%O cited By 6 %L scholars13685 %J IEEE Access %D 2020 %R 10.1109/ACCESS.2020.3037122 %K Adaptive control systems; Control system synthesis; Model predictive control; Open source software; Open systems; Robots; Unmanned underwater vehicles, Internal model control; Mathematical algorithms; Modelling and controls; Real time performance; Real-time experiment; Robot operating system; Robot operating systems (ROS); Tracking performance, Controllers %X This paper presents the development of unmanned marine robotic control modelling and control synthesis using a coupled multivariable underactuated nonlinear adaptive U-model approach. The proposed controller was developed using thru an open source robot operating system (ROS) platform. The new adaptive coupled U-model based internal model control (IMC) node was successfully developed and tested. The proposed controller demonstrated the simplicity of the control synthesis process and the implementation of the mathematical algorithm in real-time. The controller was compared with the proven existing GIRONA 500 UUV for real-time performance. The ROS environment provides fast and reliable controller design and development compared to conventional software architecture. Simulation and real-time experiment were conducted using ROS via the GIRONA 500 UUV platform and compared with a PID mission controller. A new ROS node of nonlinear adaptive U-model based IMC was developed using ROS. The results showed good control signal convergence and tracking performance between the plant or system model with the proposed method. © 2013 IEEE. %P 205685-205695 %T Implementation of Nonlinear Adaptive U-Model Control Synthesis Using a Robot Operating System for an Unmanned Underwater Vehicle %I Institute of Electrical and Electronics Engineers Inc. %V 8 %A N.A.A. Hussain %A S.S.A. Ali %A P. Ridao %A P. Cieslak %A U.M. Al-Saggaf