Control Engineer
Job Location:
Taipei City
Type of Job:
Full Time
The ASUS Robotics & AI Center is seeking a skilled Control Engineer to join our world-class research and development team in Taipei. This role involves the design and implementation of advanced control systems critical to innovative solutions in AI, robotics, and cyber-physical systems.
The role requires a highly motivated individual with a strong foundation in control theory and substantial experience in deploying control systems across various applications. The ideal candidate will have a keen interest in automation and a dedication to working collaboratively within a multidisciplinary team dedicated to advancing the capabilities of robotics and AI computing.
Roles & responsibilities
Design and tune controllers for a variety of applications, ensuring optimal system performance through advanced control theory techniques and practices.
Implement control algorithms and logic in microcontrollers or real-time operating systems (RTOS), utilizing various programming languages and development environments.
Conduct comprehensive testing, validation, and verification of control systems to ensure they meet design specifications and operational requirements.
Collaborate closely with electrical engineering and software engineering teams to integrate control systems seamlessly with electrical components and software interfaces.
Oversee the documentation process for control systems, including creating detailed design documents, user manuals, and maintenance guides.
Stay updated on advancements in control engineering, microcontroller technology, and real-time operating systems.
Provide technical support and troubleshooting expertise for control systems post-deployment, addressing operational issues, performing system upgrades, and making adjustments.
Qualifications
Bachelor’s or Master’s degree in Electrical Engineering, Control Engineering, or a related field.
Demonstrated expertise in control theory, including experience designing and tuning proportional-integral-derivative (PID) controllers, state space, and other advanced control systems.
Proficiency in implementing control logic on microcontrollers and real-time operating systems, with strong programming skills in languages such as C or C++.
Experience with testing, validation, and verification of control systems, including developing and executing test plans using SITL (Software-In-The-Loop) and HITL (Hardware-In-The-Loop) simulations to ensure system performance and reliability.
Ability to work collaboratively with cross-functional teams, including electrical and software engineering groups, to develop integrated solutions.
Familiarity with industry-standard communication protocols and interfaces, enhancing system integration and data exchange capabilities.
Strong analytical and problem-solving skills, with the ability to address complex challenges and deliver effective solutions.
Excellent communication and documentation skills, capable of producing clear and detailed technical documentation for control systems.
Commitment to continuous learning and staying abreast of the latest trends and technologies in control engineering and related fields.