Master’s Program – 機械與機電工程學系

Curriculum Plan for freshmen

Course Descriptions

E0424 Advanced Engineering Mathematics (3/0): Topics include: the method of eigen-function expansion, The Dirac delta function and its relationship to Green’s, Green’s functions for ordinary differential equations, and partial differential equations, calculus of variations, the Rayleigh Ritz Method, the perturbation method, and the similarity method.

E0629 Microprocessor (0/3): Objectives of this course include: (1) To teach the architecture of a micro-controller; (2) To show that a micro-controller can be programmed and be useful in everyday applications; (3) To introduce the basics of electronic design by constructing various interfaces of the micro-controller with other devices; and (4) To equip students with basic skills in electronic design and micro-controller programming.

T1433 Research Method (I) (1/0): This course offers lectures on various subjects of mechanical and electro-mechanical engineering. The speakers are invited from industry, university, and related research institutes. Students will be encouraged to engage in discussion and will be required to hand in one report for each lecture.

E2505 The Design of a Nano-Material Applied Bio-Chip (0/3): This course intends to develop students’ ability in biochip design with nano-materials. Current issues related to biomedical engineering will be mentioned. The type, the characteristics, and the present status of 4 ene chip, protein chip, DDS chip and Lab on a chip will be introduced. The types, properties and applications of nano-materials will also be discussed.

T1111 Research Method (II) (0/1): This course provides students with lectures on the various subjects of mechanical and electro-mechanical engineering. The speakers are invited from industry, universities, and related research institutes. Students will be encouraged to engage in discussion and will be required to hand in one report for each lecture.

E2938 Advanced Energy Conversion (0/3):

This course covers fundamentals of thermodynamics, flow and transport processes as applied to energy systems. Topics include analysis of energy conversion in thermomechanical, electrochemical, and photoelectric processes in existing and future power and transportation systems, with emphasis on efficiency, environmental impact and performance. Applications include Concentrated Solar Power Stirling Engine Generation System, Thermal Storage System, and fuel cells and batteries, etc.

E2945 Viscous Fluid Flow (3/0): The content of the course include the following: vector and tensor calculus, introduction to the continuum fluid, conservation laws, static equilibrium of fluids and interfaces, the Navier-Stokes equations, unidirectional flows, approximate methods, laminar boundary layer flows.

E3720 Advanced Heat Transfer (3/0): The course will cover PART 1: Conservation equations, viscosity and stress terms, boundary layer equations for momentum, heat and mass transfer. PART 2: Momentum and heat transfer for laminar boundary layers, laminar flow in pipes/ducts, turbulent boundary layers, turbulent flow in pipes/ducts, heat transfer by natural convection, influence of temperature-dependent fluid properties on convective heat transfer and friction.

E3873 Design and Practice of Electric Motors (0/3): This course will be based on the team project. To guide the students to understand the electric motor design. Learn the required knowledge and techniques for real applications.

E3945 Artificial Intelligence and Machine Learning (3/0)： Artificial Intelligence (AI) has the definite goal of understanding intelligence and building intelligent systems. However, the methods and formalisms used to reach this goal are not firmly set. Also, the applications of AI are so diversified which has resulted in AI consisting of a broad cross-disciplinary subject. This introductory AI course is conveying as many subjects as possible without losing too much depth and focus.

E3949 Integrated Technology of Information and Mechatronics (3/0): This course aims to train qualified students to meet the needs of the intelligent manufacturing system (IMS). The course contains two parts: An information system for a manufacturing system and an AI information analysis system. This course also includes the data acquisition technique and communication technique, which tell you how to collect and dispatch data. You have to do a project about the IMS and make a discussion for the project. This course will organize one or two keynote speeches about the advanced IMS.

E3959 Integrated Technology of Biomedical Engineering (3/0): Biomedical engineering is a specialized discipline that combines engineering technology and clinical medicine in disease diagnosis or treatment to design and development medical devices. This course will explore the integration technology of this interdisciplinary research in a simple way.

E4019 Visual Sensing Technology and Applications (0/3): This course provides basic concepts of visual sensing technology and its applications in the industry. Four major topics include (a) Introduction of the integration of sensing technology, image processing algorithms, and programming language and library. (b) The environment of programming language and OpenCV library. (c) The Sensing technology of object detection and recognition algorithms. (d) The applications of sensing technology in the industry. The students will implement many experiments to understand the practical sensing technology for the automatic industry.

E4148 Advanced Medical Devices Design Practice (0/3): The course will introduce the international regulations and standards for medical devices and the safety testing that advanced medical devices must pass to convey the concept of the regulations and the importance of functional testing for advanced medical devices.

E4342 Surface Treatment Technology (3/0): This course aims to introduce various surface treatment techniques and their applications. These techniques are widely used in materials science, manufacturing, and engineering fields to enhance material performance by altering the physical and chemical properties of the material’s surface. The course will cover traditional techniques such as heat treatment, carburizing, and nitriding, as well as modern techniques like electroplating, anodizing, and micro-arc oxidation.

E4345 Design and Applications of Additive Manufacturing (3/0): This course introduces the fundamental principles, design methods, and applications of additive manufacturing (commonly known as 3D printing). Students will learn about various additive manufacturing technologies, including Fused Deposition Modeling (FDM), Selective Laser Sintering (SLS), Stereolithography (SLA), and Binder Jetting (BJ), understanding the advantages, disadvantages, and appropriate use cases for each technology

E3751 Project Management Practice (I) (3/0): This course aims to integrate and strengthen the mechanical and electro-mechanical knowledge students acquired from previous courses. Students will be asked to fabricate, test, and analyze their design. The importance of team work and work attitude will be emphasized throughout the course.

E3752 Project Management Practice (II) (0/3): This course aims to integrate and strengthen the mechanical and electro-mechanical knowledge students acquired from previous courses. Students will be asked to fabricate, test, and analyze their design. The importance of team work and work attitude will be emphasized throughout the course.

E3836 Research Technology Practice (I) (3/0): This course aims to integrate and strengthen the mechanical and electro-mechanical knowledge students acquired from previous courses. Students will be asked to fabricate, test, and analyze their design. The importance of team work and work attitude will be emphasized throughout the course.

E3837 Research Technology Practice (II) (0/3): This course aims to integrate and strengthen the mechanical and electro-mechanical knowledge students acquired from previous courses. Students will be asked to fabricate, test, and analyze their design. The importance of team work and work attitude will be emphasized throughout the course.

E3838 Production-Line Technology Practice (I) (3/0): This course aims to integrate and strengthen the mechanical and electro-mechanical knowledge students acquired from previous courses. Students will be asked to fabricate, test, and analyze their design. The importance of team work and work attitude will be emphasized throughout the course.

E3839 Production-Line Technology Practice (II) (0/3): This course aims to integrate and strengthen the mechanical and electro-mechanical knowledge students acquired from previous courses. Students will be asked to fabricate, test, and analyze their design. The importance of team work and work attitude will be emphasized throughout the course.