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Gender Issues in AI Society ―Possibilities and Challenges
( Inoue Masako ) 아세아여성법학회 2021 아세아여성법학 Vol.24 No.-
AI technology has penetrated deeply into our daily lives of not only a few engineers but also the common people, and has brought about a variety of effects. Currently, there are contradictory reactions: strong expectations of the new technology that AI will significantly change and develop our society, and deep fears that AI will be replaced by humans because of technological Singularity. The issues related to AI society from a gender perspective have not always been fully discussed. In this paper, I will review the characteristics of AI technology, which has been greatly developed by deep learning and big data, and point out the issues from a gender perspective in the following two sections. ① The first kind of problems caused by gender inequality and sexual minorities ② The second kind of problems related to the understanding of individuals and society.
( Inoue Masako ) 아세아여성법학연구소 2005 아세아여성법학 Vol.8 No.-
In the present day, we have faced difficulties to discuss human rights. Partly because philosophy can not provide the firm and appropriate to our society foundation of human rights, and partly because characteristics of our society prevent our using previous tools or ways for right claims and dispute resolution. But we have a lot of cases on serious violation. So we need new structure and visions to analyze our society and relationship among the state, communities and individuals, in order to resopnse, arrange and solute various type of violation. In this article, referring to the history and theoretical development of argumentation on women`s rights and Feminism, we try to search for the key concept and visions on our society. Especially, we focus on the sphere of the intimacy as the base of establishing individuals, reflecting our systems and rules, and providing new sense of values.
Changes of Serum Mineral Concentrations in Horses during Exercise
Inoue, Y.,Osawa, T.,Matsui, A.,Asai, Y.,Murakami, Y.,Matsui, T.,Yano, H. Asian Australasian Association of Animal Productio 2002 Animal Bioscience Vol.15 No.4
We investigated the exercise-induced changes in the serum concentration of several minerals in horses. Four welltrained Thoroughbred horses performed exercise for 5 d. The blood hemoglobin (Hb) concentration increased during exercise, recovered to the pre-exercise level immediately after cooling down and did not change again up till the end of experiment. The changes in serum zinc (Zn) and copper (Cu) concentrations were similar to those of blood Hb during the experiment. The serum magnesium (Mg), inorganic phosphorus (Pi) and iron (Fe) concentrations also increased during exercise. Though the serum Pi concentration recovered to the pre-exercise level immediately after the cooling down, it decreased further before the end of the experiment. The serum Mg concentration was lower immediately after cooling down than its pre-exercise level but gradually recovered from the temporal reduction. The recovery of the serum Fe concentration was delayed compared to that of other minerals and recovered 2 h after cooling down. The serum calcium (Ca) concentration did not change during exercise but rapidly decreased after cooling down. As a result, it was lower immediately after cooling down than its pre-exercise level. It recovered, however, to the pre-exercise level 2 h after cooling down. The temporal increase in the serum concentrations of all minerals except Ca is considered to result from hemoconcentration induced by exercise and the stable concentration of the serum Ca during exercise is possibly due to its strict regulation of homeostasis. These results indicate that the serum concentration of each mineral responds differently to exercise in horses, which may be due to the difference in metabolism among these minerals.
Fast Circuit Simulation Based on Parallel-Distributed LIM using Cloud Computing System
Inoue, Yuta,Sekine, Tadatoshi,Hasegawa, Takahiro,Asai, Hideki The Institute of Electronics and Information Engin 2010 Journal of semiconductor technology and science Vol.10 No.1
This paper describes a fast circuit simulation technique using the latency insertion method (LIM) with a parallel and distributed leapfrog algorithm. The numerical simulation results on the PC cluster system that uses the cloud computing system are shown. As a result, it is confirmed that our method is very useful and practical.
New Aluminum-Based Amorphous Alloys with High Strength and Good Ductility
Inoue,Akihisa,Masumoto,Tsuyoshi 대한금속재료학회(대한금속학회) 1988 대한금속·재료학회지 Vol.26 No.8
New Al-based amorphous alloys with high strength, good ductility and high corrosion resistance have been produced by liquid quenching in Al-Y-Ni and Al-La-Ni systems. The tensile fracture strength (σ_f) and Vickers hardness reach 1140 MPa and 300 DPN for Al_(87)Y_8Ni_5 and 1080 Mpa and 260 DPN for Al_(87)La_8Ni_5. The specific strengths, defined by the ratio of σ₁to density, are as high as 34 to 38, which is much higher than those for conventional alloy steels, Al-based alloys, and Ti-based alloys. These new Al-base amorphous alloys are effected to be used in many applications as a new type of high-strength material with low density and high corrosion resistance.
Inoue Daisuke,Shigematsu Hideki,Nakagawa Yoshiyuki,Takeshima Toshichika,Tanaka Yasuhito 대한척추외과학회 2021 Asian Spine Journal Vol.15 No.3
Study Design: Prospective clinical study. Purpose: To determine the optimal posture for instability evaluation using flexion–extension X-ray imaging in patients with lumbar spondylolisthesis. Overview of Literature: Currently, flexion–extension X-ray imaging is the most practical approach for the evaluation of lumbar instability. In flexion–extension X-ray imaging, achievement of the greatest segmental motion with flexion–extension movement is necessary. However, to our knowledge, currently, there is no standardized posture for determining lumbar instability. Methods: Twenty-three individuals with lumbar spondylosis related to the fourth vertebra underwent flexion–extension X-ray imaging in different postures (standing, sitting, and lateral decubitus positions), lumbar magnetic resonance imaging (MRI), and low back pain Visual Analog Scale (VAS) evaluation on the same day. Intervertebral angle, percent slippage, and intervertebral disc area ratio for different postures during flexion and extension were compared using Tukey’s method. The effect of low back pain and the association between MRI facet effusion and these measurements were investigated according to posture. Results: The percent slippage during extension (p=0.036), change in the percent slippage between flexion and extension (p=0.004), and change in the intervertebral angle (p=0.042) were significantly different between the sitting and lateral decubitus positions. There were also significant differences between the standing and lateral decubitus positions in the change in intervertebral angle (p=0.010). In patients with VAS score <40, there were significant differences in the intervertebral angle (p=0.011) between the standing and lateral decubitus positions, percent slippage (p=0.048), and intervertebral disk ratio (p=0.008) between the sitting and lateral decubitus positions. We found no relationship between MRI facet effusion and posture in terms of instability. Conclusions: In this study, intervertebral instability was best evaluated in the lateral decubitus position when using flexion–extension X-ray imaging for patients with fourth lumbar vertebral spondylolisthesis.