14717 items found.
Energy issues are now a global challenge through issues of energy security and climate change. In order to present solutions that are truly useful to society, it is necessary to understand how energy use works, as well as the connections between energy, economic and climate systems. In this course, students will learn the scientific view and methods of integrating multiple systems, and then acquire the ability to identify and analyse energy and climate change issues in a country or region and present solutions.
Energy issues are now a global challenge through issues of energy security and climate change. In order to present solutions that are truly useful to society, it is necessary to understand how energy use works, as well as the connections between energy, economic and climate systems. In this course, students will learn the scientific view and methods of integrating multiple systems, and then acquire the ability to identify and analyse energy and climate change issues in a country or region and present solutions.
Students learn about the principles and measurement methods of the capillary electrophoresis-mass spectrometer (CE-MS), the most advanced metabolome measurement technique. Students comprehensively measure metabolic substances in the real samples and analyze dynamic changes in metabolism.
The metabolome analysis training aims to provide a systematic understanding of the actual state of metabolome research through lectures and training on (1) analytical chemistry techniques, (2) intracellular metabolic substance measurement methods (metabolite extraction methods, metabolic substance measurement methods using capillary electrophoresis mass spectrometry (CE-MS)), and (3) metabolome data analysis. Students learn about the principles and measurement methods of the most advanced metabolome measurement technique, comprehensively measure metabolic substances in the cells of real samples, and analyze and consider dynamic metabolic changes.
Students learn about the principles and measurement methods of the capillary electrophoresis-mass spectrometer (CE-MS), the most advanced metabolome measurement technique. Students comprehensively measure metabolic substances in the real samples and analyze dynamic changes in metabolism.
In this class, we aim to acquire the concept of open design through the development of interactive systems.
Even in the field of interaction design, it is very important to share the way of making, to create through collaboration, and to actively provide feedback in order to encourage more designers and engineers to participate. With this background, this class will develop lectures and workshops in cooperation with WebDINO Japan, which leads the dissemination and exploitation of open source system concepts.
Specifically, this year we will deepen our learning about interaction design and open design by putting in practice the development of embedded hardware with the theme of the future of IoT (Internet of Things) as the theme.
In this class, we aim to acquire the concept of open design through the development of interactive systems.
Even in the field of interaction design, it is very important to share the way of making, to create through collaboration, and to actively provide feedback in order to encourage more designers and engineers to participate. With this background, this class will develop lectures and workshops in cooperation with WebDINO Japan, which leads the dissemination and exploitation of open source system concepts.
Specifically, this year we will deepen our learning about interaction design and open design by putting in practice the development of embedded hardware with the theme of the future of IoT (Internet of Things) as the theme.
With the advent of computers, the nature of design has changed dramatically. Designers are now required to have computational skills, and the design process is shifting from production, where what is envisioned is given form, to conception, where the unexpected is actively accepted.
In this lecture, we will explore the state of design in the computational age through hands-on workshops using classic design tools and design models.
Cities in the 21st century have various issues, and we are trying to deal with them in various ways.
In Japan, as the overall population declines and the aging is rapidly progressing, the decline of rural regions, the change of suburban residential areas, etc. are remarkable. At the same time, in the world, persistent racial and ethnic discrimination/ wars and conflicts, expanding economic disparity, the rapid increase of immigrants and refugees influence the cities' living conditions.
With these conditions in our minds, this class will explore the problem from various angles and discuss what kinds of housing, urban, and social policy are needed in our cities.
This is an advanced practical environmental design studio for graduate students who have a significant educational background in the field and who have decided to specialize in architecture, landscape design, urban design and city planning. The course is built around an international and multi-disciplinary perspective and offers broad training in practical problem solving at various scales in the built environment. Students are asked to use design problems as the vehicle for creation of concrete proposals in architectural design, landscape design, urban design, and city planning, and to explore real and contextual issues of the urban environment at an advanced level.
A chief goal of the class is for students to come to understand the multi-layered and intertwined structure of the urban environment through the design process, and to develop the tools needed to design persuasive and comprehensive proposals in the urban context. Students who achieve high standing in all four applied environmental design studios will qualify to complete the master's degree though a non-master's thesis course.
This is a practical course focused on digital design that is grounded in the particular culture of SFC. With the ongoing progress in digital communication media in architecture and urbanism, programmable 3D data has become a comprehensive tool for sharing ideas. Consequently it has a strong impact on the design, construction and utilization of the ideas. It is used in many ways, including the visualization of complex topology and geometry, the simulation of environmental factors, the materialization of unique shapes and tectonics through digital fabrication, navigation of the vast design space that comes from algorithmic design methodology, adaptation to dynamic environments, and the interaction with human behavior through digital sensing technology.The objective of this studio is firstly to realize the practical potential of computational design methods using these technologies. Secondly it is to build a concrete skill set through a hands-on working method.
Cities in the 21st century have various issues, and we are trying to deal with them in various ways.
In Japan, as the overall population declines and the aging is rapidly progressing, the decline of rural regions, the change of suburban residential areas, etc. are remarkable. At the same time, in the world, persistent racial and ethnic discrimination/ conflicts, expanding economic disparity, the rapid increase in immigration influence the cities' living conditions. In addition, the ongoing pandemic severely affects the lives of cities.
With these conditions in our minds, this class will explore the problem from various angles and discuss what kinds of housing, urban, and social policy are needed in our cities.
Recent drastic technological innovation in measurement and analysis of biological system is leading life science to big data science at molecular level. While a lot of questions have been solved and abundance of practical applications have been developed, some classic and fundamental questions are left behind, for example why ATP, what is the initial energy source of biological system, how mitochondria has evolved,etc. We will focus on some biological singularities and seek to understand the path to them.
There are innumerable singularities in the evolution of life, ranging from those that bind all life on earth to those that constrain only a limited number of species. Singularities here refer to characteristics that are fixed to a single design in actual organisms, even though other designs could have been considered possible.
Some of these singularities are the result of entirely chance, and if we were to rewind the earth's clock back millions of years and start evolution all over again, life would probably evolve to different results, while others would reach the same characteristics with high probability no matter how many times evolution is repeated.
The approach (or mission) of the life sciences to elucidate subjects that include such "accidental results" without eliminating them is distinct from the high-road of natural science, which is centered on physics with its idealization and formulation as its main objective.
In this course, we will take one singularity each session that is important and familiar to the life sciences and consider how it can be explained at the present time by reviewing academic papers that have contributed to its elucidation.
老年学とは老化に関する医学、看護学、社会学、心理学などの研究であり、特に医学的分野(=老年医学)は高齢者特有の疾患や病態を理解する上でとても重要です.また、高齢者とは無縁に思えるスポーツ医学は、フレイル予防、介護予防の視点において期待されるものは大きく、昨今の人口のプロポーションを考慮すると、高齢者に対するスポーツ医学の応用はアスリート以上に重要とも言えるでしょう。本講義では老年学やスポーツ医学と老年医学の接点を、それぞれの分野の専門家の講師を迎えオムニバス形式で解説します.これまでの医療に関する知識の有無には関係なく、知識が身に付くよう配慮した講義内容となっているので、医療系の教育を受けた経験がない学生も歓迎します.
詳細なシラバスは、慶應義塾大学 シラバス・時間割(https://gslbs.keio.jp/syllabus/login)を確認してください。
詳細なシラバスは、慶應義塾大学 シラバス・時間割(https://gslbs.keio.jp/syllabus/login)を確認してください。
詳細なシラバスは、慶應義塾大学 シラバス・時間割(https://gslbs.keio.jp/syllabus/login)を確認してください。
バイオメカニクス(生体力学)とは、生体の運動と運動に関係する構造を、主として力学的な視点に立って研究する学問です。本科目では、バイオメカニクスと動作解析の基礎を講義で学び、さらに動作解析の実際について、現場の見学と動作解析を体験する時間も設ける予定です。健康マネジメント研究科の履修生は文系出身者が多い事をふまえて、出来るだけ基礎的な解説を中心としています。初心者向けの入門編とお考え下さい。履修希望者は、4月7日のオリエンテーションには必ず出席して下さい。
詳細なシラバスは、慶應義塾大学 シラバス・時間割(https://gslbs.keio.jp/syllabus/login)を確認してください。
The Web is now the platform of all the activities of the people in the world, and the architecture of the Web is still evolving quickly. In this lecture, we introduce various aspects of Web technologies by showing many up-to-date examples.
Various modern human-computer interaction (HCI) techniques are used everywhere. We show the history of human computer interaction systems and discuss the ideal future of human-computer interface design.
The Web is now the platform of all the activities of the people in the world, and the architecture of the Web is still evolving quickly. In this lecture, we introduce various aspects of Web technologies by showing many up-to-date examples.