Title :
Synergism of binocular and motion stereo for passive ranging
Author :
Bhanu, Bir ; Das, Subhodev ; Symosek, Peter ; Snyder, Scott ; Roberts, Barry
Author_Institution :
Coll. of Eng., California Univ., Riverside, CA, USA
fDate :
7/1/1994 12:00:00 AM
Abstract :
Range measurements to objects in the world relative to mobile platforms such as ground or air vehicles are critical for visually aided navigation and obstacle detection/avoidance. An approach is presented that consists of a synergistic combination of two types of passive ranging method: binocular stereo and motion stereo. We show a new way to model the errors in binocular and motion stereo in conjunction with an inertial navigation system (INS) and derive the appropriate Kalman filter to refine the estimates from these two stereo ranging techniques. We present results using laboratory images that show that refined estimates can be optimally combined to give range values which are more accurate than any one of the individual estimates from binocular and motion stereo. By incorporating a blending filter, the approach has the potential of providing accurate, dense range measurements for all the pixels in the field of view (FOV)
Keywords :
Kalman filters; computer vision; edge detection; inertial navigation; motion estimation; stereo image processing; INS; Kalman filter; air vehicles; binocular stereo method; blending filter; dense range measurements; errors modelling; ground vehicles; inertial navigation; laboratory images; mobile platforms; motion stereo; obstacle detection/avoidance; passive ranging; range measurement; refined estimates; stereo ranging; visually aided navigation; Data acquisition; Inertial navigation; Kalman filters; Land vehicles; Motion estimation; Motion measurement; Object detection; Road vehicles; Robustness; Vehicle detection;
Journal_Title :
Aerospace and Electronic Systems, IEEE Transactions on
