音楽土木工学を設計する——音楽のためのプログラミング言語mimiumの開発を通じて Department of Design, Graduate School of Design 本研究では、音楽とは直接関係のない基幹的なテクノロジーを、音楽実践者の視点で改めて作り直す「音楽土木工学」という学問の提唱を、音楽のためのプログラミング言語「mimium」の開発という実践を通じて試みる。
Establishment of Nanopore “Shape" Evaluation Method for disordered complex Porous Materials Department of Interdisciplinary Engineering Science, Interdisciplinary Graduate School of Engineering Sciences 129Xe-NMR has the potential as a Pore-Shape evaluation method.When the Nanopore “Shape” Evaluation Method for disordered complex Porous Materials is established, it will not only improve the cur [...]
Estimation of Micro Debris Environment Using In-situ Debris Measurement Department of Aeronautics and Astronautics, Graduate School of Engineering Among the threats to space development, micro space debris smaller than 2 mm poses a particular challenge due to the difficulty of observation from the ground and the severe lack of information. As a [...]
Fabrication of novel protein fibers reinforced by Incorporating fibrous protein assemblies as fiber reinforcements Department of Applied Chemistry, Graduate School of Engineering Artificial protein fibers that do not depend on exhaustible resources are attracting attention as next-generation materials that contribute to the realization of a recycling-oriented society. In parti [...]
Carbon-aware Hardware Upgrade Policy Design of Supercomputers Department of Information Science and Technology, Graduate School of Information Science and Electrical Engineering While crucial for scientific advancements, supercomputers pose a significant environmental challenge due to their excessive carbon footprint. The lifetime carbon footprint of a supercomputer includes [...]
Development of a Decoupling Analysis Method Using the World Multi-Regional Input-Output Table and Its Empirical Analysis Department of Economic Systems, Graduate School of Economics To combat climate change, it is crucial for governments to clarify the process of decoupling economic growth from greenhouse gas (GHG) emissions and to develop effective low-carbon pathways for the ec [...]
柔軟メカニズムを用いた低侵襲軟性内視鏡デバイス Department of Mechanical Engineering, Graduate School of Engineering 大腸がんは軟性内視鏡により早期発見・治療することで完治が可能である。 しかし、既存の軟性内視鏡は操作が難しく、術者への技術習得の負担が大きい。この問題の解決策として操作を支援するための軟性内視鏡デバイスは有用であるが、従来機構では部品点数が多く、サイズが大きい。本研究では弾性体の柔軟変形を利用した柔軟メカニズムを用いた小型・軽量・シンプルな軟性内視鏡デバイスを開発した。
Elucidation of the role of cytokines and oligodendrocytes in cancer-related cognitive impairment and search for plant-derived active ingredients Department of Medical Sciences, Graduate School of Medical Sciences Cancer-related cognitive impairment (CRCI) is a cognitive impairment that is present in more than half of all cancer patients and is associated with memory impairment, anxiety, and depression. CRCI ha [...]
