Author

Aditya Ramani

Graduation Semester and Year

2016

Language

English

Document Type

Thesis

Degree Name

Master of Science in Aerospace Engineering

Department

Mechanical and Aerospace Engineering

First Advisor

Atilla Dogan

Abstract

Introduction of UAV (Unmanned Aerial Vehicles) into the NAS (National Air Space) requires the detect-and-avoid capability. That is, an aircraft should be able to detect other aircraft flying in the same airspace volume and make evasive maneuvers if there is potential conflict. One potential methods currently investigated for detection of an intruder aircraft is to process digital images taken by onboard cameras. When and if intruder aircraft detection is successful through image processing, avoidance algorithms can greatly benefit from the relative position information. This thesis research investigates methods to compute the position of an intruder aircraft relative to an observer aircraft with onboard stereo cameras. To focus on relative position estimation rather than the intruder aircraft detection through image processing, the first phase of the research effort was to generate camera images given the relative position information. This process uses a simple pinhole camera methods where cameras are characterized by focal length, angle of view and resolution. The second phase of the research developed two methods to estimate the relative position based on the generated camera images. Both methods employ epipolar geometry of stereo vision based on two cameras placed on the aircraft with lateral separation. Various cases are run in a Matlab/Simulink-simulation environment that is developed for this research. Simulation cases are designed to evaluate the relative position estimation methods with different aircraft trajectories, different camera separation, and different camera resolution. Simulation results show that relative position can be estimated while both aircraft are flying along any trajectories as long as the intruder aircraft is visible by both cameras. The estimation accuracy degrades as the relative distance increases between the aircraft. The larger lateral separation seems to improve the estimation accuracy. Image resolution seems to have little to no impact on estimation accuracy.

Keywords

Relative Position, Stereoscopic Images

Disciplines

Aerospace Engineering | Engineering | Mechanical Engineering

Comments

Degree granted by The University of Texas at Arlington

25822-2.zip (1027 kB)

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