Orbit Fit and Astrometric record for 14RE12

The following information shows the result of the orbit fit based on Gary Bernstein's method. Most of the information should be self-explanatory. Take special note that while the original Bernstein software works with barycentric coordinates, we convert these results into a heliocentric coordinate system.

# Object: 14RE12    
# Created Tue Oct 24 01:38:27 2017
# Orbit generated by ELGB
# -->Covariance matrix from a Bernstein fit
# Fitting  128 observations of  129
# Arc:   3.17y
# First observation: 2014/06/26
#  Last observation: 2017/08/26
# Chi-squared of fit:   499.25 DOF:  250 RMS:  0.35
# Min/Max residuals:    -1.12    1.97
# Exact a, adot, b, bdot, g, gdot:
  2.946026E-05  2.597393E-01  1.843109E-05  1.482687E-01  1.292684E-01 -1.551240E-01
# Covariance matrix:
  1.4835E-13 -2.1235E-13  1.1643E-14 -1.5756E-13  1.1050E-13 -5.3030E-13
 -2.1235E-13  5.1102E-11 -2.3001E-12  3.8283E-11  1.1204E-11  1.3552E-10
  1.1643E-14 -2.3001E-12  1.9713E-13 -1.8937E-12 -4.9551E-13 -6.2467E-12
 -1.5756E-13  3.8283E-11 -1.8937E-12  3.0199E-11  8.3288E-12  1.0378E-10
  1.1050E-13  1.1204E-11 -4.9551E-13  8.3288E-12  2.7898E-12  2.9546E-11
 -5.3030E-13  1.3552E-10 -6.2467E-12  1.0378E-10  2.9546E-11  3.6723E-10
#      lat0       lon0       xBary       yBary       zBary        JD0
   -5.863588  -24.364734    0.889501   -0.050611   -0.493368  2456835.058698
# Heliocentric elements and errors
Epoch:              2456834.5000  =  2014/06/26
Mean Anomaly:          338.84625 +/-     0.004
Argument of Peri:       78.57889 +/-     0.000
Long of Asc Node:      338.42761 +/-     0.000
Inclination:            31.55797 +/-     0.000
Eccentricity:         0.64555906 +/-    0.0000
Semi-Major Axis:     14.33245407 +/-    0.0000
Time of Perihelion: 2457999.0660 +/-       0.2
Perihelion:           5.08000850 +/-    0.0004
Aphelion:            23.58489964 +/-    0.0004
Period (y)               54.2612 +/-      0.00
# Ecliptic coordinates at JD0 (AU and AU/d)
Ecliptic X            7.09296461 +/-    0.0000
Ecliptic Y           -4.18764064 +/-    0.0000
Ecliptic Z           -0.79009564 +/-    0.0000
Ecliptic XDOT        -0.00042062 +/-    0.0000
Ecliptic YDOT         0.00622334 +/-    0.0000
Ecliptic ZDOT         0.00345961 +/-    0.0000
# Distances at JD0 (AU)
Heliocenter to KBO    8.27487296 +/-    0.0000
Geocenter to KBO      7.73600926 +/-    0.0000
# Hcoef: 12.57

The following table shows the complete astrometric record for 14RE12. The first three columns show the date of observation. The next six columns are RA and DEC. The next column (when provided) is the observed magnitude and filter. The next column is the object name (14RE12) followed by the observatory code and reference code for the source of the astrometry.

2014 06  26.55792  22 38 38.911  -14 53 25.73  21.8w 14RE12    F51  C~1vXi      
2014 06  26.56994  22 38 38.794  -14 53 25.62  21.9w 14RE12    F51  C~1vXi      
2014 06  26.58200  22 38 38.728  -14 53 25.51  22.3w 14RE12    F51  C~1vXi      
2014 06  28.51301  22 38 26.879  -14 53 03.62  21.9w 14RE12    F51  C~1vXi      
2014 06  28.52512  22 38 26.805  -14 53 03.42  21.9w 14RE12    F51  C@0615      
2014 06  28.53717  22 38 26.715  -14 53 03.58  21.9w 14RE12    F51  C@0615      
2014 06  28.54925  22 38 26.623  -14 53 03.13  21.7w 14RE12    F51  C@0615      
2014 07  25.52588  22 32 48.695  -14 59 32.11  21.6w 14RE12    F51  C@0615      
2014 07  25.53799  22 32 48.467  -14 59 32.56  21.8w 14RE12    F51  C~1vXi      
2014 07  25.55009  22 32 48.247  -14 59 32.88  21.9w 14RE12    F51  C@0615      
2014 07  25.56221  22 32 48.021  -14 59 33.34  21.6w 14RE12    F51  C@0615      
2014 08  03.47825  22 29 54.493  -15 05 07.19  21.7w 14RE12    F51  C~1vXi      
2014 08  03.49172  22 29 54.207  -15 05 07.73  21.6w 14RE12    F51  C~1vXi      
2014 08  03.50514  22 29 53.917  -15 05 08.29  21.7w 14RE12    F51  C~1vXi      
2014 08  03.51857  22 29 53.634  -15 05 08.89  21.5w 14RE12    F51  C~1vXi      
2014 08  04.47065  22 29 33.673  -15 05 47.47  21.4w 14RE12    F51  C~1vXi      
2014 08  04.48402  22 29 33.385  -15 05 48.09  21.6w 14RE12    F51  C~1vXi      
2014 08  04.49738  22 29 33.112  -15 05 48.64  21.4w 14RE12    F51  C~1vXi      
2014 08  04.51076  22 29 32.806  -15 05 49.41  21.6w 14RE12    F51  C~1vXi      
2014 08  05.47198  22 29 12.400  -15 06 28.86  21.7w 14RE12    F51  C~1vXi      
2014 08  05.48555  22 29 12.100  -15 06 29.44  21.7w 14RE12    F51  C~1vXi      
2014 08  05.49907  22 29 11.805  -15 06 29.86  21.4w 14RE12    F51  C~1vXi      
2014 08  05.51256  22 29 11.510  -15 06 30.50  21.5w 14RE12    F51  C~1vXi      
2014 08  20.42895  22 23 29.074  -15 16 58.86  21.4w 14RE12    F51  C@0615      
2014 08  20.44179  22 23 28.749  -15 16 59.41  21.6w 14RE12    F51  C@0615      
2014 08  20.45463  22 23 28.439  -15 16 59.93  21.4w 14RE12    F51  C@0615      
2014 08  20.46754  22 23 28.124  -15 17 00.41  21.3w 14RE12    F51  C@0615      
2014 09  02.34717  22 18 12.849  -15 24 41.61  21.0i 14RE12    F51  C~1vXi      
2014 09  02.36077  22 18 12.501  -15 24 41.90  20.9i 14RE12    F51  C@0615      
2014 09  02.37438  22 18 12.171  -15 24 42.38  21.0i 14RE12    F51  C@0615      
2014 09  02.38796  22 18 11.825  -15 24 42.78  20.9i 14RE12    F51  C@0615      
2014 09  12.38394  22 14 12.527  -15 28 23.19  20.9i 14RE12    F51  C~1vXi      
2014 09  12.39685  22 14 12.194  -15 28 23.40  21.2i 14RE12    F51  C~1vXi      
2014 09  12.40973  22 14 11.907  -15 28 23.69  21.2i 14RE12    F51  C~1vXi      
2014 09  12.42262  22 14 11.589  -15 28 23.80  21.2i 14RE12    F51  C~1vXi      
2014 09  18.28794  22 11 58.845  -15 29 15.68  21.5w 14RE12    F51  C~18jF      
2014 09  18.29950  22 11 58.575  -15 29 16.02  21.4w 14RE12    F51  C~18jF      
2014 09  18.36946  22 11 57.008  -15 29 16.14  21.4w 14RE12    F51  C~18jF      
2014 10  10.33562  22 05 12.531  -15 21 35.00  21.1i 14RE12    F51  C~1vXi      
2014 10  10.35922  22 05 12.133  -15 21 34.05  21.0i 14RE12    F51  C~1vXi      
2014 10  10.37102  22 05 11.972  -15 21 33.57  20.9i 14RE12    F51  C~1vXi      
2014 11  10.20809  22 01 47.891  -14 37 19.74  21.8w 14RE12    F51  C~1vXi      
2014 11  10.22040  22 01 47.885  -14 37 17.77  21.8w 14RE12    F51  C~1vXi      
2014 11  10.23266  22 01 47.899  -14 37 16.82  21.6w 14RE12    F51  C~1vXi      
2014 11  10.24496  22 01 47.917  -14 37 15.14  21.7w 14RE12    F51  C~1vXi      
2014 11  17.24463  22 02 09.617  -14 21 41.22  22.3w 14RE12    F51  C~1vXi      
2014 11  17.25773  22 02 09.680  -14 21 39.15  21.9w 14RE12    F51  C~1vXi      
2014 11  17.27010  22 02 09.738  -14 21 37.49  22.2w 14RE12    F51  C~1vXi      
2015 07  25.50724  23 26 31.837  +02 22 56.68  21.0w 14RE12    F51  C~1vXi      
2015 07  25.51977  23 26 31.670  +02 22 57.98  21.1w 14RE12    F51  C~1vXj      
2015 07  25.53229  23 26 31.505  +02 22 59.25  21.1w 14RE12    F51  C~1vXj      
2015 07  25.54489  23 26 31.336  +02 23 00.54  21.2w 14RE12    F51  C~1vXj      
2015 07  28.56432  23 25 50.450  +02 27 54.50  21.0w 14RE12    F51  C~1vXj      
2015 07  28.57703  23 25 50.262  +02 27 55.64  21.2w 14RE12    F51  C~1vXj      
2015 07  28.58963  23 25 50.075  +02 27 56.89  21.1w 14RE12    F51  C~1vXj      
2015 07  28.60245  23 25 49.884  +02 27 58.02  21.1w 14RE12    F51  C~1vXj      
2015 08  16.31124  23 20 01.13   +02 48 15.2   20.5R 14RE12    H36  C~2FaK      
2015 08  16.34130  23 20 00.46   +02 48 16.4   20.4R 14RE12    H36  C~2FaK      
2015 08  21.50764  23 17 59.197  +02 50 56.70  20.7w 14RE12    F51  C~2FaK      
2015 08  21.50838  23 17 59.188  +02 50 56.67  20.7w 14RE12    F51  C~2FaK      
2015 08  21.52029  23 17 58.884  +02 50 57.00  20.8w 14RE12    F51  C~2FaK      
2015 08  21.52104  23 17 58.871  +02 50 57.00  20.7w 14RE12    F51  C~2FaK      
2015 08  21.53289  23 17 58.574  +02 50 57.35  20.6w 14RE12    F51  C~2FaK      
2015 08  21.53364  23 17 58.555  +02 50 57.31  20.6w 14RE12    F51  C~2FaK      
2015 08  21.54553  23 17 58.255  +02 50 57.69  20.7w 14RE12    F51  C~2FaK      
2015 08  21.54629  23 17 58.244  +02 50 57.77  20.6w 14RE12    F51  C~2FaK      
2015 09  12.91937  23 08 02.97   +02 50 31.1   19.8R 14RE12    461  C~1XRt      
2015 09  12.92526  23 08 02.83   +02 50 31.2   19.8R 14RE12    461  C~1XRt      
2015 09  12.93115  23 08 02.63   +02 50 31.1   20.1R 14RE12    461  C~1XRt      
2015 09  12.93703  23 08 02.45   +02 50 31.1   20.1R 14RE12    461  C~1XRt      
2015 09  13.87387  23 07 36.49   +02 50 09.9   19.9R 14RE12    461  C~1XRt      
2015 09  13.88564  23 07 36.18   +02 50 10.3   20.5R 14RE12    461  C~1XRt      
2015 09  13.89153  23 07 36.00   +02 50 09.7   19.7R 14RE12    461  C~1XRt      
2015 09  14.26944  23 07 25.56   +02 50 00.8   20.2r 14RE12    G45  C~1XwP      
2015 09  14.27476  23 07 25.39   +02 50 00.0   20.8r 14RE12    G45  C~1XwP      
2015 09  14.28009  23 07 25.24   +02 50 00.8   20.9r 14RE12    G45  C~1XwP      
2015 09  14.28524  23 07 25.08   +02 50 00.0   20.5r 14RE12    G45  C~1XwP      
2015 09  18.30387  23 05 34.19   +02 48 15.5   20.5V 14RE12    U57  C~1Xve      
2015 09  18.38230  23 05 32.00   +02 48 13.6   20.3V 14RE12    U57  C~1Xve      
2015 09  19.27148  23 05 07.68   +02 47 47.9   20.3V 14RE12    U57  C~1Xve      
2015 09  19.35738  23 05 05.30   +02 47 45.5   20.4V 14RE12    U57  C~1Xve      
2015 09  20.36411  23 04 37.86   +02 47 16.1   20.3V 14RE12    U57  C~1Xve      
2015 09  20.41731  23 04 36.40   +02 47 14.4   20.3V 14RE12    U57  C~1Xve      
2015 10  02.39795  22 59 24.480  +02 40 44.52  20.3i 14RE12    F51  C~1Xve      
2015 10  02.40993  22 59 24.194  +02 40 44.19  20.1i 14RE12    F51  C~1Xve      
2015 10  02.42199  22 59 23.895  +02 40 43.81  20.2i 14RE12    F51  C~1Xve      
2015 10  03.37450  22 59 00.685  +02 40 11.99  20.1i 14RE12    F51  C~1Xve      
2015 10  03.38659  22 59 00.396  +02 40 11.71  20.1i 14RE12    F51  C~1Xve      
2015 10  03.41057  22 58 59.786  +02 40 10.86  20.0i 14RE12    F51  C~1Xve      
2016 07  05.37655  00 46 01.28   +23 59 57.5   20.5r 14RE12    G45  C~1v0K      
2016 07  05.38140  00 46 01.43   +23 59 58.5   20.6r 14RE12    G45  C~1v0K      
2016 07  05.38622  00 46 01.49   +24 00 00.7   20.7r 14RE12    G45  C~1v0K      
2016 07  05.39110  00 46 01.52   +24 00 03.2   21.3r 14RE12    G45  C~1v0K      
2016 07  05.39622  00 46 01.65   +24 00 05.1   20.7r 14RE12    G45  C~1v0K      
2016 07  11.43093  00 47 25.26   +24 43 10.7         14RE12    G96  C~1vXj      
2016 07  11.43668  00 47 25.34   +24 43 13.7   20.5V 14RE12    G96  C~1vXj      
2016 07  11.44246  00 47 25.45   +24 43 15.3   20.1V 14RE12    G96  C~1vXj      
2016 07  11.44826  00 47 25.48   +24 43 17.8   20.4V 14RE12    G96  C~1vXj      
2016 09  07.86713  00 39 52.69   +30 07 08.7   20.1V 14RE12    A13  C~1xhN      
2016 09  07.89482  00 39 51.94   +30 07 14.5   20.0V 14RE12    A13  C~1xhN      
2016 09  08.74535  00 39 28.52   +30 09 57.1   20.1R 14RE12    D29  C~1xhN      
2016 09  08.75949  00 39 28.11   +30 09 59.6   20.1R 14RE12    D29  C~1xhN      
2016 09  08.77363  00 39 27.75   +30 10 02.4   19.9R 14RE12    D29  C~1xhN      
2016 09  13.30356  00 37 17.57   +30 23 04.2   20.9V 14RE12    703  C~1xhN      
2016 09  13.32169  00 37 16.95   +30 23 06.8   19.9V 14RE12    703  C~1xhN      
2016 09  23.62739  00 31 49.43   +30 44 16.2   19.7R 14RE12    D29  C~1yT5      
2016 09  23.64154  00 31 48.96   +30 44 17.4   19.7R 14RE12    D29  C~1yT5      
2016 09  25.34726  00 30 51.59   +30 46 36.6   19.4V 14RE12    G96  C~1yT5      
2016 09  25.35154  00 30 51.48   +30 46 36.6   19.8V 14RE12    G96  C~1yT5      
2016 09  25.35583  00 30 51.33   +30 46 37.1   19.6V 14RE12    G96  C~1yT5      
2016 09  25.36033  00 30 51.17   +30 46 37.4   19.5V 14RE12    G96  C~1yT5      
2016 10  04.27511  00 25 44.90   +30 53 24.9   19.6V 14RE12    G96  C~1ytx      
2016 10  04.28136  00 25 44.69   +30 53 24.8   19.5V 14RE12    G96  C~1ytx      
2016 10  04.28764  00 25 44.45   +30 53 25.0   19.5V 14RE12    G96  C~1ytx      
2016 10  04.29390  00 25 44.22   +30 53 25.3   19.5V 14RE12    G96  C~1ytx      
2016 10  04.58332  00 25 34.26   +30 53 29.1   19.5R 14RE12    D29  C~1zPw      
2016 10  04.59747  00 25 33.71   +30 53 29.8   19.9R 14RE12    D29  C~1zPw      
2016 10  04.61161  00 25 33.24   +30 53 30.1   19.9R 14RE12    D29  C~1zPw      
2016 10  21.19898  00 16 21.00   +30 43 48.7   20.7V 14RE12    703  C~1ztX      
2016 10  21.20500  00 16 20.74   +30 43 48.7   20.1V 14RE12    703  C~1ztX      
2016 10  21.21706  00 16 20.37   +30 43 46.7   19.8V 14RE12    703  C~1ztX      
2016 10  25.24634  00 14 19.23   +30 37 53.8   19.7R 14RE12    H45  C~20FG      
2016 10  25.24800  00 14 19.19   +30 37 53.5   19.7R 14RE12    H45  C~20FG      
2016 10  25.24936  00 14 19.14   +30 37 53.4   19.7R 14RE12    H45  C~20FG      
2016 10  25.25047  00 14 19.12   +30 37 53.2   19.6R 14RE12    H45  C~20FG      
2016 11  05.24509  00 09 33.505  +30 17 00.12  19.9w 14RE12    F51  C~21SX      
2016 11  05.25551  00 09 33.195  +30 16 58.48  20.0w 14RE12    F51  C~21SX      
2017 08  26.07194  03 50 53.83   +51 54 12.2   19.1R 14RE12    157  C~2Jy6      
2017 08  26.08614  03 50 54.35   +51 54 18.8   19.1R 14RE12    157  C~2Jy6      

The following table shows the residuals to the orbit fit. The first coumn is the point number. The second column is the time, in years, measured from the first observation. The third and fifth columns are the regularized positions used in the orbit fit. The fourth and sixth columns are the residuals, in arc seconds, for RA and Dec respectively.

  1   0.0000      0.00 (   1.48)      0.00 (  19.29)
  2   0.0000      0.00    -0.10       0.00     0.07
  3   0.0001      0.00     0.03       0.00     0.02
  4   0.0054      0.00     0.20       0.00     0.01
  5   0.0054      0.00     0.36       0.00     0.11
  6   0.0054      0.00     0.28       0.00    -0.15
  7   0.0055      0.00     0.18       0.00     0.19
  8   0.0793      0.00     0.32       0.00     0.07
  9   0.0793      0.00     0.25       0.00     0.02
 10   0.0794      0.00     0.30       0.00     0.11
 11   0.0794      0.00     0.27       0.00     0.05
 12   0.1038      0.00     0.42       0.00     0.03
 13   0.1039      0.00     0.44       0.00     0.03
 14   0.1039      0.00     0.38       0.00     0.02
 15   0.1039      0.00     0.44       0.00    -0.04
 16   0.1065      0.00     0.25       0.00     0.14
 17   0.1066      0.00     0.26       0.00     0.07
 18   0.1066      0.00     0.50       0.00     0.07
 19   0.1066      0.00     0.25       0.00    -0.15
 20   0.1093      0.00     0.21       0.00    -0.04
 21   0.1093      0.00     0.16       0.00    -0.06
 22   0.1094      0.00     0.17       0.00     0.08
 23   0.1094      0.00     0.17       0.00    -0.00
 24   0.1502      0.00     0.41       0.00     0.10
 25   0.1503      0.00     0.28       0.00     0.08
 26   0.1503      0.00     0.38       0.00     0.08
 27   0.1503      0.00     0.44       0.00     0.13
 28   0.1856      0.00     0.35       0.00    -0.11
 29   0.1856      0.00     0.22       0.00     0.01
 30   0.1857      0.00     0.36       0.00    -0.07
 31   0.1857      0.00     0.25       0.00    -0.07
 32   0.2131      0.00     0.34       0.00     0.14
 33   0.2131      0.00    -0.05       0.00     0.12
 34   0.2131      0.00     0.23       0.00     0.01
 35   0.2132      0.00     0.05       0.00     0.07
 36   0.2292      0.00     0.41       0.00     0.14
 37   0.2293      0.00     0.25       0.00    -0.15
 38   0.2295      0.00     0.33       0.00    -0.01
 39   0.2896      0.00     0.59       0.00     0.18
 40   0.2897      0.00    -0.20       0.00     0.00
 41   0.2897      0.00    -0.03       0.00    -0.08
 42   0.3741      0.00    -0.03       0.00    -0.14
 43   0.3742      0.00    -0.27       0.00     0.30
 44   0.3742      0.00    -0.21       0.00    -0.29
 45   0.3742      0.00    -0.09       0.00    -0.15
 46   0.3934      0.00    -0.27       0.00    -0.04
 47   0.3934      0.00    -0.20       0.00     0.17
 48   0.3935      0.00    -0.16       0.00     0.06
 49   1.0786      0.00     0.19       0.00    -0.03
 50   1.0786      0.00     0.19       0.00    -0.01
 51   1.0786      0.00     0.21       0.00    -0.01
 52   1.0787      0.00     0.20       0.00    -0.01
 53   1.0869      0.00     0.23       0.00    -0.02
 54   1.0870      0.00     0.24       0.00    -0.06
 55   1.0870      0.00     0.25       0.00     0.02
 56   1.0870      0.00     0.24       0.00    -0.04
 57   1.1383      0.00     0.25       0.00    -0.38
 58   1.1384      0.00     0.60       0.00    -0.33
 59   1.1525      0.00     0.21       0.00    -0.16
 60   1.1525      0.00     0.35       0.00    -0.20
 61   1.1525      0.00     0.24       0.00    -0.16
 62   1.1525      0.00     0.33       0.00    -0.18
 63   1.1526      0.00     0.30       0.00    -0.11
 64   1.1526      0.00     0.29       0.00    -0.17
 65   1.1526      0.00     0.23       0.00    -0.07
 66   1.1526      0.00     0.35       0.00    -0.01
 67   1.2139      0.00     0.36       0.00     0.04
 68   1.2139      0.00     0.75       0.00     0.27
 69   1.2139      0.00     0.24       0.00     0.30
 70   1.2139      0.00     0.02       0.00     0.43
 71   1.2165      0.00    -0.01       0.00     0.28
 72   1.2165      0.00     0.31       0.00     0.95
 73   1.2165      0.00     0.09       0.00     0.49
 74   1.2176      0.00     0.79       0.00     0.11
 75   1.2176      0.00     0.50       0.00    -0.57
 76   1.2176      0.00     0.51       0.00     0.36
 77   1.2176      0.00     0.29       0.00    -0.32
 78   1.2286      0.00     0.35       0.00    -0.50
 79   1.2288      0.00     0.37       0.00    -0.19
 80   1.2312      0.00    -0.03       0.00    -0.53
 81   1.2315      0.00     0.15       0.00    -0.44
 82   1.2342      0.00     0.29       0.00    -0.23
 83   1.2344      0.00     0.45       0.00    -0.33
 84   1.2672      0.00    -0.07       0.00    -0.19
 85   1.2672      0.00     0.16       0.00    -0.12
 86   1.2673      0.00     0.22       0.00    -0.09
 87   1.2699      0.00     0.19       0.00    -0.14
 88   1.2699      0.00     0.36       0.00    -0.02
 89   1.2700      0.00     0.15       0.00    -0.07
 90   2.0255      0.00    -1.09       0.00     0.81
 91   2.0255      0.00     0.04       0.00    -0.31
 92   2.0255      0.00    -0.16       0.00    -0.21
 93   2.0256      0.00    -0.83       0.00     0.17
 94   2.0256      0.00    -0.05       0.00    -0.16
 95   2.0421      0.00    -0.31       0.00     0.03
 96   2.0421      0.00    -0.11       0.00     0.58
 97   2.0421      0.00     0.54       0.00    -0.28
 98   2.0421      0.00    -0.02       0.00    -0.24
 99   2.2021      0.00     0.03       0.00    -0.52
100   2.2022      0.00     0.21       0.00    -0.16
101   2.2045      0.00     0.20       0.00    -0.19
102   2.2045      0.00     0.07       0.00    -0.33
103   2.2046      0.00     0.70       0.00    -0.17
104   2.2170      0.00     1.97       0.00    -0.83
105   2.2170      0.00     0.99       0.00    -1.12
106   2.2452      0.00    -0.08       0.00     0.62
107   2.2453      0.00     0.11       0.00     0.55
108   2.2499      0.00    -0.21       0.00     0.03
109   2.2499      0.00     0.36       0.00    -0.29
110   2.2500      0.00     0.33       0.00    -0.11
111   2.2500      0.00     0.26       0.00    -0.15
112   2.2744      0.00     0.72       0.00    -0.05
113   2.2744      0.00     0.89       0.00    -0.25
114   2.2744      0.00     0.63       0.00    -0.15
115   2.2744      0.00     0.50       0.00     0.05
116   2.2752      0.00     0.56       0.00    -0.40
117   2.2753      0.00    -0.19       0.00     0.07
118   2.2753      0.00     0.26       0.00     0.16
119   2.3207      0.00     1.45       0.00     0.41
120   2.3207      0.00     0.42       0.00     0.88
121   2.3208      0.00     0.60       0.00    -0.18
122   2.3318      0.00     0.16       0.00     0.06
123   2.3318      0.00     0.30       0.00    -0.08
124   2.3318      0.00     0.16       0.00    -0.05
125   2.3318      0.00     0.36       0.00    -0.14
126   2.3619      0.00     0.85       0.00     0.12
127   2.3619      0.00    -0.15       0.00    -0.20
128   3.1664      0.00    -0.73       0.00    -0.36
129   3.1664      0.00    -0.52       0.00    -0.33

The following table comes from a 10My integration of the orbit of the object. Three columns are shown. The first column is the result of integrating the nominal orbit. The other two columns are based on clones of the nominal orbit that are +/- 3 sigma from the nominal orbit. If all three types agree then the classificiation is deemed secure. The basis for these calculations is described in more detail in AJ, 129, 1117 (2005). Any use made of these calculations should refer to and credit this publication and the Deep Ecliptic Survey Team.

14RE12    quality flag:3

Type:       CENTAURR  CENTAURR  CENTAURR

axisobj        14.331    14.331    14.331
ecceobj         0.647     0.647     0.647
incobj         31.527    31.527    31.527
qmin            5.055     5.029     5.029
qmax           25.437    23.608    25.564
amean          14.507    14.174    14.428
amin           13.762    14.017    13.545
amax           15.585    14.331    15.385
emean           0.634     0.644     0.646
emin            0.621     0.641     0.627
emax            0.647     0.647     0.662
imean          32.700    32.608    32.874
imin           32.351    32.543    32.543
imax           33.283    32.673    33.716
excite_mean     0.833     0.840     0.844
fracstop        0.001     0.000     0.001
cjmean          2.976     3.000     2.972

libcent 0      -180.0    -180.0    -180.0
libamp  0      -180.0    -180.0    -180.0
libcent 1      -180.0    -180.0    -180.0
libamp  1      -180.0    -180.0    -180.0
libcent 2      -180.0    -180.0    -180.0
libamp  2      -180.0    -180.0    -180.0
libcent 3      -180.0    -180.0    -180.0
libamp  3      -180.0    -180.0    -180.0
libcent 4      -180.0    -180.0    -180.0
libamp  4      -180.0    -180.0    -180.0

kozaimean        81.8      77.9      85.3
kozaiamp          6.5       0.5      10.0