Students in this course will study the fundamentals of system design and development based on digital technologies. Our convenient and comfortable lives are supported by a variety of digital technologies such as IoT (Internet of Things) and AI (Artificial Intelligence). In particular, recent development of 5G (5th Generation Mobile Communication System) and block-chain technology leads to active discussions of their utilities in future societies. With this background, students will study fundamental notions and thinking about system design and development towards a future digital society.
This course has the aim that students acquire underlying technologies for system development thorough the exercises such as Python programming, image analysis by machine learning, and operation of electronic circuits by a microcomputer. In addition, they learn the significance of feedback structure in a “good” system through group work on the survey of actual systems supported by digital technologies. Survey results will be presented to improve communication skills for convincingly expressing their own thoughts.
Students will learn the following skills from taking this course.
1) Be able to program the work of photo sensor circuits and LED circuits by a microcomputer.
2) Be able to perform image analysis based on machine learning by Python programing in a cloud environment.
3) Be able to explain components and their interaction structures in an actual system through group work on the survey of documents and articles.
Python, Machine learning, Microcomputer, Electronic circuit, Digital technologies, System thinking, Feedback structure
✔ Specialist skills | Intercultural skills | ✔ Communication skills | ✔ Critical thinking skills | Practical and/or problem-solving skills |
This course is composed of three parts: Fundamentals of Electronic circuits and Microcomputers, Fundamentals of Image Analyses, and
Course schedule | Required learning | |
---|---|---|
Class 1 | Orientation | Explain the significance of digital technologies. |
Class 2 | 〈A-1〉Fundamentals of Electronic Circuits and Microcomputers | Acquire knowledge about basic elements and typical sensors for electronic circuits. Explain the basic mechanism and types of microcomputers. |
Class 3 | Explain several keywords on digital technologies. Utilize cloud services and communication tools for group work. | |
Class 4 | 〈A-2〉Operation of Electronic Circuits by Microcomputers (1) | Make a simple electronic circuit such as photo reflector circuit. Operate the circuit by microcomputer. |
Class 5 | Explain objectives and tasks of an actual system supported by digital technologies. Document survey results by a presentation tool. | |
Class 6 | 〈A-3〉Operation of Electronic Circuits by Microcomputers (2) | Make an electronic circuit including several elements. Realize a circuit operation in which the output changes according to the input from the sensor element. |
Class 7 | Explain survey results by a concise presentation. Give comments on the presentations of other groups. | |
Class 8 | Explain survey results by a concise presentation. Give comments on the presentations of other groups. | |
Class 9 | Perform simple Python programming on a could environment. | |
Class 10 | Analyze players and components in the operation of an actual system supported by digital technologies. | |
Class 11 | Perform image feature extraction. | |
Class 12 | Analyze an actual system from a viewpoint of feedback structure. | |
Class 13 | Perform binary classification of extracted image features via linear regression. | |
Class 14 | Explain results of system analysis by a concise presentation. Give comments on the presentations of other groups. |
N/A
Necessary documents will be provided.
N/A
Completion of this course is recommended to take the required course "Cyber-Physical Solution" in 3Q-4Q.