Updated on 2024/11/08

写真a

 
MIYAGAWA Tomoko
 
Name of department
Faculty of Systems Engineering, Environmental Design
Job title
Professor
Concurrent post
Architecture and Landscape Major(Professor)
Mail Address
E-mail address
Homepage
External link

Education

  • Nara Women's University   Graduate School, Doctral Research Course in Human Culture   Human Environment and Science Students  

  • Nara Women's University   人間文化研究科   人間環境科学  

  • Nara Women's University   人間文化研究科   住環境学  

  • Nara Women's University   Graduate School, Doctral Research Course in Human Culture   Residential Environment  

  • University of Newcastle upon Tyne   Faculty of Law, Economics and Social Science   Town and Country Planning  

  • ニューカッスル大学   法律・経済・社会科学   都市計画  

▼display all

Degree

  • Master of Residential Environment

  • Doctor of Philisophy (Ph.D)

Academic & Professional Experience

  • 2007
    -
    Now

    Wakayama University   Faculty of Systems Engineering   教授

Association Memberships

  • 日本造園学会

  • 日本都市計画学会

  • 日本建築学会

Research Areas

  • Environmental science/Agricultural science / Environmental policy and society

  • Environmental science/Agricultural science / Environmental impact assessment

  • Social infrastructure (civil Engineering, architecture, disaster prevention) / Architectural and city planning

Classes (including Experimental Classes, Seminars, Graduation Thesis Guidance, Graduation Research, and Topical Research)

  • 2023   Introductory Seminar in Systems Engineering   Specialized Subjects

  • 2023   Community Collaboration Planning Exercise C   Cooperative Development Subjects

  • 2023   Community Collaboration Planning Exercise B   Cooperative Development Subjects

  • 2023   Community Collaboration Planning Exercise A   Cooperative Development Subjects

  • 2023   Regional Studies   Liberal Arts and Sciences Subjects

  • 2023   Community Collaboration Planning Exercise Basic   Cooperative Development Subjects

  • 2023   Community Collaboration Planning Exercise Adv.   Cooperative Development Subjects

  • 2023   Community Collaboration Seminar   Liberal Arts and Sciences Subjects

  • 2023   Environmental Research and Design B   Specialized Subjects

  • 2023   Introductory Seminar in Systems Engineering   Specialized Subjects

  • 2023   Design Studio for Living Environment I   Specialized Subjects

  • 2023   Graduation Research   Specialized Subjects

  • 2023   Exercises on Urban Design   Specialized Subjects

  • 2023   Environmental Research and Design A   Specialized Subjects

  • 2023   Design Studio for Dwelling Houses   Specialized Subjects

  • 2023   Basic Drawing for Environmental Systems II   Specialized Subjects

  • 2023   Living environment system A   Specialized Subjects

  • 2023   Environmental design A   Specialized Subjects

  • 2022   Community Collaboration Planning Exercise Adv.   Cooperative Development Subjects

  • 2022   Community Collaboration Planning Exercise C   Cooperative Development Subjects

  • 2022   Community Collaboration Planning Exercise B   Cooperative Development Subjects

  • 2022   Community Collaboration Planning Exercise A   Cooperative Development Subjects

  • 2022   Community Collaboration Planning Exercise Basic   Cooperative Development Subjects

  • 2022   Regional Studies   Liberal Arts and Sciences Subjects

  • 2022   Community Collaboration Seminar   Liberal Arts and Sciences Subjects

  • 2022   Exercises on Urban Design   Specialized Subjects

  • 2022   Graduation Research   Specialized Subjects

  • 2022   Design Studio for Living Environment I   Specialized Subjects

  • 2022   Living environment system A   Specialized Subjects

  • 2022   Design Studio for Dwelling Houses   Specialized Subjects

  • 2022   Environmental design A   Specialized Subjects

  • 2022   Environmental Research and Design B   Specialized Subjects

  • 2022   Environmental Research and Design A   Specialized Subjects

  • 2022   Basic Drawing for Environmental Systems II   Specialized Subjects

  • 2021   Graduation Research   Specialized Subjects

  • 2021   Design Studio for Dwelling Houses   Specialized Subjects

  • 2021   Exercises on Urban Design   Specialized Subjects

  • 2021   Living environment system A   Specialized Subjects

  • 2021   Environmental Research and Design A   Specialized Subjects

  • 2021   Basic Drawing for Environmental Systems II   Specialized Subjects

  • 2021   Design Studio for Living Environment I   Specialized Subjects

  • 2021   Environmental design A   Specialized Subjects

  • 2021   Environmental Research and Design B   Specialized Subjects

  • 2021   Introductory Seminar in Systems Engineering   Specialized Subjects

  • 2021   Community Collaboration Planning Exercise C   Cooperative Development Subjects

  • 2021   Community Collaboration Planning Exercise B   Cooperative Development Subjects

  • 2021   Community Collaboration Planning Exercise A   Cooperative Development Subjects

  • 2021   Regional Studies   Liberal Arts and Sciences Subjects

  • 2021   Community Collaboration Planning Exercise Basic   Cooperative Development Subjects

  • 2021   Community Collaboration Planning Exercise Adv.   Cooperative Development Subjects

  • 2021   Community Collaboration Seminar   Liberal Arts and Sciences Subjects

  • 2020   Community Collaboration Planning Exercise Adv.   Cooperative Development Subjects

  • 2020   Community Collaboration Planning Exercise C   Cooperative Development Subjects

  • 2020   Community Collaboration Planning Exercise B   Cooperative Development Subjects

  • 2020   Community Collaboration Planning Exercise A   Cooperative Development Subjects

  • 2020   Community Collaboration Planning Exercise Basic   Cooperative Development Subjects

  • 2020   Regional Studies   Liberal Arts and Sciences Subjects

  • 2020   Community Collaboration Seminar   Liberal Arts and Sciences Subjects

  • 2020   Graduation Research   Specialized Subjects

  • 2020   Design Studio for Living Environment I   Specialized Subjects

  • 2020   Exercises on Urban Design   Specialized Subjects

  • 2020   Basic Drawing for Environmental Systems II   Specialized Subjects

  • 2020   Design Studio for Dwelling Houses   Specialized Subjects

  • 2020   Environmental design A   Specialized Subjects

  • 2020   Living environment system A   Specialized Subjects

  • 2020   Environmental Research and Design B   Specialized Subjects

  • 2020   Environmental Research and Design A   Specialized Subjects

  • 2019   Exercises on Environmental Systems Design   Specialized Subjects

  • 2019   Exercises on Environmental Systems Design   Specialized Subjects

  • 2019   Environmental Research and Design B   Specialized Subjects

  • 2019   Environmental Research and Design A   Specialized Subjects

  • 2019   Design Studio for Dwelling   Specialized Subjects

  • 2019   Theory of Environmental Design   Specialized Subjects

  • 2019   Introductory Seminar in Systems Engineering   Specialized Subjects

  • 2019   Risk Management   Specialized Subjects

  • 2019   Design Studio for Living Environment   Specialized Subjects

  • 2019   Living Environment Systems   Specialized Subjects

  • 2019   Living Environment Systems   Specialized Subjects

  • 2019   Environmental Greening   Specialized Subjects

  • 2019   Community Collaboration Self-planning Exercise Adv.   Liberal Arts and Sciences Subjects

  • 2019   Community Collaboration Self-planning ExersiseⅡ   Liberal Arts and Sciences Subjects

  • 2019   Community Collaboration Self-planning ExersiseⅠ   Liberal Arts and Sciences Subjects

  • 2019   Community Collaboration Seminar   Liberal Arts and Sciences Subjects

  • 2018   Exercises on Environmental Systems Design   Specialized Subjects

  • 2018   Exercises on Environmental Systems Design   Specialized Subjects

  • 2018   Environmental Research and Design B   Specialized Subjects

  • 2018   Environmental Research and Design A   Specialized Subjects

  • 2018   Design Studio for Dwelling   Specialized Subjects

  • 2018   Theory of Environmental Design   Specialized Subjects

  • 2018   Risk Management   Specialized Subjects

  • 2018   Design Studio for Living Environment   Specialized Subjects

  • 2018   Living Environment Systems   Specialized Subjects

  • 2018   Living Environment Systems   Specialized Subjects

  • 2018   Environmental Greening   Specialized Subjects

  • 2018   Community Collaboration Self-planning Exercise Adv.   Liberal Arts and Sciences Subjects

  • 2018   Community Collaboration Self-planning ExersiseⅡ   Liberal Arts and Sciences Subjects

  • 2018   Community Collaboration Self-planning ExersiseⅠ   Liberal Arts and Sciences Subjects

  • 2018   Community Collaboration Seminar   Liberal Arts and Sciences Subjects

  • 2017   Community Collaboration Seminar   Liberal Arts and Sciences Subjects

  • 2017   Community Collaboration Self-planning ExersiseⅡ   Liberal Arts and Sciences Subjects

  • 2017   NA   Liberal Arts and Sciences Subjects

  • 2017   Exercises on Environmental Systems Design   Specialized Subjects

  • 2017   Exercises on Environmental Systems Design   Specialized Subjects

  • 2017   Design Studio for Dwelling   Specialized Subjects

  • 2017   Theory of Environmental Design   Specialized Subjects

  • 2017   Seminar in Environmental Design Ⅱ   Specialized Subjects

  • 2017   Seminar in Environmental ModelingⅡ   Specialized Subjects

  • 2017   Seminar in Environmental TechnologyⅡ   Specialized Subjects

  • 2017   Risk Management   Specialized Subjects

  • 2017   Design Studio for Living Environment   Specialized Subjects

  • 2017   Living Environment Systems   Specialized Subjects

  • 2017   Living Environment Systems   Specialized Subjects

  • 2017   Environmental Greening   Specialized Subjects

  • 2017   Community Collaboration Self-planning ExersiseⅠ   Liberal Arts and Sciences Subjects

  • 2016   Seminar in Environmental Design Ⅱ   Specialized Subjects

  • 2016   Seminar in Environmental ModelingⅡ   Specialized Subjects

  • 2016   Seminar in Environmental TechnologyⅡ   Specialized Subjects

  • 2016   Exercise in Environmental DesignⅠ   Specialized Subjects

  • 2016   Seminar in Environmental ModelingⅠ   Specialized Subjects

  • 2016   Seminar in Environmental Technology Ⅰ   Specialized Subjects

  • 2016   Design Studio for Dwelling   Specialized Subjects

  • 2016   Theory of Environmental Design   Specialized Subjects

  • 2016   Exercises on Environmental Systems Design   Specialized Subjects

  • 2016   Exercises on Environmental Systems Design   Specialized Subjects

  • 2016   Exercises on Environmental Systems Design   Specialized Subjects

  • 2016   Exercises on Environmental Systems Design   Specialized Subjects

  • 2016   Risk Management   Specialized Subjects

  • 2016   Living Environment Systems   Specialized Subjects

  • 2016   Living Environment Systems   Specialized Subjects

  • 2015   Seminar in Environmental ModelingⅡ   Specialized Subjects

  • 2015   Fundamental Environmental Design   Specialized Subjects

  • 2015   Seminar in Environmental Design Ⅱ   Specialized Subjects

  • 2015   Seminar in Environmental TechnologyⅡ   Specialized Subjects

  • 2015   Exercises on Environmental Systems Design   Specialized Subjects

  • 2015   Exercises on Environmental Systems Design   Specialized Subjects

  • 2015   Introductory Seminar in Systems Engineering   Specialized Subjects

  • 2015   Design Studio for Living Environment   Specialized Subjects

  • 2015   Living Environment Systems   Specialized Subjects

  • 2015   Living Environment Systems   Specialized Subjects

  • 2015   Living Environment Systems   Specialized Subjects

  • 2015   Living Environment Systems   Specialized Subjects

  • 2015   Seminar in Environmental ModelingⅠ   Specialized Subjects

  • 2015   Exercise in Environmental DesignⅠ   Specialized Subjects

  • 2015   Seminar in Environmental Technology Ⅰ   Specialized Subjects

  • 2015   Risk Management   Specialized Subjects

  • 2014   Voluntary Study on Systems Engineering Ⅴ   Specialized Subjects

  • 2014   Introduction to Environmental Systems Ⅱ   Specialized Subjects

  • 2014   Seminar in Environmental Design Ⅱ   Specialized Subjects

  • 2014   Seminar in Environmental ModelingⅡ   Specialized Subjects

  • 2014   Seminar in Environmental TechnologyⅡ   Specialized Subjects

  • 2014   Exercise in Environmental DesignⅠ   Specialized Subjects

  • 2014   Seminar in Environmental ModelingⅠ   Specialized Subjects

  • 2014   Seminar in Environmental Technology Ⅰ   Specialized Subjects

  • 2014   Risk Management   Specialized Subjects

  • 2014   Exercises on Environmental Systems Design   Specialized Subjects

  • 2014   Exercises on Environmental Systems Design   Specialized Subjects

  • 2014   Design Studio for Living Environment   Specialized Subjects

  • 2014   Fundamental Environmental Design   Specialized Subjects

  • 2014   Living Environment Systems   Specialized Subjects

  • 2014   Living Environment Systems   Specialized Subjects

  • 2013   Living Environment Systems   Specialized Subjects

  • 2013   Living Environment Systems   Specialized Subjects

  • 2013   Voluntary Study on Systems Engineering Ⅴ   Specialized Subjects

  • 2013   Introduction to Environmental Systems Ⅱ   Specialized Subjects

  • 2013   Seminar in Environmental Design Ⅱ   Specialized Subjects

  • 2013   Seminar in Environmental ModelingⅡ   Specialized Subjects

  • 2013   Seminar in Environmental TechnologyⅡ   Specialized Subjects

  • 2013   Exercise in Environmental DesignⅠ   Specialized Subjects

  • 2013   Seminar in Environmental ModelingⅠ   Specialized Subjects

  • 2013   Seminar in Environmental Technology Ⅰ   Specialized Subjects

  • 2013   Risk Management   Specialized Subjects

  • 2013   Exercises on Environmental Systems Design   Specialized Subjects

  • 2013   Exercises on Environmental Systems Design   Specialized Subjects

  • 2013   Design Studio for Living Environment   Specialized Subjects

  • 2013   Fundamental Environmental Design   Specialized Subjects

  • 2013   Living Environment Systems   Specialized Subjects

  • 2013   Living Environment Systems   Specialized Subjects

  • 2013   Introductory Seminar   Liberal Arts and Sciences Subjects

  • 2012   Seminar in Environmental ModelingⅡ   Specialized Subjects

  • 2012   Fundamental Environmental Design   Specialized Subjects

  • 2012   Seminar in Environmental Design Ⅱ   Specialized Subjects

  • 2012   Seminar in Environmental TechnologyⅡ   Specialized Subjects

  • 2012   Exercises on Environmental Systems Design   Specialized Subjects

  • 2012   Exercises on Environmental Systems Design   Specialized Subjects

  • 2012   Voluntary Study on Systems Engineering Ⅴ   Specialized Subjects

  • 2012   Voluntary Study on Systems Engineering Ⅲ   Specialized Subjects

  • 2012   Design Studio for Living Environment   Specialized Subjects

  • 2012   Living Environment Systems   Specialized Subjects

  • 2012   Living Environment Systems   Specialized Subjects

  • 2012   Living Environment Systems   Specialized Subjects

  • 2012   Living Environment Systems   Specialized Subjects

  • 2012   Seminar in Environmental ModelingⅠ   Specialized Subjects

  • 2012   Exercise in Environmental DesignⅠ   Specialized Subjects

  • 2012   Seminar in Environmental Technology Ⅰ   Specialized Subjects

  • 2012   Introduction to Environmental Systems Ⅱ   Specialized Subjects

  • 2012   Risk Management   Specialized Subjects

  • 2011   Voluntary Study on Systems Engineering Ⅱ   Specialized Subjects

  • 2011   Voluntary Study on Systems Engineering Ⅰ   Specialized Subjects

  • 2011   Exercises on Environmental Systems Design   Specialized Subjects

  • 2011   Exercises on Environmental Systems Design   Specialized Subjects

  • 2011   Design Studio for Living Environment   Specialized Subjects

  • 2011   Seminar in Environmental Design Ⅱ   Specialized Subjects

  • 2011   Seminar in Environmental ModelingⅡ   Specialized Subjects

  • 2011   Seminar in Environmental TechnologyⅡ   Specialized Subjects

  • 2011   Exercise in Environmental DesignⅠ   Specialized Subjects

  • 2011   Seminar in Environmental ModelingⅠ   Specialized Subjects

  • 2011   Seminar in Environmental Technology Ⅰ   Specialized Subjects

  • 2011   Group seminar for graduation works   Specialized Subjects

  • 2011   Introductory Seminar   Liberal Arts and Sciences Subjects

  • 2011   Introduction to Environmental Systems Ⅱ   Specialized Subjects

  • 2011   Risk Management   Specialized Subjects

  • 2011   Fundamental Environmental Design   Specialized Subjects

  • 2011   Living Environment Systems   Specialized Subjects

  • 2011   Living Environment Systems   Specialized Subjects

  • 2011   Social Environmental Science   Liberal Arts and Sciences Subjects

  • 2011   Voluntary Study on Systems Engineering Ⅴ   Specialized Subjects

  • 2011   Voluntary Study on Systems Engineering Ⅳ   Specialized Subjects

  • 2010   NA   Specialized Subjects

  • 2010   NA   Specialized Subjects

  • 2010   Fundamental Environmental Design   Specialized Subjects

  • 2010   Living Environment Systems   Specialized Subjects

  • 2010   Living Environment Systems   Specialized Subjects

  • 2010   NA   Specialized Subjects

  • 2010   NA   Specialized Subjects

  • 2010   NA   Specialized Subjects

  • 2010   Risk Management   Specialized Subjects

  • 2010   NA   Specialized Subjects

  • 2010   Group seminar for graduation works   Specialized Subjects

  • 2009   Group seminar for graduation works   Specialized Subjects

  • 2009   NA   Specialized Subjects

  • 2009   Environmental and Disaster-preventing Risk Management   Specialized Subjects

  • 2009   NA   Specialized Subjects

  • 2009   NA   Specialized Subjects

  • 2009   NA   Specialized Subjects

  • 2009   Living Environment Systems   Specialized Subjects

  • 2009   Living Environment Systems   Specialized Subjects

  • 2009   Fundamental Environmental Design   Specialized Subjects

  • 2009   NA   Specialized Subjects

  • 2009   NA   Specialized Subjects

  • 2008   Group seminar for graduation works   Specialized Subjects

  • 2008   NA   Specialized Subjects

  • 2008   Environmental and Disaster-preventing Risk Management   Specialized Subjects

  • 2008   NA   Specialized Subjects

  • 2008   NA   Specialized Subjects

  • 2008   Living Environment Systems   Specialized Subjects

  • 2008   Living Environment Systems   Specialized Subjects

  • 2008   NA   Specialized Subjects

  • 2008   Fundamental Environmental Design   Specialized Subjects

  • 2008   NA   Specialized Subjects

  • 2008   Natural Environment   Specialized Subjects

  • 2007   Group seminar for graduation works   Specialized Subjects

  • 2007   NA   Specialized Subjects

  • 2007   Environmental and Disaster-preventing Risk Management   Specialized Subjects

  • 2007   NA   Specialized Subjects

  • 2007   NA   Specialized Subjects

  • 2007   Living Environment Systems   Specialized Subjects

  • 2007   Living Environment Systems   Specialized Subjects

  • 2007   NA   Specialized Subjects

  • 2007   Fundamental Environmental Design   Specialized Subjects

  • 2007   NA   Specialized Subjects

  • 2007   Natural Environment   Specialized Subjects

▼display all

Satellite Courses

  • 2015   The life and environment in Kii Peninsula   Liberal Arts and Sciences Subjects

Independent study

  • 2011   歴史的環境の保全について考える

  • 2011   楽環楽しく環境を学ぶ

  • 2010   快適な住環境について考える

  • 2010   楽環楽しく環境を学ぶ

  • 2010   町並みについて考える

  • 2009   読書のための木製の部屋

  • 2009   楽環楽しく環境を学ぶ

  • 2009   都会の中の緑化

  • 2008   楽環 楽しく環境を学ぶ

  • 2008   楽環「楽しく環境を学ぶ」

  • 2008   和歌山城公園改善構想

  • 2008   環境学習(渋田小学校の生徒と川の調査)

  • 2008   楽環 楽しく環境を学ぶ

  • 2008   楽しく環境を学ぶ

  • 2008   和歌山城公園改善構想

  • 2007   町づくりの一環として、笠田祭りに参加し、地域性を活かした備し物を提案することにより、活気があり、魅力あふれる町おこしになるように協力してゆく

  • 2007   和歌山城公園の改善計画

  • 2007   かつらぎ町の町おこしの一環として、住民同士の交流の場を提供し、そこで私たちは企画し、デザインにおけるスキル向上をはかる(楽環楽しく環境を学ぶ)

  • 2007   かつらぎ町の町おこしの一環として、住民同士の交流の場を提供し、そこで私たちは企画・、デザインにおけるスキルの向上をはかる(楽環楽しく環境を学ぶ)

  • 2007   かつらぎ町の町おこしの一環として、住民同士の交流の場を提供し、そこで私たちは企画、デザインにおけるスキル向上をはかる(楽環楽しく環境を学ぶ)

  • 2007   かつらぎ町の町おこしの一環として、住民同士の交流の場を提供し、そこで私たちは企画、デザインにおけるスキル向上をはかる(楽環楽しく環境を学ぶ)

  • 2007   かつらぎ町の町おこしの一環で、住民同士の交流の場を提供し、そこで私たちは企画、デザインにおけるスキル向上をはかる(楽環楽しく環境を学ぶ)

▼display all

Classes

  • 2023   Systems Engineering SeminarⅠA   Master's Course

  • 2023   Systems Engineering SeminarⅠB   Master's Course

  • 2023   Systems Engineering SeminarⅡA   Master's Course

  • 2023   Systems Engineering SeminarⅡB   Master's Course

  • 2023   Living Environment and Design A   Master's Course

  • 2023   Living Environment and Design B   Master's Course

  • 2023   Systems Engineering Project SeminarⅠA   Master's Course

  • 2023   Systems Engineering Project SeminarⅠB   Master's Course

  • 2023   Systems Engineering Project SeminarⅡA   Master's Course

  • 2023   Systems Engineering Project SeminarⅡB   Master's Course

  • 2023   Systems Engineering Advanced Seminar Ⅰ   Doctoral Course

  • 2023   Systems Engineering Advanced Seminar Ⅰ   Doctoral Course

  • 2023   Systems Engineering Advanced Seminar Ⅱ   Doctoral Course

  • 2023   Systems Engineering Advanced Seminar Ⅱ   Doctoral Course

  • 2023   Systems Engineering Advanced Research   Doctoral Course

  • 2023   Systems Engineering Advanced Research   Doctoral Course

  • 2023   Systems Engineering Global Seminar Ⅰ   Doctoral Course

  • 2023   Systems Engineering Global Seminar Ⅰ   Doctoral Course

  • 2023   Systems Engineering Global Seminar Ⅱ   Doctoral Course

  • 2023   Systems Engineering Global Seminar Ⅱ   Doctoral Course

  • 2022   Systems Engineering Global Seminar Ⅱ   Doctoral Course

  • 2022   Systems Engineering Global Seminar Ⅰ   Doctoral Course

  • 2022   Systems Engineering Advanced Research   Doctoral Course

  • 2022   Systems Engineering Advanced Seminar Ⅱ   Doctoral Course

  • 2022   Systems Engineering Advanced Seminar Ⅰ   Doctoral Course

  • 2022   Systems Engineering Project SeminarⅡB   Master's Course

  • 2022   Systems Engineering Project SeminarⅡA   Master's Course

  • 2022   Systems Engineering Project SeminarⅠB   Master's Course

  • 2022   Systems Engineering Project SeminarⅠA   Master's Course

  • 2022   Living Environment and Design B   Master's Course

  • 2022   Living Environment and Design A   Master's Course

  • 2022   Systems Engineering SeminarⅡB   Master's Course

  • 2022   Systems Engineering SeminarⅡA   Master's Course

  • 2022   Systems Engineering SeminarⅠB   Master's Course

  • 2022   Systems Engineering SeminarⅠA   Master's Course

  • 2021   Systems Engineering Global Seminar Ⅱ   Doctoral Course

  • 2021   Systems Engineering Global Seminar Ⅱ   Doctoral Course

  • 2021   Systems Engineering Global Seminar Ⅱ   Doctoral Course

  • 2021   Systems Engineering Global Seminar Ⅰ   Doctoral Course

  • 2021   Systems Engineering Global Seminar Ⅰ   Doctoral Course

  • 2021   Systems Engineering Global Seminar Ⅰ   Doctoral Course

  • 2021   Systems Engineering Advanced Research   Doctoral Course

  • 2021   Systems Engineering Advanced Research   Doctoral Course

  • 2021   Systems Engineering Advanced Research   Doctoral Course

  • 2021   Systems Engineering Advanced Seminar Ⅱ   Doctoral Course

  • 2021   Systems Engineering Advanced Seminar Ⅱ   Doctoral Course

  • 2021   Systems Engineering Advanced Seminar Ⅱ   Doctoral Course

  • 2021   Systems Engineering Advanced Seminar Ⅰ   Doctoral Course

  • 2021   Systems Engineering Advanced Seminar Ⅰ   Doctoral Course

  • 2021   Systems Engineering Advanced Seminar Ⅰ   Doctoral Course

  • 2021   Systems Engineering Project SeminarⅡB   Master's Course

  • 2021   Systems Engineering Project SeminarⅡB   Master's Course

  • 2021   Systems Engineering Project SeminarⅡA   Master's Course

  • 2021   Systems Engineering Project SeminarⅡA   Master's Course

  • 2021   Systems Engineering Project SeminarⅠB   Master's Course

  • 2021   Systems Engineering Project SeminarⅠA   Master's Course

  • 2021   Living Environment and Design B   Master's Course

  • 2021   Living Environment and Design A   Master's Course

  • 2021   Systems Engineering SeminarⅡB   Master's Course

  • 2021   Systems Engineering SeminarⅡA   Master's Course

  • 2021   Systems Engineering SeminarⅡA   Master's Course

  • 2021   Systems Engineering SeminarⅠB   Master's Course

  • 2021   Systems Engineering SeminarⅠB   Master's Course

  • 2021   Systems Engineering SeminarⅠA   Master's Course

  • 2021   Systems Engineering SeminarⅠA   Master's Course

  • 2020   Systems Engineering Global Seminar Ⅱ   Doctoral Course

  • 2020   Systems Engineering Global Seminar Ⅰ   Doctoral Course

  • 2020   Systems Engineering Advanced Research   Doctoral Course

  • 2020   Systems Engineering Advanced Seminar Ⅱ   Doctoral Course

  • 2020   Systems Engineering Advanced Seminar Ⅰ   Doctoral Course

  • 2020   Systems Engineering Project SeminarⅡB   Master's Course

  • 2020   Systems Engineering Project SeminarⅡA   Master's Course

  • 2020   Systems Engineering Project SeminarⅠB   Master's Course

  • 2020   Systems Engineering Project SeminarⅠA   Master's Course

  • 2020   Living Environment and Design B   Master's Course

  • 2020   Living Environment and Design A   Master's Course

  • 2020   Systems Engineering SeminarⅡB   Master's Course

  • 2020   Systems Engineering SeminarⅡA   Master's Course

  • 2020   Systems Engineering SeminarⅠB   Master's Course

  • 2020   Systems Engineering SeminarⅠA   Master's Course

  • 2019   Living Environment and Design B   Master's Course

  • 2019   Living Environment and Design A   Master's Course

  • 2019   Systems Engineering Advanced Seminar Ⅱ   Doctoral Course

  • 2019   Systems Engineering Advanced Seminar Ⅰ   Doctoral Course

  • 2019   Systems Engineering Advanced Seminar Ⅰ   Doctoral Course

  • 2019   Systems Engineering Advanced Research   Doctoral Course

  • 2019   Systems Engineering Advanced Research   Doctoral Course

  • 2019   Systems Engineering SeminarⅡB   Master's Course

  • 2019   Systems Engineering SeminarⅡA   Master's Course

  • 2019   Systems Engineering SeminarⅠB   Master's Course

  • 2019   Systems Engineering SeminarⅠA   Master's Course

  • 2019   Systems Engineering Project SeminarⅡB   Master's Course

  • 2019   Systems Engineering Project SeminarⅡA   Master's Course

  • 2019   Systems Engineering Project SeminarⅠB   Master's Course

  • 2019   Systems Engineering Project SeminarⅠA   Master's Course

  • 2018   Systems Engineering Advanced Research   Doctoral Course

  • 2018   Systems Engineering Advanced Research   Doctoral Course

  • 2018   Systems Engineering Advanced Seminar Ⅰ   Doctoral Course

  • 2018   Systems Engineering Advanced Seminar Ⅰ   Doctoral Course

  • 2018   Systems Engineering Project SeminarⅡB   Master's Course

  • 2018   Systems Engineering Project SeminarⅡA   Master's Course

  • 2018   Systems Engineering Project SeminarⅠB   Master's Course

  • 2018   Systems Engineering Project SeminarⅠA   Master's Course

  • 2018   Systems Engineering SeminarⅡB   Master's Course

  • 2018   Systems Engineering SeminarⅡA   Master's Course

  • 2018   Systems Engineering SeminarⅠB   Master's Course

  • 2018   Systems Engineering SeminarⅠA   Master's Course

  • 2018   Living Environment and Design B   Master's Course

  • 2018   Living Environment and Design A   Master's Course

  • 2017   Systems Engineering Advanced Research   Doctoral Course

  • 2017   Systems Engineering Advanced Research   Doctoral Course

  • 2017   Systems Engineering Advanced Seminar Ⅱ   Doctoral Course

  • 2017   Systems Engineering Advanced Seminar Ⅱ   Doctoral Course

  • 2017   Systems Engineering Advanced Seminar Ⅰ   Doctoral Course

  • 2017   Systems Engineering Advanced Seminar Ⅰ   Doctoral Course

  • 2017   Systems Engineering Project SeminarⅡB   Master's Course

  • 2017   Systems Engineering Project SeminarⅡA   Master's Course

  • 2017   Systems Engineering Project SeminarⅠB   Master's Course

  • 2017   Systems Engineering Project SeminarⅠA   Master's Course

  • 2017   Living Environment and Design   Master's Course

  • 2017   Systems Engineering SeminarⅡB   Master's Course

  • 2017   Systems Engineering SeminarⅡA   Master's Course

  • 2017   Systems Engineering SeminarⅠB   Master's Course

  • 2017   Systems Engineering SeminarⅠA   Master's Course

  • 2016   Systems Engineering Project SeminarⅡA   Master's Course

  • 2016   Systems Engineering Project SeminarⅠB   Master's Course

  • 2016   Systems Engineering Project SeminarⅠA   Master's Course

  • 2016   Systems Engineering Project SeminarⅡB   Master's Course

  • 2016   Systems Engineering SeminarⅡA   Master's Course

  • 2016   Systems Engineering SeminarⅡB   Master's Course

  • 2016   Systems Engineering SeminarⅠA   Master's Course

  • 2016   Systems Engineering SeminarⅠB   Master's Course

  • 2016   Living Environment and Design   Master's Course

  • 2016   Systems Engineering Advanced Research   Doctoral Course

  • 2016   Systems Engineering Advanced Research   Doctoral Course

  • 2016   Systems Engineering Advanced Seminar Ⅱ   Doctoral Course

  • 2016   Systems Engineering Advanced Seminar Ⅱ   Doctoral Course

  • 2016   Systems Engineering Advanced Seminar Ⅰ   Doctoral Course

  • 2016   Systems Engineering Advanced Seminar Ⅰ   Doctoral Course

  • 2016   Systems Engineering Project SeminarⅡB   Master's Course

  • 2016   Systems Engineering Project SeminarⅡA   Master's Course

  • 2016   Systems Engineering Project SeminarⅠB   Master's Course

  • 2016   Systems Engineering Project SeminarⅠA   Master's Course

  • 2016   Systems Engineering SeminarⅡB   Master's Course

  • 2016   Systems Engineering SeminarⅡA   Master's Course

  • 2016   Systems Engineering SeminarⅠB   Master's Course

  • 2016   Systems Engineering SeminarⅠA   Master's Course

  • 2016   Living Environment and Design   Master's Course

  • 2015   Living Environment and Design  

  • 2015   Systems Engineering Advanced Seminar Ⅰ  

  • 2015   Systems Engineering Advanced Research  

  • 2015   Systems Engineering SeminarⅡA  

  • 2015   Systems Engineering SeminarⅠA  

  • 2015   Systems Engineering Project SeminarⅡA  

  • 2015   Systems Engineering Project SeminarⅠA  

  • 2015   Systems Engineering Advanced Seminar Ⅰ  

  • 2015   Systems Engineering Advanced Research  

  • 2015   Systems Engineering SeminarⅡB  

  • 2015   Systems Engineering SeminarⅠB  

  • 2015   Systems Engineering Project SeminarⅡB  

  • 2015   Systems Engineering Project SeminarⅠB  

  • 2014   Systems Engineering Advanced Research  

  • 2014   Systems Engineering Advanced Research  

  • 2014   Systems Engineering Advanced Seminar Ⅱ  

  • 2014   Systems Engineering Advanced Seminar Ⅱ  

  • 2014   Systems Engineering Advanced Seminar Ⅰ  

  • 2014   Systems Engineering Advanced Seminar Ⅰ  

  • 2014   Systems Engineering Project SeminarⅡB  

  • 2014   Systems Engineering Project SeminarⅡA  

  • 2014   Systems Engineering Project SeminarⅠB  

  • 2014   Systems Engineering Project SeminarⅠA  

  • 2014   Living Environment and Design  

  • 2014   Systems Engineering SeminarⅡB  

  • 2014   Systems Engineering SeminarⅡA  

  • 2014   Systems Engineering SeminarⅠB  

  • 2014   Systems Engineering SeminarⅠA  

  • 2013   Systems Engineering Advanced Research  

  • 2013   Systems Engineering Advanced Research  

  • 2013   Systems Engineering Advanced Seminar Ⅱ  

  • 2013   Systems Engineering Advanced Seminar Ⅱ  

  • 2013   Systems Engineering Advanced Seminar Ⅰ  

  • 2013   Systems Engineering Advanced Seminar Ⅰ  

  • 2013   Systems Engineering Project SeminarⅡB  

  • 2013   Systems Engineering Project SeminarⅡA  

  • 2013   Systems Engineering Project SeminarⅠB  

  • 2013   Systems Engineering Project SeminarⅠA  

  • 2013   Living Environment and Design  

  • 2013   Systems Engineering SeminarⅡB  

  • 2013   Systems Engineering SeminarⅡA  

  • 2013   Systems Engineering SeminarⅠB  

  • 2013   Systems Engineering SeminarⅠA  

  • 2012   Living Environment and Design  

  • 2012   Systems Engineering Self-planningExercise Advanced Ⅲ  

  • 2012   Systems Engineering Self-planning Exercise Advanced Ⅰ  

  • 2012   Systems Engineering Advanced Seminar Ⅱ  

  • 2012   Systems Engineering Advanced Seminar Ⅰ  

  • 2012   Systems Engineering Advanced Research  

  • 2012   Systems Engineering SeminarⅡA  

  • 2012   Systems Engineering SeminarⅠA  

  • 2012   Systems Engineering Project SeminarⅡA  

  • 2012   Systems Engineering Project SeminarⅠA  

  • 2012   Systems Engineering Advanced Seminar Ⅱ  

  • 2012   Systems Engineering Advanced Seminar Ⅰ  

  • 2012   Systems Engineering Advanced Research  

  • 2012   Systems Engineering SeminarⅡB  

  • 2012   Systems Engineering SeminarⅠB  

  • 2012   Systems Engineering Project SeminarⅡB  

  • 2012   Systems Engineering Project SeminarⅠB  

  • 2011   Systems Engineering Project SeminarⅡB  

  • 2011   Systems Engineering Project SeminarⅡA  

  • 2011   Systems Engineering Project SeminarⅠB  

  • 2011   Systems Engineering Project SeminarⅠA  

  • 2011   Systems Engineering Advanced Research  

  • 2011   Systems Engineering Advanced Research  

  • 2011   Systems Engineering Self-planningExercise Advanced Ⅱ  

  • 2011   Systems Engineering Self-planning Exercise Advanced Ⅰ  

  • 2011   NA  

  • 2011   NA  

  • 2011   Systems Engineering Advanced Seminar Ⅱ  

  • 2011   Systems Engineering Advanced Seminar Ⅱ  

  • 2011   Systems Engineering Advanced Seminar Ⅰ  

  • 2011   Systems Engineering Advanced Seminar Ⅰ  

  • 2011   Living Environment and Design  

  • 2010   NA   Master's Course

  • 2010   NA   Master's Course

  • 2010   NA   Master's Course

  • 2010   NA   Master's Course

  • 2010   NA   Master's Course

  • 2010   NA   Master's Course

  • 2010   NA   Master's Course

  • 2010   NA   Master's Course

  • 2010   Living Environment and Design   Master's Course

  • 2009   Living Environment and Design   Master's Course

  • 2009   NA   Master's Course

  • 2009   NA   Master's Course

  • 2009   NA   Master's Course

  • 2009   NA   Master's Course

  • 2008   Living Environment and Design   Master's Course

  • 2008   NA   Master's Course

  • 2008   NA   Master's Course

  • 2008   NA   Master's Course

  • 2008   NA   Master's Course

  • 2007   Living Environment and Design   Master's Course

  • 2007   NA   Master's Course

  • 2007   NA   Master's Course

  • 2007   NA   Master's Course

  • 2007   NA   Master's Course

▼display all

Satellite Courses

  • 2015   The life and environment in Kii Peninsula  

  • 2012   NA  

Research Interests

  • 景観計画

  • 低未利用地

  • Environmental Regeneration

  • パートナーシップ

  • 環境計画

  • Landscape Design

  • イギリス

  • 景観管理

  • 景観計画・戦略

  • Areas and cities regeneration

  • 環境再生・創造

▼display all

Published Papers

  • PARTNERSHIP-BASED POLICIES AND PLANS FOR OPEN SPACE MANAGEMENT OF CASE STUDIES IN POST-INDUSTRIAL LANDSCAPES

    Tomoko Miyagawa, Clare Olver, Noriko Otsuka, Hirokazu Abe

    International Journal of GEOMATE   25 ( 108 ) 97 - 105   2023.08  [Refereed]

    DOI

  • Green space creation and utilization in coordination with policies for Healthy Cities in Japan

    Tomoko Miyagawa, Noriko Otsuka, Hirokazu Abe

    Cities & Health ( Informa UK Limited )    1 - 21   2023.03  [Refereed]

    DOI

  • ANALYSIS OF MATTERS AFFECTING LAND PRICE FLUCTUATIONS IN THE GREAT EAST JAPAN EARTHQUAKE

    Takato Azegami, Akira Takahashi, Kensuke Yasufuku, Noriko Otsuka, Tomoko Miyagawa, Hirokazu Abe

    INTERNATIONAL JOURNAL OF GEOMATE ( GEOMATE INT SOC )  22 ( 89 ) 55 - 64   2022.01  [Refereed]

     View Summary

    Using a hedonic regression approach, this research aims to identify what factors affected land price fluctuations in Fukushima Prefecture following the Great East Japan Earthquake and the Fukushima Daiichi Nuclear Power Station accident in 2011. In this paper, taking a long-term perspective, the analysis focuses on Iwaki City in Fukushima, where the real estate market behaved unexpectedly following the two catastrophic events, and land price fluctuation rates were rising abnormally. Results based on analysis of data for eight-year indicate the following: The impact of radiation air dose rate and distance from the nuclear power plant on land price fluctuation rate changed significantly from the fourth year after the disaster. Being located in a reconstruction base area had a negative impact on land price fluctuation rate, while access to sewers and city gas had a positive impact. It appears that the stigma associated with the accident had a little disappeared after approximately four years.

    DOI

  • The potential use of green infrastructure in the regeneration of brownfield sites: three case studies from Japan’s Osaka Bay Area

    Noriko Otsuka, Hirokazu Abe, Yuto Isehara, Tomoko Miyagawa

    Local Environment ( Informa UK Limited )  26 ( 11 ) 1 - 18   2021.10  [Refereed]

    DOI

  • CHARACTERISTICS OF CULTURAL LANDSCAPE IN THE GATEWAYTOWN OF KUDOYAMA

    Tomoko Miyagawa, Sakura Yamaguchi, Sayuri Yoshino (Aoyama), Shinpei Yamamoto, Masahiro Takasago

    INTERNATIONAL JOURNAL OF GEOMATE ( GEOMATE INT SOC )  19 ( 76 ) 82 - 88   2020.12  [Refereed]

     View Summary

    Managing historic environment and cultural heritage are important not only from the conservation of cultural assets and local environment but it is also necessary to consider the perspectives from the community. This paper aims to examine a case study focusing on houses and local resources in the center of Kudoyama, known as the gateway town to the World Heritage Site, Koyasan in Wakayama, Japan. Study methods used are field observations and literature reviews. From the results, characteristics of the town center of Kudoyama became clear as follows; about half of all houses have been built with single or semi-second story houses to form relatively reduced height of skylines. Thus, it creates viewpoints to surrounding mountains within the town center on undulating landform. In terms of local resources, a variety of natural and historic elements have been found to create a historic environment in town center of Kudoyama. In addition, some traditional design of houses is representing the similarities with surrounding areas of the World Heritage Sites of Yoshino and Koyasan. In future, managing cultural landscape may be necessary to balance the needs of the community and tourism.

    DOI

  • REGENERATION FOR SOCIO ECOLOGICAL PRODUCTION LANDSCAPE IN SERIOUSLY ENVIRONMENTAL DAMAGEDRURAL AREA

    Azegami Takato, Abe Hirokazu, Otsuka Noriko, Miyagawa Tomoko

    INTERNATIONAL JOURNAL OF GEOMATE   16 ( 54 ) 16 - 22   2019.02  [Refereed]

    DOI

  • ENVIRONMENTAL REGENERATION AND MANAGEMENT IN PARTNERSHIP IN THE NORTHWEST OF ENGLAND

    Miyagawa Tomoko, Olver Clare, Otsuka Noriko, Abe Hirokazu

    INTERNATIONAL JOURNAL OF GEOMATE   16 ( 54 ) 9 - 15   2019.02  [Refereed]

    DOI

  • The actual conditions of environmental impact of salt industry and current condition of the regenerated industrial site - Northwich Woodlands in the UK

    Miya Yamade, Hirokazu Abe, Tomoko Miyagawa

    AIJ Journal of Technology and Design ( Architectural Institute of Japan )  24 ( 56 ) 351 - 356   2018.02  [Refereed]

     View Summary

    The purpose of this study is to identify the history of the development salt industry and situation of environment damage from salt mining in Northwich Woodlands, Cheshire, the UK. 1) Saltmaking in Cheshire dates back over 2000 years. There were 44 salt works had been built. 2) The landuse changes were shown ground subsidence before 1875s to 1930s, it's area was about 174ha. 3) Restoration of brownfields started from 1990s and 2000s in parallel with conservation of historical and industrial heritage also open spaces, footpaths, cycle way, horse riding and pram. 4) The Salt Works has the status of an 'Anchor Point' on the European Route of Industrial Heritage (ERIH). It suggests that to improve the image of the environmental damage site.

    DOI

  • Lessons and achievements from the Mersey Forest by networking partnership for twenty years

    Tomoko Miyagawa, Clare Olver, Noriko Otsuka, Takefumi Kurose, Hirokazu Abe

    International Journal of GEOMATE ( GEOMATE International Society )  15 ( 48 ) 48 - 54   2018  [Refereed]

     View Summary

    In the UK, community forest projects have created an increase of new accessible open green spaces in post-industrial areas. However, there is a scarcity of sustainable funding for long-term management. Therefore, the partnership is recognized to be a key mechanism to maximize the benefits and to share the risks with a range of organization to maintain the quality of green spaces. This study is to clarify the achievements and the roles of the Mersey Forest over the last twenty years in developing partnership approaches in the Northwest of England. The study methods are based on literature reviews regarding on published literature on environmental regeneration and the data provided from the Mersey Forest, and interviews with representatives of the Mersey Forest. The first 10 years from 1994 to 2004 focused on planting trees for creating new and extending woodland. After that opportunity for large-scale new planting decreased and there was a need for managing the newly created open green spaces. Therefore, it has entered in the management phase and the role of the Mersey Forest is shifting to strengthen partnership working by providing advice to landowners. It also became clear that community forest approaches have been achieved together with landowners and partners through partnership working led by the Mersey Forest for over twenty years. Thus, the Mersey Forest has evolved from a governmental inspired organization to a community empowered organization.

    DOI

  • 和歌山市内におけるゲンジボタルの分布

    千賀大輔, 中島敦司, 宮川智子, 原祐二

    南紀生物   59 ( 1 ) 22‐26   2017.06  [Refereed]

  • The landuse changes and formation of partnerships through the environmental regeneration in Cheshire, the UK

    宮川 智子, オルバー クレア, 大塚 紀子, 黒瀬 武史, 阿部 浩和

    ランドスケープ研究 : 日本造園学会誌 : journal of the Japanese Institute of Landscape Architecture ( 日本造園学会 )  79 ( 5 ) 555 - 558   2016.03

     View Summary

    <p>In recent years, regeneration of brownfields can be seen in many places, but like all public open spaces they are competing for scarce resources for their continuing management. This study aims to clarify the landuse changes and formation of partnerships of open spaces by greening brownfields in Northwich Woodlands, Cheshire, UK. Research methods are based on literature review, interviews with representatives of the Mersey Forest and local authority agents, and field observation. From the findings, it became evident that majority of greening brownfields took place in the 1990s and 2000s in parallel with conservation of historical and industrial heritage, which took a longer period of time for environmental improvements in some cases. The main challenge is now to continue the management of the open spaces since the works had been completed. Partnerships with a range of parties is the key factor; because of Northwich Woodlands has a variety of open spaces covering an area of over 300 hectares to attract a variety of sources of funds and staffs, as well as to raising its profile to the public owing to the limited access in the past. Coordination with the community is greatly enhanced through an active group of volunteers.</p>

    DOI

  • Lessons from the international comparison of contaminated land policies with risk governance in Japan, The Netherlands, and the UK

    Tomoko Miyagawa, Noriko Otsuka, Hirokazu Abe

    International Journal of GEOMATE   10   1899 - 1905   2016.01

     View Summary

    After the Great East Japan Earthquake and Fukushima Daiichi nuclear disaster, decontamination has been undertaken primarily to remediate residential areas. Therefore, it is necessary to consider risk governance in decontamination process. This paper aims to examine contaminated land policies by comparing Japan, the Netherlands, and the UK by literature reviews from the aspects of risk governance towards sustainable decontamination process. The results clarified that policies in Japan is disintegrated and sectionalised by separate acts. Contrastingly, integrated contaminated land regimes are practiced in the Netherlands and the UK on contaminated risks from current land uses. In terms of risk governance in contaminated land policies, although the Netherlands has a limited application, Japan and the UK have a certain degree of community participation in recent policies. Thus, recent contaminated land policy frameworks are adapting to promote risk governance in decontamination process by introducing statutory requirements. However, there is a limitation to ensure risk governance by statutory actions and more support to voluntary actions is needed.

  • LEGAL FRAMEWORK AND ESTIMATED STOCK MEASUREMENT ON BROWNFIELD AS CONTAMINATED LAND IN ENGLAND AND JAPAN

    TAKAHASHI Akira, ABE Hirokazu, OTSUKA Noriko, MIYAGAWA Tomoko

    Journal of Architecture and Planning (Transactions of AIJ) ( Architectural Institute of Japan )  78 ( 687 ) 1077 - 1085   2013

     View Summary

    This paper aims to identify current situation of soil contamination countermeasures for England and Japan. It examines the legal framework and estimated stock measurement on contaminated land between the two countries. The primary findings are as follows: 1) The main differences in the Acts for soil contamination between the two countries are found in triggers for inspection, initiatives and ways of handling the whole process of remediation; 2) The number of estimated contaminated sites in the both countries is approximately 330,000. And the rate of site investigations is approximately three times in England than that in Japan; 3) Regarding the soil contamination counter measure, Environmental Act (EPA1990) and planning system (Planning 1990) are closely and jointly well operated in England; and 4) In England the local authority needs to take a strategic approach to the inspection of sites within their district boundary under EPA1990 and each contaminated site is handled by a risk based approach (CLEA) on the comprehensive evaluation of pollutant linkage and land use.

    DOI

  • The effects of land use policies on the continuity of agricultural management and self-consumption of agricultural products in peri-urban area

    Tsuchiya Kazuaki, Hara Yuji, Miyagawa Tomoko

    Journal of the City Planning Institute of Japan ( The City Planning Institute of Japan )  47 ( 3 ) 223 - 228   2012  [Refereed]

     View Summary

    We examined the relative impacts of land use policy on the continuity of agricultural management in the peri-urban area of Osaka city region to determine an appropriate institutional framework for enhancing ecological services of peri-urban agriculture. The study employed GIS analysis for detecting the distribution of farmlands and combined field survey on the management conditions and surrounding land uses of farmlands. We found that the conditions of agricultural management were affected both by land use policy and surrounding land uses. It also became clear that small agricultural plots were likely to be seen in highly urbanized areas. This suggests that it will be necessary to consider self-growing activities by urban citizens as in terms of sustainable management of peri-urban farmlands.

    DOI

  • STUDY ON ENVIRONMENTAL REGENERATION OF UNDER-USED AND UNUSED LAND AND LANDSCAPE MASTERPLANS IN FORMER INDUSTIRAL AREAS : A case of St. Helens Metropolitan Borough Council, Merseyside, the U.K.

    MIYAGAWA Tomoko

    Journal of architecture and planning ( 社団法人日本建築学会 )  73 ( 624 ) 357 - 362   2008.02

     View Summary

    The aim of the study is to examine the St. Helens Landscape Masterplan and environmental regeneration of under-used and unused land, and to clarify the characteristics of each cases and a landscape masterplan at a local level. St. Helens is promoting environmental regeneration of under-used and unused land and the Landscape Masterplan which may contribute to environmental and economic aspects in the area. From the results, in terms of the landscape masterplan, it became clear that a half of the development and 80 percent of business and industrial projects were planned in better environment...

    DOI

  • Study on Regeneration of Historic Urban Parks thorough the Urban Parks Programme in the U.K. : A case of Leazes Park, City of Newcastle upon Tyne

    MIYAGAWA Tomoko

    Journal of the City Planning Institute of Japan ( 日本都市計画学会 )  41 ( 3 ) 391 - 396   2006.10

  • 自然環境再生手法に関する研究--自然再生緑地整備事業を対象として

    阿波根 あずさ, 中山 徹, 宮川 智子

    都市計画論文集 ( 日本都市計画学会 )  ( 40 ) 811 - 816   2005

  • STUDY ON COMMUNITY FOREST IN UK : FROM THE VIEW POINT OF COMMUNITY REGENERATION(Urban Planning)

    AWANE Azusa, NAKAYAMA Toru, NAKABAYASHI Hiroshi, MIYAGAWA Tomoko

    Journal of architecture and building science ( 社団法人日本建築学会 )  19 ( 19 ) 265 - 270   2004.06

     View Summary

    This paper aims to investigate the role of the partner and the method of community regeneration from community forest project in UK. It became clear that (1) The strategic measure is performed by each land use for wide range area. (2) The various community participation, job creation and major environmental improvements is achieved. (3) Since the number of local government had participated in forest, much expense could be secured (4) The role of a national government, and a local governing, a valunteer organization and a company was clearly shown and good partnership was built.

  • STUDY ON REHABILITATION AND MANAGEMENT OF NATURAL ENVIRONMENT BY PARTNERSHIP IN MANCHESTER, THE U.K.

    MIYAGAWA Tomoko, AWANE Azusa, NAKAYAMA Toru, NAKABAYASHI Hiroshi

    Journal of architecture and planning ( 一般社団法人日本建築学会 )  Vol.577 ( 577 ) 111 - 117   2004.03

     View Summary

    This paper aims to examine the process of rehabilitation and regeneration of natural environment, and to clarify the partnership patterns and characteristics on management of Mersey Valley Countryside Warden Service(MVCWS) in Manchester, the U.K. From the findings, it became clear that rehabilitation and regeneration have been completed and opened to the public as parks or open space, so that present focus has shifted to conservation. Management of these open spaces in Mersey valley is undertaken by MVCWS by partnership. This makes clear of responsibilities and roles of management, and can ...

    DOI

  • STUDY ON LARGE SCALE NATURE REHABILITATION IN URBAN FRINGE BY GROUNDWORK IN THE U.K.(Urban Planning)

    MIYAGAWA Tomoko, AWANE Azusa, NAKAYAMA Toru, NAKABAYASHI Hiroshi

    Journal of architecture and building science ( 社団法人日本建築学会 )  18 ( 18 ) 287 - 292   2003.12

     View Summary

    This aim of this study is to examine the large scale nature rehabilitation by focusing on Changing Places Project of Groundwork Trust, the U.K. It investigated Berryhill fields and Griffith park projects by interviews and site visits. It can be summarized as follows. Both projects are millennium celebration projects, which enabled to obtain National Lottery Fund and undertake large scale projects. Partnerships can vary by projects but public participation is practiced from planning phase by building partnership. Future tasks are the management methods and cost, and especially to encourage t...

  • STUDY ON INTEGRATED APPROACH OF ENVIRONMENTAL REGENERATION AND URBAN REGENERATION IN EAST MANCHESTER, THE U.K.

    MIYAGAWA Tomoko, AWANE Azusa, NAKAYAMA Toru, NAKABAYASHI Hiroshi

    Journal of architecture,planning and environmental engineering ( 社団法人日本建築学会 )  68 ( 573 ) 85 - 91   2003.11

     View Summary

    Due to the shift in the socio-economic and industrial changes, declining and losing of natural environment in the cities are becoming more apparent. This study aims to clarify the processes and methods, and to evaluate the partnership patterns and its roles on environmental regeneration with urban regeneration in East Manchester, the U.K. The results showed that area based initiatives and regeneration planning are the two main streams to proceed the regeneration in the area. During the implementation, it is also necessary to build an equal partnership, which can also be promoted by an envir...

    DOI

  • STUDY ON INTEGRATED APPROACH OF CREATION/REHABILITATION OF NATURAL ENVIRONMENT AND LOCAL AND URBAN REGENERATION IN NORTH MANCHESTER, THE U.K.

    MIYAGAWA Tomoko, AWANE Azusa, NAKAYAMA Toru, NAKABAYASHI Hiroshi

    Journal of architecture,planning and environmental engineering ( 社団法人日本建築学会 )  68 ( 572 ) 91 - 97   2003.10

     View Summary

    The aim of this study is to illustrate the characteristics of the processes and methods, and to evaluate the partnership patterns and its roles by investigating integrated approach on creation/rehabilitation of natural environment with regional and urban regeneration in North Manchester, the U.K. From the results, a comprehensive approach is practiced to maximize the effect to tackle with complex urban issues. Then, gradual outputs may be important for residents to understand and cooperate, thus short, medium, long term approach and implementation would be necessary. Lastly, the roles of re...

    DOI

  • STUDY ON REHABILITATION OF LARGE-SCALE NATURAL ENVIRONMENT IN URBAN AREA(Urban Planning)

    AWANE Azusa, NAKAYAMA Toru, NAKABAYASHI Hiroshi, MIYAGAWA Tomoko

    Journal of architecture and building science ( 社団法人日本建築学会 )  17 ( 17 ) 409 - 414   2003.06

     View Summary

    Recently, movements have become remakable to recover the lost environment due to the past lapid growth of industrialization. This is not only a case in the industrialized countries as such in Europe or U.S. but also in Japan. This paper aims to investigate and clarify the procedures of environmental treatment and process of rehabilitation of natural environment on environmentally damaged landscape. It became clear that rehabilitation has normally taken place with an occasional event due to the financial difficulties. It can cost extra fee in comparison to normal parks, which may be one of t...

  • AN EXAMINATION ON INTEGRATED PLANNING OF TREATMENT AND REUSE/REDEVELOPMENT OF CONTAMINATED LAND : Study on approaches to treat land contamination and redevelopment of brownfields Part 2

    MIYAGAWA Tomoko, NAKAYAMA Toru

    Journal of Architecture and Planning (Transactions of AIJ) ( Architectural Institute of Japan )  565 ( 565 ) 209 - 216   2003.03

     View Summary

    This study aims to examine the integrated long-term approach on treating contaminated land and reusing or redeveloping the land. This paper (Part 2) investigated approaches to treat and reuse contaminated land in the Netherlands, Germany, the United Kingdom and the United States. The aims are to examine and evaluate the approaches, and to clarify the key elements which influences the plan for treatment. The result showed that four main factors to influence the plan : landuse condition, contamination condition, and types of landuse after treatment. In addition, these factors were inter-related to effect each other.

    DOI

  • Study on care for the public in land contamination treatment and redevelopment for contaminated land such as brownfields in the United States

    MIYAGAWA Tomoko, NAKAYAMA Toru

    Papers on city planning. City planning review ( 日本都市計画学会 )  37 ( 37 ) 1081 - 1086   2002.10

    DOI

  • STUDY ON TREATING LAND CONTAMINATION AND REDEVELOPING BROWNFIELDS IN THE UNITED STATES

    MIYAGAWA Tomoko, NAKAYAMA Toru

    Journal of architecture and building science ( 社団法人日本建築学会 )  117 ( 15 ) 257 - 262   2002.06

     View Summary

    This paper aims to investigate and clarify the procedures of treatment and redevelopment process of former factory and landfill sites known as brown-fields in the United States. Investigation methods are interviews and site visits. It concludes that U.S. have two applicable laws, such as national &#039;Superfund&#039; law for highly contaminated sites and state&#039;s &#039;Voluntary Cleanup Program VCP&#039; for low level of contamination with more linkage to reuse the site. It also clarified that while Superfund law strictly regulates polluter&#039;s liability, VCP exempts third parties liability to encourage reuse an...

  • STUDY ON TREATING LAND CONTAMINATION AND REDEVELOPING BROWNFIELDS IN THE NETHERLANDS

    MIYAGAWA Tomoko, NAKAYAMA Toru

    Journal of architecture and building science ( 社団法人日本建築学会 )  116 ( 14 ) 285 - 290   2001.12

     View Summary

    The aim of this paper is to examine and clarify the procedures of treatment and redevelopment process by undertaking case study of former factory and landfill sites in the Netherlands. It also tries to find the effect and difficulties of Soil Protection Act 1994. Investigation methods used are interviews and site visits, and ten cases have been investigated. In conclusion, it became clear that the act is effective to apply in the different stages of investigation and remediation of the contaminated sites, and also the application was wide to cover various cases.

  • Study on care for the public in land contamination treatment and redevelopment for contaminated land such as brownfields in the Netherlands and Germany

    MIYAGAWA Tomoko, NAKAYAMA Toru

    Papers on city planning. City planning review ( 日本都市計画学会 )  36   85 - 90   2001.10

     View Summary

    This paper aims to investigate twenty cases of treatment and redevelopment of contaminated land from the view of care for the public in the Netherlands and Germany. These countries have national laws to treat land contamination, however the approaches are also linked with planning and decision making with the public. This research tries to incorporate both of the statutory and non-statutory process to treat land contamination and redevelopment. The results showed that overall approaches has been done by the statutory procedure, as well as to undertake non-statutory approaches. It became also clear that undertakings of public inquires and public consultation, and the presence of residents to be the promoting elements to further involvement of the public.

    DOI

  • COMPARISON OF NATIONAL ACTS ON TREATING LAND CONTAMINATION IN JAPAN, THE NETHERLANDS, GERMANY, AND THE UNITED KINGDOM : Study on approaches to treat land contamination and redevelopment of brownfields Part 1

    MIYAGAWA Tomoko, NAKAYAMA Toru

    Journal of architecture,planning and environmental engineering. Transactions of AIJ ( 社団法人日本建築学会 )  66 ( 547 ) 177 - 183   2001.09

     View Summary

    This study aims to compare the application of laws to treat land contamination, and to consider the long-term approach to include information openings, care for the public, and redevelopment. This paper (Part 1) aims to compare the application of national acts to treat land contamination in Japan, the Netherlands, Germany, and the United Kingdom. It concludes that the Japanese national acts have limitations on applicable types of land and stages of the land contamination treatment process, whereas in the Netherlands, Germany, the U.K. have national acts are applicable for any types of land ...

    DOI

  • STUDY ON LAND CONTAMINATION TREATMENT AND REDEVELOPMENT OF FORMER COALFIELDS

    MIYAGAWA Tomoko, NAKAYAMA Toru

    Journal of architecture and building science ( 社団法人日本建築学会 )  116 ( 13 ) 201 - 206   2001.07

     View Summary

    Former Coal fields, Treatment for land contamination, Redevelopment, Contaminated land, The U.K. The objective of this study is to investigate seven cases of land contamination treatment and redevelopment process on coal fields in the U.K. The research method used are site visits and interviews to local governments and government organizations. It is found that the contamination had a tendency to spread to wide area but low contamination, thus, treatment for coal fields is mainly done by encapsulation. It also found that it is necessary to cooperate within the local gevernment, in order to ...

  • STUDY ON TREATING LAND CONTAMINATION AND REDEVELOPING BROWNFIELDS IN GERMANY

    MIYAGAWA Tomoko, NAKAYAMA Toru

    Journal of architecture and building science ( 社団法人日本建築学会 )  116 ( 13 ) 195 - 200   2001.07

     View Summary

    The aim of this paper is to examine and clarify the procedures of soil cleanups and redevelopment process by undertaking case study of former factory and land fill sites in Germany. It also tries to find the effect and arising difficulties of newly introduced Federal Soil Protection Act 1998. Investigation methods used are interviews and site visits, and eighteen cases have been investigated. he results showed that due to the introduction of new law, it enabled to undertake investigation and cleanups at the national level, which leads to create the list of all suspected contaminated sites.

  • STUDY ON LAND CONTAMINATION TREATMENT AND REDEVELOPMENT OF FORMER LANDFILL SITES

    MIYAGAWA Tomoko, NAKAYAMA Toru

    Journal of architecture and building science ( 社団法人日本建築学会 )  115 ( 11 ) 191 - 196   2000.12

     View Summary

    Due to the increase of wastes in recent years, problems associated with treatment of wastes are happening in Japan. This paper aims to clarify the procedures by undertaking case study of former landfill sites to treat land contamination and redevelopment in the U. K. It investigated eight cases by interviews to local governments and government organizations and site visits. It is found that landfill sites are generally treated by encapsulation to cover the whole site of filled with wastes, thus, public open space is frequently used as the land use after the treatment. And in some cases wher...

  • Study on care for the public in land contamination treatment and redevelopment for contaminated land such as brownfields in the U.K.

    MIYAGAWA Tomoko, NAKAYAMA Toru

    Journal of the City Planning Institute of Japan ( 日本都市計画学会 )  35   253 - 258   2000.10

  • BROWNFIELDS TREATMENT FOR LAND CONTAMINATION AND REDEVELOPMENT

    MIYAGAWA Tomoko, NAKAYAMA Toru

    Journal of architecture and building science ( 社団法人日本建築学会 )  6 ( 10 ) 225 - 230   2000.06

     View Summary

    This paper aims to clarify the procedures by undertaking case study of brownfields treatment for land contamination and redevelopment in the U. K. It investigated thirteen cases by using research methods of interviews to local governments and government organizations and site visits. It is found that government organization to integrate treating contaminated land and redevelopment played an important role to subsidize projects and undertake approaches. Planning system is also found to be important which requires to obtain planning permissions and to open information.

    DOI

  • Approaches to Treat Contaminated Land such as Brownfield Sites - A Case Study of Advanced Approaches -

    MIYAGAWA Tomoko, NAKAYAMA Toru

    Papers on city planning. City planning review ( 日本都市計画学会 )  34   727 - 732   1999.10

  • Approaches on Contaminated Land in Redeveloping Brownfield Sites-Analysis of Local Acts at the Local and Regional Governments -

    MIYAGAWA Tomoko, NAKAYAMA Toru

    Papers on city planning. City planning review ( 日本都市計画学会 )  33   805 - 810   1998.10

▼display all

Books etc

  • 地域居住とまちづくり : 多様性を尊重し協同する地域社会をめざして

    中山, 徹( Part: Joint author)

    自治体研究社  2024.03  ISBN: 9784880377629

  • Rural and urban sustainability governance

    浅野 耕太, 高田 光雄

    United Nations University Press  2014  ISBN: 9789280812336

  • 和歌山大学宮川研究室・林田研究室・御坊市教育委員会・NPOスサノヲ、第3章「町並みの再発見と住民による地域発掘―和歌山県旧御坊町・塩屋町―」、「生きている文化遺産と観光」、藤木庸介編著

    学芸出版社  2010.03 

  • 地域居住とまちづくり

    せせらぎ出版  2005  ISBN: 4884161459

  • シリーズ都市再生2 持続可能性を求めて-海外都市に学ぶ

    日本経済評論社  2005  ISBN: 4818817732

Conference Activities & Talks

▼display all

KAKENHI

  • 重大な環境被害を受けた中山間地域におけるリスクベースの社会・生態的環境の再生

    2018.07
    -
    2022.03
     

    Grant-in-Aid for Challenging Research(Exploratory)  Co-investigator

  • 旧産業景観の形成における長期的な維持管理とパートナーシップ形成の手法に関する検討

    2017.04
    -
    2020.03
     

    Grant-in-Aid for Scientific Research(C)  Principal investigator

  • 環境汚染を内包する産業ランドスケープのGI化のためのプラットフォーム構築

    2016.04
    -
    2019.03
     

    Grant-in-Aid for Scientific Research(B)  Co-investigator

  • シビアな環境汚染除染以降のブラウンフィールド問題とリスクコミュニケーションの課題

    2013.04
    -
    2016.03
     

    Grant-in-Aid for Scientific Research(B)  Co-investigator

  • 原風景ヒアリング法を用いた文化的景観における動的オーセンティシティの評価法

    2010.04
    -
    2013.03
     

    Grant-in-Aid for Scientific Research(B)  Co-investigator

  • 持続可能な低未利用地の再生・管理と良好な景観の維持管理に関する検討

    2010.04
    -
    2013.03
     

    Grant-in-Aid for Young Scientists(B)  Principal investigator

  • 歴史的風致の維持向上による中山間集落活性化のパッケージモデル

    2010.04
    -
    2013.03
     

    Grant-in-Aid for Scientific Research(C)  Co-investigator

  • 日英のブラウンフィールド再生に関るステークホルダーの役割とスティグマ削減策の比較

    2008.04
    -
    2011.03
     

    Grant-in-Aid for Scientific Research(B)  Co-investigator

  • 居住文化育成の視点からみた持続可能な都市・地域デザイン-関西圏を中心として-

    2007.04
    -
    2012.03
     

    Grant-in-Aid for Scientific Research on Priority Areas  Co-investigator

  • 口述集積型データベース(LUDS)を用いた自律型景観利用の促進計画

    2007.04
    -
    2010.03
     

    Grant-in-Aid for Scientific Research(B)  Co-investigator

  • 日英の低・未利用地の再生による持続可能な地域・都市の再生と創造

    2006.04
    -
    2009.03
     

    Grant-in-Aid for Young Scientists(B)  Principal investigator

  • 原風景ヒアリング法を用いた歴史文化遺産をとりまくバッファーゾーンの景域保全計画

    2005.04
    -
    2007.03
     

    Grant-in-Aid for Scientific Research(B)  Co-investigator

  • コミュニティ・フォレストに関する学際的研究

    2005.04
    -
    2007.03
     

    Grant-in-Aid for Scientific Research(B)  Co-investigator

  • 地域密着型の環境再生・創造による持続可能な地域と都市の再生・活性化に関する研究

    2003.04
    -
    2005.03
     

    Grant-in-Aid for Young Scientists(B)  Principal investigator

  • 工場跡地の土壌汚染対策と再開発に関する研究 -持続的・都市計画的対策の検討-

    2000.04
    -
    2003.03
     

    Grant-in-Aid for Scientific Research(B)  Co-investigator

  • 工場跡地等の土壌汚染対策と再開発に関する研究

    2000.04
    -
    2002.03
     

    Grant-in-Aid for JSPS Research Fellows  Principal investigator

▼display all

Competitive funding, donations, etc. from foundation, company, etc.

  • システム工学部寄附金(株式会社総合資格(和歌山))

    2024.03
     

    Contribution  Principal investigator

  • システム工学部寄附金(株式会社総合資格(和歌山))

    2023.03
     

    Contribution  Principal investigator

  • システム工学部寄附金(株式会社総合資格(和歌山))

    2022.03
     

    Contribution  Principal investigator

  • システム工学部寄附金(株式会社総合資格(和歌山))

    2021.02
     

    Contribution  Co-investigator

Instructor for open lecture, peer review for academic journal, media appearances, etc.

  • 講師

    2017.11

    立命館大学

     View Details

    講演講師等

    講師,任期:2017年11月~

Committee member history in academic associations, government agencies, municipalities, etc.

  • 久米田駅地区事後評価委員会委員

    2024.03.01
    -
    2024.03.31
     

    岸和田市

     View Details

    学協会、政府、自治体等の公的委員

    本市の久米田駅周辺まちづくりに係る駅前整備事業の事後評価を実施するために、「久米田駅地区事後評価委員会」の委員として、その評価内容について専門的立場から意見をお願いするものです。
    委員会の開催は、来年3月上旬に開催予定です。(2時間/日×1回)

  • 堺市景観審議会委員

    2023.12.25
    -
    2025.12.24
     

    堺市

     View Details

    学協会、政府、自治体等の公的委員

    堺市景観条例に基づき、本市における良好な景観の形成及び屋外広告物に関し、市長に意見を述べるとともに、市長の諮問に応じて良好な景観の形成に関する重要事項について調査、審議するもの。

  • 和歌山県河川整備審議会委員

    2023.10.01
    -
    2025.09.30
     

    和歌山県

     View Details

    学協会、政府、自治体等の公的委員

    和歌山県河川整備審議会委員に就任し、県が管理する河川の整備に関する方針、計画及び評価について専門的立場から意見を述べる。

  • 和歌山市緑化審議会委員

    2023.09.01
    -
    2025.08.31
     

    和歌山市役所

     View Details

    学協会、政府、自治体等の公的委員

    和歌山市緑化審議会に出席し、案件の審議を行う。

  • 和歌山市景観審議会委員

    2023.08.08
    -
    2025.08.07
     

    和歌山市役所

     View Details

    学協会、政府、自治体等の公的委員

    和歌山市の良好な景観形成に関する重要事項について、調査審議する。

  • 和歌山県建設工事等実績認定審査会

    2023.04.03
    -
    2025.03.31
     

    和歌山県

     View Details

    学協会、政府、自治体等の公的委員

    県が発注する建設工事及び建設工事に係る委託業務の条件付き一般競争入札における実績条件と同等の能力を有すると認められる者についての審査に関する事務

  • 和歌山県太陽光発電事業調査審議会委員

    2023.04.01
    -
    2025.03.31
     

    和歌山県

     View Details

    学協会、政府、自治体等の公的委員

    環境保全上、災害発生防止上の観点から、科学的・技術的助言をいただきたい。

  • 和歌山県農林水産部所管公募型プロポーザル方式等事業者選定委員会委員

    2022.11.01
    -
    2023.10.31
     

    和歌山県 農林水産部

     View Details

    学協会、政府、自治体等の公的委員

    農林水産部が発注する役務の提供の業務に係る随意契約の締結のため公募の方法により事業者を選定する場合の当該事業者の選定についての審査に関する事務

  • 和歌山下津港長期構想検討委員会

    2022.04.28
    -
    2023.03.31
     

    公益社団法人 日本港湾協会

     View Details

    学協会、政府、自治体等の公的委員

    「和歌山下津港長期構想検討委員会」の委員として、学識経験者の立場から、和歌山下津港の中長期的な将来像の検討について、とりまとめに対し、指導および助言を行う。

  • 和歌山県農業農村振興委員会委員

    2022.04.01
    -
    2025.03.31
     

    和歌山県 農林水産部

     View Details

    学協会、政府、自治体等の公的委員

    農地、農業用施設等の適正かつ円滑な利活用についての重要事項の調査審議に関する事務

  • 和歌山県地方港湾審議会委員(副会長)

    2022.02.01
    -
    2024.01.31
     

    和歌山県

     View Details

    学協会、政府、自治体等の公的委員

    和歌山県地方港湾審議会委員として専門的立場から意見をいただく。

  • 堺市景観審議会委員

    2021.12.25
    -
    2023.12.24
     

    堺市役所

     View Details

    学協会、政府、自治体等の公的委員

    堺市景観条例に基づき、本市における良好な景観の形成及び屋外広告物に関し、市長に意見を述べるとともに、市長の諮問に応じて良好な景観の形成に関する重要事項について調査、審議するもの

  • 和歌山県河川整備審議会委員

    2021.10.01
    -
    2023.09.30
     

    和歌山県

     View Details

    学協会、政府、自治体等の公的委員

    和歌山県が管理する河川の整備に関する方針、計画及び評価についての重要事項
    の調査審議

  • 和歌山市景観審議会委員

    2021.08.08
    -
    2023.08.07
     

    和歌山市

     View Details

    学協会、政府、自治体等の公的委員

    和歌山市の良好な景観の形成に関する重要事項について、調査審議する。

  • 和歌山県太陽光発電事業調査審議会委員

    2021.04.01
    -
    2023.03.31
     

    和歌山県

     View Details

    学協会、政府、自治体等の公的委員

    環境保全上、災害発生防止上の観点から、科学的・技術的助言をいただきたい。

  • 和歌山県建設工事等実績認定審査会

    2021.04.01
    -
    2023.03.31
     

    和歌山県

     View Details

    学協会、政府、自治体等の公的委員

    県が発注する建設工事及び建設工事に係る委託業務の条件付き一般競争入札にお
    ける実績条件と同等の能力を有すると認められる者についての審査に関する事務

  • 和歌山下津港長期構想検討委員会委員

    2020.11.26
    -
    2022.03.31
     

    公益社団法人 日本港湾協会

     View Details

    学協会、政府、自治体等の公的委員

    和歌山下津港の長期構想に関する審議を行う。

  • 和歌山下津港長期構想検討委員会

    2020.11.26
    -
    2022.03.31
     

    公益社団法人 日本港湾協会

     View Details

    港湾

    和歌山下津港における長期構想について審議を行う。

  • 委員

    2020.02
    -
    2021.01
     

    和歌山県地方港湾審議会

     View Details

    国や地方自治体、他大学・研究機関等での委員

    委員,任期:2020年2月~2022年1月

  • 委員

    2019.12
     

    和歌山県国土利用計画審議会

     View Details

    国や地方自治体、他大学・研究機関等での委員

    委員,任期:2019年12月~2022年12月

  • 委員

    2019.08
     

    和歌山市景観審議会

     View Details

    国や地方自治体、他大学・研究機関等での委員

    委員,任期:2019年8月~2021年8月

  • 委員

    2019.04
    -
    2021.03
     

    和歌山県建設工事等実績認定審査会

     View Details

    国や地方自治体、他大学・研究機関等での委員

    委員,任期:2019年4月~2021年3月

  • 委員

    2019.04
    -
    2019.12
     

    堺市プロポーザル方式によるESCO事業者選定委員

     View Details

    国や地方自治体、他大学・研究機関等での委員

    委員,任期:2019年4月~2019年12月

  • 委員

    2019.02
    -
    2021.01
     

    和歌山県太陽光発電事業調査審議会

     View Details

    国や地方自治体、他大学・研究機関等での委員

    委員,任期:2019年2月~2021年1月

  • 委員

    2018.10
    -
    2020.10
     

    泉佐野丘陵緑地運営審議会

     View Details

    国や地方自治体、他大学・研究機関等での委員

    委員,任期:2018年10月~2020年10月

  • 選定委員

    2017.10
    -
    2018.03
     

    堺市プロポーザル方式によるESCO事業者選定

     View Details

    国や地方自治体、他大学・研究機関等での委員

    選定委員,任期:2017年10月~2018年3月

  • 委員

    2017.08
    -
    2019.08
     

    和歌山市景観審議会

     View Details

    国や地方自治体、他大学・研究機関等での委員

    委員,任期:2017年8月~2019年8月

  • 委員

    2017.08
    -
    2019.08
     

    岸和田市都市計画審議会

     View Details

    国や地方自治体、他大学・研究機関等での委員

    委員,任期:2017年8月~2019年8月

  • 専門調査員

    2017.05
    -
    2018.03
     

    文化遺産を活かした地域活性化事業

     View Details

    国や地方自治体、他大学・研究機関等での委員

    専門調査員,任期:2017年5月~2018年3月

  • 委員

    2016.11
    -
    2018.10
     

    和泉佐丘陵緑地運営審議会

     View Details

    国や地方自治体、他大学・研究機関等での委員

    委員,任期:2016年11月-2018年10月

  • 委員

    2016.03
    -
    2018.02
     

    和歌山県建築士審査会

     View Details

    国や地方自治体、他大学・研究機関等での委員

    委員,任期:2016/03/01~2018/02/28

  • 委員

    2015.08
    -
    2017.08
     

    和歌山市景観審議会

     View Details

    国や地方自治体、他大学・研究機関等での委員

    委員,任期:2015/08/08~2017/08/07

  • 専門調査員

    2015.06
    -
    2016.03
     

    平成27年度文化遺産を活かした地域活性化事業

     View Details

    国や地方自治体、他大学・研究機関等での委員

    専門調査員,任期:2015/06/08~2016/03/31

  • 委員

    2015.05
    -
    2017.04
     

    和歌山県環境審議会

     View Details

    国や地方自治体、他大学・研究機関等での委員

    委員,任期:2015/05/01~2017/04/30

  • 委員

    2014.11
    -
    2015.03
     

    岸和田市公共事業評価委員会委員の委嘱について岸和田市公共事業評価委員会委員

     View Details

    国や地方自治体、他大学・研究機関等での委員

    委員,任期:2014/11/27~2015/03/31

  • 委員

    2014.03
    -
    2016.02
     

    和歌山県建築士審査会委員

     View Details

    国や地方自治体、他大学・研究機関等での委員

    国や地方自治体、他大学・研究機関等での委員,任期:2014/03/01~2016/02/29

  • 委員

    2013.10
    -
    2016.10
     

    和歌山県土地利用審査会委員

     View Details

    国や地方自治体、他大学・研究機関等での委員

    国や地方自治体、他大学・研究機関等での委員,任期:2013/10/15~2016/10/14

  • 委員

    2013.10
    -
    2016.10
     

    和歌山県土地利用審査会

     View Details

    国や地方自治体、他大学・研究機関等での委員

    委員,任期:2013/10/15~2016/10/14

  • 委員

    2013.10
    -
    2016.10
     

    和歌山県土地利用審査会委員

     View Details

    国や地方自治体、他大学・研究機関等での委員

    委員,任期:2013年10月-2016年10月

  • 委員

    2013.08
    -
    2015.08
     

    和歌山市景観審議会委員

     View Details

    国や地方自治体、他大学・研究機関等での委員

    国や地方自治体、他大学・研究機関等での委員,任期:2013/08/08~2015/08/07

  • 委員

    2013.08
    -
    2015.08
     

    和歌山市景観審議会

     View Details

    国や地方自治体、他大学・研究機関等での委員

    委員,任期:2013/08/08~2015/08/07

  • 委員

    2013.05
    -
    2015.04
     

    和歌山県環境審議会委員

     View Details

    国や地方自治体、他大学・研究機関等での委員

    国や地方自治体、他大学・研究機関等での委員,任期:2013/05/01~2015/04/30

  • 委員

    2013.05
    -
    2015.04
     

    和歌山県環境審議会

     View Details

    国や地方自治体、他大学・研究機関等での委員

    委員,任期:2013/05/01~2015/04/30

  • 委員

    2012.10
    -
    2013.03
     

    岸和田市東岸和田駅東地区都市再生整備計画事業評価委員

     View Details

    国や地方自治体、他大学・研究機関等での委員

    国や地方自治体、他大学・研究機関等での委員,任期:2012/10/15~2013/03/31

  • 委員

    2012.10
    -
    2013.03
     

    有田川町教育委員会蘭島文化的景観保存調査委員

     View Details

    国や地方自治体、他大学・研究機関等での委員

    国や地方自治体、他大学・研究機関等での委員,任期:2012/10/01~2013/03/31

  • 委員

    2012.09
    -
    2014.08
     

    堺市緑の政策審議会委員

     View Details

    国や地方自治体、他大学・研究機関等での委員

    国や地方自治体、他大学・研究機関等での委員,任期:2012/09/06~2014/08/31

  • 委員

    2012.05
    -
    2013.03
     

    九度山町教育委員会九度山町文化財活用地域活性化事業実行委員会専門調査員

     View Details

    国や地方自治体、他大学・研究機関等での委員

    国や地方自治体、他大学・研究機関等での委員,任期:2012/05/17~2013/03/31

▼display all