Academia, Industry and Government are investigating the reliability to use the real time kinematic (RTK) Global Navigation Satellite System (GNSS) techniques for centimetre level positioning of many existing and emerging applications. These include for instance mobile mapping and airborne laser scanning systems. The classical RTK methodology allows for an operational distance between the reference station and the user, within a range of 10-15 kilometres, due to the effect of correlation of some GNSS errors which tend to increase with distance. The adoption of a network-based RTK (NRTK) allow to extend centimetric level positioning within continuously operating reference station network (CORS) with separation distance up to 70 kilometres. One of the research aim was to evaluate the positional accuracy of the GNSS NRTK for mobile mapping applications. In order to understand the potentiality and the limitations of this methodology a testing procedure was designed using the BO-POS Network, established in 2003 in an area within Emila-Romagna, Marche e Toscana. From an operational point of view, a double antenna system was mounted on board of a vehicle also equipped with three dual frequency receivers capable of NRTK positioning. In order to investigate the GNSS NRTK positional accuracy for mobile mapping system applications a least square-based algorithm was developed to determine a reference trajectory. This paper describes the Bologna CORS network, the testing procedure adopted and details the algorithm based on a constrained least square adjustment of the phase centres’ coordinates of the 2 antennae. The positional accuracy of the NRTK path will be finally assessed by comparing the results of the NRTK trajectory with post processed adjusted one.
GNSS network real time positioning: testing procedure to evaluate the accuracy of a geodetic moving antenna.
GORDINI, CRISTIAN;BARBARELLA, MAURIZIO
2007
Abstract
Academia, Industry and Government are investigating the reliability to use the real time kinematic (RTK) Global Navigation Satellite System (GNSS) techniques for centimetre level positioning of many existing and emerging applications. These include for instance mobile mapping and airborne laser scanning systems. The classical RTK methodology allows for an operational distance between the reference station and the user, within a range of 10-15 kilometres, due to the effect of correlation of some GNSS errors which tend to increase with distance. The adoption of a network-based RTK (NRTK) allow to extend centimetric level positioning within continuously operating reference station network (CORS) with separation distance up to 70 kilometres. One of the research aim was to evaluate the positional accuracy of the GNSS NRTK for mobile mapping applications. In order to understand the potentiality and the limitations of this methodology a testing procedure was designed using the BO-POS Network, established in 2003 in an area within Emila-Romagna, Marche e Toscana. From an operational point of view, a double antenna system was mounted on board of a vehicle also equipped with three dual frequency receivers capable of NRTK positioning. In order to investigate the GNSS NRTK positional accuracy for mobile mapping system applications a least square-based algorithm was developed to determine a reference trajectory. This paper describes the Bologna CORS network, the testing procedure adopted and details the algorithm based on a constrained least square adjustment of the phase centres’ coordinates of the 2 antennae. The positional accuracy of the NRTK path will be finally assessed by comparing the results of the NRTK trajectory with post processed adjusted one.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.