Volume 17, Issue 1 (Journal of Control, V.17, N.1 Spring 2023)                   JoC 2023, 17(1): 51-60 | Back to browse issues page

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Zia V, Nourmohammadi H. Waypoint Guidance of Autonomous Underwater Vehicle Based on Line of Sight Law and Haversine Equations. JoC 2023; 17 (1) :51-60
URL: http://joc.kntu.ac.ir/article-1-966-en.html
1- Malek Ashtar University of technology
Abstract:   (1187 Views)
Waypoint guidance is one of the most common guidance methods for following a predetermined path in all types of robots. In this method, in addition to the starting point and the goal, several intermediate points are determined as waypoints, and the robot must consider each of the intermediate waypoints as a virtual destination and reach that point. Then Switch to the next waypoint and reach the final destination by passing through all of them. The aim of this paper is to design a multi-point guidance algorithm based on Haversine equations and spherical earth model for an Autonomous Underwater Vehicle. It will be possible to implement all kinds of research projects, sonar photography of the seabed and waterways, and monitoring of energy and telecommunication transmission lines through the design of various routes using the proposed method. The proposed multi-point guidance algorithm has been implemented in the field of a research Autonomous Underwater Vehicle and its efficiency has been evaluated.
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Type of Article: Review paper | Subject: Special
Received: 2022/12/31 | Accepted: 2023/04/21 | ePublished ahead of print: 2023/06/12 | Published: 2023/06/22

1. [1]. D. Karimanzira, M. Jacobi, T. Pfuetzenreuter, T. Rauschenbach, M. Eichhorn, R. Taubert b, C. Ament "First testing of an AUV mission planning and guidance system for water quality monitoring and fish behavior observation in net cage fish farming", Information Processing in Agriculture (2014). [DOI:10.1016/j.inpa.2014.12.001]
2. [2]. Tor Marius Jensen "Waypoint-Following Guidance Based on Feasibility Algorithms" Master of Science in Engineering Cybernetics, Norwegian University of Science and Technology, June 2011.
3. [3]. Anastasios M. Lekkas and Thor I. Fossen "Integral LOS Path Following for Curved Paths Based on a Monotone Cubic Hermite Spline Parametrization" Ieee Transactions on Control systems Technology, 2014.
4. [4]. Thor I. Fossen, Kristin Y. Pettersen, Senior Members, IEEE, and Roberto Galeazzi, Member " Line-of-Sight Path Following for Dubins Paths with Adaptive Sideslip Compensation of Drift Forces" Ieee Transactions on Control systems Technology, Vol. XX, NO. Y, MONTH 2013.
5. [5]. Anastasios M. Lekkas "Guidance and Path-Planning Systems for Autonomous Vehicles" Norwegian University of Science and Technology, Thesis for the degree of philosophiae doctor Trondheim, April 2014.
6. [6] Benny Dwi Kifana & Maman Abdurohman "Great Circle Distance Methode for Improving Operational Control System Based on GPS Tracking System" International Journal on Computer Science and Engineering (IJCSE), Vol. 4 No. 04 April 2012.
7. [7] Andrew James Cooper, Chelsea Anne Redman, David Mark Stoneham, Luis Felipe Gonzalez and Victor Kwesi Etse " A Dynamic Navigation Model for Unmanned Aircraft Systems and an Application to Autonomous Front-On Environmental Sensing and Photography Using Low-Cost Sensor Systems" Sensors 2015. [DOI:10.3390/s150921537]
8. [8] Björn Bittins "Indoor Navigation Based on a Multimodal Positioning System" Master's Thesis to the Degree Program Applied Computer Science University of Applied Sciences Berlin (HTW), August 17, 2012.
9. [9] Seyed Vahid zia, Seyed Hamid Mosavi & Pouria Sarhadi "Comparison Simple, Proportional and Proportional-Integral Line of Sight Guidance for Path Following in Autonomous Underwater Vehicle" 3rd National and First International Conference in applied research on Electric, Mechanical and Mechatronics Engineering, 2015.

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