Unbiased orbit determination for the next generation asteroid/comet surveys

In the next generation surveys, the discovery of moving objects can be successful only if an observation strategy and the identification/orbit determination procedure are appropriate for the diverse apparent motions of the target sub-populations. The observations must accurately measure the displace...

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Published in	Proceedings of the International Astronomical Union Vol. 1; no. S229; pp. 367 - 380
Main Authors	Milani, A., Gronchi, G. F., Knežević, Z., Sansaturio, M. E., Arratia, O., Denneau, L., Grav, T., Heasley, J., Jedicke, R., Kubica, J.
Format	Journal Article
Language	English
Published	Cambridge, UK Cambridge University Press 01.08.2005
Subjects	Astronomy Contributed Papers surveys identification orbit determination population models
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Abstract	In the next generation surveys, the discovery of moving objects can be successful only if an observation strategy and the identification/orbit determination procedure are appropriate for the diverse apparent motions of the target sub-populations. The observations must accurately measure the displacement over a short interval of time; observations believed to belong to the same object have to be connected into tracklets. Information contained in tracklets is in most cases not sufficient to compute an orbit: two or more of them must be identified to provide an orbit. We have developed a method for recursive identification of tracklets allowing an unbiased orbit determination for all sub-populations and efficient enough to cope with the data flow expected from the next generation surveys. The success of the new algorithms can be easily measured only in a simulation, by consulting a posteriori some “ground truth”. We present here the results of a simulation of the orbit determination for one month of operations of the future Pan-STARRS survey, based upon a Solar System Model with a downsized population of Main Belt asteroids and a full size populations of Trojans, NEO, Centaurs, Comets and TNO. The results indicate that the method already developed and tested to find identifications of NEO and Main Belt asteroids are directly applicable to Trojans. The more distant objects often require modified algorithms, fitting orbits with only 4 parameters in a coordinate system specially adapted to handle very short arcs of observations. These orbits are mostly used as intermediate results, allowing to find full solutions as more tracklets are identified. When the number density of detections is as large as expected from the next generation surveys, both joining observations into tracklets and identifying tracklets can produce some false results. The only reliable way to remove them is a procedure of tracklet/identification management. It compares the tracklets and the identifications with a complex logic, allowing to discard almost all the false tracklets and all the false identifications. However, the distant objects still present a challenge for orbit determination: they require three tracklets in separate nights. If this requirement is met we have found no problem in achieving an unbiased orbit determination for all populations. Further work will lead to more advanced simulations, in particular by introducing a realistic model for astrometric and photometric errors.
AbstractList	In the next generation surveys, the discovery of moving objects can be successful only if an observation strategy and the identification/orbit determination procedure are appropriate for the diverse apparent motions of the target sub-populations. The observations must accurately measure the displacement over a short interval of time; observations believed to belong to the same object have to be connected into tracklets. Information contained in tracklets is in most cases not sufficient to compute an orbit: two or more of them must be identified to provide an orbit. We have developed a method for recursive identification of tracklets allowing an unbiased orbit determination for all sub-populations and efficient enough to cope with the data flow expected from the next generation surveys. The success of the new algorithms can be easily measured only in a simulation, by consulting a posteriori some “ground truth”. We present here the results of a simulation of the orbit determination for one month of operations of the future Pan-STARRS survey, based upon a Solar System Model with a downsized population of Main Belt asteroids and a full size populations of Trojans, NEO, Centaurs, Comets and TNO. The results indicate that the method already developed and tested to find identifications of NEO and Main Belt asteroids are directly applicable to Trojans. The more distant objects often require modified algorithms, fitting orbits with only 4 parameters in a coordinate system specially adapted to handle very short arcs of observations. These orbits are mostly used as intermediate results, allowing to find full solutions as more tracklets are identified. When the number density of detections is as large as expected from the next generation surveys, both joining observations into tracklets and identifying tracklets can produce some false results. The only reliable way to remove them is a procedure of tracklet/identification management. It compares the tracklets and the identifications with a complex logic, allowing to discard almost all the false tracklets and all the false identifications. However, the distant objects still present a challenge for orbit determination: they require three tracklets in separate nights. If this requirement is met we have found no problem in achieving an unbiased orbit determination for all populations. Further work will lead to more advanced simulations, in particular by introducing a realistic model for astrometric and photometric errors. In the next generation surveys, the discovery of moving objects can be successful only if an observation strategy and the identification/orbit determination procedure are appropriate for the diverse apparent motions of the target sub-populations. The observations must accurately measure the displacement over a short interval of time; observations believed to belong to the same object have to be connected into tracklets. Information contained in tracklets is in most cases not sufficient to compute an orbit: two or more of them must be identified to provide an orbit. We have developed a method for recursive identification of tracklets allowing an unbiased orbit determination for all sub-populations and efficient enough to cope with the data flow expected from the next generation surveys. The success of the new algorithms can be easily measured only in a simulation, by consulting a posteriori some "ground truth". We present here the results of a simulation of the orbit determination for one month of operations of the future Pan-STARRS survey, based upon a Solar System Model with a downsized population of Main Belt asteroids and a full size populations of Trojans, NEO, Centaurs, Comets and TNO. The results indicate that the method already developed and tested to find identifications of NEO and Main Belt asteroids are directly applicable to Trojans. The more distant objects often require modified algorithms, fitting orbits with only 4 parameters in a coordinate system specially adapted to handle very short arcs of observations. These orbits are mostly used as intermediate results, allowing to find full solutions as more tracklets are identified. When the number density of detections is as large as expected from the next generation surveys, both joining observations into tracklets and identifying tracklets can produce some false results. The only reliable way to remove them is a procedure of tracklet/identification management. It compares the tracklets and the identifications with a complex logic, allowing to discard almost all the false tracklets and all the false identifications. However, the distant objects still present a challenge for orbit determination: they require three tracklets in separate nights. If this requirement is met we have found no problem in achieving an unbiased orbit determination for all populations. Further work will lead to more advanced simulations, in particular by introducing a realistic model for astrometric and photometric errors. [PUBLICATION ABSTRACT]
Author	Heasley, J. Kubica, J. Gronchi, G. F. Jedicke, R. Arratia, O. Milani, A. Sansaturio, M. E. Knežević, Z. Denneau, L. Grav, T.
Author_xml	– sequence: 1 givenname: A. surname: Milani fullname: Milani, A. email: milani@dm.unipi.it organization: Department of Mathematics, University of Pisa, Piazza Pontecorvo 5, 56127 Pisa, Italy email: milani@dm.unipi.it – sequence: 2 givenname: G. F. surname: Gronchi fullname: Gronchi, G. F. email: milani@dm.unipi.it organization: Department of Mathematics, University of Pisa, Piazza Pontecorvo 5, 56127 Pisa, Italy email: milani@dm.unipi.it – sequence: 3 givenname: Z. surname: Knežević fullname: Knežević, Z. organization: Astronomical Observatory, Volgina 7, 11160 Belgrade 74, Serbia and Montenegro – sequence: 4 givenname: M. E. surname: Sansaturio fullname: Sansaturio, M. E. organization: E.T.S. de Ingenieros Industriales, University of Valladolid Paseo del Cauce s/n 47011 Valladolid, Spain – sequence: 5 givenname: O. surname: Arratia fullname: Arratia, O. organization: E.T.S. de Ingenieros Industriales, University of Valladolid Paseo del Cauce s/n 47011 Valladolid, Spain – sequence: 6 givenname: L. surname: Denneau fullname: Denneau, L. organization: Institute for Astronomy, University of Hawaii, Honolulu, HI, 96822 – sequence: 7 givenname: T. surname: Grav fullname: Grav, T. organization: Institute for Astronomy, University of Hawaii, Honolulu, HI, 96822 – sequence: 8 givenname: J. surname: Heasley fullname: Heasley, J. organization: Institute for Astronomy, University of Hawaii, Honolulu, HI, 96822 – sequence: 9 givenname: R. surname: Jedicke fullname: Jedicke, R. organization: Institute for Astronomy, University of Hawaii, Honolulu, HI, 96822 – sequence: 10 givenname: J. surname: Kubica fullname: Kubica, J. organization: Carnegie Mellon University, Robotics Institute, Pittsburgh, PA, 15213
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