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125-8585
6-3-1 Niijuku, Katsushika-ku, Tokyo
| Professor | Master 2 | Master 1 | Bachelor 4 |
|---|---|---|---|
| Naoyuki Aikawa | Yuki Omori | Ryou Ikegami | Teppei Ota |
| -Profile | Shou Takahashi | Hua Wei | Yuna Ogiso |
| -pure Faculty Information | Nobutaka Takahira | Souta Sugiyama | Jun Obara |
| Kentaro Fujii | Ryoshu Tanaka | ||
| Mitsuki Miyazoe | Tatsuya Nakatsuka | ||
| Sora Nii | |||
| Kotomi Hata | |||
| Ryoji Funaki |
Naoyuki Aikawa Profile pure Faculty Information
Yuki Omori
Shou Takahashi
Nobutaka Takahira
Ryou Ikegami
Hua Wei
Souta Sugiyama
Kentaro Fujii
Mitsuki Miyazoe
Teppei Ota
Yuna Ogiso
Jun Obara
Ryoshu Tanaka
Tatsuya Nakatsuka
Sora Nii
Kotomi Hata
Ryoji Funaki
We design optimal digital filters required for high-quality communication and high-precision measurement by applying mathematical techniques such as Fourier transform and convex projection.
Acoustic signal processing has become an essential technology in today's society for various audio devices and cell phones.
We study some methods for extracting the target audio signal from mixed signals and filter bank design methods.
Image processing techniques can be used to locate only the necessary parts of an image.
We study super-resolution technology, hair detection on towels, and weighing of cancer cells.
We are researching and developing an automated analysis system that simulates the results of a physician's analysis.
These can be used to reduce the burden on physicians and to analyze how the brain is currently operating.
We are developing a system that allows instructors to add exercises to a web system through a GUI and automatically manage learning results.
We are also developing an educational support tool for engineers through e-learning to address the problem of the decreasing number of engineers who understand hardware.