mmiki.jp

概要

東京大学総合文化研究科広域科学専攻広域システム科学系で助教をしている三木優彰の研究室や研究に関する総合的な案内を提供するページです

What is this page about?

This page is maintained to provide general information about Masaaki Miki, currently an assistant professor at the Graduate School of Arts and Sciences/ College of Arts and Sciences, the University of Tokyo.

場所

東京大学駒場キャンパス15号館6階606B

最寄り駅は渋谷から井の頭線で2駅の駒場東大前です。

Where?

Our (small) office is located at the University of Tokyo, on the Komaba campus, 15th building, 6th floor, 606B.

The nearest train station is Komaba-Todai-Mae, which is two stops away from Shibuya station by the Inokashira line.

三木の略歴

2012東京大学工学系研究科建築学専攻・博士(工学)
2012-2015五十嵐デザインインターフェースプロジェクト(JST)などでポスドクをする傍ら英国Bath大学(受け入れ教員Chris J. K. Williams)やスイスETH Zurich(受け入れ教員Philippe Block)に滞在
2015 SiggraphよりNurbsと応力関数を用いた純圧縮構造の形状決定手法に関する論文が採択
2015-2020 4年ほど米国最大の建築設計事務所Skidmore, Owings and Merrillにアーキテクトとして勤務
2020-現在 東京大学総合文化研究科広域科学専攻広域システム科学系・助教
2022 Siggraph AsiaよりNurbsと応力関数を用いた引っ張り圧縮混合型シェル構造の形状決定手法に関する論文が採択
現在東京大学教養学部学際科学科で図法力学に関する授業を隔年で開講中。

Short CV of Masaaki Miki

Assistant Professor, General Systems Studies, Graduate School of Arts and Sciences, the University of Tokyo.

After receiving a Ph.D. from the University of Tokyo, I joined the Igarashi User Interface research group (https://www.jst.go.jp/erato/igarashi/en/) and worked as a post-doc researcher for about four years (2012-2015).

During that period, I visited the University of Bath (UK, hosted by Chris J. K. Williams) for two months and ETH Zurich (Switzerland, hosted by Philippe Block) for one month. There, I started the development of Airy's stress function-based form-finding tools. In 2015, my paper about Airy's stress function-based form-finding was accepted for publication in Siggraph 2015.

From 2015 to 2020, I worked for Skidmore Owings and Merrill (Chicago, US) as an architect for 4.5 years and developed parametric modeling skills. Since 2020, I have been back in Japan and am in the present position until now. In 2022, I wrote one more paper about Airy's stress function-based form-finding, which was accepted for publication in Siggraph Asia 2022.

I am a researcher/scientist/engineer/architect trying to bridge the gaps between different disciplines. At school, I teach Graphic Statics, Architectural Geometry, and 3D CAD to students from junior division to graduate school of architecture.

参加

私の所属している東京大学総合文化研究科広域科学専攻広域システム科学系の大学院入試説明会が2023/04/22と2023/05/20にあります。
https://system.c.u-tokyo.ac.jp/p-graduate/guide.html
私は現在助教ですが、舘知宏先生を受け入れ教員として私の研究テーマを修士の研究にすることもできます。(学際科学科の学生は卒論にもできます)
応力関数や図法力学を用いた建築の構造デザイン・建設手法の開発を行っています。説明会などは特に設定していませんが、興味のある人は下記連絡先に連絡してみてください。個別に詳細の説明などします。

連絡先

masaaki[at]mmiki.jp

Entracne

Department of General Systems Studies, Graduate School of Arts and Sciences, The University of Tokyo will be holding an orientation meeting (2023/04/22 and 2023/05/20) to explain the admission exam and the related processes.
https://system.c.u-tokyo.ac.jp/p-graduate/guide.html
I'm currently an assistant professor but I can supervise your master's research if you select Prof. Tachi as a primary supervisor.
If you are interested in structural design and construction methods using Airy's stress function and/or Graphics Statics, please contact me using the address shown below. Though there is no specific date reserved for entrance guidance, I can arrange an online meeting so we can talk about research topics.

Contact

masaaki[at]mmiki.jp

Project Gamera

More information is coming along hopefully very soon.

Project Godzilla

In architecture, thin surface structures that can withstand gravity are called shells. In this project, we have developed a novel computational framework for finding forms of shells that can properly handle tension-compression mixed stress states. 

Our paper presenting this finding was accepted for presentation at Siggraph Asia 2022 and was published in Transactions on Graphics (TOG).

Miki, M., and Mitchell, T. 2022. Interactive exploration of tension-compression mixed shells. ACM Transactions on Graphics (TOG), 41(6), p.1–14.

Selected Publications

Miki, M., and Mitchell, T. 2022. Interactive exploration of tension-compression mixed shells. ACM Transactions on Graphics (TOG), 41(6), p.1–14.

Miki, M., Adiels, E., Baker, W., Mitchell, T., Sehlstrom, A., and Williams, C. 2022. Form-finding of shells containing both tension and compression using the Airy stress function. International Journal of Space Structures, 37(4), p.261–282.

Miki, M., Igarashi, T., and Block, P. 2015. Parametric self-supporting surfaces via direct computation of airy stress functions. ACM Transactions on Graphics (TOG), 34(4), p.1–12.

Yoshida, H., Igarashi, T., Obuchi, Y., Takami, Y., Sato, J., Araki, M., Miki, M., Nagata, K., Sakai, K., and Igarashi, S. 2015. Architecture-scale human-assisted additive manufacturing. ACM Transactions on Graphics (TOG), 34(4), p.1–8.

Miki, M., Adriaenssens, S., Igarashi, T., and Kawaguchi, K. 2014. The geodesic dynamic relaxation method for problems of equilibrium with equality constraint conditions. International Journal for Numerical Methods in Engineering, 99(9), p.682–710.

Research grants

Awards

Links to academic SSN

Research Gate author profile (EN)

Google Scholar author profile (EN)

Research Map author profile (JP)

Research Map author profile (EN)