STUDY OF LEVER-ARM EFFECT USING EMBEDDED PHOTOGRAMMETRY AND ON-BOARD GPS RECEIVER ON UAV FOR METROLOGICAL MAPPING PURPOSE AND PROPOSAL OF A FREE GROUND MEASUREMENTS CALIBRATION PROCEDURE
- 1Vinci-Construction-Terrassement, 1, Rue du docteur Charcot, 91421 Morangis, France
- 2Universit´e Paris-Est, IGN, ENSG, LOEMI , 6-8 Avenue Blaise Pascal, 77455 Champs-sur-Marne, France
- 3ENSTA Bretagne-OSM Team, 2 rue Francois Verny, 29806 Brest, France
- 4Universit´e Paris-Est, IGN, SRIG, LOEMI, 73 avenue de Paris, 94160 Saint-Mande, France
Keywords: UAV, photogrammetry, GPS, lever-arm, calibration, direct-georeferencing, synchronisation, MicMac
Abstract. Nowadays, Unmanned Aerial Vehicle (UAV) on-board photogrammetry knows a significant growth due to the democratization of using drones in the civilian sector. Also, due to changes in regulations laws governing the rules of inclusion of a UAV in the airspace which become suitable for the development of professional activities. Fields of application of photogrammetry are diverse, for instance: architecture, geology, archaeology, mapping, industrial metrology, etc. Our research concerns the latter area. Vinci-Construction- Terrassement is a private company specialized in public earthworks that uses UAVs for metrology applications. This article deals with maximum accuracy one can achieve with a coupled camera and GPS receiver system for direct-georeferencing of Digital Surface Models (DSMs) without relying on Ground Control Points (GCPs) measurements. This article focuses specially on the lever-arm calibration part. This proposed calibration method is based on two steps: a first step involves the proper calibration for each sensor, i.e. to determine the position of the optical center of the camera and the GPS antenna phase center in a local coordinate system relative to the sensor. A second step concerns a 3d modeling of the UAV with embedded sensors through a photogrammetric acquisition. Processing this acquisition allows to determine the value of the lever-arm offset without using GCPs.