Zhi Li scite author profile

Over the last decade, researchers and engineers have developed a vast body of methodologies and technologies in requirements engineering for self-adaptive systems. Although existing studies have explored various aspects of this topic, few of them have categorized and summarized these areas of research in requirements modeling and analysis. This study aims to investigate the research themes based on the utilized modeling methods and RE activities. We conduct a thematic study in the systematic literature review. The results are derived by synthesizing the extracted data with statistical methods. This paper provides an updated review of the research literature, enabling researchers and practitioners to better understand the research themes in these areas and identify research gaps which need to be further studied.

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Waveform Control Pulse Magnetization for HTS Bulk With Flux Jump

Ida

Miki

et al. 2018

IEEE Trans. Appl. Supercond.

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Materials preparation and magnetization of Gd-Ba-Cu-O bulk high-temperature superconductors

Ida

Zhou

et al. 2016

Supercond. Sci. Technol.

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The paper reports on recent achievements in the preparation and magnetization of bulk high-temperature superconductors (HTS). The melt-growth of HTS bulks has technically stabilized due to the use of buffer materials with a seed crystal and modified infiltration to supply a rich liquid phase during growth. This modified growth technology was adapted as our standard processing method. This paper describes some new aspects of both field cooling and pulsed field magnetization processes. Pulsed field magnetization uses waveform control that feeds back the transient flux around the top-center of the bulks and traps a field of 1.63 T, which is more than 90% of the field cooling value. This was achieved by applying a single step pulsed field at a liquid nitrogen temperature. For practical applications, the magnetization under a static magnetic field that is tilted from the crystallographic c-axis was investigated at liquid nitrogen temperature. The trapped flux component perpendicular to the bulk surface remains strong up to θ = 30° inclination, compared to the procedure along the axis. Information about HTS bulks is considered to be important for machine applications using bulk HTS as cryo-permanent magnets.

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Zhi Li

Multiple affective attribute classification of online customer product reviews: A heuristic deep learning method for supporting Kansei engineering

A Systematic Literature Review of Requirements Modeling and Analysis for Self-adaptive Systems

Waveform Control Pulse Magnetization for HTS Bulk With Flux Jump

Materials preparation and magnetization of Gd-Ba-Cu-O bulk high-temperature superconductors

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