21 research outputs found
人工酸素運搬体としての(ヘモグロビン-アルブミン)クラスターの合成
【学位授与の要件】中央大学学位規則第4条第1項【論文審査委員主査】小松 晃之 (中央大学理工学部教授)【論文審査委員副査】石塚 盛雄(中央大学理工学部教授)、古田 直紀(中央大学理工学部教授)、箕浦 高子(中央大学理工学部准教授)、中村 暢文(東京農工大学大学院工学研究院教授)博士(工学)中央大
The Impact of Systematic Edits in History Slicing
While extracting a subset of a commit history, specifying the necessary
portion is a time-consuming task for developers. Several commit-based history
slicing techniques have been proposed to identify dependencies between commits
and to extract a related set of commits using a specific commit as a slicing
criterion. However, the resulting subset of commits become large if commits for
systematic edits whose changes do not depend on each other exist. We
empirically investigated the impact of systematic edits on history slicing. In
this study, commits in which systematic edits were detected are split between
each file so that unnecessary dependencies between commits are eliminated. In
several histories of open source systems, the size of history slices was
reduced by 13.3-57.2% on average after splitting the commits for systematic
edits.Comment: 5 pages, MSR 201
Neuroimaging at 7 Tesla: a pictorial narrative review
Neuroimaging using the 7-Tesla (7T) human magnetic resonance (MR) system is rapidly gaining popularity after being approved for clinical use in the European Union and the USA. This trend is the same for functional MR imaging (MRI). The primary advantages of 7T over lower magnetic fields are its higher signal-to-noise and contrast-to-noise ratios, which provide high-resolution acquisitions and better contrast, making it easier to detect lesions and structural changes in brain disorders. Another advantage is the capability to measure a greater number of neurochemicals by virtue of the increased spectral resolution. Many structural and functional studies using 7T have been conducted to visualize details in the white matter and layers of the cortex and hippocampus, the subnucleus or regions of the putamen, the globus pallidus, thalamus and substantia nigra, and in small structures, such as the subthalamic nucleus, habenula, perforating arteries, and the perivascular space, that are difficult to observe at lower magnetic field strengths. The target disorders for 7T neuroimaging range from tumoral diseases to vascular, neurodegenerative, and psychiatric disorders, including Alzheimer’s disease, Parkinson’s disease, multiple sclerosis, epilepsy, major depressive disorder, and schizophrenia. MR spectroscopy has also been used for research because of its increased chemical shift that separates overlapping peaks and resolves neurochemicals more effectively at 7T than a lower magnetic field. This paper presents a narrative review of these topics and an illustrative presentation of images obtained at 7T. We expect 7T neuroimaging to provide a new imaging biomarker of various brain disorders
Properties of Magnetic Garnet Films for Flexible Magneto-Optical Indicators Fabricated by Spin-Coating Method
Non-destructive testing using a magneto-optical effect is a high-resolution non-destructive inspection technique for a metallic structure. It is able to provide high-spatial resolution images of defects. Previously, it has been difficult to fabricate flexible magneto-optical sensors because thermal treatment is necessary to crystallize the magnetic garnet. Therefore, it was not possible to apply magneto-optical imaging to complicated shapes in a test subject, such as a curved surface. In this study, we developed a new process for deposition of the magnetic garnet on the flexible substrate by applying the magnetic garnet powders that have already undergone crystallization. In this new process, as it does not require thermal treatment after deposition, flexible substrates with low heat resistance can be used. In this paper, we report our observations of the optical properties, magnetic hysteresis loop, crystallizability and density of the particles on the flexible substrate deposited by the spin-coating method