In this paper, a sensor fusion technique is proposed for autonomous underwater vehicles (AUV) to track underwater cables. The work presented here is an extension of the authors' previously proposed vision based cable tracking system (1997, 1998). The focus of this paper is to solve the two practical problems encountered in vision based systems; namely (1) navigation of AUV when cable is invisible in the image, and (2) selection of the correct cable (interested feature) when there are many similar features appearing in the image. The proposed sensor fusion scheme uses deadreckoning position uncertainty with a 2D position model of the cable to predict the region of interest in the image. This reduces the processing data increasing processing speed and avoids tracking other similar features appearing in the image. The proposed method uses a 2D position model of the cable for AUV navigation when the cable features are invisible in the predicted region. An experiment is conducted to test the performance of the proposed system using the AUV "Twin-Burger 2". The experimental results presented in this paper shows how the proposed method handles the above mentioned practical problems.
[1]
Tamaki Ura,et al.
Vision Based Object Following for Underwater Vehicles : Part 2 : Collaborative Control with Pan and Tilt Camera Mechanism
,
1998
.
[2]
Tamaki Ura,et al.
Autonomous target tracking by underwater robots based on vision
,
1998,
Proceedings of 1998 International Symposium on Underwater Technology.
[3]
Balasuriya B.A.A.P.
Computer vision for autonomous underwater vehicle navigation
,
1998
.
[4]
J. Kojima,et al.
Acoustic video-signal transmission system for autonomous underwater vehicle
,
1996,
Proceedings of Symposium on Autonomous Underwater Vehicle Technology.
[5]
Tamaki Ura,et al.
Vision based autonomous underwater vehicle navigation: underwater cable tracking
,
1997,
Oceans '97. MTS/IEEE Conference Proceedings.