2017 Fiscal Year

International Academic Journal

Makoto Uemura, Ryosuke Itoh, Ioannis Liodakis, Dmitry Blinov, Masanori Nakayama, Longyin Xu, Naoko Sawada, Hsiang-Yun Wu, Issei Fujishiro
Optical polarization variations in the blazar PKS 1749+096
in PASJ, Vol. 69, No. 6, Article No. 96, December 2017 [DOI: 10.1093/pasj/psx111]
We report on the variation in the optical polarization of the blazar PKS 1749+096 observed in 2008–2015. The degree of polarization (PD) tends to increase in short flares having a time-scale of a few days. The object favors a polarization angle (PA) of 40∘–50∘ at the flare maxima, which is close to the position angle of the jet (20∘–40∘). Three clear polarization rotations were detected in the negative PA direction associated with flares. In addition, a rapid and large decrease in the PA was observed in the other two flares, while another two flares showed no large PA variation. The light curve maxima of the flares possibly tend to lag behind the PD maxima and color-index minima. The PA became −50∘ to −20∘ in the decay phase of active states, which is almost perpendicular to the jet position angle. We propose a scenario to explain these observational features, where transverse shocks propagate along curved trajectories. The favored PA at the flare maxima suggests that the observed variations were governed by the variations in the Doppler factor, δ. Based on this scenario, the minimum viewing angle of the source, θmin=4.8∘–6.6∘, and the location of the source, Δr≳0.1pc, from the central black hole were estimated. In addition, the acceleration of electrons by the shock and synchrotron cooling would have a time-scale similar to that of the change in δ. The combined effect of the variation in δ and acceleration/cooling of electrons is probably responsible for the observed diversity of the polarization variations in the flares.


堀井 絵里藤代 一成
画像電子学会誌, Vol. 47, No. 1, pp. 66-70, 2018年1月.

湯浅 海貴中山 雅紀藤代 一成
芸術科学会論文誌, Vol. 16, No. 4, pp. 102-109, 2017年11月.
本研究では,初心者でも直感的にデフォルメされた2Dグラフィックデザインを生成できるシステム—Swellartを提案する.我々は,システムを開発するうえで,変形の方法のなかでも膨張に着目している.ユーザが描画した枠の形状に合わせて対象の画像が膨張する過程を単純に示すことで,すべてのユーザが容易に変形過程やその結果を想像させられる.膨張方法として,まずユーザが画像を指定して,デフォルメしたい範囲をユーザがくり抜き,その範囲内のメッシュ分割を行う.次に,分割された各セルに対しさまざまな制約をユーザが指定して膨張を行うことで,多様なデフォルメデザインを生成できる.本論文では,Swellart の処理手順と結果を示し,今後の方向性を議論する.

International Conference Proceedings

Atsushi Miyazawa, Masanori Nakayama, Issei Fujishiro
What Does the Riemann Sphere’s Axis Stand for?: Understanding the Big Picture of How Mathematical Functions Behave
in Proceedings of SIGGRAPH Asia 2017 Symposium on Education,
Bangkok (Thailand), 2017

To visualize the behavior of complex functions, we need four dimensions. We raise the question that has been neglected: “What does the Riemann sphere’s axis stand for?” The answer can be obtained by setting the immersive environment at the sphere’s origin, which is always undefined in projective geometry. By using our immersive math environment, we visually confirmed that a continuous mapping exists between a complex projective line (i.e., a complexified circle) and the Riemann sphere; therefore, we can call them homeomorphic. Such a visualization idiom seems to be applicable to other learning themes, and it also helps us more easily visualize even higher-dimensional math objects.

By using the same method that we used to construct a real projective line with the equation RP^1 = R^1 ⋃ R^0, we can then create a new, fourth form of the projective plane (the first form is often referred to as a cross-cap, the second as a “Boy’s surface,” and the third as a “Roman surface”), according to the equation RP^2 = R^2 ⋃ RP^1, as shown in the above figure. This new form looks almost like a normal spherical surface, except that an infinite number of self-intersections occur at both poles of the sphere.Therefore, we can draw some elementary math functions that we are familiar with on this new projective plane. The figure shown below illustrates an example of visualizing y = cos x and y = cos 1/x. Note that both are drawn in the same shape as a whole only by differences in whether they are oscillating at infinity or oscillating at the origin.

Atsushi Miyazawa, Masanori Nakayama, Issei Fujishiro
Immersive Math Environment Continuable to Cross-sectional Complex Projective 2-space
in Proceedings of the 11th Asian Forum on Graphic Science,
Article No. F40, Tokyo (Japan), 2017
because to depict a pair of complex numbers we would need four dimensions
Constructing the graph of the complex square root function around its singular point in terms of polar coordinates
What does the Riemann sphere’s axis stand for?

As is well-known, in quantum mechanics the complex wave plays an essential role, which can explain the natural phenomena very well. In other words, it can be said that the rules of nature are written with logic using complex numbers. We are accustomed to the convenience of visualizing the overall behavior of a function by means of its graph. In the case of a complex function, however, this approach has not seemed workable for a long time because to depict a pair of complex numbers (an input z and the output of a function f ) we would need four dimensions.Especially in mathematical visualization, we have demonstrated thus far that how the fourth dimension is conceptualized seems to be successfully justified by using a cross section and a projection of an object appropriately, described in terms of polar coordinates (instead of Cartesian coordinates).

And we raise the question that has been neglected thus far: “What does the Riemann sphere’s axis stand for?” We show that the answer can be obtained only by observing from the inside the sphere by setting the viewpoint of the immersive environment on the point (0, 0), which is always undefined in projective geometry.

Naoko Sawada, Masanori Nakayama, Hsiang-Yun Wu, Makoto Uemura, Issei Fujishiro
TimeTubes: Visual Fusion and Validation for Ameliorating Uncertainties of Blazar Datasets from Different Observatories
in Proceedings of the Computer Graphics International Conference,
Article No. 14, Yokohama (Japan), 2017
Astronomers have been observing blazars to solve the mystery of the relativistic jet. A technique called TimeTubes uses a 3D volumetric tube to visualize the time-dependent multivariate observed datasets and allows astronomers to interactively analyze the dynamic behavior of and relationship among those variables. However, the observed datasets themselves exhibit uncertainty due to their errors and missing periods, whereas periods interpolated by TimeTubes result in a different type of uncertainty. In this paper, we present a technique for ameliorating such data- and mapping-inherent uncertainties: visual fusion of datasets for the same blazar from two different observatories. Visual data fusion with Time-Tubes enables astronomers to validate the datasets in a meticulous manner.

Hsiang-Yun Wu, Yusuke Niibe, Kazuho Watanabe, Shigeo Takahashi, Makoto Uemura, Issei Fujishiro
Making Many-to-Many Parallel Coordinate Plots Scalable by Asymmetric Biclustering
in Proceedings of IEEE Pacific Visualization 2017, Seoul (Korea), 2017
Datasets obtained through recently advanced measurement techniques tend to possess a large number of dimensions. This leads to explosively increasing computation costs for analyzing such datasets, thus making formulation and verification of scientific hypotheses very difficult. Therefore, an efficient approach to identifying feature subspaces of target datasets, that is, the subspaces of dimension variables or subsets of the data samples, is required to describe the essence hidden in the original dataset. This paper proposes a visual data mining framework for supporting semiautomatic data analysis that builds upon asymmetric biclustering to explore highly correlated feature subspaces. For this purpose, a variant of parallel coordinate plots, many-to-many parallel coordinate plots, is extended to visually assist appropriate selections of feature subspaces as well as to avoid intrinsic visual clutter. In this framework, biclustering is applied to dimension variables and data samples of the dataset simultaneously and asymmetrically. A set of variable axes are projected to a single composite axis while data samples between two consecutive variable axes are bundled using polygonal strips. This makes the visualization method scalable and enables it to play a key role in the framework. The effectiveness of the proposed framework has been empirically proven, and it is remarkably useful for many-to-many parallel coordinate plots.

International Competitions

Masanori Nakayama, Issei Fujishiro
Asian Digital Modeling Contest 2017, Tokyo, August 7-10, 2017 (Grand Prize).
In the present work, we attempted at expressing human “two-facedness” by the “two-sidedness” of the 3D structures. In the field of geometry, there exists a two-facedness called “duality,” which represents the relationship between diagrams that switch between faces (cells) and vertices. Delaunay diagram and Voronoi diagram give a typical example. We have developed an algorithm to generate a Poisson-disk distribution in an arbitrary shape to make sculptures with those diagrams. The Delaunay diagram generated by Poisson-disk distribution point cloud makes up the uniform tetrahedral mesh (except for the surface). Since those cells are close to a regular tetrahedron, Voronoi vertices located on the circumcenters also have an almost uniform distribution.

International Conference Posters (Peer-Reviewed)

Malik Olivier Boussejra, Noboru Adachi, Hideki Shojo, Ryohei Takahashi, Issei Fujishiro
LMML: Describing injuries for forensic data visualization
to appear as a poster in Proceedings of SAS NICOGRAPH International 2016, Hangzhou (China), July 2016
Fighting against crime is paramount to any society, maybe more today than ever before. Tools to fight and elucidate crime are rooted in forensic science. Through the autopsy of a body, we can answer a whole range of questions as to how death happened and come up with explanations and counter-measures so that the same dire circumstance does not happen again. Now, because the reports collecting the data are written manually, the recording of the data collected through traditional autopsy still is a cumbersome, time-consuming task. Our framework, based on a mark-up language (that we dubbed ”LMML”) to store, describe and arrange forensic data, aims at overcoming those issues. Our contribution is twofold: the design of the syntax and semantics of LMML, and the conception of an interface to create, edit, analyse or query files written in that language. Thus, this framework allows quicker, smoother input of forensic data, for better automation and visualization thereof, so that they can be used by medical examiners, investigators, as well as judicial courts.


National Conference Proceedings (Peer-Reviewed)

池田 泰成都甲 裕太朗藤代 一成


コンピュータグラフィックス(CG)において糸を細部まで忠実に再現することは,困難な課題として知られている.糸は織物や編み物,衣服を構成するために必要であり,現実世界を仮想空間に再現するために不可欠な素材である.これまでに開発された糸の生成手法は,ボリュームベースと繊維ベースの二種類に分類できる.近年提案された繊維ベース手法では,糸の断面を CT スキャンし,その細部を精密に表現している.近年の先進的な手法により,CG における糸の表現力は劇的に向上し,なおかつその生成に必要なコストも減少した.しかし,糸の周囲に生える毛羽立ちの生成プロセスは,未だに挑戦的な課題である.特に,表面の毛羽立ちが独特な形状となるパイル織物は,タオルや車のシートなど生活のあらゆる場所で使用される一般的な素材であるにも関わらず,既存のフレームワークでは表現が不可能である.加えて,上述した繊維ベース手法では糸の生成プロセスに注目していたが,その糸を使用した織物の生成フレームワークについては,筆者らの知る限り未だに提案されていない.これらの課題を解決するため,本論文では既存のフレームワークを拡張することでパイル繊維をもつ糸の生成に対応するとともに,この糸から自動的にパイル織物を生成する手法を提案する.


藤代 一成
知的環境メディア(smart ambient media, SAM)とは,マルチモーダルセンシング ―知的計算― 適応的レンダリングを利用して,我々の日常生活の諸活動を巧みに支援する表示手法を総称したものである.本解説では,SAMの一般的な枠組みを示した後,当研究室の関連研究開発事例を6点紹介し,関連する諸概念にも言及している.さらにこれらの事例を特徴づけ,SAMに共通する特徴とその可能性を明らかにしている.

National Conference

中田 聖人藤代 一成
Visual Computing/グラフィクスとCAD 合同シンポジウム2017(ポスタ発表),2017年6月

篠﨑 紗衣子中山 雅紀藤代 一成
Visual Computing/グラフィクスとCAD 合同シンポジウム2017(ポスタ発表),2017年6月

堀井 絵里藤代 一成
Visual Computing/グラフィクスとCAD 合同シンポジウム2017(ポスタ発表),2017年6月

高倉 優理子中山 雅紀小島 有利子藤代 一成
研究報告音楽情報科学(MUS)(ポスタ発表),2017-MUS-115(36),pp. 1-6,2017年6月

Oral Presentation

藤代 一成
第16回2017年度CG Japan Award 受賞記念講演,NICOGRAPH 2017,アイーナ・いわて県民情報交流センター(岩手県・盛岡市),2017年11月

清水 文也藤代 一成
情報処理学会コンピュータグラフィックスとビジュアル情報学研究会 第168回研究発表会 一般セッション209-23, 2017年11月

早川 雄登藤代 一成
情報処理学会コンピュータグラフィックスとビジュアル情報学研究会 第168回研究発表会 一般セッション209-24, 2017年11月

Naoko Sawada, Masanori Nakayama, Hsiang-Yun Wu, Makoto Uemura, Issei Fujishiro
TimeTubes: Visual Fusion for Detailed and Precise Analysis of Time-Varying Multi-Dimensional Datasets
in Proceedings of the International Meeting on “High-Dimensional Data-Driven Science”, Mielparque Kyoto (Kyoto, Japan), September 2017

藤代 一成
アーク情報システム SIGGRAPH2017報告会,アルカディア市ヶ谷(東京都・新宿区),2017年9月

Issei Fujishiro
Visual analysis tools for facilitating sparse modeling
Joint Keynote for Symposium on Visualization and Symposium on Education, ACM SIGGRAPH Asia 2017,Bangkok, Thailand, November 2017

Issei Fujishiro
Facilitating sparse modeling with sophisticated visual analysis tools
Invited talk at the First Chinese-Japanese Joint Visualization Workshop, Peking University (Beijing, China), July 2017

Takayuki Itoh, Koji Koyamada, Issei Fujishiro, Shixia Liu, Xiaoru Yuen, Jinwan Zhang, Li Chen
Future China-Japan collaboration of visualization R&Ds
Panel at the First Chinese-Japanese Joint Visualization Workshop, Peking University (Beijing, China), July 2017

藤代 一成
日本計算工学会 不確かさのモデリング・シミュレーション法に関する研究会 第10回会合 招待講演,慶應義塾大学矢上キャンパス(神奈川県・横浜市),2017年7月

清水 貴大藤代 一成

中田 聖人藤代 一成

藤代 一成
第2回サイバーNDE研究会 招待講演,東北大学流体科学研究所(宮城県・仙台市),2018年2月

宮澤 篤藤代 一成
情報処理学会第100回オーディオビジュアル複合情報処理研究発表会 パネル討論招待講演,沖縄セルラー電話株式会社会議室(沖縄県・那覇市),2018年3月

堀井 絵里藤代 一成
映像表現・芸術科学フォーラム2018(映像情報メディア学会技術報告,Vol. 42, No. 12, pp. 17-20), 2018年3月

清水 貴大中山 雅紀藤代 一成
映像表現・芸術科学フォーラム2018(映像情報メディア学会技術報告,Vol. 42, No. 12, pp. 21-24), 2018年3月

今田 明洋藤代 一成
映像表現・芸術科学フォーラム2018(映像情報メディア学会技術報告,Vol. 42, No. 12, pp. 5-8), 2018年3月

澤田 奈生子中山 雅紀植村 誠藤代 一成
TimeTubes: 特徴検索によるブレーザー観測データ解析の詳細化と効率化
画像電子学会 第284回研究会, 2018年3月

登野 拓志茅 暁陽豊浦 正広郷 健太郎柏木 賢治藤代 一成
第80回情報処理学会全国大会, 3Y-01,2018年3月 学生奨励賞
長澤 彦己堀江 康晃藤代 一成
第80回情報処理学会全国大会, 5X-01,2018年3月 学生奨励賞
宮崎 一輝藤代 一成
第80回情報処理学会全国大会, 5Y-06,2018年3月 学生奨励賞

藤代 一成
情報処理学会第 80 回全国大会企画セッション「工芸から科学へ—CG技術の新たな挑戦—」基調講演,早稲田大学(東京都・新宿区),2018年3月