平成29年度 創造工学研修

今後の我が国の科学技術の発展を支えていくために、大学の理工系分野を中心に、主体性や積極性に富む創造性豊かな人材の育成が求められています。本学部では平成8年度から学部1年次学生対象に創造性を養うことを目的とした少人数教育の授業科目として、「創造工学研修」を開設しており、これまで延べ12067名(平成27年度728名)の学生が履修をしてきました。

本研修は学生が自らの意志と発想により、与えられた課題あるいは自ら設定した課題について着想力と想像力を駆使して問題解決の道筋を模索し、実現するための方法・手段を学ぶことに意義があり、特にその『過程』を重視しています。

学生諸君が、様々な分野において独創的な研究で世界をリードしている教員の助言・指導のもとに、「研究」の香りをかぎながら、グループ研修の「コミュニケーションとチームワーク」を楽しみ、「発見」に驚き、「創造」の喜びを味わうことができる絶好の機会です。また、研修テーマは学生の所属学科によらずに選択ができるようになっており、幅広い知識を習得する場でもあります。

平成29年度は工学部専門教育科目・選択・2単位の科目として、『131種類』の研修テーマで開講します。

平成29年度

平成29 年度 創造工学研修テーマ

記号番号テーマ名単位数受入人数
M1Trainig for MEMS Application Contest24
M2Measurement of strain in micro region and strengthening24
M3Let's build robots and control them!230
M4Microtexture dependence of physical properties of carbon nano-fiber composite materials212
M5Introduction to sports engineering -Relationship between friction and sports -24
M6Computer simulation of bacterial swimming14
M7Let’s experience the world of biosensors and biomicromachines!24
M8Design and Fabrication of Paper Bridges28
M9Micromachines for Medical and Healthcare Applications29
M10Design and Creation of Solid State Cells210
M11Measurement of elastic wave velocity through rocks26
M12Introduction to Environmental Studies : Evaluation of the "Rain-garden" 26
M13Introduction to environmental studies: Fabrication of ceramic material by sintering of powder25
M14Creating the New Energy -Think the New Energy Industry in Japan-26
M15An introductory course of a fusion reactor technology:Let's investigate the property change of materials in a fusion reactor24
M16An introductory course of a fusion reactor technology: let's fabricate a superconducting coil !26
M17An introductory course of a fusion reactor technology: Let's measure plasma temperatures24
M18An introductory course of a fusion reactor technology: Cool down high heat flux from plasma!26
M19Simulation of Advanced Aircraft Operations and Cockpit Interface Design 26
M20Degradation science study: Corrosion mechanism of stainless steels24
M21Supercomputer DIY -- Let's Build a Supercomputer! --28
E1Computer Simulation of Electric Power Systems23
E2Synthesis of magnetic nanoparticles 23
E3Design and simulate your own motor -Introduction to Computer Aided Engineering CAE based on finite element method (FEM)-23
E4Image Processing23
E5Development of a spoken dialog system24
E6Structure of Mobile Phones28
E7Millimeter-Wave and Terahertz-Wave Devices for Communications23
E8Introduction to Computer Design23
E9Let’s reacknowledge good old analog technologies25
E10Feel the Principle of Focused Ultrasound Therapy 24
E11Let’s make bright and colorful plasmas using microwave oven24
E12Take a Glance at the Semiconductor LSI World ~Where SMALL Chips Lead the LARGE Industry~25
E13Nano-scale Observation of Individual Atoms and Molecules23
E14Let’s find out the mechanism of high-efficient power conversion26
E15Introduction to Computational Materials Design26
E16Nanoscale measurement24
E17Restoration of Old Motion Picture Film by Computer24
E18Depiction of Carotid Artery with Ultrasound24
E19Ceramics produced by living organism14
E20Next-generation spintronics memory15
E21Optical Wiring Audio24
E22Creation and analysis of a lymph node metastatic mouse model23
E23Measurement of human movements with inertial sensors14
E24Fundamentals of Computer Vision24
E25Controlling IoT Devices by Agents24
E26Programming Experience in SML#: a new language in the ML family25
E27Machine Learning with Raspberry Pi25
E28Toward an Understanding of Human Intelligence through Natural Language Processing24
E29Understanding biological intelligence from oscillatory phenomena16
E30Modeling and Simulation of the Brain25
E31What do we see? -Exploring visual functions-25
E32Combinatorial Game and Algorithm16
E33Let's make an interactive content.24
E34Introduction of Biomedical Imaging24
E35Let's make your original networks by using “Relay by Smartphone”.24
E36Mysterious Behavior of an Electronic Circuit14
E37Fabricate and Evaluate the Nanostructures24
E38Assembly of Nanomachines in a Living Cell23
E39Build your own synthesizer using Arduino26
E40Introduction to electronic circuits for measurement and control24
E41Let's build nanophotonic devices!24
E42Solving Math Puzzles210
E43Optical Design and Fabrication of Liquid Crystal Display14
E44Let’s Have Fun with Functional Programming23
E45Solar batteries using pigments of flower petals26
E46Visualization of Electromagnetic Field Using Supercomputer14
E47Machine Learning for Beginners14
E48Applications of a small robot mBot24
E49GPU-based parallel computing and applications14
E50Bio-magnetic sensor using magnetic tunnel junctions24
E51Synthesis of high-temperature superconducting materials12
E52Synthesis of thermoelectric materials22
E53Life science×Physics -Micro world technology-12
E54Levitated Superconductor Wandering through a Magnetic Maze24
C1Inorganic material synthesis by microwave28
C2Preparation of catalysts for utilization of biomass27
C3Computer-aided visualization of chemical processes26
C4Fabrications of colloidal crystals and their application26
C5How to strengthen lightweight and fragile silica aerogel?26
C6Let’s look at the protein in your life26
C7Synthesis of ionic liquid26
C8Effect of depulping, roasiting and milling method on component in drink coffee?28
C9Functional characterization of firefly luciferase17
C10Let’s clean water using minerals and clays17
C11Single crystal growth of organic semiconductors in vacuum18
C12Molecular Design of Luminescent Lanthanide Complexes16
C13Fabrication of biosensor16
C14Separation of enantiomers16
C15Fabrication of a smart glass switching from transparent to opaque16
MD1Experience fabricating functional materials by microwave non-equilibrium field !17
MD2Digital-Casting --- Let’s try to make metal alloy parts with complicated shape16
MD3 Let’s get to know about the "silent material"!17
MD4A mysterious metal being spontaneously strengthening16
MD5Let's examine deformation of metal sheets16
MD6Exploring atoms in materials using magnetic power17
MD7Technology that underlie the manufacturing - Forefront of welding science - 17
MD8Development of sounding system for delamination in concrete16
MD9Let’s Control Surface Wettability16
MD10Electrolytic deposition and growth of metallic thin film on the interface of two liquid phases16
MD11Microstructural control for high strength and formability of Mg alloys16
MD12Let's design and make micron-sized magnets15
MD13Preparing the “Rare-earth magnets”16
MD14Let's create the best biodegradable composite!16
MD15Evaluation of biocompatibility with bone of titanium materials by the immersion in simulated body fluid18
MD16Let's draw artistic pictures on Ti surface by electrochemical methods!16
H1Do you know Geotechnical Engineering?26
H2Seismic Safety Evaluation of Bridges based on Shaking Table Experiment and Numerical Simulation210
H3Let's Create Spinning Top by using Low Environment Load Types of Cement210
H4Let's Experience Tsunami Field Survey and Tsunami Evacuation14
H5Biodiversity and River Environment210
H6Assessment of Material Dynamics and Conservation in Aquatic Environments23
H7Model and Study Traffic Simulation16
H8Proposal for a New Public Transport System in Sendai212
H9The Art of Creative Group Work212
H10Urban Analysis with GIS Geographic Information System28
H11Let's install a roof on Kleenex Stadium MIYAGI212
H12Truss Structure of Paper ?International Truss Contest-212
H13Let's make use of earthquake experience vehicle, GURARA for Disaster risk reduction28
H14Let's create a resilient coastal town against tsunamis making a contour model28
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