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Curriculum Synosis
System Control
Based on the fundation of system theories,system control is developed with the combinations of electronics, computer science, sensor, networking,communications, and signal processing. In the next ten years, control technologies will create a new paradigm for the applications of biomedical electronics, green energy technologies, and robotics.
System-on-chip
Based on analog circuits, system-on-chip (SOC) is developed to provide low-power, high effiency, and design for test technologies.With the integration of digital circuits and micro-sensor devices,SOCs can be applied for biomedical and environmental monitoring.
Robotics and Bioelectronics
Robotics focus on integration of subsystems including mechanisms, sensor devices, motors, power electronics, communications, and microprocessors. Major research direction will be on the implementations of robots that can be applied to our daily lives.
Robotics focus on integration of subsystems including mechanisms, sensor devices, motors, power electronics, communications, and microprocessors. Major research direction will be on the implementations of robots that can be applied to our daily lives.
Power Electronics/ MEM
This program consists of three major topics including power electronics, power systems, and electrical mechanics. The targets are to provide training on analytical tools, knowledge establishment in power technologies, and implementations on power control.
This program consists of three major topics including power electronics, power systems, and electrical mechanics. The targets are to provide training on analytical tools, knowledge establishment in power technologies, and implementations on power control.