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Vision-Based In-Flight Collision Avoidance Control Based on Background Subtraction Using Embedded System. | LitMetric

Vision-Based In-Flight Collision Avoidance Control Based on Background Subtraction Using Embedded System.

Sensors (Basel)

School of Computing, Dept. of AI-SW, Gachon University, 1342 Seongnam-daero, Sujeong-gu, Seongnam 13306, Republic of Korea.

Published: July 2023

AI Article Synopsis

  • - The paper presents a new vision-based collision avoidance system for unmanned aerial vehicles (UAVs) that enhances their autonomy and safety during flight by detecting and avoiding obstacles.
  • - The proposed system uses dynamic background subtraction to identify moving objects, employs noise reduction techniques, clusters the detected objects, and tracks their movements via a Kalman filter for effective collision avoidance.
  • - A test quadrotor UAV is used to demonstrate the system's capabilities, integrating motion-compensating detection and stereo-camera distance estimation to enable informed decision-making for evasive maneuvers.

Article Abstract

The development of high-performance, low-cost unmanned aerial vehicles paired with rapid progress in vision-based perception systems herald a new era of autonomous flight systems with mission-ready capabilities. One of the key features of an autonomous UAV is a robust mid-air collision avoidance strategy. This paper proposes a vision-based in-flight collision avoidance system based on background subtraction using an embedded computing system for unmanned aerial vehicles (UAVs). The pipeline of proposed in-flight collision avoidance system is as follows: (i) subtract dynamic background subtraction to remove it and to detect moving objects, (ii) denoise using morphology and binarization methods, (iii) cluster the moving objects and remove noise blobs, using Euclidean clustering, (iv) distinguish independent objects and track the movement using the Kalman filter, and (v) avoid collision, using the proposed decision-making techniques. This work focuses on the design and the demonstration of a vision-based fast-moving object detection and tracking system with decision-making capabilities to perform evasive maneuvers to replace a high-vision system such as event camera. The novelty of our method lies in the motion-compensating moving object detection framework, which accomplishes the task with background subtraction via a two-dimensional transformation approximation. Clustering and tracking algorithms process detection data to track independent objects, and stereo-camera-based distance estimation is conducted to estimate the three-dimensional trajectory, which is then used during decision-making procedures. The examination of the system is conducted with a test quadrotor UAV, and appropriate algorithm parameters for various requirements are deduced.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10385618PMC
http://dx.doi.org/10.3390/s23146297DOI Listing

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