Our contribution is based on a research aimed to a “quick” resolution of an integrated problem oriented towards the self-localization and perimetration through mobile devices. The adopted methodology is applied on a real case study by using the following surveying tools: a kinematic Global Positioning System (GPS) and a Laser Scanner supporting a “mobile platform”. A GPS receiver provided by Leica Geosystem and a two-dimensional Laser Scanner provided by the Automation and Control Laboratory of the University “Mediteranea” of Reggio Calabria were positioned on an experimental mobile system specifically designed to simulate the behaviour of a future and fully automated platform. The research is aimed to conduct the traditional land surveying through a Laser Scanner alongside with GPS receivers in a three dimensional centimetric resolution within one single system of reference made up of individual scans operated by a “Stop-and-Go “ device.
Self-localization by Laser Scanner and GPS in automated surveys / Barrile, Vincenzo; Bilotta, G. - 307:(2014), pp. 23.293-23.311. [10.1007/978-3-319-03967-1_23]
Self-localization by Laser Scanner and GPS in automated surveys
BARRILE, Vincenzo;
2014-01-01
Abstract
Our contribution is based on a research aimed to a “quick” resolution of an integrated problem oriented towards the self-localization and perimetration through mobile devices. The adopted methodology is applied on a real case study by using the following surveying tools: a kinematic Global Positioning System (GPS) and a Laser Scanner supporting a “mobile platform”. A GPS receiver provided by Leica Geosystem and a two-dimensional Laser Scanner provided by the Automation and Control Laboratory of the University “Mediteranea” of Reggio Calabria were positioned on an experimental mobile system specifically designed to simulate the behaviour of a future and fully automated platform. The research is aimed to conduct the traditional land surveying through a Laser Scanner alongside with GPS receivers in a three dimensional centimetric resolution within one single system of reference made up of individual scans operated by a “Stop-and-Go “ device.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.