Academic Year |
2024Year |
School/Graduate School |
Graduate School of Integrated Sciences for Life (Master's Course) Division of Integrated Sciences for Life Program of Mathematical and Life Sciences |
Lecture Code |
WG103038 |
Subject Classification |
Specialized Education |
Subject Name |
数理生命科学特別研究 |
Subject Name (Katakana) |
スウリセイメイカガクトクベツケンキュウ |
Subject Name in English |
Research for Academic Degree Dissertation in Mathematical and Life Sciences |
Instructor |
OHNISHI ISAMU |
Instructor (Katakana) |
オオニシ イサム |
Campus |
Higashi-Hiroshima |
Semester/Term |
1st-Year, First Semester, Year |
Days, Periods, and Classrooms |
(Year) Inte:Faculty Office |
Lesson Style |
Seminar |
Lesson Style (More Details) |
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Credits |
4.0 |
Class Hours/Week |
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Language of Instruction |
J
:
Japanese |
Course Level |
6
:
Graduate Advanced
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Course Area(Area) |
25
:
Science and Technology |
Course Area(Discipline) |
01
:
Mathematics/Statistics |
Eligible Students |
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Keywords |
nonlinear mathematical science for life organization, mathematically scientific theoretical deterministic control theory, research for nonlinearity |
Special Subject for Teacher Education |
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Special Subject |
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Class Status within Educational Program (Applicable only to targeted subjects for undergraduate students) | |
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Criterion referenced Evaluation (Applicable only to targeted subjects for undergraduate students) | |
Class Objectives /Class Outline |
Our labo's slogan is “To control it, we must first understand this”. My labo works for nonlinear pure mathematical science, especially within such subjects, my specialty is nonlinear mathemtical science related to biological activities of both plants' and cyanobacteria's biological activity. We use a system of nonlinear partial differential equations to create a dynamical system in which interesting dynamics occur due to nonlinear effects, also using the perspective of finite-dimensional and infinite- dimensional dynamical systems. Furthermore, our labo will deal with the mathematically scientifical theoretical deterministic control theory. Actually. by applying it to concrete control problems (especially concrete engineering control problems), we will study it from mathematically scientific point of view. |
Class Schedule |
Based on at least 15 times report from students, we'll discuss about the subject on the textbook.
No examinations! Students should be attend this seminar, and moreover, should present some reports.
I will give a credit by total comprehensiveness of the textbook. |
Text/Reference Books,etc. |
In Japanese:
1. 新版 フィードバック制御の基礎 片山徹 著 (朝倉書店) 2. 放物型発展方程式とその応用(上)(下) 八木厚志 著 (岩波書店) 3. 線形代数を基礎とする応用数理入門 佐藤一宏 著 (サイエンス社) 4. 理工系のための微分積分 (I) (II) 山田義雄 ら 共著 (内田老鶴圃) 5. これならわかる工学部で学ぶ数学 千葉逸人 著 (プレアデス出版)
InFrench:
6. Control optimal de systemes gouvernes par des equations aux dérivées partielle (偏微分方程式と最適制御) J.L. Lions
In English:
7. Functional Analysis, Sobolev Spaces and Partial Differential Equations オンデマンド (ペーパーバック) H. Breziz |
PC or AV used in Class,etc. |
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(More Details) |
Handouts, blackboard, |
Learning techniques to be incorporated |
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Suggestions on Preparation and Review |
Reporters will be required to deep understanding of contents of the textbook |
Requirements |
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Grading Method |
Attendance: 30% Report: 60% The Others: 10% |
Practical Experience |
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Summary of Practical Experience and Class Contents based on it |
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Message |
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Other |
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Please fill in the class improvement questionnaire which is carried out on all classes. Instructors will reflect on your feedback and utilize the information for improving their teaching. |