Construction of a co-evolutionary algorithm GIGAKU and science utilizing the contest system

利用竞赛系统构建协同进化算法GIGAKU和科学

• 批准号: 24650523
• 负责人: NIIHARA Koichi
• 金额: $ 2.5万
• 依托单位: Nagaoka University of Technology
• 依托单位国家: 日本
• 项目类别: Grant-in-Aid for Challenging Exploratory Research
• 财政年份: 2012
• 资助国家: 日本
• 起止时间: 2012-04-01 至 2014-03-31
• 项目状态: 已结题
• 来源: https://kaken.nii.ac.jp/en/grant/KAKENHI-PROJECT-24650523/
• 关键词: 科学教育; 教育工学; 技学教育; カリキュラム・教授法開発; 科学高等教育; 工学教育; 科学教育カリキュラム; 異分野融合; 相互研鑽; コンテスト形式; ピアレビュー

In rapid innovation in recent years, the problem of technology has become more complex. Black box is in progress. In our university, science technology, that is, made education GIGAKU. The GIGAKU, "re-captured from the aspect of science a variety of technical objects of reality, thereby science of technology to develop further the technology system" is. In this study, we take advantage of consistent education graduate from technical college, technical college students to educate the contest format familiar. It's working to build a new education system. I have studied the three-dimensional printer as a subject matter. I formed a team of students with different departments, different grades, different backgrounds. I constructed a scheme that can spontaneously self-study students. Through this activity, a managerial sophistication students also equips. I went to the practice and development of training techniques of leading human resources.

在近年来的快速创新中，技术问题变得更加复杂。黑盒正在进行中在我们的大学里，科学技术，也就是说，使教育GIGAKU。技研，“从科学的角度重新捕捉现实的各种技术对象，从而使技术科学进一步发展技术体系”。在本研究中，我们利用一贯制教育的优势，对技工院校毕业生进行教育竞赛形式的熟悉。它正在努力建立一个新的教育体系。我把三维打印机作为一个课题来研究。我组建了一个由不同系、不同年级、不同背景的学生组成的团队。我构建了一个可以让学生自发自学的方案。通过这次活动，学生们也具备了管理的经验。我去实践和开发领导人力资源的培训技术。

项目成果

Transition temperatures and irreversibility-field properties of (Cu 1-xCx)Sr2CaCu2O7-δ superconductors with precisely controlled oxygen contents

氧含量精确控制的(Cu 1-xCx)Sr2CaCu2O7-δ超导体的转变温度和不可逆场性质

• DOI: 10.7567/jjap.53.02bc09
• 发表时间: 2014
• 期刊: Japanese Journal of Applied Physics
• 影响因子: 1.5
• 作者: Shibaoka;S. ; Aoba;T.; Suzuki;T.; Nakayama;T.; Suematsu;H.; Niihara;K.
• 通讯作者: K.

2光子励起光造形法を3次元セラミックス複雑構造体の作製

使用双光子激发立体光刻技术制造 3D 陶瓷复杂结构

• 发表时间: 2014
• 作者: 秋山裕幸;中山忠親;高橋勉;山田昇;吉武由美子;末松久幸;鈴木常生;新原皓一
• 通讯作者: 新原皓一

Anisotropic Ceramics Engineering with Nano Pulsed Power Technology

采用纳米脉冲功率技术的各向异性陶瓷工程

• 发表时间: 2014
• 作者: Tadachika Nakayama ;Hong Baek Cho;Minh Triet Huynh Tan;Thanh Son Nguyen
• 通讯作者: Thanh Son Nguyen

Texture controlled hybrid materials fabricated by nano second technology

纳秒技术制造的织构控制杂化材料

• 发表时间: 2013
• 作者: Tadachika Nakayama ;Hong Baek Cho;Minh Triet Huyuh Tan;Thanh Son Nguyen;Weihua Jiang;Tsuneo Suzuki;Hisayuki Suematsu and Koichi Niihara
• 通讯作者: Hisayuki Suematsu and Koichi Niihara

Synthesis of C_xSr_2Ca_<(n-1)>Cu_nO_z superconductors using high-pressure-synthesized Sr_2Ca_<(n-1)>Cu_nO_y precursors (n = 2,4)

使用高压合成的 Sr_2Ca_<(n-1)>Cu_nO_y 前驱体合成 C_xSr_2Ca_<(n-1)>Cu_nO_z 超导体 (n = 2,4)

• DOI: 10.7567/jjap.53.02bc06
• 发表时间: 2014
• 期刊: Japanese Journal of Applied Physics
• 影响因子: 1.5
• 作者: Tomoya Aoba;Tsuneo Suzuki;Tadachika Nakayama;Hisayuki Suematsu;and Koichi Niihara
• 通讯作者: and Koichi Niihara