Abstract
Factors, such as rapid relative motion, clutter background, etc., make robust small aerial target detection for airborne infrared detection systems a challenge. Existing methods are facing difficulties when dealing with such cases. We consider that a continuous and smooth trajectory is critical in boosting small infrared aerial target detection performance. A simple and effective small aerial target detection method for airborne infrared detection system using light gradient boosting model (LightGBM) and trajectory constraints is proposed in this article. First, we simply formulate target candidate detection as a binary classification problem. Target candidates in every individual frame are detected via interesting pixel detection and a trained LightGBM model. Then, the local smoothness and global continuous characteristic of the target trajectory are modeled as short-strict and long-loose constraints. The trajectory constraints are used efficiently for detecting the true small infrared aerial targets from numerous target candidates. Experiments on public datasets demonstrate that the proposed method performs better than other existing methods. Furthermore, a public dataset for small aerial target detectionin airborne infrared detection systems is constructed. To the best of our knowledge, this dataset has the largest data scale and richest scene types within this field.
Highlights
Compared to optical or radar detection, infrared detection has the advantages of all-day and all-weather operation, high resolution, and strong concealment simultaneously
For the airborne infrared detection systems, which are subject to rapid relative motion and cluttered backgrounds, small aerial target detection is still a challenge
This study tackles the challenge of small aerial target detection for airborne infrared detection systems by using the Light Gradient Boosting Model (LightGBM) [2] and trajectory constraints innovatively
Summary
Compared to optical or radar detection, infrared detection has the advantages of all-day and all-weather operation, high resolution, and strong concealment simultaneously. The background characteristic [5, 7] and the local contrast [15, 16] are widely used in single frame based infrared small target detection Such methods are efficient and easy to implement. Temporal cues contained in multiple successive frames, e.g., the high correlation of background and the continuity of the target, are important for robust small infrared target detection [1]. We find that true targets exhibit continuous and smooth long trajectories while the clutter does not Based on this fact, this study tackles the challenge of small aerial target detection for airborne infrared detection systems by using the Light Gradient Boosting Model (LightGBM) [2] and trajectory constraints innovatively. The background modeling is often time consuming. 3) Local characteristic difference based methods
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