"M" Keywords - 146 Result(s)

 M

[male sterility]

Methods to Restore Strelity of Gramineous Plants under High- and Low-Temperature Stress Conditions

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特徴・独自性
  • Plant reproductive development is more sensitive than vegetative growth to many environmental stresses. High-temperature injury is becoming an increasingly serious problem due to recent global warming. In wheat, barley, and other crops, the early phase of anther development is most susceptible to high temperature. Oppositely, grain yields in rice plants are often reduced by exposure to low temperature. Unexpected climate change, such as abnormally hot or cool summer temperatures, have occurred repeatedly during recent years. This method indicates that an appropriate use of specific phytohormones, such as auxin and GA, may promote stress tolerance and adaptation to abiotic stresses.
実用化イメージ

These potentially novel functions of the classical phytohormones will be important sustainable agriculture in the face of global climate change.

Researchers

Graduate School of Life Sciences

Atsushi Higashitani

[Man-Machine Interface Usability]

Application of Nuroimaging Technique to Interface Evaluation

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特徴・独自性
  • Nuclear power plants, chemical plants, ironworks and smelters, aircrafts and others that involve large-scale and complex systems yield many benefits to society and daily life, but a serious accident in such systems may result in dire consequences and significant damage. As long as there is human intervention of any kind, it is difficult to completely avoid human error. In light of this, it is crucial to have the mindset of "to err is human, (to forgive divine)." Takahashi Laboratory advocates the improvement of safety based on the harmonization of humans, machines and the environment. The object of our research is the human. Incorporating neuroscience approach and knowledge, we probe into human cognitive and behavioral traits and reflect our findings back into our research with the cooperation of this university's Institute of Development, Aging and Cancer as well as practicing specialists and technical experts. Through our broad vision, flexible mindset and creativity, we pioneer interfaces between humans and systems where safety is ingrained.
実用化イメージ

The core of our research is the examination and understanding of the human factor to be taken into account for the safe and efficient operation of large scale, complex systems, and we are involved in the research of a wide array of subjects not limited to nuclear energy systems but air traffic control operations, man-machine interfaces, cyber security, standardization of rules among others.

Researchers

Graduate School of Engineering

Makoto Takahashi

[manufacturing metrology]

Development of Sensors and Measuring Systems for Ultra-Precision Manufacturing and Nanomanufacturing

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特徴・独自性
  • The research is being focused on measurement of surface forms of precision workpieces and stage motions of precision machines, which are important items for ultra-precision manufacturing and nanomanufacturing. Optical sensors are being developed for measurement of angle and displacement, which are fundamental quantities for manufacturing. Technologies for improvement of the sensor sensitivity and bandwidth, reduction of the sensor size as well as new multi-axis sensing methods are being The research is being focused on measurement of surface forms of precision workpieces and stage motions of precision machines. Optical sensors are being developed for measurement of angle and displacement. A number of scanning-type measuring systems for precision measurement of surface forms and stage motions are also being developed. Error separation algorithms and systems for straightness and roundness, which are the most fundamental geometries treated in ultra-precision manufacturing, are being investigated. Novel systems based on scanning probe microscopy are under development for micro- and nano-structures as well as freeform optics in responding to new and important challenges from ultra-precision manufacturing and nanomanufacturing.
実用化イメージ

The multi-axis optical displacement and angle sensors developed in the laboratory are expected to measure motions of semiconductor/IC manufacturing and inspection equipment, precision machine tools, ultra-precision measuring instrument. The surface profile measurement systems are expected t play an important role in ultra-precision manufacturing and nanomanufacturing industries.

Researchers

Graduate School of Engineering

I Ko

[Marfan syndrome]

Development of preventive medicine for aortic aneurysm and dissection of Marfan syndrome

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特徴・独自性
  • Marfan’s syndrome (MF) is a severe, systemic disorder of connective tissue formation. A variety of MFS therapies have been developed, including surgical therapy for aortic root aneurysm and dissection (AAD) that are life-threatening, traditional medical therapies such as β-adrenergic receptor or angiotensin II receptor blockers for slow aortic growth and to decrease the risk of AAD. However these treatments did not prevent tissue destruction in the AAD of MF. To develop preventive strategy for AAD, it will be necessary to identify molecular mechanisms of microfibril formation and an appropriate fibrillin-1 microfibril associated molecule. Recently, ADAMTSL6β, which is a microfibril-associated extracellular matrix protein contributes the regeneration of microfibril by promoting fibrillin-microfibril assembly. We try to develop ADAMTSL6β as a preventive medicine for AAD of MF by regeneration of fibrillin-1 microfibril assembly.
実用化イメージ

Researchers

Graduate School of Dentistry

Masahiro Saito

[marketing]

Advanced Analysis of Socio-Economical Data for Capturing Social Needs

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特徴・独自性
  • We have proposed advanced methods of behavior analysis for public transport service.
  • They include a demand composition based on the automatically mesured traffic data, estimation of true demand partly unrealized by the congestion, and intense usage of geographical data. These methods may be applicable for behavior analysis besides transport service.
実用化イメージ

We welcome cooperative research on demand analysis of public services, as well as needs analysis for new goods and services.

Researchers

International Research Institute of Disaster Science

Makoto Okumura

Data Analytics for Creation of Social Values

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特徴・独自性
  • My research field is a data analytics for creation of social values by data science approaches. In modern society, we can observe various data sets about our daily life, business or community. I aim to create new services for it using such data set and methods of Bayesian modeling, data mining or machine learning.
実用化イメージ

Researchers

Graduate School of Economics and Management

Tsukasa Ishigaki

[Mass Transport]

Molecular Dynamics Analysis of Coating and Surface Modification

特徴・独自性
  • Molecular-scale mechanism of solid-liquid affinity, wettability, thermal boundary resistance and molecular deposition are analyzed by molecular dynamics simulations toward its control. With a background of heat and mass transport and interfacial thermodynamics, transport phenomena of various scales ranging from spin coating of photoresist to SAM (self-assembled monolayer) and hydrophobic/hydrophilic treatment by attaching some molecular basis are studied. Futhermore, the molecular-scale mechanisms which determine thermophysical properties and the molecular structure that realizes desired thermophysical properties are studied. We can conduct effective collaboration and provide academic consultations to companies interested in our research.
実用化イメージ

Researchers

Tohoku Medical Megabank Organization

Taku Obara

[material design]

Material Design for Solution of Energy and Environmental Problems by Multi-Physics and Multi-Scale Simulation

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特徴・独自性
  • In order to solve the energy and environmental problems, the development of the high-functional and high-performance materials is required in a wide variety of research fields such as fuel cell, Li-ion battery, tribology etc. Especially, the recent material technologies constitute of multi-physics and multi-scale phenomena including chemical reaction, friction, impact, stress, fluid, photon, electron, heat, electric and magnetic fields etc. on nano- and macro-scales. Therefore, Kubo laboratory is pioneering the development of multi-physics and multi-scale simulator on the basis of quantum chemistry and is utilizing supercomputers "Fugaku" and "MASAMUNE-IMR" for realizing the theoretical material design with high-accuracy.
実用化イメージ

We utilize our developed multi-physics and multi-scale simulation technology on the basis of quantum chemistry for acceelerating the material development in a wide variety of private companies of automotive, machinery, power, electronics, material, metal, chemistry etc. and then contribute to solving the energy and environmental problems.

Researchers

Institute for Materials Research

Momoji Kubo

[Material flow analysis]

Eco-Material Processing

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特徴・独自性
  • The major subject of our group is ferrous process metallurgy including thermodynamics of metals, alloys and molten slags, high temperature heterogeneous kinetics, phase equilibria of complex oxide systems and so on. We are interested in physic-chemical fundamentals of processing of metals, slags, scrap and waste. Recently our research interests are extended to multidisciplinary area so-called "Industrial Ecology" by the combination of process metallurgy, LCA (life cycle assessment) and social science such as econometrics.
実用化イメージ

Typically our research group is aggressively working in the area of material flow analysis of critical metals considering the quality of recycled materials. Currently our major research partners are steel and non-ferrous industries, while we do hope to collaborate with waste treatment company, mineral industry and an administrative organ.

Researchers

New Industry Creation Hatchery Center

Tetsuya Nagasaka

Visualization of supply chain risks from the resource logistics perspective

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特徴・独自性
  • With the increased global concerns of resource and environmental constraints of recent years, the role of mining, as a constituent of social responsibility associated with resource extraction and usage, is becoming increasingly important in the science, technology, and innovation policy. Under increasing public and shareholders' concerns of social and environmental sustainability, the fabrication industries require careful attention owing to their own risks related to the resources and materials that are used in their products and services. The Material Flow Analysis tool and Input output technique provide useful perspectives and valuable evidences for avoiding or minimizing the social and environmental risks related to the demand of resources.
実用化イメージ

Our developed model evaluates the risk weighted flow analysis by combining the resource logistics database and Global Link Input Output model. The estimated results shed light on how resource logistics prepares policy makers and R&D engineers to confront the risks behind resource usage and how the information should be shared among the stakeholders.

Researchers

Graduate School of Environmental Studies

Kazuyo Matsubae

[Material models]

[materials design]

Theoretical Design of New Materials and Device Functionality based on First-principles Calculations

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特徴・独自性
  • We are doing theoretical research on electrical conductivity in magnetoresistive devices using highly spin-polarized materials. The aim is to achieve very functional spintronics devices such as read-out heads for ultrahigh-density magnetic recording and non-volatile spin memories. We also investigate magnetoresistive devices using perpendicularly magnetized materials to ensure endurance against thermal fluctuations of the magnetization. We successfully achieve a guideline for improvement of the magnetoresistive performance by designing the crystal structure at the interface between ferromagnets and oxides theoretically.
  • We believe that first-principles calculations, which need no empirical parameter, play a very important role in research and development of various materials. Please contact us if you want to collaborate with us.
実用化イメージ

Researchers

Research Institute of Electrical Communication

Masafumi Shirai

[materials processes]

High-Temperature Processes and Measurements of Materials

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特徴・独自性
  • Fukuyama laboratory studies novel material processing based on chemical thermodynamics with high-temperature thermophysical property measurements. As examples, we are developing new crystal growth processes to bring a breakthrough in nitride-semiconductor devices, which are promising materials for next-generation optical devices applied in environmental, medical, bio and information technologies fields. Database of thermophysical properties of materials is needed for modeling heat and mass transports in materials processes.
実用化イメージ

A new thermophysical property measurement system is currently under development, which enables accurate measurements of heat capacity, thermal conductivity, emissivity, density and surface tension of high-temperature melts, utilizing electromagnetic levitation in a dc magnetic field.

Researchers

Institute of Multidisciplinary Research for Advanced Materials

Hiroyuki Fukuyama

[Materials processing]

Microwave Processing of Functional Inorganic Materials

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特徴・独自性
  • Microwave processing is one of the attractive fields in recent materials processing. We perform various materials processing using non-equilibrium reaction field induced by microwave and/or ultrasonic irradiation. The topic contains powder metallurgy, nitride coatings, synthesis of new functional materials, fabrication of nanoparticles, etc. Recently we have developed a new TiN coating method using our microwave irradiation equipment operated at a frequency of 2.45 GHz. The method is simple but applicable to various substrates with complex shape. This method can be applied to various nitride coatings and will open a new coating technology in many fields of applications.
実用化イメージ

The major targets of TiN coatings are for cutting tools, ball bearings, dental implants, die and mold for stamping, and ornaments. The newly developed method makes it possible to perform nitride coatings within a short time using a standard microwave heating equipment. We hope to conduct collaborative research with a willing company for a practical application of these technology.

Researchers

Administrative Staff

Hirotsugu Takizawa

[mathematical model]

Mathematical Biology

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特徴・独自性
  • Principal subject of our study is the mathematical model analysis to make clear or present the point at issue for scientific discussion about real biological/social phenomena, or to promote the advanced theoretical research: what theoretical problem about target phenomenon is treated, how the problem is mathematically modeled, what mathematical analysis is applied for the model, and how the mathematical result is lead to the discussion in biological/social science.
実用化イメージ

Researchers

Graduate School of Information Sciences

Hiromi Seno

[Mathematical physics]

Optimizing everything / Optimal Society

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特徴・独自性
  • Aiming at developing practical quantum optimization technology known as quantum annealing, we are working on exploring basic technologies that can overcome the limitations and applications in collaboration with multiple companies. The advantage of the method is that it can be used simply by formulating a cost function that draws the goal to be optimized once, but we are not limited to the original method. We extend it by considering a much easier problem, sequential optimization by learning, black box optimization, etc.. In particular, it is being applied to automated driving, logistics in factories, and evacuation guidance during disasters.
実用化イメージ

Applications to route search problems such as automatic driving of various vehicles, evacuation route guidance at the time of disaster, process scheduling and a large number of combination problems. We can provide a solution to combinatorial optimization in each industry. (Transportation / distribution, manufacturing, materials, drug discovery, etc.)

Researchers

Graduate School of Information Sciences

Masayuki Ohzeki

[McH-lpr/lpr-RA1]

Development of McH-lpr/lpr-RA1 mouse, a study model that spontaneously develops severe autoimmune arthritis, vasculitis, and sialadenitis

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特徴・独自性
  • McH/lpr-RA1 mice are recombinant congenic mice descended from MRL/lpr and C3H/lpr mice and develop arthritis, vasculitis, and sialadenitis with high frequency and severity, with severe pannus formation similar to rheumatoid arthritis, polyarteritis nodosa, and Sjogren's syndrome. On the other hand, McH/lpr-RA1 mice do not develop systemic lymphadenopathy and severe nephritis as seen in MRL/lpr mice, so they are easy to breed and maintain and can be used for long-term drug administration experiments.
実用化イメージ

Development of diagnostic and therapeutic agents for collagen diseases. It can be applied to the elucidation of the mechanism of onset of immunological adverse events caused by immune checkpoint inhibitors and the development of drugs to prevent the onset of such events, etc. Industry-academia collaboration with pharmaceutical companies, test reagent companies, etc. is possible.

Researchers

Graduate School of Biomedical Engineering

Tetsuya KODAMA

[Measurement of touch feeling]

Study on Tactile/Touch Feeling Sensor

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特徴・独自性
  • Tactile sense and the sense of touch are multiple combinations of fundamental sensations, such as smooth and rough, soft and hard, dry and wet, and hot and cold sensations. These sensations are described with the information on force, distortion, temperature, stickiness and oscillation.
  • A tactile sensor corresponding to several types of human skin sensory receptors and an active tactile sensor system that is an integrated sensor structure imitating human haptic motions have been developed. These sensor systems allowed measurement of "Kansei" words that are extremely vague tactile feelings, and roughness, softness and temperature sensations. However, tactile sense or the sense of touch also includes other sensations and combinations of them. Therefore, to develop a sensor, it is important to define how the sensations and physical information relating to the sensations are obtained and what relationships exist between them.
  • In this research, the relationships between sensations, including fundamental sensations that have already been obtained and other sensations, and the relevant physical information are being investigated. Additionally, on the basis of the knowledge through the investigation, an advanced sensor system that allows obtaining haptic information is being developed.
実用化イメージ

The research is beneficial not only to life science but also to manufacturing fields.

Researchers

Graduate School of Biomedical Engineering

Mami Tanaka

[measurement-integrated simulation]

Measurement-Integrated Simulation to Analyze Complex Flows

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特徴・独自性
  • In order to obtain huge fluid information of real flows we are developing a new flow analysis methodology "measurement-integrated simulation" by integrating experimental measurement and computer simulation. Complex real flows are accurately reproduced by the effect of a feedback signal to compensate the difference between the measurement and calculation. This can be appliedto wide variety of complex flow problems, for example, real-time visualization of blood flows for medical diagnosis, flow analysis around automobile body, real-time monitoring of flow in a complex piping in a nuclear power plant.
  • We are prepared to provide academic consultations to companies interested in our research.
実用化イメージ

Researchers

Frontier Research Institute for Interdisciplinary Sciences

Toshiyuki Hayase

[Measurement/analysis]

Development of Advanced Device and Process Technologies and New Image Sensors

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特徴・独自性
  • Toward the ultimate performances of image sensors, advanced research activities are being conducted that cover a wide range of technology fields from cleanroom infrastructure, materials, process equipment, process, device, circuit, assembly, signal processing, measurement/evaluation and reliability. Following technologies have been successfully commercialized:
  • A fast and accurate measurement technology of electrical characteristics for over 1 million transistors
  • A wide dynamic range CMOS image sensor technology capturing images over five decade brightness ranges
  • An ultra-fast CMOS image sensor technology with 10 million frames/sec
実用化イメージ

Followings are available for industry collaborators:
A. 200mm-diameter-wafer silicon device fabrication utilizing the ultra-clean facility including wafer mutual fabrication processing between device manufacturers.
B. Process technology development and various kinds of analyses.
C. Development of new image sensors.

Researchers

New Industry Creation Hatchery Center

Shigetoshi Sugawa