Job Description
• Develop dynamic models and simulation frameworks for a novel pier-free telescopic coastal barrier system.
• Design and implement coordinated control algorithms for synchronized operation of multiple floating and jack-up platforms.
• Develop MATLAB/Simulink models integrating hydrodynamic inputs from CFD and seakeeping analyses.
• Conduct simulation studies to evaluate control performance, synchronization accuracy, stability, and energy efficiency under varying environmental conditions.
• Plan and execute scaled experimental validation in wave flume and basin facilities.
• Analyse and evaluate propulsion and actuation technologies for marine deployment systems.
• Collaborate with researchers in hydrodynamics, geotechnical engineering, and structural engineering to support multidisciplinary system development.
• Prepare technical reports, publications, and project deliverables.
Job Requirements
• Possess a PhD in Control Engineering, Robotics, Mechanical Engineering, Marine Engineering, Aerospace Engineering, or a closely related field.
• Strong background in dynamic systems modelling and control theory.
• Experience with MATLAB/Simulink and control-system development.
• Experience in multi-agent systems, autonomous systems, marine robotics, or coordinated control is advantageous.
• Familiarity with numerical simulation and integration of multidisciplinary engineering models.
• Experience in experimental validation, embedded control systems, or robotic platforms is desirable.
• Strong analytical, programming, and technical communication skills.
• Ability to work independently and collaboratively within a multidisciplinary research team.
• Strong written and spoken communications.
• Open to fixed-term contract.