BEAGLE2 SIMULATION, KINEMATICS CALIBRATION, AND ENVIRONMENT DEM GENERATION

Beagle2 (1) as part of the ESA Mars Express mission (2) will be launched in June 2003. The primary science goal of Beagle2 is to search for the presence of life on the planet with the aid of a sophisticated package of scientific instruments (3). These include mass, Mossbauer and X-ray spectrometers, a microscope, stereo camera system (SCS), and environment sensors. All but the mass spectrometer are mounted on a structure called the PAW, which also carries a mole device (PLUTO) to obtain sub-surface, and/or under rock samples, and a corer/grinder to remove weather rind from rock surfaces. Deployment of the PAW is achieved using a robot ARM that has been designed and built by Astrium Ltd (4). The operation of the ARM with its PAW 'end- eector' is therefore of paramount importance during the mission, and considerable eort has been expended to validate its performance, and to provide ARM software tools that can be used during mission operations. The work has involved the creation of a virtual Beagle2 software simulation, kinematics calibration, and subsequent PAW SCS calibration and Beagle2 environment DEM generation. This paper provides details our work in these areas, together with the results that we have obtained when using our calibrated Beagle2 simulation to generate ARM joint angle data which have been used to command the real Beagle2 ARM.