   3.4     49.088  0.377 [1,52]
  68 S       4011       4012     ST0013    0.0013   65.0     50.7   0.662     19  58.4     0.0032  0.101 [1,52]
  69 D       4012       4011               49.090    5.4     -7.6  -0.402     -2   3.4     49.088  0.377 [1,55]
  70 S       4012       4011     ST0014  345.2480   65.0      7.3  -0.988    -29  57.7   345.2451  0.111 [1,55]
  71 D       4012       4013               44.132    5.4    -13.8  -0.842     -3   3.7     44.129  0.313 [1,56]
  72 S       4012       4013     ST0014  265.7547   72.2     -9.1   0.988     36  62.1   265.7584  0.140 [1,56]
  73 D       4013       4012               44.122    5.4     -4.1   1.646      6   3.7     44.129  0.313 [1,61]
  74 S       4013       4012     ST0015  107.8592   72.3   -251.9   0.971     35  62.5   107.8628  0.135 [1,61]
  75 D       4013       4014               77.385    5.4      0.3   0.863      4   3.5     77.388  0.358 [1,59]
  76 S       4013       4014     ST0015    0.0043   41.3     32.5  -0.829    -11  39.2     0.0032  0.052 [1,59]
  77 D       4013       4033               56.263    5.4     -8.3  -0.138     -1   3.7     56.263  0.323 [1,63]
  78 S       4013       4033     ST0015  183.9163   56.7     94.0  -0.100     -1  55.6   183.9162  0.020 [1,63]
  79 D       4014       4013               77.386    5.4     -0.9   0.558      2   3.5     77.388  0.358 [1,65]
  80 S       4014       4013     ST0016    0.0005   41.3    -11.4  -0.762     -3  41.1     0.0002  0.006 [1,65]
  81 D       4014       4015               11.321    5.4     21.6   1.194      5   3.6     11.325  0.330 [1,66]
  82 S       4014       4015     ST0016  121.4387  281.2    527.9   0.762    157   191   121.4544  0.320 [1,66]
  83 D       4015       4002               77.915    5.4    -13.0   0.393      1   3.9     77.916  0.277 [1,70]
  84 S       4015       4002     ST0017  255.2787   41.0     46.3  -0.094     -1  39.6   255.2786  0.035 [1,70]
  85 D       4015       4014               11.326    5.4     15.9  -0.241     -1   3.6     11.325  0.330 [1,68]
  86 S       4015       4014     ST0017    0.0008  281.1    251.0   0.398     77   204     0.0085  0.272 [1,68]
  87 D       4015       4016               49.321    5.4     -4.8  -0.794     -3   3.6     49.318  0.343 [1,69]
  88 S       4015       4016     ST0017  100.0149   64.7   -128.2  -0.058     -2  58.7   100.0148  0.092 [1,69]
  89 D       4016       4015               49.316    5.4      0.2   0.418      2   3.6     49.318  0.343 [1,73]
  90 S       4016       4015     ST0018   70.0696   64.7     -7.9   0.047      1  58.5    70.0697  0.096 [1,73]
  91 D       4016       4017               32.731    5.4    -17.3  -0.520     -2   3.6     32.729  0.336 [1,72]
  92 S       4016       4017     ST0018    0.0019   97.3     18.0  -0.047     -3  74.5     0.0016  0.235 [1,72]
  93 D       4017       4016               32.726    5.4    -12.0   0.805      3   3.6     32.729  0.336 [1,76]
  94 S       4017       4016     ST0019  266.0113   97.3    218.3   0.459     24  82.0   266.0137  0.158 [1,76]
  95 D       4017       4018              127.181    5.5     19.6  -2.531>   -10   3.7    127.171  0.333 [1,77]
  96 S       4017       4018     ST0019   59.0516   25.3    -14.8  -0.459     -2  25.1    59.0514  0.010 [1,77]
  97 D       4018       4001               75.204    5.4      6.8  -0.330     -1   3.4     75.202  0.380 [1,80]
  98 S       4018       4001     ST0020  200.0238   42.5     25.6  -0.886    -22  34.7   200.0216  0.184 [1,80]
  99 D       4018       4017              127.159    5.5 !   41.3   2.785>    11   3.7    127.171  0.333 [1,79]
 100 S       4018       4017     ST0020  259.0474   25.3     -9.1   0.886      8  23.8   259.0482  0.061 [1,79]
 101 D       4019       4001               33.331    5.4    -75.1  -1.069     -2   5.0     33.328  0.081 [1,83]
 102 S       4019       4001     ST0021  341.8042   95.6    244.1  -1.069    -48  84.3   341.7994  0.118 [1,83]
 103 D       4019       4018               99.123    5.5    -20.1   1.069      4   4.3     99.127  0.222 [1,84]
 104 S       4019       4018     ST0021  382.8358   32.4    -28.0   1.069      6  31.9   382.8364  0.013 [1,84]
 105 D       4020       4001               35.332    5.4     36.8  -0.206     -1   4.2     35.332  0.218 [1,87]
 106 S       4020       4001     ST0022   30.5571   90.2      8.9   0.501     22  78.7    30.5593  0.127 [1,87]
 107 D       4020       4015               77.932    5.4     -5.6   1.046      4   4.2     77.936  0.228 [1,86]
 108 S       4020       4015     ST0022  301.4876   41.0     -1.8  -0.501     -5  40.0   301.4872  0.025 [1,86]
 109 D       4021       4010               74.593    5.4      3.5   1.443      6   3.1     74.600  0.424 [1,91]
 110 S       4021       4010     ST0023  399.9950   42.9     -3.0  -0.226     -4  38.7   399.9946  0.098 [1,91]
 111 D       4021       4022               41.570    5.4     -4.3  -0.756     -3   3.1     41.567  0.422 [1,90]
 112 S       4021       4022     ST0023    9.0632   76.7      9.5   0.226     13  48.7     9.0646  0.365 [1,90]
 113 D       4022       4010               33.966    5.4      3.1   1.179      5   3.1     33.971  0.421 [1,95]
 114 S       4022       4010     ST0024    0.0076   93.8     -6.3  -0.217    -11  80.0     0.0065  0.147 [1,95]
 115 D       4022       4021               41.569    5.4     -3.3  -0.527     -2   3.1     41.567  0.422 [1,94]
 116 S       4022       4021     ST0024  220.1928   76.7      4.2   0.217      7  69.4   220.1935  0.096 [1,94]
 117 D       4023       4006               42.735    5.4    -11.2   0.685      3   3.7     42.737  0.315 [1,98]
 118 S       4023       4006     ST0025    0.0020   74.6   -110.4  -0.611    -22  65.7   399.9998  0.119 [1,98]
 119 D       4023       4024               39.875    5.4    -14.9   0.381      1   3.8     39.877  0.301 [1,100]
 120 S       4023       4024     ST0025  154.7060   79.9    126.8   0.611     25  68.9   154.7084  0.138 [1,100]
 121 D       4024       4023               39.877    5.4    -16.8  -0.122     -0   3.8     39.877  0.301 [1,103]
 122 S       4024       4023     ST0026  354.7034   79.9    -82.0  -0.271    -13  63.8   354.7021  0.201 [1,103]
 123 D       4024       4028               82.633    5.4     -0.3   0.242      1   3.6     82.634  0.333 [1,105]
 124 S       4024       4028     ST0026   53.8893   38.7     19.3   0.271      3  37.0    53.8896  0.043 [1,105]
 125 D       4025       4006               50.282    5.4    -15.8   0.472      2   3.5     50.284  0.348 [1,110]
 126 S       4025       4006     ST0027   93.2621   63.4    164.8   0.343     16  42.0    93.2637  0.337 [1,110]
 127 D       4025       4008              118.382    5.5     -8.0   0.987      3   4.3    118.386  0.223 [1,108]
 128 S       4025       4008     ST0027    0.0020   27.2     27.8  -0.198     -3  23.8     0.0018  0.125 [1,108]
 129 D       4025       4027              167.482    5.5     -5.1  -0.642     -3   3.9    167.480  0.301 [1,112]
 130 S       4025       4027     ST0027  165.5090   19.4    -29.6  -0.028     -0  18.1   165.5089  0.069 [1,112]
 131 D       4026       4005               78.612    5.4     -4.6  -0.518     -2   3.8     78.610  0.309 [1,115]
 132 S       4026       4005     ST0028  229.2047   40.7    -51.3  -0.548     -7  38.7   229.2040  0.049 [1,115]
 133 D       4026       4006               51.891    5.4     10.8   0.148      1   3.3     51.891  0.390 [1,117]
 134 S       4026       4006     ST0028   18.8650   61.5    117.1   0.548     16  54.3    18.8666  0.117 [1,117]
 135 D       4027       4025              167.477    5.5      0.0   0.665      3   3.9    167.480  0.301 [1,122]
 136 S       4027       4025     ST0029  315.8459   19.4    -22.3  -0.247     -2  17.9   315.8457  0.081 [1,122]
 137 D       4027       4030              213.665    5.6    -10.4   0.459      2   3.8    213.667  0.308 [1,120]
 138 S       4027       4030     ST0029    0.0037   15.4     14.1   0.247      1  14.7     0.0039  0.050 [1,120]
 139 D       4028       4004               60.458    5.4    -22.4   0.154      1   3.6     60.459  0.330 [1,125]
 140 S       4028       4004     ST0030    0.0032   52.8     -0.4  -0.172     -3  50.3     0.0030  0.047 [1,125]
 141 D       4028       4024               82.636    5.4     -3.8  -0.619     -3   3.6     82.634  0.333 [1,127]
 142 S       4028       4024     ST0030  191.2598   38.7      0.2   0.172      1  37.8   191.2599  0.025 [1,127]
 143 D       4029       4003               67.159    5.4      1.4   0.166      1   3.8     67.160  0.294 [1,129]
 144 S       4029       4003     ST0031    0.0029   47.6     -2.4  -0.384     -4  46.6     0.0026  0.020 [1,129]
 145 D       4029       4035               26.443    5.4    -18.4  -2.307>    -9   3.7     26.434  0.307 [1,130]
 146 S       4029       4035     ST0031  272.7138  120.4     15.7   0.384     23   103   272.7161  0.138 [1,130]
 147 D       4030       4027              213.668    5.6    -13.5  -0.308     -1   3.8    213.667  0.308 [1,135]
 148 S       4030       4027     ST0032  198.5412   15.4      2.0  -0.316     -1  15.3   198.5412  0.006 [1,135]
 149 D       4030       4031               68.688    5.4    -12.7   0.269      1   3.8     68.689  0.308 [1,133]
 150 S       4030       4031     ST0032   24.7689   46.5    -18.5   0.316      5  43.8    24.7694  0.059 [1,133]
 151 D       4031       4030               68.689    5.4    -14.2  -0.109     -0   3.8     68.689  0.308 [1,138]
 152 S       4031       4030     ST0033  246.8123   46.5     94.7  -0.402     -5  44.8   246.8118  0.037 [1,138]
 153 D       4031       4032               33.748    5.4      9.3  -0.530     -2   3.8     33.746  0.305 [1,140]
 154 S       4031       4032     ST0033  391.7480   94.4   -390.2   0.402     21  78.9   391.7501  0.164 [1,140]
 155 D       4032       4001               45.768    5.4    -39.7  -0.113     -0   5.3     45.768  0.022 [1,145]
 156 S       4032       4001     ST0034   66.0248   69.7    219.5   0.390      7  67.1    66.0255  0.036 [1,145]
 157 D       4032       4031               33.744    5.4     13.9   0.636      2   3.8     33.746  0.305 [1,143]
 158 S       4032       4031     ST0034  325.4965   94.4   -403.1  -0.390    -13  88.0   325.4952  0.067 [1,143]
 159 D       4033       4013               56.263    5.4     -7.5   0.045      0   3.7     56.263  0.323 [1,147]
 160 S       4033       4013     ST0035  383.9177   56.7     55.6   0.195      4  52.3   383.9181  0.079 [1,147]
 161 D       4033       4034               33.177    5.4     -0.8  -0.368     -1   3.7     33.175  0.314 [1,148]
 162 S       4033       4034     ST0035  346.0186   96.0   -159.4  -0.195    -12  72.3   346.0173  0.247 [1,148]
 163 D       4034       4016               69.047    5.4     12.8   0.165      0   5.0     69.048  0.089 [1,153]
 164 S       4034       4016     ST0036  238.9293   46.3     17.8  -0.275     -3  45.3   238.9290  0.022 [1,153]
 165 D       4034       4033               33.173    5.4      2.6   0.493      2   3.7     33.175  0.314 [1,151]
 166 S       4034       4033     ST0036    0.0046   96.0    -76.5   0.275     11  86.8     0.0057  0.096 [1,151]
 167 D       4035       4029               26.424    5.4      0.1   2.454>    10   3.7     26.434  0.307 [1,156]
 168 S       4035       4029     ST0037  338.0889  120.5     84.5  -0.273    -15   107   338.0874  0.108 [1,156]
 169 D       4035       4036               27.371    5.4    -29.8  -0.461     -2   3.7     27.369  0.308 [1,158]
 170 S       4035       4036     ST0037  143.5908  116.4    -78.7   0.273     14   104   143.5922  0.100 [1,158]
 171 D       4036       4035               27.367    5.4    -25.6   0.617      2   3.7     27.369  0.308 [1,161]
 172 S       4036       4035     ST0038  146.0026  116.4     19.3  -0.140     -6   106   146.0019  0.082 [1,161]
 173 D       4036       4037               55.449    5.4     14.9  -0.064     -0   3.8     55.449  0.308 [1,163]
 174 S       4036       4037     ST0038  342.0171   57.5     -4.7   0.140      2  56.4   342.0173  0.020 [1,163]
 175 D       4037       4036               55.448    5.4     16.0   0.214      1   3.8     55.449  0.308 [1,166]
 176 S       4037       4036     ST0039  137.6259   57.5    -96.4   0.193      2  56.2   137.6262  0.024 [1,166]
 177 D       4037       4038               63.261    5.4     13.3  -0.379     -1   3.8     63.259  0.309 [1,168]
 178 S       4037       4038     ST0039  345.7420   50.5     74.2  -0.193     -2  49.6   345.7419  0.018 [1,168]
 179 D       4038       4024               52.645    5.4     27.3   0.550      0   5.4     52.645  0.005 [1,171]
 180 S       4038       4024     ST0040    0.0059   60.6    107.2  -0.400     -7  58.2     0.0052  0.040 [1,171]
 181 D       4038       4037               63.257    5.4     16.9   0.541      2   3.8     63.259  0.309 [1,173]
 182 S       4038       4037     ST0040   95.3875   50.5    -74.4   0.400      5  49.1    95.3880  0.027 [1,173]

Pismeno v prvem sloupci rozlisuje typ veliciny: D-delka, S-Smer, A-Azimut, U-uhel
CB1, CB2, CB3 ... cisla bodu. U delek a azimutu nema CB3 smysl.
U smeru CB3 oznacuje cislo osnovy smeru.
hodnota ......... hodnota merene veliciny (jednotky jsou [g] nebo [m]).
AprStr .......... velikost apriorni stredni chyby zadane v modelu site [cc nebo mm]
! ............... vyskytujici se u veliciny oznacuje nejpodezrelejsi velicinu.
> ............... vyskytujici se u veliciny oznacuje opravy vybocuujici z testu 3.
Kriticka hodnota testu 3 cini 1.96, a to pri hladine vyznamnosti 5.0 %.
L ............... velikost odchylky mezi hodnotou merenou a odvozenou ze souradnic [cc nebo mm]
VNorm ........... normalizovana oprava (slouzi k testovani odlehlych hodnot, je bez rozmeru
Oprava .......... oprava [cc nebo mm]
Aposter ......... velikost stredni chyby vyrovnane veliciny [cc nebo mm].
Vyrovnana ....... vyrovnana hodnota veliciny (jednotky jsou [g] nebo [m]).
FC .............. faktor prinosu veliciny pro vyrovnani (bez rozmeru).
FC = 1.0 - nepotrebna, 0.25 - normalni potreba, 0.0 - nezbytna velicina bez kontroly

Vyrovnane souradnice bodu
-------------------------
       CB     Y [m]         X [m]     MY    MX    MP HlSmer   A     B    Trida

      4001  593362.063  1141529.675   5.1   3.3   6.1   106   5.1   3.3     1
                -0.006       -0.019
      4002  593392.879  1141512.185   4.3   3.4   5.5   126   4.5   3.1     1
                -0.048        0.015
      4003  593450.998  1141502.199   3.4   3.8   5.1   161   4.2   2.9     1
                -0.009        0.017
      4004  593494.733  1141540.512   5.8   5.9   8.3    49   6.6   5.0     1
                -0.013       -0.004
      4005  593479.832  1141487.295   3.4   4.1   5.4   192   4.1   3.4     1
                 0.007        0.004
      4006  593606.507  1141457.686   3.4   3.5   4.9    47   3.8   3.1     1
                -0.003       -0.001
      4007  593608.729  1141399.138   4.0   4.6   6.1    24   4.7   3.9     1
                 0.022       -0.004
      4008  593574.142  1141338.361   4.2   4.4   6.1    39   4.6   4.1     1
                 0.022       -0.015
      4009  593528.191  1141353.191   4.7   4.5   6.5   136   4.9   4.3     1
                 0.001       -0.016
      4010  593453.992  1141374.724   3.7   4.1   5.5   170   4.2   3.6     1
                -0.005       -0.025
      4011  593412.904  1141380.867   3.8   4.1   5.6    24   4.2   3.8     1
                 0.005       -0.009
      4012  593401.784  1141333.055   5.2   3.8   6.5    84   5.3   3.6     1
                -0.009       -0.012
      4013  593364.180  1141356.148   4.7   4.5   6.6    67   4.8   4.5     1
                -0.009        0.008
      4014  593396.250  1141426.579   7.7   4.3   8.8    95   7.8   4.2     1
                -0.016        0.015
      4015  593388.075  1141434.417   7.5   3.7   8.4    88   7.6   3.5     1
                -0.009       -0.002
      4016  593353.941  1141398.819  10.9   3.8  11.5   105  10.9   3.7     1
                -0.002       -0.012
      4017  593343.142  1141429.716   8.6   4.6   9.8   114   8.8   4.3     1
                -0.016       -0.000
      4018  593288.330  1141544.468   7.0   8.8  11.3    38  10.2   4.8     1
                 0.001       -0.025
      4019  593387.204  1141551.555   7.9   8.2  11.4   153   9.5   6.3     1
                 0.019        0.064
      4020  593392.777  1141512.210   4.7   4.9   6.8   155   5.6   3.9     1
                -0.033        0.008
      4021  593468.230  1141447.953   7.4   4.9   8.8   102   7.4   4.9     1
                 0.003       -0.023
      4022  593454.584  1141408.690   5.2   5.1   7.2    63   5.3   5.0     1
                -0.001       -0.023
      4023  593635.570  1141489.020   4.2   4.7   6.2    32   4.8   3.9     1
                 0.014        0.002
      4024  593637.021  1141528.870   5.0   5.3   7.3   170   5.5   4.9     1
                 0.013        0.018
      4025  593648.695  1141430.323   4.0   4.7   6.2    32   4.9   3.7     1
                 0.020        0.001
      4026  593555.065  1141464.504   4.4   3.9   5.8    91   4.4   3.9     1
                 0.006       -0.007
      4027  593671.967  1141596.178   6.7   6.2   9.1   142   7.3   5.4     1
                 0.018        0.004
      4028  593554.410  1141530.822   5.4   5.1   7.4    74   5.4   5.1     1
                 0.011        0.003
      4029  593468.764  1141566.966   5.4   5.2   7.5   143   5.9   4.7     1
                -0.013        0.017
      4030  593459.579  1141572.843   6.7   6.1   9.0    96   6.7   6.1     1
                 0.008       -0.010
      4031  593394.010  1141593.310   7.1   6.0   9.3   108   7.1   6.0     1
                -0.006       -0.007
      4032  593365.461  1141575.317   6.4   5.4   8.4    84   6.4   5.4     1
                -0.010        0.021
      4033  593354.407  1141300.741   9.7   5.1  10.9   112   9.8   4.8     1
                 0.001       -0.001
      4034  593340.856  1141331.023   6.9   5.8   9.0   126   7.2   5.5     1
                 0.004       -0.000
      4035  593494.857  1141571.200   5.8   6.3   8.5   164   6.6   5.4     1
                -0.003        0.019
      4036  593522.150  1141573.235   5.9   7.0   9.2   195   7.1   5.9     1
                 0.025        0.014
      4037  593577.079  1141580.808   6.1   6.4   8.8    32   6.5   6.0     1
                 0.012       -0.005
      4038  593640.336  1141581.411   6.3   7.1   9.5   163   7.6   5.7     1
                -0.002       -0.008

CB ............ Cislo bodu
Y ............. Vyrovnana souradnice Y [m]
X ............. Vyrovnana souradnice X [m]
MY ............ Stredni chyba v souradnici Y [mm]
MX ............ Stredni chyba v souradnici X [mm]
MP ............ Stredni polohova chyba [mm]
HlSmer......... Hlavni smer chybove elipsy (jiznik osy A) [g]
A ............. Velikost hlavni poloosy chybove elipsy [mm]
B ............. Velikost vedlejsi poloosy chybove elipsy [mm]
Trida ......... Trida presnosti pro jednotlivy bod (optimisticky)


Test trid presnosti
Pocet novych souradnic v siti urcenych: ........................ 76
Prumerna stredni kvadraticka souradnicova chyba souboru bodu: .. 0.006
Trida presnosti, pro niz cela sit vyhovuje: .................... 1
Pocet bodu (procentualne), jez maji stredni chybu < zakladni: .. 38 (100.0 %)
Pomer prumerne stredni chyby vuci zakladni: .................... 0.28
Zakladni stredni chyba pro danou tridu presnosti: .............. 0.0200
Kriticka hodnota pomeru strednich chyb pro test 2: ............. 1.1318
Pravdepodobnost, ze na zaklade testu 2 bude 
sit zarazana do horsi tridy presnosti neopravnene: .............. 5.0 %

Konec seznamu bodu

Konec protokolu o polohovem vyrovnani site.
