Abstract
This paper devoted to propose template match object detection for inertial navigation systems (INS). The proposed method is an image processing technique to improve the precision of the INS for detecting and tracking the ground objects from flying vehicles. Template matching is one of the methods used for ground object detection and tracking. Robust and reliable object detection is a critical step of object recognition. This paper presents a proposed mathematical morphological template matching method for detection and tracking of ground objects. Our focus is on flying systems equipped with camera to capture photos for the ground and recognize it. The proposed method is independent on the altitude or the orientation of the object. The algorithm is simulated using Matlab program and the numerical experiments are shown which verify the object detection for a wide range altitude and orientation. The results show superiority of this method for identifying and recognizing the ground objects.
Highlights
An inertial navigation systems (INS) is a navigation system which depends entirely on inertial measurements for navigation
The proposed method is an image processing technique to improve the precision of the INS for detecting and tracking the ground objects from flying vehicles
Template matching is one of the methods used for ground object detection and tracking
Summary
An INS is a navigation system which depends entirely on inertial measurements for navigation. Previous works [6,7,8,9,10] on template-based object detection extract low-level image features such as edges, corners, regions and interest points, and locate the target boundary by grouping the features and matching them to those on the template. In these works, computational complexity usually is very high, and object occlusion poses a great challenge to the detection algorithms. This paper introduce a simple template match object recognition technique able to detect and recognize the ground objects in the stage of fine tuning the INS for flying vehicles
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