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  • Credit requirements for graduation

    The school curriculum has four components: Liberal education requirements(42Credits), a major(84Credits), and electives. And it must complete a total of 140Credits.

    Curriculum :
    Yr-Sem-R/E Course (Credit) Yr-Sem-R/E Course (Credit)
    1-1-E Exploration of Future Planning (1)
    2-1-R Introduction to Information and Communications (3)
    2-1-R Electromagnetics (3)
    2-1-R Circuit Theory I (3)
    2-1-R Engineering Mathematics I (3)
    2-1-R Circuits LAB. I (2)
    2-1-E Digital Engineering (3)
    2-1-E Advanced Computer Programming (3)
    2-1-E Open Source Project Fundamental Practice (1)     		2-2-R Embedded Software LAB. (3)
    2-2-R Computer Network (3)
    2-2-E Circuits Lab. II (2)
    2-2-E Probability and Random Variables (3)
    2-2-E Circuit Theory II (3)
    2-2-E Engineering Mathematics II (3)
    2-2-E Object-Oriented Programming(C++) (3)
    2-2-E Open Source Project Development Practice (1)
    3-1-R Electronic Circuit I (3)
    3-1-R Communication Engineering (3)
    3-1-R Data Structure (3)
    3-1-E Operating System (3)
    3-1-E Radio Frequency Systems Engineering(3)
    3-1-E Signal and System (3)
    3-1-E Java Programming (3)
    3-1-E Data Communication Design (3)
    3-1-E Open Source Project Application Practice (1)     		3-2-R Electronic Communications Lab(2)
    3-2-R Interlink Project Practice, Comprehensive Design (1)
    3-2-E Electronic Circuit II (3)
    3-2-E Digital Communication (3)
    3-2-E Bigdata System Design (3)
    3-2-E Internet Communication Design (3)
    3-2-E Microprocessor (3)
    3-2-E Mobile Programming & LAB. (3)
    3-2-E Digital signal processing Design (3)
    3-2-E Intelligent Image Processing (3)
    3-2-E Antenna LAB. (3)
    4-1-R Capstone Design II (1)
    4-1-E Embedded IoT Applications LABs. (2)
    4-1-E SoC Desing and Practice (3)
    4-1-E Intelligent Communication Engineering (3)
    4-1-E Deep Learning Theory and Practice (3)
    4-1-E Introduction to Artificial Intelligence (3)
    4-1-E Entrepreneurship Special Seminar I (1)
    4-1-E Intelligent Network (3)     		4-2-E Intelligent System(3)
    4-2-E Wireless Communication Line Network Engineering (3)
    4-2-E VLSI Design and Practice(3)
    4-2-E Entrepreneurship Special Seminar II (1)
    4-2-E Entrepreneurship Capstone Design (Comprehensive Design) (1)
    4-2-E Logic and Essay Writing in Computer Education(3)
  • Credit requirements for graduation

    The school curriculum has four components: Liberal education requirements(42Credits), a major(84Credits), and electives. And it must complete a total of 140Credits.

    Curriculum :
    Yr-Sem-R/E Course (Credit) Yr-Sem-R/E Course (Credit)
    1-1-E Exploration of Future Planning (1) 1-2-R Preparation of Future Planning (0)
    1-2-E Introduction to Open Source SW (1)
    2-1-R Introduction to Information and Communications (2)
    2-1-R Electromagnetics (3)
    2-1-R Circuit Theory I (3)
    2-1-R Engineering Mathematics I (3)
    2-1-R Circuits Lab. I (2)
    2-1-R Implementation of Future Planning (0)
    2-1-E Digital Engineering (3)
    2-1-E Advanced computer programming (3)
    2-1-E Open Source Project Fundamental Practice (1)     		2-2-R Embedded Software Lab. (3)
    2-2-R Computer Network (3)
    2-2-E Circuits Lab. II (2)
    2-2-E Probability and Random Variables (3)
    2-2-E Circuit Theory II (3)
    2-2-E Engineering Mathematics II (3)
    2-2-E Object-Oriented Programming(C++) (3)
    2-2-E Open Source Project Development Practice (1)
    2-2-E English for SW Developers (2)
    2-2-E Start-up Exploration (0)
    3-1-R Electronic Circuit I (3)
    3-1-R Communication Engineering (3)
    3-1-R Data Structure (3)
    3-1-E Operating System (3)
    3-1-E Radio Frequency Systems Engineering(3)
    3-1-E Signal and system (3)
    3-1-E Java Programming (3)
    3-1-E Data Communication Design (3)
    3-1-E Open Source Project Application Practice (1)
    3-1-E Start-up Planning (0)     		3-2-R Electronic Communications Lab(2)
    3-2-R Interlink Project Practice, Comprehensive Design (1)
    3-2-E Electronic Circuit II (3)
    3-2-E Digital Communication (3)
    3-2-E Bigdata System Design (3)
    3-2-E Internet Communication Design (3)
    3-2-E Microprocessor (3)
    3-2-E Mobile Programming & Lab. (3)
    3-2-E Digital signal processing Design (3)
    3-2-E Intelligent Image Processing (3)
    3-2-E Antenna Design (3)
    3-2-E Start-up Challenge. (0)
    4-1-R Capstone Design II (1)
    4-1-E Embedded IoT Applications Labs. (2)
    4-1-E Optical Communication (3)
    4-1-E Mobile Communication Engineering (3)
    4-1-E Deep Learning Theory and Practice (3)
    4-1-E Information and Coding Theory (3)
    4-1-E Entrepreneurship Special Seminar I (1)
    4-1-E Intelligent Network (3)
    4-1-E Engineering Education Theory(3)     		4-2-E Intelligent System(3)
    4-2-E Wireless Communication Network Engineering (3)
    4-2-E VLSI Design and Practice(3)
    4-2-E Entrepreneurship Special Seminar II (1)
    4-2-E Entrepreneurship Capstone Design (Comprehen)
  • Credit requirements for graduation

    The school curriculum has four components: Liberal education requirements(42Credits), a major(84Credits), and electives. And it must complete a total of 130Credits.

    Curriculum :
    Yr-Sem-R/E Course (Credit) Yr-Sem-R/E Course (Credit)
    1-1-E Exploration of Future Planning (1) 1-2-R Preparation of Future Planning (0)
    1-2-E Introduction to Open Source SW (1)
    2-1-R Introduction to Information and Communications (2)
    2-1-R Electromagnetics (3)
    2-1-R Circuit Theory I (3)
    2-1-R Engineering Mathematics I (3)
    2-1-R Circuits Lab. I (2)
    2-1-R Implementation of Future Planning (0)
    2-1-E Digital Engineering (3)
    2-1-E Advanced computer programming (3)
    2-1-E Open Source Project Fundamental Practice (1)     		2-2-R Embedded Software Lab. (3)
    2-2-R Computer Network (3)
    2-2-E Circuits Lab. II (2)
    2-2-E Probability and Random Variables (3)
    2-2-E Circuit Theory II (3)
    2-2-E Engineering Mathematics II (3)
    2-2-E Object-Oriented Programming(C++) (3)
    2-2-E Open Source Project Development Practice (1)
    2-2-E English for SW Developers (2)
    2-2-E Start-up Exploration (0)
    3-1-R Electronic Circuit I (3)
    3-1-R Communication Engineering (3)
    3-1-R Data Structure (3)
    3-1-E Operating System (3)
    3-1-E Microwave Engineering I (3)
    3-1-E Signal and system (3)
    3-1-E Java Programming (3)
    3-1-E Data Communication Design (3)
    3-1-E Open Source Project Application Practice (1)
    3-1-E Start-up Planning (0)     		3-2-R Information and Communication Lab. (2)
    3-2-R Interlink Project Practice, Comprehensive Design (1)
    3-2-E Electronic Circuit II (3)
    3-2-E Digital Communication (3)
    3-2-E Bigdata System Design (3)
    3-2-E Internet Communication Design (3)
    3-2-E Microprocessor (3)
    3-2-E Mobile Programming & Lab. (3)
    3-2-E Digital signal processing Design (3)
    3-2-E Intelligent Image Processing (3)
    3-2-E Antenna Design (3)
    3-2-E Start-up Challenge. (0)
    4-1-R Capstone Design II (1)
    4-1-E Embedded IoT Applications Labs. (2)
    4-1-E Optical Communication (3)
    4-1-E Mobile Communication Engineering (3)
    4-1-E Deep Learning Theory and Practice (3)
    4-1-E Information and Coding Theory (3)
    4-1-E Entrepreneurship Special Seminar I (1)
    4-1-E Intelligent Network (3)     		4-2-E IT Devices (3)
    4-2-E Wireless Communication Network Engineering (3)
    4-2-E Open Source HCI Programming (3)
    4-2-E Entrepreneurship Special Seminar II (1)
    4-2-E Entrepreneurship Capstone Design (Comprehensive Design) (1)
    4-2-E Logic & Essay in Engineering Education (3)
  • Credit requirements for graduation

    Credit requirements for graduation The school curriculum has four components: Liberal education requirements(42Credits), a major(84Credits), and electives. And it must complete a total of 130Credits.

    Curriculum :
    Yr-Sem-R/E Course (Credit) Yr-Sem-R/E Course (Credit)
    1-1-E Exploration of Future Planning (1) 1-2-R Preparation of Future Planning (0)
    1-2-E Adventure Design (2)
    1-2-E Introduction to Open Source SW (1)
    2-1-R Introduction to Information and Communications (2)
    2-1-R Electromagnetics (3)
    2-1-R Circuit Theory I (3)
    2-1-R Engineering Mathematics I (3)
    2-1-R Circuits Lab. I (2)
    2-1-R Implementation of Future Planning (0)
    2-1-E Digital Engineering (3)
    2-1-E Object-Oriented Programming(C++) (3)
    2-1-E Introduction to Information Protection (3)
    2-1-E Open Source Project Fundamental Practice (1)     		2-2-R Embedded Software Lab. (3)
    2-2-R Computer Network (3)
    2-2-E Circuits Lab. II (2)
    2-2-E Probability and Random Variables (3)
    2-2-E Circuit Theory II (3)
    2-2-E Engineering Mathematics II (3)
    2-2-E Open Source Project Development Practice (1)
    2-2-E English for SW Developers (2)
    2-2-E Start-up Exploration (0)
    3-1-R Electronic Circuit I (3)
    3-1-R Communication Engineering (3)
    3-1-R Data Structure (3)
    3-1-E Operating System (3)
    3-1-E Microwave Engineering I (3)
    3-1-E Signal and system (3)
    3-1-E Java Programming (3)
    3-1-E Data Communication Design (3)
    3-1-E Open Source Project Application Practice (1)
    3-1-E Start-up Planning (0)     		3-2-R Information and Communication Lab. (2)
    3-2-R Interlink Project Practice, Comprehensive Design (1)
    3-2-E Electronic Circuit II (3)
    3-2-E Digital Communication (3)
    3-2-E Bigdata System Design (3)
    3-2-E Internet Communication Design (3)
    3-2-E 4th Industrial Revolution and IT Technology (3)
    3-2-E Mobile Programming & Lab. (3)
    3-2-E Digital signal processing Design (3)
    3-2-E Intelligent Image Processing (3)
    3-2-E Antenna Design (3)
    3-2-E Start-up Challenge. (0)
    4-1-R Capstone Design II (1)
    4-1-E Embedded IoT Applications Labs. (2)
    4-1-E Optical Communication (3)
    4-1-E Mobile Communication Engineering (3)
    4-1-E Open Source HCI Programming (3)
    4-1-E Information and Coding Theory (3)
    4-1-E Entrepreneurship Special Seminar I (1)
    4-1-E Intelligent Network (3)     		4-2-E IT Devices (3)
    4-2-E Wireless Communication Network Engineering (3)
    4-2-E Deep Learning Theory and Practice (3)
    4-2-E Entrepreneurship Special Seminar II (1)
    4-2-E Entrepreneurship Capstone Design (Comprehensive Design) (1)
    4-2-E Logic & Essay in Engineering Education (3)
  • Credit System :
    Courses Credits
    Liberal education requirement 33
    Major 78
    Elective Courses 29
    Total Credits to Graduate 140
    Curriculum :
    Yr-Sem-R/E Course (Credit) Yr-Sem-R/E Course (Credit)
    1-1-R Exploration of Future Planning (1)
    1-1-R Adventure Design (2)     		1-2-R Preparation of Future Planning (0)
    1-2-E Understanding and Practice on Open Source Software (2)
    2-1-R Implementation of Future Planning (1)
    2-1-R Discrete Mathematics (3)
    2-1-E Electronic Circuit Design (3)
    2-1-E Open Source Project Fundamental Practice(2)
    2-1-E C/C++ Programming (3)
    2-1-E Data Communication (3)     		2-2-R Start-up Exploration (0)
    2-2-R Data Structures (3)
    2-2-R Computer Network (3)
    2-2-E Automata (3)
    2-2-E Logical Circuit Design (3)
    2-2-E Linear Algebra (3)
    2-2-E Open Source Project Development Practice (2)
    3-1-R Start-up Planning (1)
    3-1-R Computer Architecture (3)
    3-1-R Operating Systems (3)
    3-1-R Programming Languages (3)
    3-1-E Applied Mathematics (3)
    3-1-E Algorithms (3)
    3-1-E Open Source Project Application Practice(2)     		3-2-R Start-up Challenge (0)
    3-2-R Interlink Project Practice(Comprehensive Design) (3)
    3-2-E Microprocessor (3)
    3-2-E Information Security (3)
    3-2-E Software Engineering (3)
    3-2-E Database System (3)
    3-2-E Artificial Intelligence (3)
    4-1-R Capstone Design (2)
    4-1-E Machine Learning (3)
    4-1-E Cyber-Physical System (3)
    4-1-E English Practice in Software Domains (2)
    4-1-E Distributed Computing Systems (3)
    4-1-E Entrepreneurship Special Seminar I (1)
    4-1-E Computer Vision (3)
    4-1-E Computer Instructional Resources and Methods (3)     		4-2-E Artificial Neural Networks (3)
    4-2-E Natural Language Processing (3)
    4-2-E Data Mining (3)
    4-2-E Foundation Pilot Project(Capstone Design) (2)
    4-2-E Entrepreneurship Special Seminar II (2)
    4-2-E Logic and Essay Writing in Computer Education (3)
  • Credit requirements for graduation

    The school curriculum has four components: Liberal education requirements(42Credits), a major(84Credits), and electives. And it must complete a total of 130Credits.

    Curriculum :
    Yr-Sem-R/E Course (Credit) Yr-Sem-R/E Course (Credit)
    1-1-E Exploration of Future Planning (1) 1-2-R Preparation of Future Planning (0)
    1-2-E Adventure Design (2)
    1-2-E Introduction to Open Source SW (1)
    2-1-R Introduction to Information and Communications (2)
    2-1-R Electromagnetics (3)
    2-1-R Circuit Theory I (3)
    2-1-R Engineering Mathematics I (3)
    2-1-R Circuits Lab. I (2)
    2-1-R Implementation of Future Planning (0)
    2-1-E Digital Engineering (3)
    2-1-E Object-Oriented Programming (3)
    2-1-E Introduction to Information Protection (3)
    2-1-E Open Source Project Fundamental Practice (1)     		2-2-R Embedded Software Lab. (3)
    2-2-R Computer Network (3)
    2-2-E Circuits Lab. II (2)
    2-2-E Probability and Random Variables (3)
    2-2-E Circuit Theory II (3)
    2-2-E Engineering Mathematics II (3)
    2-2-E Open Source Project Development Practice (1)
    2-2-E English for SW Developers (2)
    2-2-E Start-up Exploration (0)
    3-1-R Electronic Circuit I (3)
    3-1-R Communication Engineering (3)
    3-1-R Data Structure (3)
    3-1-E Operating System (3)
    3-1-E Microwave Engineering I (3)
    3-1-E Signal and system (3)
    3-1-E Java Programming (3)
    3-1-E Data Communication Design (3)
    3-1-E Open Source Project Application Practice (1)
    3-1-E Start-up Planning (0)     		3-2-R Information and Communication Lab. (2)
    3-2-R Interlink Project Practice, Comprehensive Design (1)
    3-2-E Electronic Circuit II (3)
    3-2-E Digital Communication (3)
    3-2-E Bigdata System Design (3)
    3-2-E Internet Communication Design (3)
    3-2-E 4th Industrial Revolution and IT Technology (3)
    3-2-E Mobile Programming & Lab. (3)
    3-2-E Digital signal processing Design (3)
    3-2-E Intelligent Image Processing (3)
    3-2-E Antenna Design (3)
    3-2-E Start-up Challenge. (0)
    4-1-R Capstone Design II (1)
    4-1-E Embedded IoT Applications Labs. (2)
    4-1-E Optical Communication (3)
    4-1-E Mobile Communication Engineering (3)
    4-1-E Open Source HCI Programming (3)
    4-1-E Information and Coding Theory (3)
    4-1-E Entrepreneurship Special Seminar I (1)
    4-1-E Intelligent Network (3)     		4-2-E IT Devices (3) 4-2-E Wireless Communication Network Engineering (3)
    4-2-E Deep Learning Theory and Practice (3)
    4-2-E Entrepreneurship Special Seminar II (1)
    4-2-E Entrepreneurship Capstone Design (1)
    4-2-E Logic & Essay in Engineering Education (3)
  • Credit requirements for graduation

    The school curriculum has four components: Liberal education requirements(42Credits), a major(84Credits), and electives. And it must complete a total of 130Credits.

    Curriculum :
    Yr-Sem-R/E Course (Credit) Yr-Sem-R/E Course (Credit)
    1-1-E Introductory Seminar on Information and Communication (1) 1-2-E Adventure Design (2)
    2-1-R Introduction to Information and Communications (2)
    2-1-R Electromagnetics (3)
    2-1-R Circuit Theory I (3)
    2-1-R Engineering Mathematics I (3)
    2-1-R Circuits Lab. I (2)
    2-1-E Digital Engineering (3)
    2-1-E C++ Programming (3)
    2-1-E Introduction to Information Protection (3)
    2-1-E Future Design I (1)     		2-2-R Embedded Software Lab. (3)
    2-2-R Computer Network (3)
    2-2-E Circuits Lab. II (2)
    2-2-E Probability and Random Variables (3)
    2-2-E Circuit Theory II (3)
    2-2-E Engineering Mathematics II (3)
    2-2-E Future Design II (3)
    3-1-R Electronic Circuit I (3)
    3-1-R Communication Engineering (3)
    3-1-R Data Structure (3)
    3-1-E Operating System (3)
    3-1-E Microwave Engineering I (3)
    3-1-E Signal and system (3)
    3-1-E Object-Oriented Programming (3)
    3-1-E Data Communication Design (3)
    3-1-E Future Design III (1)     		3-2-R Information and Communication Lab. (2)
    3-2-R Capstone Design I (1)
    3-2-E Electronic Circuit II (3)
    3-2-E Digital Communication (3)
    3-2-E Database System Design (3)
    3-2-E Internet Communication Design (3)
    3-2-E 4th Industrial Revolution and IT Technology (3)
    3-2-E Mobile Programming & Lab. (3)
    3-2-E Digital signal processing Design (3)
    3-2-E Image Processing (3)
    3-1-E Antenna Lab. (3)
    4-1-R Capstone Design II (1)
    4-1-E Communication Applications Lab. (2)
    4-1-E Optical Communication (3)
    4-1-E Mobile Communication Engineering (3)
    4-1-E Multimedia Information Processing and Practice (3)
    4-1-E Information and Coding Theory (3)
    4-1-E Educational-Industrial Special Seminar I (1)
    4-1-E Fundamentals of High Speed Communication Network (3)
    4-1-E Engineering Education Theory (3)     		4-2-E Introduction to Semiconductor Devices (3)
    4-2-E Wireless Communication Network Engineering (3)
    4-2-E Educational-Industrial Special Seminar II (1)
    4-2-E Capstone Design III (3)
    4-2-E Instructional Resources and Methods of Engineering Course (3)
    4-2-E Logic&Essay in Engineering Education (3)
  • Credit requirements for graduation

    The school curriculum has four components: Liberal education requirements(42Credits), a major(84Credits), and electives. And it must complete a total of 130Credits.

    Curriculum :
    Yr-Sem-R/E Course (Credit) Yr-Sem-R/E Course (Credit)
    1-1-E Introductory Seminar on Information and Communication (1) 1-2-E Creative Engineering Design (2)
    2-1-R Introduction to Information and Communications (2)
    2-1-R Electromagnetics (3)
    2-1-R Circuit Theory I (3)
    2-1-R Engineering Mathematics I (3)
    2-1-R Circuits Lab. I (2)
    2-1-E Digital Engineering (3)
    2-1-E C++ Programming (3)
    4-1-E Introduction to Information Protection (3)
    2-1-E Future Design I (1)     		3-1-R Embedded Software Lab. (2)
    3-2-R Computer Network (3)
    2-2-E Circuits Lab. II (2)
    2-2-E Probability and Random Variables (3)
    2-2-E Circuit Theory II (3)
    2-2-E Engineering Mathematics II (3)
    2-2-E Future Design II (3)
    3-1-R Electronic Circuit I (3)
    3-1-R Communication Engineering (3)
    3-1-R Data Structure (3)
    3-1-E Operating System (3)
    3-1-E Microwave Engineering I (3)
    3-1-E Signal and system (3)
    3-1-E Object-Oriented Programming (3)
    3-1-E Data Communication Design (3)
    3-1-E Future Design III (1)
    3-1-E Computer Architecture (3)
    3-1-E Internet Communication Design (3)
    3-1-E Discrete Mathematics (3)     		3-2-R Information and Communication Lab. (2)
    3-2-R Capstone Design I (1)
    3-2-E Digital Communication (3)
    3-2-E Electronic Circuit II (3)
    3-2-E Database System Design (3)
    3-2-E Internet Communication Design (3)
    3-2-E Technical Writing and Presentation (3)
    3-2-E Mobile Programming & Lab. (3)
    3-2-E Digital signal processing Design (3)
    3-2-E Image Processing (3)
    3-1-E Antenna Lab. (3)
    3-2-R Electronic Communication Circuits Lab. (2)
    3-2-R Basic Capstone Design Seminar (2)
    3-2-E Microwave Engineering Ⅱ (3)
    4-1-R Capstone Design II (1)
    4-1-E Communication Applications Lab. (2)
    4-1-E Optical Communication (3)
    4-1-E Mobile Communication Engineering (3)
    4-1-E Multimedia Information Processing & Lab. (3)
    4-1-E Information and Coding Theory (3)
    4-1-E Educational-Industrial Special Seminar I (1)
    4-1-E Fundamentals of High Speed Communication Network (3)
    4-1-E Engineering Education Theory (3)     		4-2-E Introduction to Semiconductor Devices (3)
    4-2-E Wireless Communication Network Engineering (3)
    4-2-E Educational-Industrial Special SeminarII (1)
    4-2-E Capstone Design III (3)
    4-2-E Instructional Resources and Methods of Engineering Course (3)
    4-2-E Logic&Essay in Engineering Education (3)
  • Credit requirements for graduation

    The school curriculum has four components: Liberal education requirements(42Credits), a major(84Credits), and electives. And it must complete a total of 130Credits.

    Curriculum :
    Yr-Sem-R/E Course (Credit) Yr-Sem-R/E Course (Credit)
    1-1-E Introductory Seminar on Information and Communication (2) 1-2-E Creative Engineering Design (2)
    2-1-R Introduction to Information and Communications (2)
    2-1-R Electromagnetics (3)
    2-1-R Circuit Theory I (3)
    2-1-R Engineering Mathematics I (3)
    2-1-R Circuits Lab. I (2)
    2-1-E Digital Engineering (3)
    2-1-E C++ Programming (3)
    4-1-E Introduction to Information Protection (3)
    2-1-E Future Design I (1)     		3-1-R Embedded Software Lab. (2)
    3-2-R Computer Network (3)
    2-2-E Circuits Lab. II (2)
    2-2-E Probability and Random Variables (3)
    2-2-E Circuit Theory II (3)
    2-2-E Engineering Mathematics II (3)
    2-2-E Future Design II (3)
    3-1-R Electronic Circuit I (3)
    3-1-R Communication Engineering (3)
    3-1-R Data Structure (3)
    3-1-E Operating System (3)
    3-1-E Microwave Engineering I (3)
    3-1-E Signal and system (3)
    3-1-E Object-Oriented Programming (3)
    3-1-E Data Communication Design (3)
    3-1-E Future Design III (1)
    3-1-E Computer Architecture (3)
    3-1-E Internet Communication Design (3)
    3-1-E Discrete Mathematics (3)     		3-2-R Information and Communication Lab. (2)
    3-2-R Capstone Design I (1)
    3-2-E Digital Communication (3)
    3-2-E Electronic Circuit II (3)
    3-2-E Database System Design (3)
    3-2-E Internet Communication Design (3)
    3-2-E Technical Writing and Presentation (3)
    3-2-E Mobile Programming & Lab. (3)
    3-2-E Digital signal processing Design (3)
    3-2-E Image Processing (3)
    3-1-E Antenna Lab. (3)
    3-2-R Electronic Communication Circuits Lab. (2)
    3-2-R Basic Capstone Design Seminar (2)
    3-2-E Microwave Engineering Ⅱ (3)
    4-1-R Capstone Design II (1)
    4-1-E Communication Applications Lab. (2)
    4-1-E Optical Communication (3)
    4-1-E Mobile Communication Engineering (3)
    4-1-E Multimedia Information Processing & Lab. (3)
    4-1-E Information and Coding Theory (3)
    4-1-E Educational-Industrial Special Seminar I (1)
    4-1-E Fundamentals of High Speed Communication Network (3)
    4-1-E Engineering Education Theory (3)     		4-2-E Introduction to Semiconductor Devices (3)
    4-2-E Wireless Communication Network Engineering (3)
    4-2-E Educational-Industrial Special SeminarII (1)
    4-2-E Capstone Design III (3)
    4-2-E Instructional Resources and Methods of Engineering Course (3)
    4-2-E Logic&Essay in Engineering Education (3)
  • Credit requirements for graduation

    The school curriculum has four components: Liberal education requirements(42Credits), a major(78Credits), and electives. And it must complete a total of 140Credits.

    Curriculum :
    Yr-Sem-R/E Course (Credit) Yr-Sem-R/E Course (Credit)
    1-1-E Introductory Seminar on Information and Communication (2) 1-2-E Creative Engineering Design (2)
    2-1-R Electromagnetics I (3)
    2-1-R Circuit Theory I (3)
    2-1-R Engineering Mathematics I (3)
    2-1-R Circuits Lab. I (2)
    2-1-R Future Design Seminar I (1)
    2-1-E Digital Engineering (3)
    2-1-E C++ Programming (3)     		2-2-R Circuits Lab. II (2)
    2-2-E Probability and Random Variables (3)
    2-1-E Electromagnetics II (3)
    2-2-E Circuit Theory II (3)
    2-2-E Embedded Software (3)
    2-2-E Engineering Mathematics II (3)
    2-2-E Data Communication Design (3)
    3-1-R Electronic Circuit I (3)
    3-1-R Communication Engineering (3)
    3-1-R Embedded Software Lab. (2)
    3-1-E Operating System (3)
    3-1-E Computer Architecture (3)
    3-1-E Data Structure (3)
    3-1-E Antenna Theory & Lab. (3)
    3-1-E Internet Communication Design (3)
    3-1-E Microwave Engineering I (3)
    3-1-E Discrete Mathematics (3)
    3-1-E Signal and system (3)
    3-1-E Object-Oriented Programming (3)     		3-2-R Electronic Circuit II (3)
    3-2-R Electronic Communication Circuits Lab. (2)
    3-2-R Basic Capstone Design Seminar (2)
    3-2-E Digital Communication (3)
    3-2-E Computer Network (3)
    3-2-E Database System Design (3)
    3-2-E Microwave Engineering Ⅱ (3)
    3-2-E Technical Writing and Presentation (3)
    3-2-E Mobile Programming & Lab. (3)
    4-1-R Capstone Design SeminarI (2)
    4-1-R Future Design Seminar II (0)
    4-1-E Communication Applications Lab. (2)
    4-1-E Mobile Communication System Lab (2)
    4-1-E Optical Communication (3)
    4-1-E Mobile Communication Engineering (3)
    4-1-E Multimedia Information Processing & Lab. (3)
    4-1-E Information and Coding Theory (3)
    4-1-E Educational-Industrial Special Seminar I (1)
    4-1-E Fundamentals of High Speed Communication Network (3)
    4-1-E Digital signal processing Design (3)
    4-1-E Engineering Education Theory (3)
    4-1-E Algorithm (3)
    4-1-E Introduction to Information Protection (3)     		4-2-E Electromagnetic Wave Environment Engineering (3)
    4-2-E Wireless Communication Network Engineering (3)
    4-2-E Educational-Industrial Special SeminarII (1)
    4-2-E Wireless Communication System Engineering (3)
    4-2-E Capstone Design Seminar II (3)
    4-2-E Instructional Resources and Methods of Engineering Course (3)
    4-2-E Logic&Essay in Engineering Education (3)