本科教育
Advanced Engineering Course
本科教育 Advanced Engineering Course
随着科学技术发展的快速高度化和系统化,以〔高附加值新产业的开拓〕和研究开发为中心的〔向知识集约型产业转换〕成为产业界的课题。因此接受过专门技术教育、具有研究开发能力、创造力、和实践经验的专业人才•技术者为社会所企盼。
在产业的这种要求下,本科专业在专科所取得的实践技术基础上,再进行两年的本科教学课程,达到以下的教学目标。
- 加深本专业学习(机械、电气电子、材料),具备更深的专业性。
- 学习其它专业的基础知识和最新知识,培养在复合化、高度化的工学方面上的课题研究能力和解决能力。
- 培养具有国际视野的伦理观和创造力、实践能力。
- 成为国际水准的技术者。(JABEE认定,2005年5月)
The progress of science and technology has been so remarkable in recent years that engineers equipped with the inventive, innovative and advanced skills are greatly in need.In order to meet a growing need for highly competent engineers, the Advanced Engineering Courses program was established in 1997.
There are three Advanced Engineering Courses. Each course provides future engineers with an additional two years of even more advanced education, which follows a five-year practical course at a national college of technology.
The major objectives of the program are:1)to offer students two years of higher level learning to help deepen knowledge in their specialized fields;2)to develop the ability to cope with today's technical innovations by cultivating their creative resources;3)to provide students with ethics in global perspectives and to foster their creativity and practical ability and 4)to develop engineers who can work internationally.
(received accreditation by JABEE in May, 2005)
一般科目•公共基础专业科目
General Education and Special Basic Subjects
为掌握高度科学技术的专业人士所具备的基本教养及基础专业知识,制定以下教学目标。
- 学习线性代数、概率•统计、数值解析、现代物理等基础科目,掌握一个专业人士所需要的基础知识。
- 通过日语表达法、综合英语、应用交流等语言学习,掌握国际交流能力;通过技术和哲学、环境论、国际关系等课程,培养具有国际视野和追求技术与社会共生意识的技术人才。
- 通过技术者综合教研、综合创造实验、综合创造演习等复合科目的学习,培养三个专业的系统研发能力和复杂的问题解决能力。
We aim to provide the students with basic scientific knowledge and competence to cope with the advancement of technology. The following three objectives are established:
- To improve their ability as engineering specialists by providing study areas such as Linear Algebra, Probability and Statistics, Numerical Analysis and Modern Physics.
- To develop the ability to consider the co-existence of society and technology from a global point of view, by providing the lessons of languages like Japanese Expression, Advanced English and Advanced Communication and by having them acquire the subjects like Technology and Philosophy, International Affairs and Environmental Chemistry.
- To enhance their ability to design systems and to solve issues from a multilateral viewpoint through the study of cross-discipline subjects like General Seminar for Engineering, creative Engineering Experimentation and Creative Engineering Practice.
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| 技术者综合演习(模拟面试) General Seminar for Engineering (Interview Practice) |
技术者综合演习(发表会) General Seminar for Engineering (Presentation) |
机械专业 Advanced Mechanical Engineering Course
机械学是所有产业的根本,而力学、粘性流体力学、热流动学、机械振动学等力学相关科目是开展独特研究开发的基础科学,以这些科目的教学为中心,再加上与机械设计•制作•控制关联的精密加工特论、工业计测学、机电技术科目的学习,同时添加信息、生命、环境等课程,把学生培养成先进的,有用系统设计能力的技术者。
Students in this course acquire skills in advanced manufacturing technology and mechatronics, which are related to the design, production and control of machine elements, through the study of the strength of materials, fluid dynamics, thermodynamics, and mechanical vibration. By studying these, students build up a solid foundation for machinery research. Furthermore, through mastering cross-discipline subjects such as computer technology, biotechnology and environmental technology, students will develop into engineers with the ability for innovative system design .
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| 拉伸压缩疲劳实验 Serbopulser |
汽车用齿轮式变速器 Transmission for Automobile |
电气电子专业
Advanced Electrical and Electronic Engineering Course
以电子•计算机技术基础的数理学科目为中心,加上材料学、生产系统学等多学科的课程学习,使学生掌握一个具有设计、生产、研究能力的产业技术者所具备的综合能力。并且通过特别研究等手段,培养开拓新课题、解决高深问题的能力,成为一个有综合能力、实践经验的技术者。
Students in this course build up a solid foundation as engineers of electronics and computer technology through the study of mathematical and physical science as well as material science and production system engineering. Furthermore, students in this course are encouraged to cultivate the ability to contribute, as innovative engineers, to the design and production and the research and development of electronic devices. In addition, through the special research in this course, students will grow into competent engineers with an attitude toward problem-solving, the ability to cultivate new fields and to create electronic systems.
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| FA(Factory Automation)系统 |
脉冲激光镀膜器 PLD系统 Pulsed Laser Deposition (PLD) System |
材料专业 Advanced Chemical and Biological Engineering Course
广泛学习以高附加值素材•产品的研究开发和生产技术为中心的化学工业方面的专门知识、以及在医药品制造中非常实用的先进生命技术。并且通过特别研究等手段,培养从化学•生物学角度出发对环境•能源问题的处理能力,成为一个能够适应在各种分析技术开发和材料开发工作的有创造力的技术者。
Students in this course acquire highly specialized knowledge in the fields of industrial chemistry and biotechnology, so that they will heighten their proficiency and expertise in the research and production of valuable materials and medical products. Furthermore, through the special research in this course, students will develop their ability to cope with problems in the environment and energy from the perspectives of chemistry and biology and will grow into competent engineers who will also be engaged in development and research in the related fields.
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| 核磁共振装置 Nuclear Magnetic Resonance Apparatus |
难溶解性物质的溶化实验 Experiments in Solubilization of Slightly Soluble Substances |