@inproceedings{Denzler94:LTA, type = {inproceedings}, key = {Denzler94:LTA}, title = {Learning, Tracking and Recognition of 3D-Objects}, author = {Joachim Denzler and R. Beß and Joachim Hornegger and Heinrich Niemann and Dietrich Paulus}, booktitle = {International Conference on Intelligent Robots and Systems}, year = {1994}, note = {adress: München}, pages = {89-96}, abstract = {In this contribution we describe steps towards the implementation of an active robot vision system. In a sequence of images taken by a camera mounted on the hand of a robot, we detect, track, and estimate the position and orientation (pose) of a three-dimensional moving object. The extraction of the region of interest is done automatically by a motion tracking step. For learning 3-D objects using two-dimensional views and estimating the object's pose, a uniform statistical method is presented which is based on the Expectation-Maximization-Algorithm (EM-Algorithm). An explicit matching between features of several views is not necessary. The acquisition of the training sequence required for the statistical learning process needs the correlation between the image of an object and its pose; this is performed automatically by the robot. The robot's camera parameters are determined by a hand/eye-calibration and a subsequent computation of the camera position using the robot position. During the motion estimation stage the moving object is computed using active, elastic contours (snakes). We introduce a new approach for online initializing the snake on the first images of the given sequence, and show that the method of snakes is suited for real time motion tracking.}, groups = {before2000}, keywords = {Bild}, }