With over 1 year of experience in Robotics Engineering, has a strong passion for integrating advanced technologies like AI into practical engineering solutions. Expertise spans systems design, coding (proficient in C, C++, Python, Matlab), and structural analysis using CAD tools such as SolidWorks and AutoCAD. During academic journey at the University of Sydney, specializing in Robotics and Intelligent Systems, immersed in projects that harness AI for enhancing automation and control. At Sage Automation and Nanosonics, acquired hands-on experience in developing PLC logic, SCADA systems, and implementing AI-driven solutions to optimize manufacturing processes. Thesis on station-keeping control for autonomous vehicles underscores commitment to applying AI techniques to tackle intricate engineering challenges. Currently furthering this passion through a personal hydroponics project, integrating AI for automated monitoring and optimal plant care, demonstrating dedication to advancing technology in practical applications.
– Experience in developing and understanding PLC logic and SCADA systems within a multifaceted team on a large-scale project.
– Demonstrated ability to meet deadlines and collaborate effectively with team members to achieve key milestones.
– Proficient in PLC programming languages and SCADA software, ensuring seamless integration and functionality.
– Applied problem-solving skills to troubleshoot and optimize PLC and SCADA systems for enhanced performance.
– Documented processes and procedures to ensure clarity and continuity in project development.
– Engaged in continuous learning to stay updated with the latest advancements in PLC and SCADA technologies.
– Analysis of station-keeping control for fully actuated USVs in diverse environmental conditions.
– Developing advanced control techniques using Python simulations.
– Conducting comprehensive analysis and detailed discussions of results.
– Producing thorough reports outlining findings and recommendations.
– Applying theoretical knowledge to practical scenarios in autonomous vehicle control.
– Implementing innovative solutions for enhancing the station-keeping capabilities of USVs.
– Designing and implementing solutions to manufacturing challenges.
– Collaborating effectively within teams to achieve time-efficient outcomes.
– Utilizing SolidWorks CAD and diverse methodologies to synthesize effective solutions.
– Gaining valuable workshop experience and skill development under expert supervision.
– Contributing to the resolution of complex manufacturing issues through innovative approaches.
– Applying structured problem-solving techniques to streamline manufacturing processes.