平成28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27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28年度

平成28 年度 創造工学研修テーマ

記号番号テーマ名受入人数
M1Trainig for MEMS Application Contest4
M2Let's evaluate strength of joining materials8
M3Let's build robots and control them!30
M4Microtexture dependence of the strength of fine fibers and hairs12
M5Introduction to sports engineering -Relationship between friction and sports -2
M6Experiment and numerical simulation of Stokes flow4
M7Let's experience the world of biosensors and biomicromachines!4
M8Design and Fabrication of Paper Bridges8
M9Supercomputer DIY -- Let's Build a Supercomputer! --8
M10A high sensitive sensor based on micro/nanomachining5
M11Micromachines for Medical and Healthcare Applications9
M12High efficiency turbine electric power generation6
M13Introduction to deep learning6
M14Design and construction of fuel cells10
M15Introduction to Environmental Studies: Measurement of elastic wave velocity through rocks6
M16Introduction to Environmental Studies: Soil and Groundwater Contamination6
M17Introduction to environmental studies: Fabrication of ceramics to solve environmental problems5
M18Synthesis of high performance nano-materials under low energy and resources consumption condition 6
M19An introductory course of a fusion reactor technology:Let's investigate the property change of materials in a fusion reactor4
M20An introductory course of a fusion reactor technology: let's fabricate a superconducting coil !6
M21An introductory course of a fusion reactor technology: Let's measure plasma temperatures4
M22An introductory course of a fusion reactor technology: Cool down high heat flux from plasma !6
M23Simulation of Advanced Aircraft Operations and Cockpit Interface Design6
M24Try to measure your brain activity!5
M25Degradation science study: Corrosion mechanism of stainless steels4
E1Let's investigate the "beautiful" and "bright" light emission from plasmas4
E2Computer Simulation of Electric Power Systems3
E3Fabrication of wireless-driven magnetic micromachine)4
E4Levitated Superconductor Wandering through a Magnetic Maze4
E5Design and simulate your own motor -Introduction to Computer Aided Engineering (CAE) based on finite element method (FEM)-3
E6Solve the mystery of the thunder lightning in the air4
E7Image Processing3
E8Development of a spoken dialog system4
E9Fabrication of Hertz spark-gap transmitter4
E10Structure of Mobile Phones8
E11Characterization of high-frequency transistors2
E12Introduction to Computer Design3
E13Let's reacknowledge good old analog technologies5
E14Feel the Principle of Focused Ultrasound Therapy4
E15Introduction to optical communications4
E16Let's make bright and colorful plasmas using microwave oven6
E17Take a Glance at the Semiconductor LSI World ~Where SMALL Chips Lead the LARGE Industry~5
E18Nano-scale Observation of Individual Atoms and Molecules3
E19Let's find out the mechanism of high-efficient power conversion6
E20Introduction to Computational Materials Design6
E21Nanoscale measurement4
E22Let's make a Semiconductor Device!4
E23Restoration of Old Motion Picture Film by Computer4
E24Depiction of Carotid Artery with Ultrasound4
E25Ceramics produced by living organism4
E26Next-generation spintronics memory5
E27Solar batteries using pigments of flower petals6
E28Optical Wiring Audio4
E29Creation and analysis of a lymph node metastatic mouse model3
E30Measurement of human movements with inertial sensors4
E31Fundamentals of Computer Vision4
E32Controlling IoT Devices by Agents4
E33Programming Experience in SML#: a new language in the ML family5
E34Robot Programming  Program Autonomous Robots-5
E35Toward an Understanding of Human Intelligence through Natural Language Processing5
E36The final decision of the battle of human and monkey by the advanced genome analyses.2
E38Understanding biological intelligence from oscillatory phenomena6
E39Modeling and Simulation of the Brain5
E40What do we see? -Exploring visual functions-5
E41Bio-magnetic sensor using magnetic tunnel junctions4
E42Puzzle and Algorithm6
E43Let's make an interactive content.4
E44Introduction of Biomedical Imaging4
E45Let’s make your original networks by using “Relay by Smartphone”.4
E46Can physical condition be monitored through video cameras?4
E47Mysterious Behavior of an Electronic Circuit4
E48Fabricate and Evaluate the Nanostructures4
E49Fabrication of Nanomachines in a Living Cell and its Live Imaging Analysis3
E50Build your own synthesizer using Arduino6
E51Introduction to electronic circuits for measurement and control4
E52Synthesis of high-temperature superconducting materials2
E53Let's build nanophotonic devices!4
E54Solving Math Puzzles10
E55Optical Design and Fabrication of Liquid Crystal Display4
E56Let's Have Fun with Functional Programming3
E57Let's measure juices using a sweet-sensitive biosensor3
E58Numerical Design and Fabrication of Electromagnetic Flat Lens10
E59Synthesis of thermoelectric materials4
E60Life science×Physics  Micro world technology-2
C1Molecular Design of Luminescent Lanthanide Complexes6
C2Single crystal growth of organic semiconductors in vacuum8
C3Fabrication of lab gemstones8
C4Fabrication of glass phosphors for radiation detection8
C5Let’s clean water using minerals and clays7
C6Functional characterization of firefly luciferase7
C7Fabrications of colloidal crystals and their application8
C8Computer-aided visualization of chemical processes6
C9Preparation of catalysts for utilization of biomass7
C10Silica aerogel synthesis using supercritical fluid6
C11Effect of extraction method on component in drink coffee ?8
C12Separation of organic compounds using crystal of host molecule6
C13Synthesis of ionic liquid6
C14Fabrication of biosensor6
C15How can we make a damage on virus6
MD1Hydrogen Recovery from Aluminum Scrap and Solution 7
MD2Let's get to know about the “silent material”!7
MD3Let's examine relationship between strength and microstructure of various metal sheets6
MD4Electrolytic deposition and growth of metallic thin film on the interface of two liquid phases7
MD5Let's draw artistic pictures on Ti surface by electrochemical methods!6
MD6Let's design and make micron-sized magnets s micron3
MD7Microstructural control for high strength and formability of Mg alloys6
MD8A mysterious metal that becomes harder spontaneously.5
MD9Fundamental study of light-emitting diode (LED)6
MD10Let's make the “Rare-earth magnets”6
MD11Exploring materials from atomic-level viewpoint using nuclear magnetic resonance7
MD12Technology that underlie the manufacturing - Forefront of welding science - 7
MD13Let's create the best biodegradable composite!6
MD14The world of powder metallurgy6
MD15Polymer gel -design for size and hardness-6
MD16Evaluation of biocompatibility with bone of titanium materials by the immersion in simulated body fluid7
MD17New ironmaking technology and decrease in CO2 emission6
MD18Design of catalytic materials for fuel cell6
H1Civil engineering heritage, historic infrastructures, and civil engineers in Tohoku district12
H2Optimal Design with Additive Manufacturing4
H3CAD of a Truss Bridge and its Paper Craft Model6
H4Let's experience tsunami field survey and tsunami evacuation 10
H5Assessment of material dynamics and conservation in aquatic environments3
H6Biodiversity and river environment6
H7Model and Study Traffic Simulation6
H8Proposal for a new public transport system in Sendai12
H9The Art of Creative Group Work12
H10Urban Analysis with GIS (Geographic Information System)8
H11Let's install a roof on Kleenex Stadium MIYAGI12
H12Truss Structure of PaperInternational Truss Contest-10
H13Build, scrap and check your structural model4
H14Let's create a resilient coastal town against tsunamis making a contour model8
教育

教育