Introduction to Information and Communications Engineering

This course aims to outline advanced research topics on information and communications engineering. 12 faculty members give
lectures about their research themes and topics in omnibus form. Not only faculty member's specialty but also the basic and
wide knowledge about communications engineering can be acquired.

The students taking this course will be able to understand the overview of advanced research topics on information and communication
engineering.

- Enrolled students can acquire an overview of advanced research topics about communication engineering.
- Enrolled students can understand the basic principles of information and communication technology.
- Enrolled students can understand skills to implement information and communication technologies in the society.

Test | Total. | |
---|---|---|

1. | 40% | 40% |

2. | 30% | 30% |

3. | 30% | 30% |

Total. | 100% | - |

- Grade is judged by attendance rate (50%) and assignment (50%). Some faculty members may use another evaluation method and
criteria.

-Passing standard is 60% or higher.

-The minimum score of 60% can be obtained if the student has reached the level to be able to understand topics on information and communications engineering.

-Passing standard is 60% or higher.

-The minimum score of 60% can be obtained if the student has reached the level to be able to understand topics on information and communications engineering.

Class schedule | HW assignments (Including preparation and review of the class.) | Amount of Time Required | |
---|---|---|---|

1. | Guidance Lecture from Assoc. Prof. Phan Xuan TAN: Computer Vision, View Synthesis, Light Field imaging, 3D reconstruction, 6D Pose estimation. |
Complete the assignment given by each lecturer | 190minutes |

2. | Assignments on Machine vision topic | Complete the assignment given by each lecturer | 190minutes |

3. | Lecture from Prof. Eiji KAMIOKA: Mobile Multimedia Communications, Ubiquitous Computing Networks, Ambient Intelligence, Context-aware Computing, Communications Quality, User Satisfaction of Information and Communication Services, Information Systems using Biological Information. | Complete the assignment given by each lecturer | 190minutes |

4. | Lecture from Prof. Yuchi KANZAWA: Yuchi KANZAWA: Mathematics for fuzzy cluster analysis (mathematical formation of clustered data, mathematical methodology for fuzzy clustering, mathematical description of clustering application) | Complete the assignment given by each lecturer | 190minutes |

5. | Lecture from Prof. Koichi GYODA: Emergency wireless communications network construction technologies, Ad hoc networking for remote controlled rescue robots, inter-vehicle communications, etc., Information and communication technologies required at the disasters. | Complete the assignment given by each lecturer | 190minutes |

6. | Lecture from Assoc. Prof. Atsushi SAITO: Chemical sensor acting for our taste sense and olfactory sense and its application, Sensor data processing and sensor data fusion for recognition of complex contents. | Complete the assignment given by each lecturer | 190minutes |

7. | Mid. examination and review. | Complete the assignment given by each lecturer | 190minutes |

8. | Lecture from Asst. Prof. Norisato SUGA: Physical layer technique and signal processing for wireless communication, Radio propagation, Optimization and machine learning. | Complete the assignment given by each lecturer | 190minutes |

9. | Lecture from Prof. Shinichi TANAKA: High frequency devices and circuits, Microwave circuit design using techniques using CAD technologies, Introduction to current topics in microwave passive and active components. | Complete the assignment given by each lecturer | 190minutes |

10. | Lecture from Prof. Kazuhide HIROSE: Wideband microstrip antennas, Broadband planar antennas for high-speed wireless communications, Computational electromagnetics for antennas. | Complete the assignment given by each lecturer | 190minutes |

11. | Lecture from Prof. Ryota HORIE: Brain computer interface technology, measuring brain activity, principle of electroencephalography. | Complete the assignment given by each lecturer | 190minutes |

12. | Lecture from Prof. Kenji MUTO: Sound signal processing, Active noise control, Noise measurement. | Complete the assignment given by each lecturer | 190minutes |

13. | Lecture from Prof. Hiroaki MORINO: Worldwide Live P2P streaming(P2PTV), Inter-vehicle wireless communication for safety assist, Disaster communication using wireless ad hoc networks by smartphones, Mobile sensing and wireless community networks. | Complete the assignment given by each lecturer | 190minutes |

14. | Final examination and review. | Complete the assignment given by each lecturer | 190minutes |

Total. | - | - | 2660minutes |

ways of feedback | specific contents about "Other" |
---|---|

Feedback in the class |

- Non-social and professional independence development course

Work experience | Work experience and relevance to the course content if applicable |
---|---|

N/A | N/A |

Last modified : Sat Jun 29 04:17:00 JST 2024