2 results listed
Nowadays everyone is trying to record the moment everywhere and wants it to be perfect. Beyond resolution, there is a desire to get steady shots regardless of the environmental conditions. The gimbal stabilization system ensures a stable image by blocking motion-related vibrations before they are transferred to the camera lens axes. Thanks to the Three Axis Gimbal, perfect images can be achieved by minimizing the vibrations while jogging, climbing or coming down stairs, cycling, or using any kind of vehicle. In short, a three-axis gimbal can be integrated everywhere a fixed image is needed. It is envisaged that gimbal stabilization system will be needed in many scientific studies in the following periods.
The aim of this study is to present the Three Axis Gimbal mechanism. Three separate brushless servo motors are installed on each axis for absorbing unwanted movements. The gimbal is also equipped with an inertial measurement unit consisting of a gyroscope and accelerometer close to the camera mount point. The general control system and PID controller are simulated by using MATLAB and the results are shown graphically.
International Conference on Advanced Technologies, Computer Engineering and Science
ICATCES
Emi̇ne Dere
M.OZCAN
Süleyman CANAN
In this study, we presented the use of the A-Star algorithm to find the shortest path between a starting-point and ending-point on the map which is taken from Google Maps and segmented as grid-cells. The active paths on Google Maps are specified in the Algorithm Map by dividing into grids, and it is desirable to find the shortest path from the A* algorithm. In addition, the traffic intensity of various roads is shown on the Google Maps. This information is processed on the Algorithm Map so that the algorithm can find the shortest route by considering traffic density.
International Conference on Advanced Technologies, Computer Engineering and Science
ICATCES
Emi̇ne Dere
A.DURDU