Title :
Implementation of visual navigation algorithms on the Eye-RIS 1.3 system
Author :
Zarandy, Akos ; Pencz, Borbala ; Nemeth, Mate ; Zsedrovits, Tamas
Author_Institution :
Comput. & Autom. Res. Inst., Budapest, Hungary
Abstract :
Tracking multiple stationary environmental points from a moving platform vision system enables the calculation of the rotation and relative displacement components of the ego-motion. This is very useful for small autonomously moving robotic platforms, like a UAV, where this data can be either the primary or the auxiliary navigation information. In case of a high speed, light moving platform (like a quadcopter), the speed the power consumption, and the accuracy of these calculations is critical. This paper analyzes the implementation methods of different point tracking approaches to find the most suitable for the Eye-RIS vision system from speed and accuracy point of views.
Keywords :
autonomous aerial vehicles; helicopters; path planning; robot vision; Eye-RIS 1.3 vision system; UAV; autonomous aerial vehicles; auxiliary navigation information; ego-motion; high-speed light moving platform; moving platform vision system; multiple stationary environmental point tracking; primary navigation information; quadcopter; relative displacement components; rotation components; small-autonomously moving robotic platforms; visual navigation algorithm implementation; Accuracy; Cameras; Gray-scale; Image edge detection; Machine vision; Satellite navigation systems; 5 point algorithm; Eye-RIS vision system; UAV navigation; camera ego-motion; displacement calculation; sensor-processor array;
Conference_Titel :
Cellular Nanoscale Networks and their Applications (CNNA), 2014 14th International Workshop on
Conference_Location :
Notre Dame, IN
DOI :
10.1109/CNNA.2014.6888651
