Robotics technology for the defense of a country today is a necessity. One of such defense  technologies is an unmanned underwater vehicle or Autonomous Underwater Vehicle (AUV). It is a type of underwater robots operated for underwater exploration or underwater defense system equipment. AUV is controlled and able to move with six degrees of freedom (6-DOF). To control AUV requires a motion control system to move as expected. In this research, the motion control system was developed by applying a linear 6-DOF model to UNUSAITS AUV, resulted from linearization of the nonlinear model with 6-DOF, that is, surge, sway, heave, roll, pitch and yaw with Proportional Integral Derivative (PID) method. Specifically, this study is a make comparison the simulation between result of PID method and those of Proportional control system without integral and derivative was made. The contribution of this paper is numeric study regarding the performance of PID compared to proportional applied to AUV linear model. The simulation results show that the PID method could be used as the motion control system of the linear model 6-DOF with an error of 0.4 % - 13% and globally asymthotically stable with analysis of stability using Lyapunov method, whereas the proportional controller still had a considerably significant error.
Copyright © 2018 Praise Worthy Prize - All rights reserved.

Herlambang, T., Nurhadi H and Subchan., 2014, Preliminary Numerical Study on Designing Navigation and Stability Control Systems for ITS AUV, Applied Mechanics and Materials Vol. 493 (2014) pp 420-425 Trans Tech Publications, Switzerland.
https://doi.org/10.4028/www.scientific.net/amm.493.420

Herlambang, T., Djatmiko E.B and Nurhadi H., 2015, Navigation and Guidance Control System of AUV with Trajectory Estimation of Linear Modelling, Proc. of International Conference on Advance Mechatronics, Intelligent Manufactre, and Industrial Automation, IEEE, ICAMIMIA 2015, Surabaya, Indonesia, pp. 184-187, Oct 15 – 17.
https://doi.org/10.1109/icamimia.2015.7508028

Yang, C. 2007. Modular Modelling and Control for Autonomous Vehicle (AUV). Department of Mechanical Engineering National University of Singapore.

Prestero, T., 2001, Verification of Sic-Degee of Freedom Simulation Model for the REMUS Autonomous Uderwater Vehicle, Massachusetts Intitute of Technology.
https://doi.org/10.1575/1912/3040

Healey, A. J., 2002, Guidance and Control, For Small AUVs Using DGPS and Dopples Aided Inertial Underwater Navigation, AAIA Guidance Navigation and Control Conference and Exhibit, Monterey, California, Aug. 5-8.
https://doi.org/10.2514/6.2002-4652

Herlambang, T., Djatmiko, E., Nurhadi, H., Ensemble Kalman Filter with a Square Root Scheme (EnKF-SR) for Trajectory Estimation of AUV SEGOROGENI ITS, (2015) International Review of Mechanical Engineering (IREME), 9 (6), pp. 553-560.
https://doi.org/10.15866/ireme.v9i6.6341

Ermayanti, E., Aprilini, E., Nurhadi H, and Herlambang T, 2015, Estimate and Control Position Autonomous Underwater Vehicle Based on Determined Trajectory using Fuzzy Kalman Filter Method, International Conference on Advance Mechatronics, Intelligent Manufactre, and Industrial Automation (ICAMIMIA)-IEEE Surabaya Indonesia, 15–16 Oktober 2015.
https://doi.org/10.1109/icamimia.2015.7508022

Kondo, H., and Ura, T., 2004, Navigation of an AUV for Investigation of Underwater Structures, Control Engineering Practice, Elsevier, Vol. 12, pp. 1551–1559
https://doi.org/10.1016/j.conengprac.2003.12.005

Jalving, B., and Storkersen, N., 1994, The Control System of an Autonomous Underwater Vehicle, Proc. of the Third IEEE Conference, Vol. 2, pp. 851 – 856, Aug. Glasgow, Scotland

Li, J. H., and Lee, P. M., 2005, Design of an Adaptive Non-linear Controller for Depth Control of an Autonomous Underwater Vehicle, Ocean Engineering, vol. 32 Issues 17-18, pp. 2165-2181
https://doi.org/10.1016/j.oceaneng.2005.02.012

Wu, X., Feng, Z., Zhu, J., and Allen, R., 2008, “GA-Based Path planning for multiple AUVs, International Journal of Control. Vol. 80, Issue-7, pp. 1180-1185.
https://doi.org/10.1080/00207170601145289

Oktafianto, K., Herlambang T., Mardlijah, Nurhadi H., 2015, “Design of Autonomous Underwater Vehcle Motion Control Using Sliding Mode Control Method”, International Conference on Advance Mechatronics, Intelligent Manufactre, and Industrial Automation (ICAMIMIA)-IEEE Surabaya Indonesia, 15–16 October 2015.
https://doi.org/10.1109/icamimia.2015.7508023

Jebelli, A., Yagoub, M., Rahim, R., Kazemi, H., Design and Construction of an Underwater Robot Based Fuzzy Logic Controller, (2013) International Review of Mechanical Engineering (IREME), 7 (1), pp. 147-153.

Fossen, T. I. 2005, A Nonlinear Unified State-space Model for Ship Maneuvering and Control in A Seaway. International Journal of Bifurcation and Chaos, Vol. 5, pp. 2717-2746, Aug.
https://doi.org/10.1142/s0218127405013691

Nie, W and Feng, S., 2016, Planar path-following tracking control for an autonomous underwater vehicle in the horizontal plane, Optik 127, page 11607 – 11616.
https://doi.org/10.1016/j.ijleo.2016.09.081

Herlambang, T., Nurhadi, H., and Subchan 2018 Trajectory Estimation of UNUSAITS AUV Based on Dynamical System with Ensemble Kalman Filter Square Root for Building Platform of Navigation and Guidance Control System, Proc. of International conference on Engineering Technology, Advance Science, and Industrial Application, IEEE, ICETASIA 2018, Surakarta, Indonesia, Sep 06 – 07.

Herlambang, T., Subchan and Nurhadi H., 2018 Design of UNUSAITS AUV Motion Control Using Sliding PID (SPID), Proc. of International conference on Engineering Technology, Advance Science, and Industrial Application, IEEE , ICETASIA 2018, Surakarta, Indonesia, Sep 06 – 07.

Nurhadi. H., Herlambang, T., and Subchan., 2018 Navigation and Guidance System of Autonomous Underwater Vehicle with Trajectory Estimation of Nonlinear Modeling using Ensemble Kalman Filter, Proc. of International conference on Engineering Technology, Advance Science, and Industrial Application, IEEE , ICETASIA 2018, Surakarta, Indonesia, Sep 06 – 07.

Mohd Aras, M., Abdullah, S., Baharin, K., Mohd Nor, A., Mohd Zambri, M., Model Identification of an Underwater Remotely Operated Vehicle Using System Identification Approach Based on NNPC, (2015) International Review of Automatic Control (IREACO), 8 (2), pp. 149-154.
https://doi.org/10.15866/ireaco.v8i2.5525

Hernández Beleño, R., Mora Gonzales, P., Avilés Sánchez, O., Ferreira, J., Dynamic Modeling and PID Control of an Underwater Robot Based on the Hardware-in-the-Loop Method, (2016) International Review of Mechanical Engineering (IREME), 10 (7), pp. 482-490.
https://doi.org/10.15866/ireme.v10i7.9037