Without the ability to foveate on and maintain foveation, active vision for applications such as surveillance, object recognition and object tracking are difficult to build. Although foveation in cartesian coordinates is being actively pursued by many, multi-resolution high accuracy foveation in log polar space has not been given much attention. This paper addresses the use of foveation to track a single object as well as multiple objects for a simulated space variant active vision system. Complex logarithmic mapping is chosen firstly because it provides high resolution and wide angle viewing. Secondly, the spatially variant structure of log polar space leads to an object increasing in size as it moves towards the fovea. This is important as we know which object is closer to the fovea at any instant in time.
[1]
Svetha Venkatesh,et al.
Resolution consideration in spatially variant sensors
,
1996,
Proceedings of 13th International Conference on Pattern Recognition.
[2]
Dana H. Ballard,et al.
Animate Vision
,
1991,
Artif. Intell..
[3]
Svetha Venkatesh,et al.
Feature detection and recognition in active vision utilizing foveation in log polar space
,
1995
.
[4]
Giulio Sandini,et al.
A Foveated Retina-Like Sensor Using CCD Technology
,
1989,
Analog VLSI Implementation of Neural Systems.
[5]
Svetha Venkatesh,et al.
Human saccadic eye movements and tracking by active foveation in log polar space
,
1996,
Electronic Imaging.