古川　亮 （フルカワ　リョウ）

コミュニケーション情報 byコメンテータガイド

• コメント

  コンピュータビジョンとは、コンピュータでものを「見る」方法を研究する分野です。画像からモノの形を計測する基礎技術研究や、その技術の医療分野応用を進めています。

研究者情報

学位

• 博士（工学）（奈良先端科学技術大学院大学）
• 修士（工学）（奈良先端科学技術大学院大学）

ホームページURL

https://jglobal.jst.go.jp/detail?JGLOBAL_ID=200901060072043350

ORCID ID

•  https://orcid.org/0000-0002-2063-1008

J-Global ID

• 200901060072043350

研究キーワード

• 仮想現実感   コンピュータグラフィックス   画像認識   画像処理   

現在の研究分野（キーワード）

コンピュータビジョンとは、コンピュータでものを「見る」方法を研究する分野です。画像からモノの形を計測する基礎技術研究や、その技術の医療分野応用を進めています。

研究分野

• 情報通信 / データベース

経歴

• 2022年04月 - 現在  近畿大学工学部 情報学科教授
• 2013年04月 - 2022年03月  広島市立大学情報科学部 知能工学科准教授
• 2007年04月 - 2013年03月  広島市立大学大学院 情報科学研究科 知能工学専攻 講師
• 1997年04月 - 2007年03月  広島市立大学 情報科学部 情報メディア工学科 助手

学歴

•         - 1997年   奈良先端科学技術大学院大学   情報科学研究科   情報システム学専攻
•         - 1993年   京都大学   工学部   電気工学第二科

所属学協会

• 2009年度 情報処理学会CVIM研究会 運営委員   電子情報通信学会   情報処理学会   The Institute of Electronics, Information and Communication Engineers   Information Processing Society of Japan   

研究活動情報

論文

• Multi-frame optimisation for active stereo with inverse renderingto obtain consistent shape and projector-camera posesfor 3D endoscopic system

  Ryo Furukawa; Michihiro Mikamo; Ryusuke Sagawa; Yuki Okamoto; Shiro Oka; Shinji Tanaka; Hiroshi Kawasaki

  Computer Methods in Biomechanics and Biomedical Engineering: Imaging & Visualization 1 - 9 2022年12月 [査読有り]
  
• Acquisition and Visualization of Micro-Vibration of a Sound Wave in 3D Space

  Ryusuke Sagawa; Yusuke Higuchi; Ryo Furukawa; Hiroshi Kawasaki

  Journal of Robotics and Mechatronics 34 5 1024 - 1032 2022年10月 [査読有り]
   

  The acquisition of micro-vibrations is important for analyzing machinery. In the present study, we propose a method for measuring and visualizing the three-dimensional (3D) displacements of such micro-vibrations, especially in the case of sound waves propagating through space. The proposed method uses the speckle patterns of coherent light to measure the minute displacements. Speckle patterns are useful for detecting extremely small displacements owing to their sensitivity to the pose of the object. However, it is impossible to measure the displacement at each position because the pattern changes nonlinearly with respect to large depth changes. Therefore, a method of nonlinear low-dimensional embedding of the speckle pattern is proposed to analyze the displacements and extended to measure micro-displacements in a 3D space. We divided the 3D space into multiple slices and synchronously captured each speckle pattern. The displacements in the entire 3D space were simultaneously recovered by optimizing the embedded vectors, which were consistent in a 3D lattice. The propagation of sound waves in the 3D space was visualized using the volume-rendering technique. The experiments confirmed that the proposed method correctly measured the displacements by comparing them with the ground truth captured by microphones. We also visualized the wavefront of the sound wave propagating through space.
• 3D endoscope system with AR display superimposing dense and wide-angle-of-view 3D points obtained by using micro pattern projector

  Michihiro Mikamo; Ryo Furukawa; Shiro Oka; Takahiro Kotachi; Yuki Okamoto; Shinji Tanaka; Ryusuke Sagawa; Hiroshi Kawasaki

  2022 44th Annual International Conference of the IEEE Engineering in Medicine & Biology Society (EMBC) 2022年07月 [査読有り]
  
• AutoEnhancer: Transformer on U-Net Architecture Search for Underwater Image Enhancement.

  Yi Tang; Takafumi Iwaguchi; Hiroshi Kawasaki; Ryusuke Sagawa; Ryo Furukawa 0001

  Computer Vision - ACCV 2022 - 16th Asian Conference on Computer Vision 120 - 137 2022年
• Single-shot dense active stereo with pixel-wise phase estimation based on grid-structure using CNN and correspondence estimation using GCN

  Ryo Furukawa; Michihiro Mikamo; Ryusuke Sagawa; Hiroshi Kawasaki

  2022 IEEE/CVF Winter Conference on Applications of Computer Vision (WACV) 2022年01月 [査読有り]
  
• Simultaneous estimation of projector and camera poses for multiple oneshot scan using pixel-wise correspondences estimated by U-Nets and GCN

  Ryo Furukawa; Michihiro Mikamo; Hiroshi Kawasaki; Ryusuke Sagawa; Shiro Oka; Takahiro Kotachi; Yuki Okamoto; Shinji Tanaka

  Computer Methods in Biomechanics and Biomedical Engineering: Imaging & Visualization 1 - 9 2021年12月 [査読有り]
  
• Active Stereo Method for 3D Endoscopes using Deep-layer GCN and Graph Representation with Proximity Information

  Michihiro Mikamo; Ryo Furukawa; Shiro Oka; Takahiro Kotachi; Yuki Okamoto; Shinji Tanaka; Ryusuke Sagawa; Hiroshi Kawasaki

  2021 43rd Annual International Conference of the IEEE Engineering in Medicine & Biology Society (EMBC) 2021年11月 [査読有り]
  
• A Method for Adding Motion-Blur on Arbitrary Objects by Using Auto-Segmentation and Color Compensation Techniques

  Michihiro Mikamo; Ryo Furukawa; Hiroshi Kawasaki

  2021 IEEE International Conference on Image Processing (ICIP) 2021年09月 [査読有り]
  
• GCN-Calculated Graph-Feature Embedding for 3D Endoscopic System Based on Active Stereo

  Michihiro Mikamo; Hiroshi Kawasaki; Ryusuke Sagawa; Ryo Furukawa

  IW-FCV 2021: Frontiers of Computer Vision 253 - 266 2021年 [査読有り]
  
• Dense Pixel-wise Micro-motion Estimation of Object Surface by using Low Dimensional Embedding of Laser Speckle Pattern

  Ryusuke Sagawa; Yusuke Higuchi; Hiroshi Kawasaki; Ryo Furukawa; Takahiro Ito

  Asian Conference on Computer Vision 2020年10月 [査読有り]
  
• Fully Auto-calibrated Active-stereo-based 3D Endoscopic System using Correspondence Estimation with Graph Convolutional Network

  Ryo Furukawa; Shiro Oka; Takahiro Kotachi; Yuki Okamoto; Shinji Tanaka; Ryusuke Sagawa; Hiroshi Kawasaki

  2020 42nd Annual International Conference of the IEEE Engineering in Medicine & Biology Society (EMBC) 2020年07月 [査読有り]
  
• Simultaneous shape and camera‐projector parameter estimation for 3D endoscopic system using CNN‐based grid‐oneshot scan

  Ryo Furukawa; Genki Nagamatsu; Shiro Oka; Takahiro Kotachi; Yuki Okamoto; Shinji Tanaka; Hiroshi Kawasaki

  Healthcare Technology Letters 6 6 249 - 254 2019年12月 [査読有り]
  
• Simultaneous Shape Registration and Active Stereo Shape Reconstruction using Modified Bundle Adjustment

  Ryo Furukawa; Genki Nagamatsu; Hiroshi Kawasaki

  2019 International Conference on 3D Vision (3DV) 2019年09月 [査読有り]
  
• Learning-based active 3D measurement technique using light field created by video projectors

  Yuki Shiba; Satoshi Ono; Ryo Furukawa; Shinsaku Hiura; Hiroshi Kawasaki

  IPSJ Transactions on Computer Vision and Applications 11 6 2019年07月 [査読有り]
  
• CNN based dense underwater 3D scene reconstruction by transfer learning using bubble database

  Kazuto Ichimaru; Ryo Furukawa; Hiroshi Kawasaki

  1543 - 1552 2019年01月 [査読有り]
  
• Single-wavelength and multi-parallel dotted- and solid-lines for dense and robust active 3D reconstruction.

  Genki Nagamatsu; Ryo Furukawa; Ryusuke Sagawa; Hiroshi Kawasaki

  16th International Conference on Machine Vision Applications, MVA 2019, Tokyo, Japan, May 27-31, 2019 1 - 6 IEEE 2019年 [査読有り]
  
• Robust Structured Light System Against Subsurface Scattering Effects Achieved by CNN-Based Pattern Detection and Decoding Algorithm

  Ryo Furukawa; Daisuke Miyazaki; Masashi Baba; Shinsaku Hiura; Hiroshi Kawasaki

  ECCV 2018: Computer Vision – ECCV 2018 Workshops:LNCS 372 - 386 2019年 [査読有り]
  
• Wide-Area Shape Reconstruction by 3D Endoscopic System Based on CNN Decoding, Shape Registration and Fusion

  Ryo Furukawa; Masaki Mizomori; Shinsaku Hiura; Shiro Oka; Shinji Tanaka; Hiroshi Kawasaki

  Computer Assisted Robotic Endoscopy: MICCAI 2018 workshop 139 - 150 2018年09月 [査読有り]
  
• Multi-scale cnn stereo and pattern removal technique for underwater active stereo system

  Kazuto Ichimaru; Ryo Furukawa; Hiroshi Kawasaki

  International Conference on 3D Vision (3DV) 2018年09月 [査読有り]
  
• A structured light laser probe for gastrointestinal polyp size measurement: a preliminary comparative study

  Marco Visentini-Scarzanella; Hiroshi Kawasaki; Ryo Furukawa; Marco Bonino; Simone Arolfo; Giacomo Lo Secco; Alberto Arezzo; Arianna Menciassi; Paolo Dario; Gastone Ciuti

  Endoscopy International Open 06 05 E602 - E609 2018年05月 

  Abstract Background and study aims Polyp size measurement is an important diagnostic step during gastrointestinal endoscopy, and is mainly performed by visual inspection. However, lack of depth perception and objective reference points are acknowledged factors contributing to measurement errors in polyp size. In this paper, we describe the proof-of-concept of a polyp measurement device based on structured light technology for future endoscopes. Patients and methods Measurement accuracy, time, user confidence, and satisfaction were evaluated for polyp size assessment by (a) visual inspection, (b) open biopsy forceps of known size, (c) ruled snare, and (d) structured light probe, for a total of 392 independent polyp measurements in ex vivo porcine stomachs. Results Visual assessment resulted in a median estimation error of 2.2 mm, IQR = 2.6 mm. The proposed probe can reduce the error to 1.5 mm, IQR = 1.67 mm (P = 0.002, 95 %CI) and its performance was found to be statistically similar to using forceps for reference (P = 0.81, 95 %CI) or ruled snare (P = 0.99, 95 %CI), while not occluding the tool channel. Timing performance with the probe was measured to be on average 54.75 seconds per polyp. This was significantly slower than visual assessment (20.7 seconds per polyp, P = 0.005, 95 %CI) but not significantly different from using a snare (68.5 seconds per polyp, P = 0.73, 95 %CI). However, the probe’s timing performance was partly due to lens cleaning problems in our preliminary design. Reported average satisfaction on a 0 – 10 range was highest for the proposed probe (7.92), visual assessment (7.01), and reference forceps (7.82), while significantly lower for snare users with a score of 4.42 (P = 0.035, 95 %CI). Conclusions The common practice of visual assessment of polyp size was found to be significantly less accurate than tool-based assessment, but easy to carry out. The proposed technology offers an accuracy on par with using a reference tool or ruled snare with the same satisfaction levels of visual assessment and without occluding the tool channel. Further study will improve the design to reduce the operating time by integrating the probe within the scope tip.
• アクティブステレオ法による3次元内視鏡のためのHDR画像生成と投光器位置の自己校正

  古川 亮; 内藤 雅仁; 溝森 将輝; 宮崎 大輔; 馬場 雅志; 日浦 慎作; 佐野村 洋次; 田中 信治; 川崎 洋

  電子情報通信学会誌 和文D J101-D 8 1150 - 1164 2018年04月 [査読有り]
  
• Auto-calibration Method for Active 3D Endoscope System Using Silhouette of Pattern Projector

  Ryo Furukawa; Masahito Naito; Daisuke Miyazaki; Masahi Baba; Shinsaku Hiura; Yoji Sanomura; Shinji Tanaka; Hiroshi Kawasaki

  Image and Video Technology 222 - 236 2018年 [査読有り]
  
• Depth Estimation Using Structured Light Flow — Analysis of Projected Pattern Flow on an Object’s Surface

  Ryo Furukawa; Ryusuke Sagawa; Hiroshi Kawasaki

  2017 IEEE International Conference on Computer Vision (ICCV) 2017年10月 [査読有り]
  
• Temporal Shape Super-Resolution by Intra-frame Motion Encoding Using High-fps Structured Light

  Yuki Shiba; Satoshi Ono; Ryo Furukawa; Shinsaku Hiura; Hiroshi Kawasaki

  2017 IEEE International Conference on Computer Vision (ICCV) 2017年10月 [査読有り]
  
• Reproducibility Analysis of Case-Based Reasoning and Evolutionary Computation Method for Surface Reflectance Parameters Estimation

  Albane Robert; Yuki Matsugano; Michihiro Mikamo; Satoshi Ono; Hiroshi Kawasaki; Hisato Fukuda; Ryo Furukawa

  The 20th Meeting on Image Recognition and Understanding 1 - 4 2017年08月 [査読有り]
  
• Learning-based feature extraction for active 3D scan with reducing color crosstalk of multiple pattern projections

  Ryusuke Sagawa; Ryo Furukawa; Akiko Matsumoto; Hiroshi Kawasaki

  2017 IEEE International Conference on Robotics and Automation (ICRA) 2017年05月 [査読有り]
  
• Surface normal estimation of black specular objects from multiview polarization images

  Daisuke Miyazaki; Takuya Shigetomi; Masashi Baba; Ryo Furukawa; Shinsaku Hiura; Naoki Asada

  OPTICAL ENGINEERING 56 4 041303 - 041303 2017年04月 [査読有り]
   

  Polarization is a phenomenon that cannot be observed by the human eye, but it provides rich information regarding scenes. The proposed method estimates the surface normal of black specular objects through polarization analysis of reflected light. A unique surface normal cannot be determined from a polarization image observed from a single viewpoint; thus, we observe the object from multiple viewpoints. To analyze the polarization state of the reflected light at the corresponding points when observed from multiple viewpoints, the abstract shape is predetermined using a space carving technique. Unlike a conventional photometric stereo or multiview stereo, which cannot estimate the shape of a black specular object, the proposed method estimates the surface normal and three-dimensional coordinates of black specular objects via polarization analysis and space carving. (C) The Authors. Published by SPIE under a Creative Commons Attribution 3.0 Unported License. Distribution or reproduction of this work in whole or in part requires full attribution of the original publication, including its DOI.
• HDR Image Synthesis Technique for Active Stereo 3D Endoscope System

  Ryo Furukawa; Masahito Naito; Daisuke Miyazaki; Masashi Baba; Shinsaku Hiura; Hiroshi Kawasaki

  Engineering in Medicine and Biology Society (EMBC) 2017年 [査読有り]
  
• Calibration technique for underwater active oneshot scanning system with static pattern projector and multiple cameras

  Hiroshi Kawasaki; Hideaki Nakai; Hirohisa Baba; Ryusuke Sagawa; Ryo Furukawa

  2017 IEEE WINTER CONFERENCE ON APPLICATIONS OF COMPUTER VISION (WACV 2017) 302 - 310 2017年 [査読有り]
   

  Underwater 3D shape scanning technique becomes popular because of several rising research topics, such as map making of submarine topography for autonomous underwater vehicle (UAV), shape measurement of live fish, motion capture of swimming human, etc. Structured light systems (SLS) based active 3D scanning systems are widely used in the air and also promising to apply underwater environment. When SLS is used in the air, the stereo correspondences can be efficiently retrieved by epipolar constraint. However, in the underwater environment, the camera and projector are usually set in special housings and refraction occurs at the interfaces between water/glass and glass/air, resulting in invalid conditions for epipolar constraint which severely deteriorates the correspondence search process. In this paper, we propose an efficient technique to calibrate the underwater SLS systems as well as robust 3D shape acquisition technique. In order to avoid the calculation complexity, we approximate the system with central projection model. Although such an approximation produces an inevitable errors in the system, such errors are diminished by a combination of grid based SLS technique and a bundle adjustment algorithm. We tested our method with a real underwater SLS, consisting of custom-made laser pattern projector and underwater housings, showing the validity of our method.
• 3D Endoscope System Using Asynchronously Blinking Grid Pattern Projection for HDR Image Synthesis

  Ryo Furukawa; Masahito Naito; Daisuke Miyazaki; Masahi Baba; Shinsaku Hiura; Yoji Sanomura; Shinji Tanaka; Hiroshi Kawasaki

  CARE 2017, CLIP 2017: Computer Assisted and Robotic Endoscopy and Clinical Image-Based Procedures:LNCS 16 - 28 2017年 [査読有り]
  
• Simultaneous Independent Image Display Technique on Multiple 3D Objects

  Takuto Hirukawa; Marco Visentini-Scarzanella; Hiroshi Kawasaki; Ryo Furukawa; Shinsaku Hiura

  Computer Vision – ACCV 2016 10114 440 - 455 2016年11月 [査読有り]
   

  We propose a new system to visualize depth-dependent patterns and images on solid objects with complex geometry using multiple projectors. The system, despite consisting of conventional passive LCD projectors, is able to project different images and patterns depending on the spatial location of the object. The technique is based on the simple principle that multiple patterns projected from multiple projectors interfere constructively with each other when their patterns are projected on the same object. Previous techniques based on the same principle can only achieve (1) low resolution volume colorization or (2) high resolution images but only on a limited number of flat planes. In this paper, we discretize a 3D object into a number of 3D points so that high resolution images can be projected onto the complex shapes. We also propose a dynamic ranges expansion technique as well as an efficient optimization procedure based on epipolar constraints. Such technique can be used to the extend projection mapping to have spatial dependency, which is desirable for practical applications. We also demonstrate the system potential as a visual instructor for object placement and assembling. Experiments prove the effectiveness of our method.
• Optimization of LED Illumination for Generating Metamerism

  Daisuke Miyazaki; Mia Nakamura; Masashi Baba; Ryo Furukawa; Shinsaku Hiura

  Journal of Imaging Science and Technology 60 6 60502 - 1 2016年11月 [査読有り]
  
• 3D endoscope system using DOE projector

  Ryo Furukawa; Yoji Sanomura; Shinji Tanaka; Shigeto Yoshida; Ryusuke Sagawa; Marco Visentini-Scarzanella; Hiroshi Kawasaki

  2016 38th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC) 2016年08月 [査読有り]
  
• プロジェクタ用符号化開口と階層的復元を用いたDepth from Defocus

  堀田 祐樹; 芝 優希; 小野 智司; 古川 亮; 日浦 慎作; 川崎洋

  電子情報通信学会論文誌D J99-D 5 559 - 570 2016年05月 [査読有り]
  
• 認識対象に適した符号化開口形状の設計と評価

  河本悠; 日浦慎作; 宮崎大輔; 古川亮; 馬場 雅志

  情報処理学会論文誌 57 2 783 - 793 情報処理学会 2016年02月 [査読有り]
   

  非合焦画像からぼけを取り除くために符号化開口が有効であることが知られている．しかし，その開口形状の設計に関する研究は十分に行われていない．そこで本論文では実用的な設計法とその詳細な実装を示すことを目的とし，特に最適化に用いる遺伝的アルゴリズムの性能を大きく左右する交叉法の比較と評価を行う．また，ぼけ除去画像を認識に用いる場合，その画像の良し悪しは画質（視覚的品質）ではなくその後の認識率により評価されるべきである．そこで本論文では，PSNRを基準とした画質評価と，その画像を認識した際の認識率との関係を示す．Although coded aperture is known as an efficient technique to remove the optical blur from the defocused image, studies on designing the shape of the aperture have not been well explored yet. Therefore in this paper, we will show a practical method with detailed implementation of the optimization of the coded apertures. Especially, crossover process which strongly affects to the performance of genetic algorithm is intensively evaluated and compared with the other methods. In the context of object recognition, the performance of the deblurring should be evaluated by not the visual quality but the resultant recognition rates. Therefore we will show the relationships between PSNR-based image quality criterion and actual recognition rates through experiment.
• Registration and entire shape acquisition for grid based active one-shot scanning techniques

  Hiroshi Kawasaki; Takuto Hirukawa; Ryo Furukawa

  2016 23RD INTERNATIONAL CONFERENCE ON PATTERN RECOGNITION (ICPR) 1743 - 1749 2016年 [査読有り]
   

  One-shot active stereo using structured light is a practical solution for dynamic scene acquisition. Basically, those methods are based on encoding positional information of the pixel into the single projected pattern. A disadvantage of such methods is decreases of the spatial resolution caused by requiring a certain area of the pattern to encode the positional information. Among those methods, grid-based patterns are promising at the point of accuracy and robustness, since triangulation for 3D reconstruction is conducted with light-sectioning method and a line detection is usually a stable image processing. However, no shapes are recovered between the grid lines, and thus, the whole reconstructed shape tends to be sparse. To deal with the problem, integrating multiple shapes that are sequentially captured using registration algorithm such as ICP is one solution. In previous work, we show that naive ICP works poorly for grid-like structured point clouds, and proposed a specialized ICP algorithm for aligning a set of grid-like structured 3D shapes. In this paper, we extend this approach and propose a process for entire shape modeling by capturing objects from all the directions using turn table, and integrating into a single shape using our improved ICP. To achieve this, setting good initial 3D shapes is important. For solution, we interpolation grid shapes to create smooth surface so that common ICP works. Comprehensive experiments are conducted to show the strength of our method compared to common ICP.
• Automatic Feature Extraction using CNN for Robust Active One-shot Scanning

  Ryusuke Sagawa; Yuki Shiba; Takuto Hirukawa; Satoshi Ono; Hiroshi Kawasaki; Ryo Furukawa

  2016 23RD INTERNATIONAL CONFERENCE ON PATTERN RECOGNITION (ICPR) 234 - 239 2016年 [査読有り]
   

  Active one-shot scanning techniques have been widely used for various applications. Stereo-based active oneshot scanning embeds a positional information regarding the image plane of a projector onto a projected pattern to retrieve correspondences entirely from a captured image. Many combinations of patterns and decoding algorithms for active one-shot scanning have been proposed. If the capturing environment lacks the assumed conditions, such as the absence of strong external lights, then reconstruction using those methods is degraded, because the pattern decoding fails. In this paper, we propose a general reconstruction algorithm that can be used for any kind of patterns without strict assumptions. The technique is based on an efficient feature extraction function that can drastically reduce redundant information from the raw pixel values of patches of captured images. Shapes are reconstructed by efficiently finding correspondences between a captured image and the pattern using low-dimensional feature vectors. Such a function is created automatically by a convolutional neural network using a large database of pattern images that are efficiently synthesized by using GPU with wide variation of depth and surface orientation. Experimental results show that our technique can be used for several existing patterns without any ad hoc algorithm or information regarding the scene or the sensor.
• Two Plane Volumetric Display for Simultaneous Independent Images at Multiple Depths

  Marco Visentini-Scarzanella; Takuto Hirukawa; Hiroshi Kawasaki; Ryo Furukawa; Shinsaku Hiura

  IMAGE AND VIDEO TECHNOLOGY - PSIVT 2015 WORKSHOPS 9555 113 - 126 2016年 [査読有り]
   

  We propose a new projection system to visualise different independent images simultaneously on planes placed at different depths within a volume using multiple projectors. This is currently not possible with traditional systems, and we achieve it by projecting interference patterns rather than simple images. The main research issue is therefore to determine how to compute a distributed interference pattern that would recombine into multiple target images when projected by the different projectors. In this paper, we show that while the problem is not solvable exactly, good approximations can be obtained through optimization techniques. We also propose a practical calibration framework and validate our method by showing the technique in action with a prototype system. The system opens up significant new possibilities to extend projection mapping techniques to dynamic environments for artistic purposes, as well as visual assessment of distances.
• A Triangle Mesh Reconstruction Method Taking into Account Silhouette Images

  Michihiro Mikamo; Yoshinori Oki; Marco Visentini-Scarzanella; Hiroshi Kawasaki; Ryo Furukawa; Ryusuke Sagawa

  IMAGE AND VIDEO TECHNOLOGY, PSIVT 2015 9431 582 - 593 2016年 [査読有り]
   

  In this paper, we propose a novel approach to reconstruct triangle meshes from point sets by taking the silhouette of the target object into consideration. Recently, many approaches have been proposed for complete 3D reconstruction of moving objects. For example, motion capture techniques are used to acquire 3D data of human motion. However, it needs to attach markers onto the joints, which results in limiting the capturing environments and the number of data that can be acquired. In contrast, to obtain dense data of 3D object, multi-view stereo scanning system is one of the powerful methods. It utilize images taken by several directions and enables to reconstruct 3D dense point sets by using Epipolar geometry. However, it is still challenging problem to reconstruct 3D triangle mesh from the 3D point sets due to the abundant points originated by mismatched points between images. We propose a novel approach to obtain more accurate triangle mesh reconstruction method than the previous one. We take advantage of silhouette images acquired in the process of reconstructing 3D point sets that result in removing noises and compensating holes. Finally, we demonstrate that the proposed method can generate the details of the surface, where the previous method loses from a small number of points.
• Underwater Active Oneshot Scan with Static Wave Pattern and Bundle Adjustment

  Hiroki Morinaga; Hirohisa Baba; Marco Visentini-Scarzanella; Hiroshi Kawasaki; Ryo Furukawa; Ryusuke Sagawa

  Image and Video Technology 9431 404 - 418 2016年 [査読有り]
   

  Structured Light Systems (SLS) are widely used for various purposes. Recently, a strong demand to apply SLS to underwater applications has emerged. When SLS is used in an air medium, the stereo correspondence problem can be solved efficiently by epipolar geometry due to the co-planarity of the 3D point and its corresponding 2D points on camera/projector planes. However, in underwater environments, the camera and projector are usually set in special housings and refraction occurs at the interfaces between water/glass and glass/air, resulting in invalid conditions for epipolar geometry which strongly affect the correspondence search process. In this paper, we tackle the problem of underwater 3D shape acquisition with SLS. In this paper, we propose a method to perform 3D reconstruction by calibrating the system as if they are in the air at multiple depth. Since refraction cannot be completely described by a polynomial approximation of distortion model, grid based SLS method solve the problem. Finally, we propose a bundle adjustment method to refine the final result. We tested our method with an underwater SLS prototype, consisting of custom-made diffractive optical element (DOE) laser and underwater housings, showing the validity of the proposed approach.
• Tissue Shape Acquisition with a Hybrid Structured Light and Photometric Stereo Endoscopic System

  Marco Visentini-Scarzanella; Tatsuya Hanayama; Ryunosuke Masutani; Shigeto Yoshida; Yoko Kominami; Yoji Sanomura; Shinji Tanaka; Ryo Furukawa; Hiroshi Kawasaki

  Computer-Assisted and Robotic Endoscopy 9515 46 - 58 2016年 [査読有り]
   

  In situ 3D reconstruction from endoscopic images is important to determine the correct course of action for, e.g., treatment of abnormal growths. Currently, the endoscopist has to rely solely on visual cues in order to infer the growth’s shape and size and determine an appropriate treatment. However, tissue uniformity and scale ambiguity from traditional monocular endoscopes make this visual assessment prone to errors and time consuming. We propose a practical system to densely reconstruct both shape and size of tissues with minimal modifications to a standard endoscope. We present a custom single-fiber structured light probe projecting a wave pattern on the tissue surface that allows semidense reconstruction with few ambiguities. Based on the coarse reconstruction, we retrieve the surface reflectance parameters according to a hybrid diffuse/specular model which are used to initialise a close-range Photometric Stereo reconstruction. By taking into account the tissue characteristics and the light fall-off, our Photometric Stereo formulation provides dense metric 3D shape information without the need for surface normal integration. A preliminary study was carried out both on phantoms and ex vivo samples of human tissue.
• Shape Acquisition and Registration for 3D Endoscope Based on Grid Pattern Projection

  Ryo Furukawa; Hiroki Morinaga; Yoji Sanomura; Shinji Tanaka; Shigeto Yoshida; Hiroshi Kawasaki

  Computer Vision – ECCV 2016 399 - 415 2016年 [査読有り]
  
• Simulation of Real Tilted Lenses Using Distributed Ray Tracing

  Masashi Baba; Tomoe Nakane; Shinsaku Hiura; Ryo Furukawa; Daisuke Miyazaki; Masahito Aoyama

  IIEEJ Transactions on Image Electronics and Visual Computing 3 2 143 - 148 The Institute of Image Electronics Engineers of Japan 2015年12月 [査読有り]
  
• Projector and Camera Calibration Method for Oneshot Scan System with Static Pattern Projector and Monochrome Camera

  Hiroshi Kawasaki; Shota Kiyota; Tatsuya Hanayama; Michihiro Mikamo; Ryo Furukawa

  画像電子学会英文誌 3 2 92 - 100 The Institute of Image Electronics Engineers of Japan 2015年12月 [査読有り]
  
• 擬似的な陰影を知覚させる油絵の具の混合

  宮崎大輔; 實重貴文; 馬場雅志; 古川亮; 青山正人; 日浦慎作

  画像電子学会論文誌 44 4 649 - 654 画像電子学会 2015年09月 [査読有り]
   

  メタメリズムとはある光源下では2つの物体が異なる色として知覚されるが別の光源下では同じ色として知覚される現象である．本研究では，メタメリズムを利用したトリックアートの作成手法を提案する．与えられた光源下でメタメリズムが生起する条件を満たす油絵の具を提案手法によって計算する．本研究では，トリックアート作成のために与えられた光源下でメタリズムが生起する条件を満たす油絵の具の混合比率の計算法を提案する．実験では，2光源・4物体色の間で生起されるメタメリズムについて計算を行った．これにより擬似的な陰影を表現することができ，二次元の絵画が三次元の物体として知覚されるトリックアートを実現することができた．
• 2-DOF auto-calibration for a 3D endoscope system based on active stereo

  Ryo Furukawa; Ryunosuke Masutani; Daisuke Miyazaki; Masashi Baba; Shinsaku Hiura; Marco Visentini-Scarzanella; Hiroki Morinaga; Hiroshi Kawasaki; Ryusuke Sagawa

  2015 37th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC) 2015年08月 [査読有り]
  
• Metamerism-based shading illusion

  Daisuke Miyazaki; Takafumi Saneshige; Masashi Baba; Ryo Furukawa; Masahito Aoyama; Shinsaku Hiura

  2015 14th IAPR International Conference on Machine Vision Applications (MVA) 2015年05月 [査読有り]
  
• Entire shape scan system with multiple pro-cams using texture information and accurate silhouette creating technique

  Yoshinori Oki; Marco Visentini-Scarzanella; Tomohito Wada; Ryo Furukawa; Ryusuke Sagawa; Hiroshi Kawasaki

  2015 14th IAPR International Conference on Machine Vision Applications (MVA) 2015年05月 [査読有り]
  
• A Comparative Study on Self-Adaptive Differential Evolution Algorithms for Test Functions and a Real-World Problem

  Shota Eguchi; Yuki Matsugano; Hirokazu Sakaguchi; Satoshi Ono; Hisato Fukuda; Ryo Furukawa; Hiroshi Kawasaki

  International Conference on Learning and Intelligent Optimization; Lecture Notes in Computer Science 131 - 136 2015年 [査読有り]
  
• Active one-shot scan for wide depth range using a light field projector based on coded aperture

  Hiroshi Kawasaki; Satoshi Ono; Yuki Horita; Yuki Shiba; Ryo Furukawa; Shinsaku Hiura

  2015 IEEE INTERNATIONAL CONFERENCE ON COMPUTER VISION (ICCV) 3568 - 3576 2015年 [査読有り]
   

  The central projection model commonly used to model cameras as well as projectors, results in similar advantages and disadvantages in both types of system. Considering the case of active stereo systems using a projector and camera setup, a central projection model creates several problems; among them, narrow depth range and necessity of wide baseline are crucial. In the paper, we solve the problems by introducing a light field projector, which can project a depth-dependent pattern. The light field projector is realized by attaching a coded aperture with a high frequency mask in front of the lens of the video projector, which also projects a high frequency pattern. Because the light field projector cannot be approximated by a thin lens model and a precise calibration method is not established yet, an image-based approach is proposed to apply a stereo technique to the system. Although image-based techniques usually require a large database and often imply heavy computational costs, we propose a hierarchical approach and a feature-based search for solution. In the experiments, it is confirmed that our method can accurately recover the dense shape of curved and textured objects for a wide range of depths from a single captured image.
• Dense 3D Reconstruction from High Frame-Rate Video Using a Static Grid Pattern

  Ryusuke Sagawa; Ryo Furukawa; Hiroshi Kawasaki

  IEEE TRANSACTIONS ON PATTERN ANALYSIS AND MACHINE INTELLIGENCE 36 9 1733 - 1747 2014年09月 [査読有り]
   

  Dense 3D reconstruction of fast moving objects could contribute to various applications such as body structure analysis, accident avoidance, and so on. In this paper, we propose a technique based on a one-shot scanning method, which reconstructs 3D shapes for each frame of a high frame-rate video capturing the scenes projected by a static pattern. To avoid instability of image processing, we restrict the number of colors used in the pattern to less than two. The proposed technique comprises (1) an efficient algorithm to eliminate ambiguity of projected parallel-line patterns by using intersection points, (2) a batch reconstruction algorithm of multiple frames by using spatio-temporal constraints, and (3) an efficient detection method of color-encoded grid pattern based on de Bruijn sequence. In the experiments, the line detection algorithm worked effectively and the dense reconstruction algorithm produces accurate and robust results. We also show the improved results by using temporal constraints. Finally, the dense reconstructions of fast moving objects in a high frame-rate video are presented.
• Calibration of a 3D endoscopic system based on active stereo method for shape measurement of biological tissues and specimen

  Ryo Furukawa; Masahito Aoyama; Shinsaku Hiura; Hirooki Aoki; Yoko Kominami; Yoji Sanomura; Shigeto Yoshida; Shinji Tanaka; Ryusuke Sagawa; Hiroshi Kawasaki

  2014 36th Annual International Conference of the IEEE Engineering in Medicine and Biology Society 2014年08月 [査読有り]
  
• グリッドアクティブステレオを用いた三次元消化器内視鏡におけるキャリブレーション手法

  青木広宙; 古川亮; 西谷維心; 青山正人; 日浦慎作; 小南陽子; 松尾泰治; 吉田成人; 田中信治; 佐川立昌; 川崎洋

  生体医工学 52 2 97 - 107 2014年04月 [査読有り]
  
• グリッド能動ステレオによる三次元形状復元を用いた心拍と呼吸の分離抽出と心拍の可視化に関する検討

  青木 広宙; 古川 亮; 佐川 立昌; 川崎 洋; 鈴木 敦; 志賀 剛

  精密工学会誌 80 12 1109 - 1114 公益社団法人 精密工学会 2014年 [査読有り]
   

  We propose a method to observe cardiac beat from 3-D shape reconstruction by using the grid-based active stereo. In this study, we report preliminary experiments to evaluate validities of the proposed method. As the result of comparing experiments by our method and electrocardiogram (ECG), we confirm sufficient correspondences between the two peak intervals. Our method realizes the separate extraction of cardiac beat and respiratory movement. We try the visualization of cardiac beat by using the color mapping of the depth displacement plotted on the 3-D surface rendering of chest. And, the depth change and the spatial phase difference caused by cardiac pulsation is found on the chest region.
• Parallel Processing of Grid-based One-shot Structured-light System for Online 3D Reconstruction of Moving Objects

  Ryusuke Sagawa; Yoshio Matsumoto; Hiroshi Kawasaki; Ryo Furukawa

  2014 IEEE INTERNATIONAL CONFERENCE ON ROBOTICS AND BIOMIMETICS IEEE-ROBIO 2014 1976 - 1982 2014年 [査読有り]
   

  In this paper, we propose a method of parallel processing of one-shot structured-light system to realize online 3D reconstruction of moving objects. The proposed method is based on a projector-camera system that reconstructs a shape from a single image where a static pattern is cast by a projector; such a method is ideal for acquisition of moving objects at a high frame rate. The structured-light pattern is a grid pattern that consists of sinusoidal wave lines of vertical and horizontal directions. Since the intersection points of wave lines are used as feature points and the lines give the connectivity of the intersections, the correspondence between camera image and projected pattern can be found by the energy minimization of the graph. The energy minimization is accomplished by belief propagation. We propose a method to improve the computational time for online 3D reconstruction by GPU-based parallel processing for the steps of the structured-light system. In the experiment, we show the proposed method realizes online 3D reconstruction.
• Temporal Octrees for Compressing Dynamic Point Cloud Streams

  Marcos Slomp; Hiroshi Kawasaki; Ryo Furukawa; Ryusuke Sagawa

  2014 2ND INTERNATIONAL CONFERENCE ON 3D VISION, VOL. 2 49 - 56 2014年 [査読有り]
   

  Range-based scanners built upon multiple cameras and projectors offer affordable, entire-shape and high-speed setups for 3D scanning. The point cloud streams produced by these devices require large amounts of storage space. Compressing these datasets is challenging since the capturing process may result in noise and surface irregularities, and consecutive frames can differ substantially in the overall point distribution. Exploiting spatial and temporal coherency is difficult on such conditions, but nonetheless crucial for achieving decent compression rates. This paper introduces a novel data structure, the temporal sparse voxel octree, capable of grouping spatio-temporal coherency of multiple point cloud streams into a single voxel hierarchy. In the data structure, a bitmask is attached to each node; existing nodes can then be reused at different frames by manipulating their bitmasks, providing substantial memory savings. Although the technique yields some losses, the amount of loss can be controlled.
• 4D Capture using Visibility Information of Multiple Projector Camera System

  Ryusuke Sagawa; Nozomu Kasuya; Yoshio Matsumoto; Yoshinori Oki; Hiroshi Kawasaki; Ryo Furukawa

  2014 2ND INTERNATIONAL CONFERENCE ON 3D VISION, VOL. 2 14 - 21 2014年 [査読有り]
   

  In this paper, we propose a method with multiple cameras and projectors for 4D capture of moving objects. The issues of previous 4D capture systems are that the number of cameras are limited, and the number of images is very large to capture the sequence at high frame rate. We propose a multiple projector-camera system to tackle this problem. One of the issues of multi-view stereo is to determine visibility of cameras for each point of the surface. While estimating the scene geometry and its visibility is a chicken-and-egg problem for passive multi-view stereo, it was solved by, for example, iterative approach conducting the estimation of visibility and the reconstruction of the scene geometry repeatedly. With our method, since visibility problem is independently solved by using the projected pattern, shapes are recovered efficiently without considering visibility problem. Further, the visibility information is not only used for multi-view stereo reconstruction, but also for merging 3D shapes to eliminate inconsistency between devices. The efficiency of the proposed method is tested in the experiments, proving the merged mesh is suitable for 4D reconstruction.
• メタメリズムアート制作のための油絵の具の混合比率推定

  宮崎大輔; 高橋可菜実; 馬場雅志; 青木広宙; 古川亮; 青山正人; 日浦慎作

  電子情報通信学会論文誌D J97-D 8 1250 - 1262 電子情報通信学会 2014年 [査読有り]
  
• Exemplar-Based Hole-Filling Technique for Multiple Dynamic Objects

  Matteo Pagliardini; Yasuhiro Akagi; Marcos Slomp; Ryo Furukawa; Ryusuke Sagawa; Hiroshi Kawasaki

  PSIVT 2013: Image and Video Technology 242 - 253 2014年 [査読有り]
  
• Depth from Projector^|^apos;s Defocus Based on Multiple Focus Pattern Projection

  Hitoshi Masuyama; Hiroshi Kawasaki; Ryo Furukawa

  IPSJ Transactions on Computer Vision and Applications 6 88 - 92 2014年 [査読有り]
  
• Single colour one-shot scan using modified Penrose tiling pattern

  Hiroshi Kawasaki; Hitoshi Masuyama; Ryusuke Sagawa; Ryo Furukawa

  IET COMPUTER VISION 7 5 293 - 301 2013年10月 [査読有り]
   

  In this study, the authors propose a new technique to achieve one-shot scan using single colour and static pattern projector; such a method is ideal for acquisition of moving objects. Since projector-camera systems generally have uncertainties on retrieving correspondences between the captured image and the projected pattern, many solutions have been proposed. Especially for one-shot scan, which means that only a single image is required for shape reconstruction, positional information of a pixel of the projected pattern should be encoded by spatial and/or colour information. Although colour information is frequently used for encoding, it is severely affected by texture and material of the object and leads unstable reconstruction. In this study, the authors propose a technique to solve the problem by using geometrically unique pattern only with black and white colour that further considers the shape distortion by surface orientation of the shape. The authors technique successfully acquires high-precision one-shot scan with an actual system.
• Proposal on 3-D endoscope by using grid-based active stereo

  Hirooki Aoki; Ryo Furukawa; Masahito Aoyama; Shinsaku Hiura; Naoki Asada; Ryusuke Sagawa; Hiroshi Kawasaki; Shinji Tanaka; Shigeto Yoshida; Yoji Sanomura

  2013 35th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC) 2013年07月 [査読有り]
  
• Optimization of 3D Shape Sharpening Filter Based onGeometric Statistical Values

  Masanari Yokomizo; Daisuke Miyazaki; Masashi Baba; Ryo Furukawa; Masahito Aoyama; Shinsaku Hiura; Naoki Asada

  International Conference on Machine Vision Applications 260 - 263 2013年05月 [査読有り]
  
• One-shot entire shape scanning by utilizing multiple projector-camera constraints of grid patterns

  Nozomu Kasuya; Ryusuke Sagawa; Ryo Furukawa; Hiroshi Kawasaki

  Proceedings of the IEEE International Conference on Computer Vision 299 - 306 2013年 [査読有り]
   

  This paper proposes a method to reconstruct the entire shape of moving objects by using multiple cameras and projectors. The projectors simultaneously cast static grid patterns of wave lines. Each of the projected patterns is a single-colored pattern of either red, green, or blue. Those patterns can be decomposed stably, compared to multi-colored patterns. For the 3D reconstruction algorithm, one shot reconstruction with wave grid pattern is extended for entire-shape acquisition, so that the correspondences between the adjacent devices can be used as additional constraints to reduce shape errors. Finally, multiple shapes obtained from the different views are merged into a single polygon mesh model using estimated normal information for each vertex. © 2013 IEEE.
• Polarization-based dehazing using two reference objects

  Daisuke Miyazaki; Daisuke Akiyama; Masashi Baba; Ryo Furukawa; Shinsaku Hiura; Naoki Asada

  Proceedings of the IEEE International Conference on Computer Vision 852 - 859 2013年 [査読有り]
   

  We propose a polarization-based method to enhance the visibility of an image by canceling the haze effect. Haze is a natural phenomenon that degrades the visibility of a scene. Aerosols in air reflect sunlight and cause polarization. Therefore, we analyze the polarization state of the observed light to remove the haze effect from a captured image. Our approach is to use two reference objects that are known a priori in estimating the parameters of the haze effect. Once the parameters are known, we can improve the image so that the scene is clearly visible. We also present an experimental result using a commercial polarization camera, which can obtain the polarization state of the scene. © 2013 IEEE.
• A facial tracking and transfer method with a key point refinement.

  Yasuhiro Akagi; Ryo Furukawa; Ryusuke Sagawa; Koichi Ogawara; Hiroshi Kawasaki

  Special Interest Group on Computer Graphics and Interactive Techniques Conference 79 - 79 2013年 [査読有り]
  
• Mixing paints for generating metamerism art under 2 lights and 3 object colors

  Daisuke Miyazaki; Kanami Takahashi; Masashi Baba; Hirooki Aoki; Ryo Furukawa; Masahito Aoyama; Shinsaku Hiura

  2013 IEEE INTERNATIONAL CONFERENCE ON COMPUTER VISION WORKSHOPS (ICCVW) 874 - 882 2013年 [査読有り]
   

  Metamerism is a phenomenon where two objects recognized as having different colors under one light are also recognized as having the same color under another light. This research proposes technology for actualizing artistic illusion that exploits metamerism. Specifically, the purpose of the research relates to automatic calculation of blending ratios of oil paints that cause metamerism to occur under specific light sources. We entails metamerism occurring between three types of object colors under two types of light sources. Also, we utilize plausible reflection model for the mixture of oil paints.
• A facial motion tracking and transfer method based on a key point detection

  Yasuhiro Akagi; Ryo Furukawa; Ryusuke Sagawa; Koichi Ogawara; Hiroshi Kawasaki

  WSCG 2013, COMMUNICATION PAPERS PROCEEDINGS 21 E73 137 - 144 2013年 [査読有り]
   

  Facial animation is one of the most important contents in 3D CG animations. By the development of scanning and tracking methods of a facial motion, a face model which consists of more than 100,000 points can be used for the animations. To edit the facial animations, key point based approaches such as "face rigging" are still useful ways. Even if a facial tracking method gives us all point-to-point correspondences, a detection method of a suitable set of key points is needed for content creators. Then, we propose a method to detect the key points which efficiently represent motions of a face. We optimize the key points for a Radial Basis Function (RBF) based 3D deformation technique. The RBF based deformation is a common technique to represent a movement of 3D objects in CG animations. Since the key point based approaches usually deform objects by interpolating movements of the key points, these approaches cause errors between the deformed shapes and the original ones. To minimize the errors, we propose a method which automatically inserts additional key points by detecting the area where the error is larger than the surrounding area. Finally, by utilizing the suitable set of key points, the proposed method creates a motion of a face which are transferred form another motion of a face.
• Robust and Accurate One-shot 3D Reconstruction by 2C1P System with Wave Grid Pattern

  Nozomu Kasuya; Ryusuke Sagawa; Ryo Furukawa; Hiroshi Kawasaki

  2013 INTERNATIONAL CONFERENCE ON 3D VISION (3DV 2013) 247 - 254 2013年 [査読有り]
   

  In this paper, we propose an active 3D reconstruction method with two cameras and one projector (2C1P) system for capturing moving objects. The system reconstructs the shapes from a single frame of each camera by finding the correspondence between the cameras and the projector based on projecting wave grid pattern. The projected pattern gives the constraint of correspondence between the two cameras in addition to between a projector and a camera. The proposed method finds correspondence by energy minimization on graphs constructed by detecting a grid pattern in camera images. Since the graphs of two cameras are connected as a single graph by using the constraint between cameras, the proposed method simultaneously finds the correspondences for two cameras, which contributes to the robustness of correspondence search. By merging range images created by the correspondence of each camera, we reduce the occluded area compared to the case of one camera. Finally, the proposed method optimizes the shape as three-view stereo to improve the accuracy of shape measurements. In the experiment, we show the effectiveness of using two cameras by making comparison with the case of one camera.
• Effects of Wavelet-Based Depth Video Compression

  Ismael Daribo; Hideo Saito; Ryo Furukawa; Shinsaku Hiura; Naoki Asada

  3D-TV System with Depth-Image-Based Rendering 277 - 298 2013年 [招待有り]
  
• Hole Filling for View Synthesis

  Ismael Daribo; Hideo Saito; Ismael Daribo; Ryo Furukawa; Shinsaku Hiura; Naoki Asada

  3D-TV System with Depth-Image-Based Rendering 169 - 189 2013年 [招待有り]
  
• Marker-less Facial Motion Capture based on the Parts Recognition.

  Yasuhiro Akagi; Ryo Furukawa; Ryusuke Sagawa; Koichi Ogawara; Hiroshi Kawasaki

  Journal of WSCG 21 2 137 - 144 2013年 [査読有り]
  
• Noncontact Measurement of Cardiac Beat by Using Active Stereo with Waved-grid Pattern Projection

  Hirooki Aoki; Ryo Furukawa; Masahito Aoyama; Shinsaku Hiura; Naoki Asada; Ryusuke Sagawa; Hiroshi Kawasaki; Tsuyoshi Shiga; Atsushi Suzuki

  2013 35TH ANNUAL INTERNATIONAL CONFERENCE OF THE IEEE ENGINEERING IN MEDICINE AND BIOLOGY SOCIETY (EMBC) 1756 - 1759 2013年 [査読有り]
   

  We propose a method to observe cardiac beat from 3D shape information of body surface by using the active stereo with waved-grid pattern projection, and report preliminary experiments to evaluate validities of the proposed method. By comparing results of our method with those of electrocardiogram (ECG), we confirmed sufficient correspondences between peak intervals of depth changes between contiguous frames measured by the active stereo and R-R intervals measured by ECG. We proposed the visualization of the spatial distribution of depth change plotted on the 3D shape of chest surface. We confirm that the spatial phase difference, which is caused by heart pump ability, appears in the 3-D shape change of chest surface.
• 顔の部位識別に基づくマーカレスモーションキャプチャに関する研究

  赤木 康宏; 古川 亮; 佐川 立昌; 小川 原光一; 川崎 洋

  精密工学会論文誌 79 11 1152 - 1158 2013年 [査読有り]
  
• Extraction and Visualization of Cardiac Beat by Grid-Based Active Stereo,

  Hirooki Aoki; Ryo Furukawa; Shinsaku Hiura; Ryusuke Sagawa; Hiroshi Kawasaki

  Lecture Notes in Computer Science 7854, Advances in Depth Image Analysis and Applications, International Workshop, WDIA 2012 146 - 157 2012年11月 [査読有り]
  
• Efficient rate-distortion compression of dynamic point cloud for grid-pattern-based 3D scanning systems

  Ismael Daribo; Ryo Furukawa; Ryusuke Sagawa; Hiroshi Kawasaki; Shinsaku Hiura; Naoki Asada

  3D Research 3 1 2012年03月 [査読有り]
  
• Adaptive arithmetic coding for point cloud compression

  Ismael Daribo; Ryo Furukawa; Ryusuke Sagawa; Hiroshi Kawasaki

  3DTV-Conference 2012年 [査読有り]
   

  Recently, structured-light-based scanning systems have gain in popularity and are capable of modeling entire dense shapes that evolve over time with a single scan (a.k.a. one-shot scan). By projecting a static grid pattern onto the object surface, one-shot shape reconstruction methods can scan moving objects while still maintaining dense reconstruction. However, the amount of 3D data produced by these systems grows rapidly with point cloud of millions of points. As a consequence, effective point cloud compression scheme is required to face the transmission need. In this paper we propose a new approach to compress point cloud by taking advantage of the fact that arithmetic coding can be split into two parts: an encoder that actually produces the compressed bitstream, and a modeler that feeds information into the encoder. In particular, for each position point and normal, we propose to calculate the distribution of probabilities based on their spatial prediction as modeler, while classical point cloud coder mainly focus on the reduction of the prediction residual. Experimental results demonstrate the effectiveness of the proposed method. © 2012 IEEE.
• A first introduction to metamerism art

  Daisuke Miyazaki; Kazuki Nakamura; Masashi Baba; Ryo Furukawa; Masahito Aoyama; Shinsaku Hiura; Naoki Asada

  SIGGRAPH Asia 2012 Posters, SA 2012 2012年 [査読有り]
   

  The human brain recognizes pictures that are first obtained by the photosensitive cells in the retina. Color is a visual perception composed by the stimulus of three kinds of photoreceptors called L, M, and S cones. The human eye often recognizes different spectral distribution as same color since each cone has wide spectral response. This phenomenon is known as metamerism. Our research project aims to innovate a novel form of artistic illusion by fully making use of metamerism. This paper proposes a method which estimates the mixture ratio of paints that can cause metamerism. Copyright is held by the author / owner(s).
• Polarization-based surface normal estimation of black specular objects from multiple viewpoints

  Daisuke Miyazaki; Takuya Shigetomi; Masashi Baba; Ryo Furukawa; Shinsaku Hiura; Naoki Asada

  SECOND JOINT 3DIM/3DPVT CONFERENCE: 3D IMAGING, MODELING, PROCESSING, VISUALIZATION & TRANSMISSION (3DIMPVT 2012) 104 - 111 2012年 [査読有り]
   

  Polarization is physical phenomena of the light which gives rich information of the scene even though it is undetectable by human eyes. In this paper, we analyze the polarization state of the light reflected on black specular objects in order to estimate the surface normal of the objects. Since polarization image of single view is not enough to uniquely determine the surface normal, we observe the object from multiple views. A rough estimate of the object geometry is obtained a priori by space carving so that the polarization state of the reflected light can be analyzed at the same surface point under multiple views. Unlike the photometric stereo or the multiview stereo which cannot estimate the surface normal and the geometry of black specular objects, the proposed method which is based on the polarization analysis and the space carving can estimate the surface normal and the geometry of black specular objects.
• Non-contact Respiration Measurement Using Structured Light 3-D Sensor

  Hirooki Aoki; Masaki Miyazaki; Hidetoshi Nakamura; Ryo Furukawa; Ryusuke Sagawa; Hiroshi Kawasaki

  2012 PROCEEDINGS OF SICE ANNUAL CONFERENCE (SICE) 614 - 618 2012年 [査読有り]
   

  We have examined a non-contact respiration measurement using Kinect, that is 3D sensor based on structured light, in order to decrease the burden of the pulmonary function test. In our proposed method, the respiratory waveform is produced from the volume change of thoracoabdominal part of examinee measured by the three-dimensional measurement function of Kinect. In this paper, we examine the validity of our proposed method by simultaneous measurement with the expiration gas analyzer and the flow meter. The experimental results implies that quantitative respiration measurement without contact-type sensor is realized by Kinect.
• Single Color One-Shot Scan Using Topology Information

  Hiroshi Kawasaki; Hitoshi Masuyama; Ryusuke Sagawa; Ryo Furukawa

  COMPUTER VISION - ECCV 2012, PT III 7585 486 - 495 2012年 [査読有り]
   

  In this paper, we propose a new technique to achieve one-shot scan using single color and static pattern projector; such a method is ideal for acquisition of a moving object. Since a projector-camera systems generally have uncertainties on retrieving correspondences between the captured image and the projected pattern, many solutions have been proposed. Especially for one-shot scan, which means that only a single image is used for reconstruction, positional information of a pixel on the projected pattern should be encoded by spatial and/ or color information. Although color information is frequently used for encoding, it is severely affected by texture and material of the object. In this paper, we propose a technique to solve the problem by using topological information instead of colors. Our technique successfully realizes one-shot scan with monochrome pattern.
• Basic Study on Non-contact Measurement of Cardiac Beat by Using Grid-based Active Stereo

  Hirooki Aoki; Ryo Furukawa; Ryusuke Sagawa; Hiroshi Kawasaki; Shinsaku Hiura

  2012 ANNUAL INTERNATIONAL CONFERENCE OF THE IEEE ENGINEERING IN MEDICINE AND BIOLOGY SOCIETY (EMBC) 2012 2036 - 2039 2012年 [査読有り]
   

  We propose a new non-contact measurement of cardiac beat from 3D shape information of body surface by using grid-based active stereo, and basically examine the validity of the proposed method. By simultaneous measurement with our proposed method and ECG, there are sufficient correspondences between peak intervals of inter-frame depth changes measured by our method and R-R intervals measured by ECG.
• Entire shape acquisition technique using multiple projectors and cameras with parallel pattern projection

  Ryo Furukawa; Ryusuke Sagawa; Hiroshi Kawasaki; Kazuhiro Sakashita; Yasushi Yagi; Naoki Asada

  IPSJ Transactions on Computer Vision and Applications 4 40 - 52 2012年 [査読有り]
   

  In the present paper, we propose a one-shot scanning system consisting of multiple projectors and cameras for dense entire shape acquisition of a moving object. One potential application of the proposed system is to capture a moving object at a high frame rate. Since the patterns used for one-shot scanning are usually complicated, and the patterns interfere with each other if they are projected onto the same object, it is difficult to use multiple sets of patterns for entire shape acquisition. In addition, the overlapped areas of each object have gaps and errors are accumulated. As such, merged shapes are usually noisy and inconsistent. In order to address this problem, we propose a one-shot shape reconstruction method using a projector to project a static pattern of parallel lines of one or two colors. Since each projector projects only parallel lines with a small number of colors, these patterns are easily decomposed and detected even if the patterns are projected multiple times onto the same object. We also propose a multi-view reconstruction algorithm for the projector-camera system. In the experiment, we built a system consisting of six projectors and six cameras, and dense shapes of entire objects were successfully reconstructed. © 2012 Information Processing Society of Japan.
• Capturing Textured 3D Shapes based on Infrared One-shot Grid Pattern

  Sakashita Kazuhiro; Sagawa Ryusuke; Furukawa Ryo; Kawasaki Hiroshi; Yagi Yasushi

  Information and Media Technologies 7 4 1556 - 1564 Information and Media Technologies Editorial Board 2012年 [査読有り]
   

  One of promising approach to reconstruct a 3D shape is a projector-camera system that projects structured light pattern. One of the problem of this approach is that it has difficulty to obtain texture simultaneously because the texture is interfered by the illumination by the projector. The system proposed in this paper overcomes this issue by separating the light wavelength for texture and shape. The pattern is projected by using infrared light and the texture is captured by using visible light. If the cameras for infrared and visible lights are placed at different position, it causes the misalignment between texture and shape, which degrades the quality of textured 3D model. Therefore, we developed a multi-band camera that acquires both visible and infrared lights from a single viewpoint. Moreover, to reconstruct a 3D shape using multiple wavelengths of light, namely multiple colors, an infrared pattern projector is developed to generate a multi-band grid pattern. Additionally, a simple method to calibrate the system is proposed by using the fixed grid pattern. Finally, we show the textured 3D shapes captured by the experimental system.
• Grid-based Active Stereo with Single-colored Wave Pattern for Dense One-shot 3D Scan

  Ryusuke Sagawa; Kazuhiro Sakashita; Nozomu Kasuya; Hiroshi Kawasaki; Ryo Furukawa; Yasushi Yagi

  SECOND JOINT 3DIM/3DPVT CONFERENCE: 3D IMAGING, MODELING, PROCESSING, VISUALIZATION & TRANSMISSION (3DIMPVT 2012) 363 - 370 2012年 [査読有り]
   

  In this paper, we propose a method to reconstruct the shapes of moving objects. The proposed method is a projector-camera system that reconstructs a shape from a single image where a static pattern is cast by a projector; such a method is ideal for acquisition of moving objects at a high frame rate. The issues tackled in this paper are as follows: 1) realize one-shot 3D reconstruction with a single-colored pattern, and 2) obtain accurate shapes by finding correspondences in sub-pixel accuracy. To achieve these goals, we propose the following methods: 1) implicit encoding of projector information by a grid of wave lines, 2) grid-based stereo between projector pattern and camera images to determine unique correspondences, 3) (quasi) pixel-wise interpolations and optimizations to reconstruct dense shapes, and 4) a single-colored pattern which contributes to simplify pattern projecting devices compared to color-coded methods. In the experiment, we show the proposed method is efficient to solve the issues above.
• 赤外パターン光投影を用いた心拍動の非接触計測方法

  青木広宙; 古川亮; 青山正人; 日浦慎作; 佐川立昌; 川崎洋

  ビジョン技術の実利用ワークショップViEW2012 2012 IS1-D6, 4 pages  2012年
• Point cloud compression for grid-pattern-based 3D scanning system

  I. Daribo; R. Furukawa; R. Sagawa; H. Kawasaki; S. Hiura; N. Asada

  2011 Visual Communications and Image Processing (VCIP) 2011年11月 [査読有り]
  
• Multiview projectors/cameras system for 3D reconstruction of dynamic scenes

  Ryo Furukawa; Ryusuke Sagawa; Amael Delaunoy; Hiroshi Kawasaki

  2011 IEEE International Conference on Computer Vision Workshops (ICCV Workshops) 2011年11月 [査読有り]
  
• Dense one-shot 3D reconstruction by detecting continuous regions with parallel line projection

  Ryusuke Sagawa; Hiroshi Kawasaki; Shota Kiyota; Ryo Furukawa

  2011 International Conference on Computer Vision 2011年11月
• A System for Capturing Textured 3D Shapes Based on One-Shot Grid Pattern with Multi-band Camera and Infrared Projector

  Kazuhiro Sakashita; Yasushi Yagi; Ryusuke Sagawa; Ryo Furukawa; Hiroshi Kawasaki

  2011 International Conference on 3D Imaging, Modeling, Processing, Visualization and Transmission 49 - 56 2011年05月 [査読有り]
  
• 複数プロジェクタを用いた線形解法によるワンショットアクティブ形状計測

  古川亮; 川崎洋; 佐川立昌; 阪下和弘; 大田雄也; 頭師陵太; 八木康史; 浅田尚紀

  情報処理学会論文誌 52 6 1923 - 1938 情報処理学会 2011年05月 [査読有り]
   

  本論文では，プロジェクタ--カメラシステムを用いて，動きのある対象の形状を高密度かつ高フレームレートに計測するシステムを提案する．非常に速い動きがあるシーンを高密度に計測するためには，時系列にパターンを切り替える手法は向かず，ワンショットでの計測が望ましい．その解決手法として，縦横の線からなるグリッドパターンの交点を用いたワンショット形状計測法を提案されてきた．しかしこれまで提案された手法では，交点情報のみによる解には曖昧性があり，一意に解を決めるには線間隔の粗密といった追加情報が必要であった．そこで本論文では，追加情報なしに交点のみから一意解を得る手法を提案する．提案手法は，1つのカメラと2つのプロジェクタからなり，それぞれのプロジェクタは平行線パターンを投影することで交点を生じさせ，その交点から形状を復元する．このようなシステムでは交点のみから，線形解法によって一意に解を決定することができるため，線間隔に粗密をつける必要がなくパターン密度を上げることが可能となる．さらに，複数のプロジェクタを用いることによって，パターンが遮蔽されて形状計測できない部分を大きく減らすことが可能である．実験では，実際にシステムを構築し，動物体の高密度な形状をビデオレートで計測することに成功した．Development of active 3D scanning system that can capture fast-moving dynamic objects is an important research topic for many applications. To capture fast-moving objects, a oneshot scanning method that uses a single static image is preferable than those that uses multiple patterns. Recently, oneshot scanning methods that use intersection points of grid patterns have been proposed. In those methods, solutions only from intersection points have ambiguity, and thus, additional information, such as variation of grid intervals, were used to solve this. However, the variation of grid intervals makes it difficult to increase the density of the pattern. In this work, we propose a system that consists of a camera and multiple projectors and each of the projectors projects a parallel line patterns instead of grid patterns. Shape is reconstructed from the intersection points between those two sets of parallel lines. It is shown that a unique linear solution is possible for such a system, thus, dense grid patterns with uniform intervals can be used to increase density of the pattern. Furthermore, by using two projectors, blind areas caused by occlusion and self-occlusion are drastically reduced. In the experiment, we built a system which consists of two projectors and a single camera, i.e., a minimum configuration of the method, and successfully captured a dense shape of fast moving object with video rate.
• Retrieving textures for 3D scanning system based on grid pattern method

  Thibault Yohan; Kawasaki Hiroshi; Sagawa Ryusuke; Furukawa Ryo

  Proceedings - International Workshop on Database and Expert Systems Applications, DEXA 387 - 392 2011年 [査読有り]
   

  This paper proposes a method of retrieving texture from images containing pattern used for one shot 3D scanning system based on a grid pattern. Range scanners using projector-camera systems can be used for real-time 3D scanning with accurate results and at a low cost. However, these techniques cannot retrieve color information from the captured object since to obtain the best results, they require dark environments and the projection on the object to reconstruct dense and bright lines pattern masks most of the object textures. Therefore, we propose a technique of slightly modifying the input of a given 3D scanning system in order to have bright images with texture information and then retrieve the textures of the object using an inpainting method. The presented method adapts simple algorithms such as Canny filter and patches based inpainting in order to obtain a fully automatic method that does not require any user intervention. © 2011 IEEE.
• Video Deblurring and Super-Resolution Technique for Multiple Moving Objects

  Takuma Yamaguchi; Hisato Fukuda; Ryo Furukawa; Hiroshi Kawasaki; Peter Sturm

  COMPUTER VISION - ACCV 2010, PT IV 6495 127 - + 2011年 [査読有り]
   

  Video camera is now commonly used and demand of capturing a single frame from video sequence is increasing. Since resolution of video camera is usually lower than digital camera and video data usually contains a many motion blur in the sequence, simple frame capture can produce only low quality image; image restoration technique is inevitably required. In this paper, we propose a method to restore a sharp and high-resolution image from a video sequence by motion deblur for each frame followed by super-resolution technique. Since the frame-rate of the video camera is high and variance of feature appearance in successive frames and motion of feature points are usually small, we can still estimate scene geometries from video data with blur. Therefore, by using such geometric information, we first apply motion deblur for each frame, and then, super-resolve the images from the deblurred image set. For better result, we also propose an adaptive super-resolution technique considering different defocus blur effects dependent; on depth. Experimental results are shown to prove the strength of our method.
• Dynamic Compression of Curve-Based Point Cloud

  Ismael Daribo; Ryo Furukawa; Ryusuke Sagawa; Hiroshi Kawasaki; Shinsaku Hiura; Naoki Asada

  Advances in Image and Video Technology: Pacific-Rim Symposium on Image and Video Technology (PSIVT) 323 - 334 2011年 [査読有り]
  
• Belief-Propagationによる高密度なグリッドパターン検出及びデブルーイン系列を用いた高速動物体のロバストな三次元計測手法

  大田雄也; 佐川立昌; 古川亮; 川崎洋; 八木康史; 浅田尚紀

  電子情報通信学会論文誌D J93-D 8 1544 - 1554 一般社団法人電子情報通信学会 2010年08月 [査読有り]
   

  非常に高速に動く3次元物体の形状を高密度，高フレームレートで取得できれば，多くの物体解析や事故防止等に大きく貢献できる．本論文ではラインベースによるグリッドパターンからのワンショットスキャンを拡張して密な形状を取得できるシステムを提案する．ワンショットスキャンは1枚の画像から物体の形状を計測できるが，密なパターンを使用できないため，計測結果が疎になるなど幾つかの解決すべき課題があった．そこで，パターンの交点を用いた形状計測の拡張，デブルーイン系列とbelief-propagationによる線検出の効率化，という手法を組み合わせてこれらの課題を解決した．この提案手法とハイスピードカメラを用いて実験を行ったところ，高フレームレートで高速移動物体の密な形状の取得に成功した．
• One-shot entire shape acquisition method using multiple projectors and cameras

  Ryo Furukawa; Ryusuke Sagawa; Hiroshi Kawasaki; Kazuhiro Sakashita; Yasushi Yagi; Naoki Asada

  Proceedings - 4th Pacific-Rim Symposium on Image and Video Technology, PSIVT 2010 107 - 114 2010年 [査読有り]
   

  In this paper, we propose an active scanning system using multiple projectors and cameras to acquire a dense entire shape of the object with a single scan (a.k.a. one-shot scan). One of the potential application of the system is to capture a moving object with high frame-rate. Since the pattern used for oneshot scan is usually complicated and those patterns interfere each other if they are projected on the same object, it is difficult to use multiple sets of them for entire shape acquisition. In addition, at the end of the closed loop, errors on each scan are accumulated, resulting in large gaps between shapes. To solve the problem, we propose a oneshot shape reconstruction method using a projector projecting a static pattern of parallel lines with one or two colors. Since each projector projects just parallel lines with a small number of colors, those patterns are easily decomposed and detected even if those patterns are projected multiple times on the same object. We also propose a kind of multi-view reconstruction algorithm for the proposed projector-camera system. In the experiment, we actually built a system which consists of six projectors and six cameras and dense shapes of entire objects were successfully reconstructed. © 2010 IEEE.
• One-shot scanning method using an uncalibrated projector and camera system

  Hiroshi Kawasaki; Ryusuke Sagawa; Yasushi Yagi; Ryo Furukawa; Naoki Asada; Peter Sturm

  2010 IEEE Computer Society Conference on Computer Vision and Pattern Recognition - Workshops, CVPRW 2010 104 - 111 2010年 [査読有り]
   

  In this paper, we describe a new one-shot scanning technique using a camera and a projector. Generally, a 3D measurement system based on a camera and a projector requires pre-calibration, such as the measurement of the relative position of these devices. If we can eliminate the calibration process, it would greatly improve the convenience of the system. For example, a single capture by a handheld camera of an object illuminated by a hand-held projector would then allow to reconstruct the object shape. To achieve this, we propose a self-calibration technique using a projected grid pattern, computing the relative pose of projector and camera. This is similar to the relative pose or motion problem for two cameras, but in our case correspondences are not explicitly given. The actual algorithm is based on a simple exhaustive search of a finite set of hypotheses, with a cost function based on the epipolar constraint. In the experiments, successful reconstructions with our proposed method using synthetic and read data are presented. © 2010 IEEE.
• Super-Resolution of Multiple Moving 3D Objects with Pixel-Based Registration

  Takuma Yamaguchi; Hiroshi Kawasaki; Ryo Furukawa; Toshihiro Nakayama

  COMPUTER VISION - ACCV 2009, PT III 5996 516 - + 2010年 [査読有り]
   

  In this paper, we propose a super-resolution technique for multiple independently moving 3D objects from a single camera, the camera is also allowed to move freely. Previous techniques were mostly focused on planar objects, and it was difficult to realize super-resolution for the scene containing 3D objects, due to significant appearance changes caused by objects' motion and viewpoint changes. In this paper, we propose a new technique which can solve the above mentioned problems by applying pixel-based registration instead of planar based registration, which are commonly used in the previous 3D super-resolution techniques. Since the technique is pixel-wise and is not required to divide the scene into planar patches, it can be applied to images containing objects with complex shapes or non-rigid objects, to which applying planar approximation is difficult.
• Shape rank: efficient web3D search technique using 3D features.

  Masahiro Ishikawa; Hiroshi Kawasaki; Ryo Furukawa; Yukiko Kawai

  Proceedings of the 11th ACM SIGMM International Conference on Multimedia Information Retrieval, MIR 2010, Philadelphia, Pennsylvania, USA, March 29-31, 2010 393 - 396 ACM 2010年 [査読有り]
  
• Laser range scanner based on self-calibration techniques using coplanarities and metric constraints

  Ryo Furukawa; Hiroshi Kawasaki

  COMPUTER VISION AND IMAGE UNDERSTANDING 113 11 1118 - 1129 2009年11月 [査読有り]
   

  In this paper, we propose a novel method to achieve both dense 3D reconstruction of the scene and estimation of the camera intrinsic parameters by using coplanarities and other constraints (e.g., orthogonalities or parallelisms) derived from relations between planes in the scene and reflected curves of line lasers captured by a single camera. In our study, we categorize coplanarities in the scene into two types: implicit coplanarities, which can be observed as reflected curves of line lasers. and explicit coplanarities, which are. for example, observed as walls of a building. By using both types of coplanarities, we can construct simultaneous equations and can solve them up to four degrees of freedom. To upgrade the solution to the Euclidean space and estimate the camera intrinsic parameters, we can use metric constraints such as orthogonalities of the planes. Such metric constraints are given by, for example, observing the corners of rectangular boxes in the scene, or using special laser projecting device composed of two line lasers whose laser planes are configured to be perpendicular. (C) 2009 Elsevier Inc. All rights reserved.
• Shape Reconstruction and Camera Self-Calibration Using Cast Shadows and Scene Geometries

  Hiroshi Kawasaki; Ryo Furukawa

  International Journal of Computer Vision 83 2 135 - 148 2009年06月 [査読有り]
  
• Dense 3D reconstruction method using a single pattern for fast moving object

  Ryusuke Sagawa; Yuichi Ota; Yasushi Yagi; Ryo Furukawa; Naoki Asada; Hiroshi Kawasaki

  2009 IEEE 12TH INTERNATIONAL CONFERENCE ON COMPUTER VISION (ICCV) 1779 - 1786 2009年 [査読有り]
   

  Dense 3D reconstruction of extremely fast moving objects could contribute to various applications such as body structure analysis and accident avoidance and so on. The actual cases for scanning we assume are, for example, acquiring sequential shape at the moment when an object explodes, or observing fast rotating turbine's blades. In this paper, we propose such a technique based on a one-shot scanning method that reconstructs 3D shape from a single image where dense and simple pattern are projected onto an object. To realize dense 3D reconstruction from a single image, there are several issues to be solved; e. g. instability derived from using multiple colors, and difficulty on detecting dense pattern because of influence of object color and texture compression. This paper describes the solutions of the issues by combining two methods, that is (1) an efficient line detection technique based on de Bruijn sequence and belief propagation, and (2) an extension of shape from intersections of lines method. As a result, a scanning system that can capture an object in fast motion has been actually developed by using a high-speed camera. In the experiments, the proposed method successfully captured the sequence of dense shapes of an exploding balloon, and a breaking ceramic dish at 300-1000 fps.
• Shape from grid pattern based on coplanarity constraints for one-shot scanning

  Ryo Furukawa; Hiroshi Kawasaki; Ryusuke Sagawa; Yasushi Yagi

  IPSJ Transactions on Computer Vision and Applications 1 139 - 157 2009年 [査読有り]
   

  Shape acquisition of moving deformable objects with little texture is important for applications such as motion capture of human facial expression. Several techniques using structured light have been proposed. These techniques can be largely categorized into two main types. The first type temporally encodes positional information of a projector's pixels using multiple projected patterns, and the second spatially encodes positional information into areas or color spaces. Although the former technique allows dense reconstruction with a sufficient number of patterns, it has difficulty in scanning objects in rapid motion. The latter technique uses only a single pattern, so it is more suitable for capturing dynamic scenes however, it often uses complex patterns with various colors, which are susceptible to noise, pattern discontinuity caused by edges, or textures. Thus, achieving dense and stable 3D acquisition for fast-moving and deformable objects remains an open problem. We propose a technique to achieve dense shape reconstruction that requires only a single-frame image of a grid pattern based on coplanarity constraints. With our technique, positional information is not encoded in local regions of a projected pattern, but is distributed over the entire grid pattern, which results in robust image processing and 3D reconstruction. The technique also has the advantage of low computational cost due to its efficient formulation. © 2009 Information Processing Society of Japan.
• 複数形状間の誤差最小化によるアクティブステレオの パラメータおよび形状補正

  榎本和史; 猪瀬健二; 川崎洋; 古川亮

  情報処理学会論文誌コンピュータビジョンとイメージメディア(CVIM) 1 3 12 - 27 2008年11月 [査読有り]
   

  本論文では，ビデオカメラとプロジェクタを用いた3次元計測システムにおいて複数形状を計測し，それらの位置合わせ後に残る形状間のずれを最小化することで，計測精度を向上させる手法を提案する．プロジェクタ·カメラによる3次元計測では最初に校正を行い，その後，その校正パラメータを用いて計測を行う．校正の際，ノイズやレンズの歪みや量子化誤差などの影響により，校正パラメータに誤差が発生すると，復元される形状が歪むことになる．一般に，完全に誤差なく校正を行うことは困難であり，同じ物体を複数方向から計測し精密に位置合わせしても，各形状間には位置合わせ誤差が残る．そこで本論文では，この位置合わせ誤差を最小化するように，プロジェクタ·カメラの内部パラメータ（焦点距離），プロジェクタ·カメラ間の相対位置姿勢である外部パラメータ，複数のプロジェクタ·カメラセット間の剛体変換パラメータおよび点群の3次元座標を推定する．これはカメラのみにおけるバンドル調整法をプロジェクタ·カメラシステムに応用したものと考えることができる．提案手法により，3次元計測の精度向上および，それによる正確な形状統合が実現できることを示す．In this paper, we propose a new method to improve precisions of multiple 3D shapes acquired by a projector-camera active stereo system. The improvement of precision of the shapes is achieved by minimizing “gaps” between overlapping shapes that remains after registration algorithms are performed. To use projector-camera system for 3D acquisition, we must calibrate the system in advance. Then, we can measure 3D shapes using the calibrated parameters. Noise, lens distortions, or quantization errors can cause calibration errors, which often causes distortions of the reconstructed shapes. In general, error-free calibration is very difficult. So, even if we capture multiple shape data from an object and register all the shapes, there still remains errors between the shapes. In this paper, we re-estimate the extrinsic parameters between the camera and the projector and the focal length of the camera by minimizing the registration errors at the overlapping area of multiple shapes and the errors of epipolar constraints. The process improves the accuracies of the 3D measurement and corrects the rigid transformation parameters of the registrations of the shapes.
• 共面性情報および幾何学的条件を用いた影からの3次元形状復元

  古川 亮; 川崎 洋

  情報処理学会論文誌 コンピュータビジョンとイメージメディア(CVIM) 1 2 111 - 123 情報処理学会 2008年07月 [査読有り]
   

  シーンの形状復元に影を使う手法が，これまでに提案されて来た．影は，光のあるシーンにおいてつねに存在するため，特殊な装置を用いることなく，屋外など，あらゆるシーンで観測できるという利点がある．特に，直線状のエッジを含む物体から対象シーンの表面に影が投影されると，エッジによって作られる影の境界線（以下影曲線）上の点は，エッジと光源を含む単一の平面上にある（共面である）ため，これを利用した手法が多く提案されている．しかし，これらの手法では，カメラの内部パラメータや光源位置，参照平面のキャリブレーションなどが必要であるため，適用可能なシーンが限られており，これまで実際に利用されることはあまりなかった．もし，これらの値が未知であっても形状復元が可能であれば，利用範囲が広がりその利便性も増す．そこで，本論文では，影曲線を含む平面と，シーン中の平面の集合について，平面間に成り立つ関係式を導き，連立方程式として解くことで，内部パラメータが未知，あるいは既知の平面（参照平面）がない場合でも形状復元を実現する手法を提案する．シミュレーションおよび実画像を用いた実験により，提案手法により正しく形状が復元されることを示す．To date, various techniques for scene shape reconstruction using shadows have been proposed. Shadows have the advantage that they can be used in outdoor and various other scenes without using special devices, since they exist wherever light is present. When an object with a straight edge casts a shadow on a scene, the points on the shadow boundary (shadow curve) are on a single plane that includes the light source and the edge (i.e. the points are coplaner). Previous shape reconstruction techniques that use such shadow boundaries require calibration of camera parameters, knowledge of light source position, and a reference plane. Since their application ranges are limited, such techniques have not been widely used. Hence, a technique capable of realizing reconstruction even when some of the values are unknown would be applicable to various scenes. This paper realizes such a technique. This technique reconstructs a 3D shape by solving the simultaneous equations of planer regions in the scene and the planes that include shadow curves. We conducted an experiment using simulated and real images to verify the correct shape reconstruction by the proposed technique.
• 複数計測による全周3次元モデル生成のための複数テクスチャのシームレスな合成手法

  猪瀬 健二; 榎本 和史; 川崎 洋; 古川 亮

  情報処理学会論文誌 コンピュータビジョンとイメージメディア(CVIM) 1 2 136 - 151 2008年07月 [査読有り]
  
• Dynamic scene shape reconstruction using a single structured light pattern

  Hiroshi Kawasaki; Ryo Furukawa; Ryusuke Sagawa; Yasushi Yagi

  2008 IEEE Conference on Computer Vision and Pattern Recognition 2008年06月 [査読有り]
  
• 3D scanning method for fast motion using single grid pattern with coarse-to-fine technique

  Ryo Furukawa; Hiroshi Kawasaki; Ryusuke Sagawa; Yasushi Yagi

  BMVC 2008 - Proceedings of the British Machine Vision Conference 2008 2008年 [査読有り]
   

  An active 3D scanning method that can capture a fast motion is strongly required in wide areas. Since most commercial products using a laser projector basically reconstruct the shape with a point or a line for each scan, a fast motion cannot be captured in principle. In addition, an extended method using a structured light can drastically reduce the number of projecting patterns, however, they still require several patterns and a fast motion cannot be captured. One solution for the purpose is to use a single pattern (one shot scan). Although, one shot scanning methods have been intensively studied, they often have stability problems and their result tend to have low resolution. In this paper, we develop a new system which achieves dense and robust 3D measurement from a single grid pattern. A 3D reconstruction can be achieved by identifying grid patterns using coplanarity constraints. We also propose a coarse-to-fine method to increase the density of the shape with a single pattern.
• Projector Camera System for Realtime 3 D Scanning

  Hiroshi Kawasaki; Inose Kenji; Ryo Furukawa; Ryusuke Sagawa; Yasushi Yagi

  PROCAMS 2008 - ACM/IEEE 5th International Workshop on Projector Camera Systems 2008年 [査読有り]
   

  An active 3D scanning device which can capture a sequential motion in realtime is strongly demanded for 3D display and other VR systems. Since most previous and commercial products basically recover the shape with a point or a line for each scan, fast motion can not be captured in principle. One solution for the purpose is to use a single pattern (one shot scan). However, they often have stability problems and their result tend to have low resolution. In our recent study, we have developed a system which achieved dense and accurate 3D reconstruction from only a single image. The proposed system also had the advantage of being robust in terms of image processing. In this presentation, we introduce outline of our system, several applications and results. ©2008 ACM.
• 私の研究開発ツール―第１８回―カメラ・プロジェクタのキャリブレーション

  古川 亮; 猪瀬 健二; 川崎 洋

  The Journal of The Institute of Image Information and Television Engineers 62 12 1964 - 1968 2008年 [招待有り]
  
• One-shot range scanner using coplanarity constraints

  Ryo Furukawa; Huynh Quang Huy Viet; Hiroshi Kawasaki; Ryusuke Sagawa; Yasushi Yagi

  2008 15th IEEE International Conference on Image Processing 1524 - 1527 2008年 [査読有り]
   

  Methods for scanning dynamic scenes are important in many applications and many systems using structured light have been proposed. Many of these systems use either multiple patterns projected rapidly or a single pattern. Although the former allows dense reconstruction with a sufficient number of patterns, it has difficulty in capturing objects in rapid motion. The latter technique uses only a single pattern and have no such difficulties, however, they often have stability problems and their result tend to have low resolution. In this paper, we develop a system to achieve dense and accurate 3D measurement from only a single image. The proposed system also has the advantage of being robust in terms of image processing.
• Efficient meta-information annotation and view-dependent representation system for 3D objects on the Web.

  Yukiko Kawai; Shogo Tazawa; Ryo Furukawa; Hiroshi Kawasaki

  19th International Conference on Pattern Recognition (ICPR 2008), December 8-11, 2008, Tampa, Florida, USA 1 - 4 IEEE Computer Society 2008年 [査読有り]
  
• 複数レーザ平面の自己校正による三次元再構成

  川崎 洋; 古川 亮

  電子情報通信学会論文誌 D J90-D 8 1848 - 1857 一般社団法人電子情報通信学会 2007年08月 [査読有り]
   

  コンピュータビジョンにおいて自己校正は重要な研究課題であり,ステレオカメラを中心に盛んに研究が行われてきた.ところが,光切断法などのようなアクティブビジョンシステムにおける自己校正に関する研究はこれまであまり行われてきていない.本論文では,光切断法におけるレーザ平面位置の自己校正手法について検討する.これは,固定カメラで撮影した画像系列で観測される複数のレーザ反射の曲線位置のみを用いて,各レーザ平面を推定する問題と定義される.この問題における拘束式は,観測された曲線間の交点から得ることができる.本論文では,相対的な位置関係が既知の2本のラインレーザを用いる場合には,この問題を解くことが可能であることを示す.最適化を用いてこの問題を解くには,目的関数の極小値の多さが問題となる.我々は近似された問題をGrobner基底を用いて解くことで,最適化のための初期解を得る方法を提案する.この初期解を用いれば,非線形最適化により最終的に高い精度で三次元復元が可能となる.
• Geometrical constraint based 3D reconstruction using implicit coplanarities

  Ryo Furukawa; Hiroshi Kawasaki

  BMVC 2007 - Proceedings of the British Machine Vision Conference 2007 2007年 [査読有り]
   

  Coplanarity is a relationship of a set of points that exist on a single plane. Coplanarities can be easily observed in a scene with planer surfaces, and these types of coplanarities have been widely used for 3D reconstructions based on geometrical constraints. Other types of coplanarities that can be observed from images are those observed as cross sections of planes and scenes for example, points lit by a line laser, or boundary points of a shadow of a straight edge. Although these types of coplanarities have been implicitly used in variations of light sectioning methods, they have not been used in an unified manner with the former types. In this paper, we describe a new 3D reconstruction method based on coplanarities and other geometrical constraints. In particular, we make use of the above two types of coplanarities in an unified manner. This enables us to reconstruct 3D scenes scanned using line lasers or shadows of straight edges observed by a partially-calibrated single camera utilizing geometrical relationships between the planes in the scenes and the planes of line lasers or the planes of shadow boundaries.
• Shape reconstruction from cast shadows using coplanarities and metric constraints

  Hiroshi Kawasaki; Ryo Furukawa

  COMPUTER VISION - ACCV 2007, PT II, PROCEEDINGS 4844 847 - + 2007年 [査読有り]
   

  To date, various techniques of shape reconstruction using cast shadows have been proposed. The techniques have the advantage that they can be applied to various scenes including outdoor scenes without using special devices. Previously proposed techniques usually require calibration of camera parameters and light source positions, and such calibration processes make the application ranges limited. If a shape can be reconstructed even when these values are unknown, the technique can be used to wider range of applications. In this paper, we propose a method to realize such a technique by constructing simultaneous equations from coplanarities and metric constraints, which are observed by cast shadows of straight edges and visible planes in the scenes, and solving them. We conducted experiments using simulated and real images to verify the technique.
• Improved space carving method for merging and interpolating multiple range images using information of light sources of active stereo

  Ryo Furukawa; Tomoya Itano; Akihiko Morisaka; Hiroshi Kawasaki

  COMPUTER VISION - ACCV 2007, PT II, PROCEEDINGS 4844 206 - + 2007年 [査読有り]
   

  To merge multiple range data obtained by range scanners, filling holes caused by unmeasured regions, the space carving method is a simple and effective method. However, this method often fails if the number of the input range images is small, because unseen voxels that are not carved out remains in the volume area. In this paper, we propose an improved algorithm of the space carving method that produces stable results. In the proposed method, a discriminant function defined on volume space is used to estimate whether each voxel is inside or outside the objects. Also, in particular case that the range images are obtained by active stereo method, the information of the positions of the light sources can be used to improve the accuracy of the results.
• Dense 3D reconstruction method using coplanarities and metric constraints for line laser scanning

  Hiroshi Kawasaki; Ryo Furukawa

  3DIM 2007: SIXTH INTERNATIONAL CONFERENCE ON 3-D DIGITAL IMAGING AND MODELING, PROCEEDINGS 149 - + 2007年 [査読有り]
   

  In this paper we propose a novel method to achieve both dense 3D reconstruction of the scene and estimation of the camera intrinsic parameters by using coplanarities and other constraints (e.g. orthogonalities or parallelisms) derived from relations between planes in the scene and reflected curves of line lasers captured by a single camera. In our study, we categorize coplanarities in the scene into two types: implicit coplanarities, which can be observed as reflected curves of line lasers, and explicit coplanarities, which are, for example, observed as walls of a building. By using both types of coplanarities, we can construct simultaneous equations and can solve them up to four degrees of freedom. To upgrade the solution to the Euclidean space and estimate the camera intrinsic parameters, we can use metric constraints such as orthogonalities of the planes. Such metric constraints are given by, for example, observing the corners of rectangular boxes in the scene, or using special laser projecting device composed of two line lasers whose laser planes are configured to be perpendicular.
• Shape-merging and interpolation using class estimation for unseen voxels with a GPU-based efficient implementation

  Ryo Furukawa; Tomoya Itano; Akihiko Morisaka; Hiroshi Kawasaki

  3DIM 2007: SIXTH INTERNATIONAL CONFERENCE ON 3-D DIGITAL IMAGING AND MODELING, PROCEEDINGS 289 - + 2007年 [査読有り]
   

  The merging of multiple range images obtained by 3D measurement systems for generating a single polygon mesh, and processing for filling holes caused by unmeasured data or insufficient range images are essential processes for CAD, digital archiving of shapes, and CG rendering. Many of the existing processes that have been proposed for merging and interpolating multiple shapes do not function well when the number of range images is small. In this paper, the space carving method is improved, and an interpolation algorithm is proposed which is capable of producing stable results even when the number of range images is small. In the proposed method, not only the observed voxels in a signed distance field, but also unseen voxels are determined as either inside or outside of an object using Bayes estimation. Characteristics of the proposed method include that closed surfaces are always obtained, and a GPU-based, efficient implementation is possible. In addition, in the case that the range image is obtained using an active stereo method, high precision estimation results can be achieved by using information regarding the light sources.
• 3D acquisition system using uncalibrated line-laser projec

  H. Kawasaki; R. Furukawa; Y. Nakamura

  18th International Conference on Pattern Recognition (ICPR'06) 1071 - + 2006年08月 [査読有り]
   

  In this paper, we propose a new 3D scanner which is easy to operate. Till date several 3D scanners, including commercial products, are available; however most Of these are usually large, heavy, and expensive. Although inexpensive 3D scanners manufactured using vision-based techniques, such as stereo vision, are available, they cannot be used in actual measurements because the techniques are still being researched. Our proposed scanner consists of only a laser projector and a single camera and is based on the self-calibarating technique; thus it does not require both precalibration and expensive mechanical devices. This implies that the system to be low-cost and the occlusions can be effectively reduced by moving the projector while scanning. Experiments of our method were performed using both synthesized and real data and the 3D information of the scene was successfully reconstructed.
• 空間コード化法を用いた未校正ステレオシステムによる密な3次元形状復元

  川崎 洋; 大沢 裕; 古川 亮; 中村 泰明

  情報処理学会論文誌:コンピュータビジョンとイメージメディア 47 SIG 10(CVIM 15) 1 - 13 2006年07月 [査読有り]
  
• Self-Calibration of Multiple Laser Planes for 3D Scene Reconstruction

  Ryo Furukawa; Hiroshi Kawasaki

  Third International Symposium on 3D Data Processing, Visualization, and Transmission (3DPVT'06) 2006年06月 [査読有り]
  
• 3次元物体の形状・表面特性の獲得および表現手法

  古川 亮; 川崎 洋; 中村 泰明; 大澤 裕

  映像情報メディア学会誌 60 4 545 - 552 2006年04月 [査読有り]
   

  In this paper, we developed a method for sampling and modeling reflectance of 3-D objects and performing real-time rendering of modeled objects. Our method can be used to render modeled objects from an arbitrary viewing direction with illuminations from point lights at any given place or with any illumination map. To achieve this goal, we developed a platform that can sample appearances of target objects with 4DOFs parameters of light and viewing directions. Light-dependent variations of sampled data were approximated using spherical harmonics functions as bases. To render a modeled object, we generated its appearance by synthesizing the effects of illuminations using spherical harmonics functions and by interpolating between sampled viewing directions. The appearance was then texture-mapped to the shape model. Using our method, we could represent reflectance properties of surfaces of 3-D objects that were parametrized by 4DOFs light and viewing directions. We also successfully rendered the modeled objects using programmable vertex/pixel shaders with real-time performance.
• Dense 3D Reconstruction with an Uncalibrated Active Stereo System

  Hiroshi Kawasaki; Yutaka Ohsawa; Ryo Furukawa; Yasuaki Nakamura

  Computer Vision – ACCV 2006 882 - 891 2006年 [査読有り]
  
• Combined use of 2D images and 3D models for retrieving and browsing digital archive contents

  R Kadobayashi; R Furukawa

  VIDEOMETRICS VIII 5665 134 - 143 2005年 [査読有り]
   

  In this paper we propose "browsing by 3D scene" and "rendering by photographs" based on viewpoint-based approach. The idea is that by linking the 3D models and photographs via the spatial information, "viewpoint" in particular, we can use them as a reference for each other when browsing photographs or walking through the 3D scene. We use the camera parameters to express the viewpoint. Each photograph has the extrinsic camera parameters as metadata, which is defined according to the same coordinates as the 3D model, and hence we can compare the viewpoints of them and judge their similarity. Unlike content-base image retrieval, the viewpoint-based search is robust to the difference of features such as color and shape among images. The browsing by 3D scene method allows users to retrieve images that contain the same object but show it with different appearances and to browse the images taken from a similar viewpoint in groups. On the other hand, when a user want to see a particular 3D scene. the user specifies a sample image by selecting a photograph from the archive. The system then renders the 3D scene with the viewpoint similar to that of the selected photograph.
• Synthesis of Textures with Intricate Geometries using BTF and Large Number of Textured Micropolygons

  Ryo Furukawa; Masaharu Harada; Yasuaki Nakamura; Hiroshi Kawasaki

  In Proc. of the 4th International Workshop on Texture Analysis and Synthesis 77 82 2005年 [査読有り]
  
• Uncalibrated multiple image stereo system with arbitrarily movable camera and projector for wide range scanning

  Ryo Furukawa; Hiroshi Kawasaki

  Proceedings of International Conference on 3-D Digital Imaging and Modeling, 3DIM 302 - 309 2005年 [査読有り]
   

  In this paper, we propose an uncalibrated, multi-image 3D reconstruction, using coded structured light. Normally, a conventional coded structured light system consists of a camera and a projector and needs precalibration before scanning. Since the camera and the projector have to be fixed after calibration, reconstruction of a wide area of the scene or reducing occlusions by multiple scanning are difficult and sometimes impossible. In the proposed method, multiple scanning while moving the camera or the projector is possible by applying the uncalibrated stereo method, thereby achieving a multi-image 3D reconstruction. As compared to the conventional coded structured light method, our system does not require calibration of extrinsic camera parameters, occlusions are reduced, and a wide area of the scene can be acquired. As compared to image-based multi-image reconstruction, the proposed system can obtain dense shape data with higher precision. As a result of these advantages, users can freely move either the cameras or projectors to scan a wide range of objects, but not if both the camera and the projector are moved at the same time. © 2005 IEEE.
• Patch-based BTF synthesis for real-time rendering

  Hiroshi Kawasaki; Kyoung-Dae Seo; Yutaka Ohsawa; Ryo Furukawa

  Proceedings - International Conference on Image Processing, ICIP 1 393 - 396 2005年 [査読有り]
   

  In this paper, we propose a novel synthesis technique for BTFs. A BTF (bidirectional texture function) is a 6D function which can represent appearances of a texture under arbitrary view and lighting conditions. Until now, several approaches of BTF synthesis have been researched. For ordinary textures, patch based methods are promising techniques for texture synthesis. However, it has not been effectively tried to BTFs yet. This is mainly because data size of BTFs is so large and it is not easy to apply the techniques to BTFs. Further, efficient rendering of BTFs is still under research. In this paper, we extend a patch based synthesis technique for BTFs by utilizing compact representation of BTFs. In addition, we propose a novel technique to render the synthesized BTFs efficiently. With our proposed method, we can successfully and effectively render objects with complicated surfaces under arbitrary sizes. © 2005 IEEE.
• Uncalibrated active stereo for wide and dense 3D data acquisition

  Hiroshi Kawasaki; Ryo Furukawa

  Proceedings - International Conference on Image Processing, ICIP 3 369 - 372 2005年 [査読有り]
   

  In this paper, we propose an uncalibrated, multi-image 3D reconstruction technique, using coded structured light. Normally, a conventional coded structured light system consists of a camera and a projector and needs precalibration before scanning. Since the camera and the projector have to be fixed after calibration, reconstruction of a wide area of the scene or reducing occlusions are difficult and sometimes impossible. In the proposed method, precalibration can be successfully omitted by applying the uncalibrated stereo technique, thereby multiple scanning while moving the camera or the projector is possible. As the result, users can freely move either the cameras or projectors to scan a wide range of objects. © 2005 IEEE.
• Entire model acquisition system using handheld 3D digitizer

  H. Kawasaki; R. Furukawa

  Proceedings. 2nd International Symposium on 3D Data Processing, Visualization and Transmission, 2004. 3DPVT 2004. 478 - 485 2004年09月 [査読有り]
   

  In this paper, a real-time, handheld 3D model acquisition system consisting of a laser projector, a video camera and a turntable is described. The user projects a stripe of light at the 3D object by hand while rotating the object on a turntable. The projected light and LED markers attached to the laser projector and turntable are captured by the video camera. By estimating the 3D orientation of the laser projector and the turntable angle from the 2D locations of the markers, the 3D location of the surface lit by the laser can be calculated. In addition, post-processing algorithms for refining the estimated 3D data have been proposed. The algorithm not only improves the accuracy of the 3D measurement, but also achieves to decrease the number of LEDs for 3D data estimation therefore, it significantly improves the user's convenience in scanning the object. With this system, users can measure an entire 3D object in real-time. © 2004 IEEE.
• Comparison and evaluation of laser scanning and photogrammetry and their combined use for digital recording of cultural heritage

  Rieko Kadobayashi; N Kochi; H Otani; Ryo Furukawa

  The International Archives of Photogrammetry and Remote Sensing, ISTANBUL, XXth Congress, 2004 401 406 2004年 [査読有り]
  
• Interactive shape acquisition using marker attached laser projector

  R. Furukawa; H. Kawasaki

  Fourth International Conference on 3-D Digital Imaging and Modeling, 2003. 3DIM 2003. Proceedings. 2003年10月 [査読有り]
  
• Integrated Presentation System for 3D Models and Image Database for Byzantine Ruins

  Rieko Kadobayashi; Ryo Furukawa; Yukiko Kawai; Daisuke Kanjo; Jun N. Yoshimoto

  Proceedings of the ISPRS Workshop on Vision Techniques for Digital Architectural and Archaeological Archives (ISPRS XXXIV-5/W12) 187 - 192 2003年07月 [査読有り]
  
• Removal of shadows and shadings from texture images for archiving historical ruins

  Ryo Furukawa; Yutaka Kiuchi; Rieko Kadobayashi

  International archives of photogrammetry remote sensing and spatial information sciences, 34(5/W12), 157 - 162 2003年01月 [査読有り]
  
• Real-Time Search System for Streaming Live Video on the Internet

  Yukiko Kawai; Ryo Furukawa; Rieko Kadobayashi

  Proceedings of the 7th IASTED International Conference on Internet and Multimedia Systems and Applications (IMSA 2003) 223 - 228 2003年 [査読有り]
  
• Appearance based object modeling using texture database: Acquisition, compression and rendering

  Furukawa; R; Kawasaki, H; Ikeuchi, K; Sakauchi, M

  Eurographics Workshop on Rendering 257 - 266 2002年02月 [査読有り]
  
• Acquiring Bidirectional Texture Function for Image Synthesis of Deformed Objects

  R. Furukawa; H. Kawasaki; K. Ikeuchi

  In Proceedings of the Fifth Asian Conference on Computer Vision (pp. 622-627). 2002年02月 [査読有り]
  
• ATMIQ: active tubes on multiscale image queue

  Ryo Furukawa; Masakazu Imai; Takeshi Uno

  Systems and Computers in Japan 30 13 84 - 95 1999年11月 [招待有り]
  
• ニューラルネットワークを用いたActive Tubesのエネルギー関数の重み係数決定

  加藤 浩巳; 古川 亮; 今井 正和; 烏野 武

  電子情報通信学会論文誌 D-II vol.J81-D-II 9 1975 - 1982 一般社団法人電子情報通信学会 1998年09月 [査読有り]
   

  コンピュータビジョンの分野においては, 画像から物体の輪郭を抽出し, その時間的な変化からシーン中の物体の動きの解析を行うことは重要でかつ難しい問題であり, これまでにもさまざまな方法が提案されている.その中で, Snakesに代表されるエネルギー最小化の原理に基づいた方法がある.我々は時空間においてSnakesに類似したエネルギー最小化の原理に基づいた物体抽出手法としてActive Tubesを提案している.しかしActive Tubesをはじめとしたエネルギー最小化の原理に基づいた方法では, エネルギー項の係数決定を経験的に行わなければならないという問題点がある.本研究ではその問題点を解決するため, エネルギー関数の極小値を求める計算にニューラルネットワークを用いることを提案する.望ましい収束結果を教師データとして用いることのよって, エネルギー項の係数をニューラルネットワークに学習させることを試みた.エネルギー最小化の原理に基づいた手法としてActive Tubesを例とし, 実画像を用いた実験を行いニューラルネットワークによる収束の有効性を確認した.
• ATMIQ: 時間軸方向に解像度が変わる画像系列におけるActive Tubes

  古川 亮; 今井 正和; 烏野 武

  電子情報通信学会論文誌 D-II J81-D-II 4 611 - 622 一般社団法人電子情報通信学会 1998年04月 [査読有り]
   

  本論文では, 動的輪郭モデルに基づいた新しい輪郭追跡モデルを提案する.そのために, 多重スケール画像(ピラミッド画像)と時空間画像とを組み合わせた新しい画像空間を導入する.この画像空間に管状の動的輪郭モデルを適用することで, 輪郭追跡を実現している.本モデルの長所として, 画像系列を先頭から順に処理することができ, カメラ画像などを撮影と同時に処理するような処理モデルに適用可能なこと, フレーム間での目標物体の移動量が比較的大きい場合にも追跡が可能であること, 追跡対象輪郭上の点の位置や速度の連続性の条件を利用することで, 安定した輪郭追跡が可能であること, 処理効率が高いことが挙げられる.
• An elastic contour model using spatiotemporal solids

  Ryo Furukawa; Masakazu Imai; Takeshi Uno

  Systems and Computers in Japan 28 9 67 - 76 1997年08月 [招待有り]
  
• Active tubes in multiscale image queue

  R. Furukawa; M. Imai; T. Uno

  Proceedings of 13th International Conference on Pattern Recognition 1996年08月 [査読有り]
  
• 時空間画像を利用した弾性輪郭モデルとその収束方法

  古川 亮; 今井 正和; 烏野 武

  電子情報通信学会論文誌 D-II J79-D-II 6 1054 - 1063 一般社団法人電子情報通信学会 1996年06月 [査読有り]
   

  連続画像から物体の運動を解析することは, 重要でかつ困難な問題であり, これに対して多くの研究がなされてきた. 本論文で提案するActive Tubesは, 非剛体物体の運動を解析するためのモデルの一つである. このモデルは, Kassらの提案したSnakesを時間軸に沿って重ねたものとみなすことができ, Snakesと同様のエネルギー最小化の手法を用いて時空間画像中の物体を抽出する. 当初, Active Tubesの収束アルゴリズムとして, Greedy Algorithmを用いていた. しかし, Greedy Algorithmはノイズなどの影響を受けやすいため, 新しいアルゴリズムとしてRandomized Greedy Algorithmを提案する. 提案されたアルゴリズムはGreedy Algorithmと同程度に高速である上に, ノイズに対してより頑健である.
• 概念図理解を目的としたパターン情報と自然言語処理の統合

  中村 裕一; 古川 亮

  情報処理学会論文誌 36 1 196 - 205 一般社団法人情報処理学会 1995年01月 [査読有り]
   

  図と文章の相補的な利用はコミュニケーションの手段として非常に有効であり、計算機でこれらのメディアを統合的に解析、生成する必要性が高まっている。本稿では、そのようなメディアの統合を実現するための一つの手法として、教科書、専門用語辞典などに用いられる概念図を解析する手法について述ぺる。そのために、概念図のパターン憎報と説明文として付加されている自然言語テキストと両方の解析を行い、それらを統合する。統合の方法としては、概念図中の図形要素と説明文中の単語とのリンク付け、概念図の図形要素の意味を解釈することを行う。これにより、概念図とその説明文の有機的な結合、概念図の持つパターン情報の意味推定が可能になる。本研究では、情報科学辞典を対象に実際に解析を行い、その有効性を確かめた。
• Robust algorithm for motion analysis based on Active Tubes

  R. Furukawa; M. Imai; T. Uno

  Proceedings of 1994 IEEE Workshop on Motion of Non-rigid and Articulated Objects 1994年11月 [査読有り]
  
• Diagram understanding utilizing natural language text

  Y. Nakamura; R. Furukawa; M. Nagao

  Proceedings of 2nd International Conference on Document Analysis and Recognition (ICDAR '93) 1993年08月 [査読有り]
  

書籍

• レクチャーマルチメディア : 基礎からわかる音・画像・映像の情報処理

  川崎, 洋; 柳井, 啓司; 佐川, 立昌; 森山, 剛; 古川, 亮 数理工学社,サイエンス社 (発売) 2022年04月 ISBN: 9784864810814 x, 217p, 図版4p
• Active lighting and its application for computer vision : 40 years of history of active lighting techniques

  Ikeuchi, Katsushi; Matsushita, Yasuyuki; Sagawa, Ryusuke; Kawasaki, Hiroshi; Mukaigawa, Yasuhiro; Furukawa, Ryo; Miyazaki, Daisuke Springer 2020年 ISBN: 9783030565763 xiv, 308 p.
• コンピュータビジョン最先端ガイド5

  松下靖史; 古川康隆; 川﨑洋; 古川亮; 佐川立昌 (担当:共著範囲:71-94)アドコム・メディア株式会社 2012年12月 ISBN: 9784915851476

講演・口頭発表等

• アクティブステレオ法における複数フレーム計測結果の全体最適化法  [通常講演]

  古川亮; 三鴨道弘; 佐川立昌; 川崎洋

  画像の認識理解シンポジウム MIRU2022 2022年07月 口頭発表（一般）
• データ拡張による投影パターン検出の安定化とMRF最適化による対応付の改善によるワンショット三次元形状計測の高精度化  [通常講演]

  原田寛大; 三鴨道弘; 古川亮; 佐川立昌; 川崎洋

  画像の認識理解シンポジウム MIRU2022 2022年07月 ポスター発表
• Oneshot dense 3D active stereo based on pixel-wise correspondence estimation using U-Nets and GCN  [通常講演]

  Michihiro Mikamo; Ryusuke Sagawa; Hiroshi Kawasaki; Ryo Furukawa

  画像の認識理解シンポジウム MIRU2021 2021年07月 ポスター発表
• 微小振動によるスペックルパターン変化の時空間最適化による音波の三次元空間における観測と可視化  [通常講演]

  樋口雄介; 中村太郎; 古川亮; 佐川立昌; 川崎洋

  画像の認識理解シンポジウム MIRU2021 2021年07月 口頭発表（一般）
• Auto-calibrated 3D endoscope with GCN-based correspondence search  [通常講演]

  Ryo Furukawa; Shiro Oka; Takahiro Kotachi; Yuki Okamoto; Shinji Tanaka; Hiroshi Kawasaki

  画像の認識理解シンポジウム MIRU2020 2020年08月 ポスター発表
• 古川 亮, 内藤 雅仁, 宮崎 大輔, 馬場 雅志, 日浦 慎作(広島市大), 岡 志郎, 田中 信治(広島大病院), 川崎 洋(九大)  [通常講演]

  岩口 尭史; 栗田 拓弥; 時枝 康大; 古川 亮; 川崎 洋

  画像の認識理解シンポジウム MIRU2019 2019年08月
• ３次元内視鏡におけるambient光源にロバストな投影パターン特徴抽出  [通常講演]

  古川 亮; 内藤 雅仁; 宮崎 大輔; 馬場 雅志; 日浦 慎作; 岡 志郎; 田中 信治; 川崎 洋

  画像の認識理解シンポジウム MIRU2019 2019年07月
• MICCAI2018参加報告  [招待講演]

  小田昌宏; 大竹義人; 伊東隼人; 杉野貴明; 斉藤篤; 古川亮; 大西峻; 井宮淳; 森健策

  電子情報通信学会，医用画像研究会，MI2018-88 2019年01月 口頭発表（一般）
• 能動ステレオ法のためのパターン検出におけるCNNによる複数特徴の同時抽出  [通常講演]

  溝森 将輝; 内藤 雅仁; 古川 亮; 馬場 雅志; 宮崎 大輔; 日浦 慎作; 川崎 洋

  第 21 回 画像の認識・理解シンポジウム 2018年08月 シンポジウム・ワークショップパネル（公募）
• Grid-pattern feature detection technique using U-Nets for 3D endoscope  [通常講演]

  Masahito Naito; Ryo Furukawa; Masashi Okitomo; Daisuke Miyazaki; Masashi Baba; Shinsaku Hiura; Yoji Sanomura; Shinji Tanaka; Hiroshi Kawasaki

  第 21 回 画像の認識・理解シンポジウム 2018年08月 シンポジウム・ワークショップパネル（公募）
• Underwater accurate shape reconstruction using CNNs  [通常講演]

  Kazuto Ichimaru; Ryo Furukawa; Hiroshi Kawasaki

  第 21 回 画像の認識・理解シンポジウム 2018年08月 シンポジウム・ワークショップパネル（公募）
• Reproducibility Analysis of Case-Based Reasoning and Evolutionary Computation Method for Surface Reflectance Parameters Estimation  [通常講演]

  Albane Robert; Yuki Matsugano; Michihiro Mikamo; Satoshi Ono; Hiroshi Kawasaki; Kagoshima Uni; Hisato Fukuda(Saitama Univ; Ryo Furukawa; Hiroshima City

  画像の認識理解シンポジウム 2017年08月
• Intra-frame motion encoding using high-fps structured light for temporal shape super-resolution  [通常講演]

  Yuki Shiba; Satoshi Ono(Kagoshima Univ; Ryo Furukawa; Shinsaku Hiura(Hiroshima City Uni; Hiroshi Kawasaki(Kagoshima U

  画像の認識理解シンポジウム 2017年08月
• Depth and motion estimation from projected pattern's flow on object's surface  [通常講演]

  Ryo Furukawa; Hiroshima City Uni; Hiroshi Kawasaki(Kyushu Univ; Ryusuke Sagawa(AIST

  画像の認識理解シンポジウム 2017年08月
• 見かけの大きさとぼけ量の関係に基づく物体認識の高速化  [通常講演]

  河本 悠; 宮崎 大輔; 古川 亮; 馬場 雅志; 日浦 慎作

  画像の認識理解シンポジウム 2017年08月
• 3次元内視鏡のための点滅パターン光源によるHDR画像生成  [通常講演]

  内藤 雅仁; 古川 亮; 宮崎 大輔; 馬場 雅志; 日浦 慎作; 川崎 洋

  画像の認識理解シンポジウム 2017年08月
• 焦点調節可能な複数レイヤディスプレイにおける光線空間近似精度の検討  [通常講演]

  中野 裕太; 多田野 司; 古川 亮; 馬場 雅志; 宮崎 大輔; 日浦 慎作; 川崎 洋

  画像の認識理解シンポジウム 2017年08月
• 人体の動きを表現した３次元立体作品製作手法  [通常講演]

  古川 亮; 中野 裕太; 向井 貴昭; 馬場 雅志; 宮崎 大輔; 日浦 慎作

  情報処理学会研究会（CVIM第204回) 2016年11月 口頭発表（一般）
• グリッド方式水中アクティブ・ワンショット計測システムのARマーカーを用いた校正および形状復元手法  [通常講演]

  馬場 博久; 華山 達也; 森永 寛紀; 中井 英晶; 古川 亮; 佐川 立昌; 川崎 洋

  画像の認識理解シンポジウム 2016年08月 ポスター発表
• マルチバンドカメラを用いたワンショット照度差ステレオ法  [通常講演]

  津田 香林; 宮崎 大輔; 古川 亮; 日浦 慎作

  画像の認識理解シンポジウム 2016年08月 ポスター発表
• GPUによるフィルタバンク演算の並列化の検討  [通常講演]

  向井 貴昭; 古川 亮; 宮崎 大輔; 馬場 雅志; 日浦 慎作

  画像の認識理解シンポジウム 2016年08月 ポスター発表
• ３次元計測のための学習に基づく投影パターンの検出  [通常講演]

  沖友 真志; 古川 亮; 宮崎 大輔; 馬場 雅志; 日浦 慎作; 川崎 洋

  画像の認識理解シンポジウム 2016年08月 ポスター発表
• 符号化開口付プロジェクタ・カメラシステムを用いたパターン特徴量の次元削減による高速・広範囲3次元計測  [通常講演]

  芝 優希; 堀田 祐樹; 小野 智司; 古川 亮; 日浦 慎作; 川崎 洋

  画像の認識理解シンポジウム 2016年08月 ポスター発表
• 複数の任意形状に異なるパターンを同時投影するマルチプロジェクタ・システム  [通常講演]

  蛭川 琢斗; Marco Visentini-Scarzanella; 川崎 洋; 古川 亮; 日浦 慎作

  画像の認識理解シンポジウム 2016年08月
• 超小型DOEパターン投光器を用いたアクティブステレオ方式３次元内視鏡  [通常講演]

  古川 亮; 川崎 洋; 佐川 立昌

  画像の認識理解シンポジウム 2016年08月
• Compression and Interpolation of BTF Database using Non-negative Matrix Factorization  [通常講演]

  Kenshi Mizumoto; Shinsaku Hiura; Daisuke Miyazaki; Ryo Furukawa; Masashi Baba

  The 18th meeting on image recognition and understanding 2015年07月 ポスター発表
• Simultaneous Independent Projections at Multiple Depths Using a Multi-Projector System  [通常講演]

  Marco Visentini-Scarzanella; Takuto Hirukawa; Hiroshi Kawasaki; Ryo Furukawa; Shinsaku Hiura

  The 18th meeting on image recognition and understanding 2015年07月 ポスター発表
• Underwater 3D Shape Measurement with Static Wave Pattern for One-Shot Scan  [通常講演]

  Tatsuya Hanayama; Hirohisa Baba; Marco Visentini-Scarzanella; Ryo Furukawa; Ryusuke Sagawa; Hiroshi Kawasaki

  The 18th meeting on image recognition and understanding 2015年07月 ポスター発表
• メタメリズム生起のためのLED照明の最適化  [通常講演]

  宮崎 大輔; 中村 美亜; 馬場 雅志; 古川 亮; 日浦 慎作

  画像の認識理解シンポジウム 2015年07月 ポスター発表
• 既知形状物体の陰影を利用したカメラ応答関数の推定  [通常講演]

  宮崎 大輔; 松原 充駿; 馬場 雅志; 古川 亮; 日浦 慎作

  画像の認識理解シンポジウム 2015年07月
• スリット状符号化開口を備えたプロジェクタによる奥行き範囲の広いアクティブ3次元計測手法  [通常講演]

  芝 優希; 堀田 祐樹; 小野 智司; 古川 亮; 日浦 慎作; 川崎 洋

  画像の認識理解シンポジウム 2015年07月
• 符号化開口の設計における交叉法の検討  [通常講演]

  河本 悠; 日浦 慎作; 宮崎 大輔; 古川 亮; 馬場 雅志

  画像の認識理解シンポジウム 2015年07月
• アクティブステレオに基づく三次元内視鏡システムの2自由度自己校正  [通常講演]

  増谷 龍之輔; 古川 亮; 馬場 雅志; 宮崎 大輔; 青山 正人; 日浦 慎作; 川崎 洋; Marco Visentini-Scarzanella; 佐川 立昌

  画像の認識理解シンポジウム 2015年07月
• Temporal Octrees for Compressing Dynamic Point Cloud Streams  [通常講演]

  Marcos Slomp; Hiroshi Kawasaki; Ryo Furukawa; Ryusuke Sagawa

  Dynamic Shape Measurement and Analysis 2014 (3DV 2014 Workshop) 2014年12月 口頭発表（一般）
• 4D Capture using Visibility Information of Multiple Projector Camera System  [通常講演]

  Ryusuke Sagawa; Nozomu Kasuya; Yoshinori Oki; Hiroshi Kawasaki; Yoshio Matsumoto; Ryo Furukawa

  Dynamic Shape Measurement and Analysis 2014 (3DV 2014 Workshop) 2014年12月 口頭発表（一般）
• 能動ステレオ法に基づく三次元内視鏡による生体組織の形状計測  [通常講演]

  古川 亮; 西谷維心; 青山正人; 日浦慎作; 青木広宙; 小南陽子; 松尾泰治; 吉田成人; 田中信治; 佐川立昌; 川崎 洋

  電子情報通信学会 PRMU研究会 2014年03月 口頭発表（一般）
• Exemplar based texture recovery technique for active one shot scan  [通常講演]

  Yohan Thibault; Hiroshi Kawasaki; Ryusuke Sagawa; Ryo Furukawa

  The 13th IAPR Conference on Machine Vision Applications (MVA 2013) 2013年05月 ポスター発表
• Calibration of the Projector with Fixed Pattern and Large Distortion Lens in a Structured Light System  [通常講演]

  Xingdou Fu; Zuofu Wang; Hiroshi Kawasaki; Ryusuke Sagawa; Ryo Furukawa

  The 13th IAPR Conference on Machine Vision Applications (MVA 2013) 2013年05月 ポスター発表
• Hardware-Accelerated Geometry Instancing for Surfel and Voxel Rendering of Scanned 4D Media  [通常講演]

  Marcos Slomp; Ismael Daribo; Ryo Furukawa; Ryusuke Sagawa; Shinsaku Hiura; Naoki Asada; Hiroshi Kawasaki

  11th International Conference on Quality Control by Artificial Vision (QCAV) 2013年05月 ポスター発表
• Inferring Texture for Active 3D Scan System  [通常講演]

  Yohan Thibault; Hiroshi Kawasaki; Yasuhiro Akagi; Ryusuke Sagawa; Ryo Furukawa

  ASIAGRAPH 2013 in Hawai'i 2013年04月 ポスター発表
• A facial tracking and transfer method with a key point refinement  [通常講演]

  Yasuhiro Akagi; Ryo Furukawa; Ryusuke Sagawa; Koichi Ogawara; Hiroshi Kawasaki

  ACM SIGGRAPH 2013 2013年 ポスター発表
• Extraction and Visualization of Cardiac Beat by Grid based Active Stereo  [通常講演]

  Hirooki Aoki; Ryo Furukawa; Masahito Aoyama; Shinsaku Hiura; Ryusuke Sagawa; Hiroshi Kawasaki

  ICPR-WS (International Workshop on Depth Image Analysis：WDIA 2012) 2012年11月 ポスター発表
• Single Color One-shot Scan using Topology Information  [通常講演]

  Hiroshi Kawasaki; Hitoshi Masuyama; Ryusuke Sagawa; Ryo Furukawa

  Computer Vision – ECCV 2012. Workshops and Demonstrations 2012年10月 口頭発表（一般） 

  In this paper, we propose a new technique to achieve one-shot scan using single color and static pattern projector; such a method is ideal for acquisition of a moving object. Since a projector-camera systems generally have uncertainties on retrieving correspondences between the captured image and the projected pattern, many solutions have been proposed. Especially for one-shot scan, which means that only a single image is used for reconstruction, positional information of a pixel on the projected pattern should be encoded by spatial and/or color information. Although color information is frequently used for encoding, it is severely affected by texture and material of the object. In this paper, we propose a technique to solve the problem by using topological information instead of colors. Our technique successfully realizes one-shot scan with monochrome pattern.
• Adaptive arithmetic coding for point cloud compression  [通常講演]

  Ismael Daribo; Ryo Furukawa; Ryusuke Sagawa; Hiroshi Kawasaki

  Proc. 3DTV Conference 2012 2012年10月 ポスター発表
• 全周囲形状計測システムにおける機器配置の評価  [通常講演]

  平田 信吾; 古川 亮; 日浦 慎作; 青山 正人; 青木 広宙; 佐川 立昌; 川崎 洋

  第17回知能メカトロニクスワークショップ 2012年08月 ポスター発表
• Basic Study on Non-contact Measurement of Cardiac Beat by Using Grid-based Active Stereo  [通常講演]

  Hirooki Aoki; Ryo Furukawa; Ryusuke Sagawa; Hiroshi Kawasaki; Shinsaku Hiura

  Proceedings of 34th Annual International Conference of the IEEE Engineering in Medicine and Biology Society 2012年08月 ポスター発表
• 高密度3次元形状復元のための単色波線パターンを用いたグリッド能動ステレオ  [通常講演]

  阪下 和弘; 佐川 立昌; 古川 亮; 川崎 洋; 八木 康史

  第15回画像の認識・理解シンポジウム 2012年08月 口頭発表（一般）
• アクティブ3次元センサを用いた簡易型非接触呼吸計測  [通常講演]

  青木広宙; 宮崎雅樹; 仲村秀俊; 古川亮; 佐川立昌; 川崎洋

  電子情報通信学会技術研究報告 2012年03月 口頭発表（一般）
• Point Cloud Compression for Grid-Pattern-based 3D Scanning System  [通常講演]

  I. Daribo; R. Furukawa; Hiroshima City; University, Japa; R. Sagawa; u; Advanced; Industrial Science; Technology, Japa; H. Kawasaki; Kagoshima University; United States, Jap; S. Hiura; N. Asada; Hiroshima City; University, Ja

  Visual Communications and Image Processing 2011年11月 ポスター発表
• Dynamic Compression of Curve-based Point Cloud  [通常講演]

  Ismael Daribo; Ryo Furukawa; Ryusuke Sagawa; Hiroshi Kawasaki; Shinsaku hiura; Naoki Asada

  Pacific-Rim Symposium on Image and Video Technology 2011 2011年11月 口頭発表（一般）
• "A System for Capturing Textured 3D Shapes based on One-shot Grid Pattern with Multi-band Camera and Infrared Projector"  [通常講演]

  Kazuhiro Sakashita; Yasushi Yagi; Ryusuke Sagawa; Ryo Furukawa; Hiroshi Kawasaki

  The First Joint 3DIM/3DPVT Conference 3D Imaging Modeling Processing Visualization Transmission 2011年05月 ポスター発表
• "One-shot entire shape acquisition method using multiple projectors and cameras"  [通常講演]

  Ryo Furukawa; Ryusuke Sagawa; Hiroshi Kawasaki; Kazuhiro Sakashita; Yasushi Yagi; Naoki Asada

  The 4th Pacific-Rim Symposium on Image and Video Technology(PSIVT2010), pp.107-114, 11.2010 2010年11月 口頭発表（一般）
• "One-shot scanning method using an uncalibrated projector and camera system"  [通常講演]

  Hiroshi Kawasaki; Ryusuke Sagawa; Yasushi Yagi; Ryo Furukawa; Naoki Asada; Peter Sturm

  IEEE Computer Society Conference on Computer Vision and Pattern Recognition Workshop, Procams2010 2010年06月 口頭発表（一般）
• "Linear solution for oneshot active 3D reconstruction using two projectors "  [通常講演]

  Ryusuke Sagawa; Kazuhiro Sakashita; Yuya Ohta; Yasushi Yagi; Ryo Furukawa; Ryota Zushi; Naoki Asada; Hiroshi Kawasaki

  5th international symposium on 3D data processing, visualization and transmission (3DPVT2010) 2010年05月 口頭発表（一般）
• "Shape Rank: Efficient Web3D search technique using 3D features"  [通常講演]

  Masahiro Ishikawa; Hiroshi Kawasaki; Ryo Furukawa; Yukiko Kawai

  11th ACM SIGMM International Conference on Multimedia Information Retrieval 2010年03月 ポスター発表
• Dense 3D Reconstruction Method Using a Single Pattern for Fast Moving Object  [通常講演]

  Ryusuke Sagawa; Yuya Ohta; Yasushi Yagi; Ryo Furukawa; Naoki Asada; Hiroshi Kawasaki

  In Proc. 2009 IEEE 12th International Conference on Computer Vision (ICCV) 2009年09月 ポスター発表
• "Super-Resolution of Multiple Moving 3D Objects with Pixel-based Registration"  [通常講演]

  Takuma Yamaguchi; Hiroshi Kawasaki; Ryo Furukawa; Toshihiro Nakayama

  Asian Conference on Computer Vision(ACCV 2009) 2009年09月 ポスター発表
• One-shot Range Scanner using Coplanarity Constraints  [通常講演]

  Ryo Furukawa; Huynh; Quang Huy Viet; Hiroshi Kawasaki; Ryusuke Sagawa; Yasushi Yagi

  Proc. of international conference on image processing (ICIP 2008) 2008年10月 ポスター発表
• 実物体のシームレステクスチャ付き3次元モデルの自動生成システム  [通常講演]

  猪瀬 健二; 榎本 和史; 川崎 洋; 古川 亮

  第11回 画像の認識・理解シンポジウム論文集(MIRU2008論文集) 2008年07月 ポスター発表
• ワンショットスキャンによる動物体の密な3次元形状復元手法  [通常講演]

  古川 亮; 川崎 洋; 佐川 立昌; 八木 康史

  第11回 画像の認識・理解シンポジウム論文集(MIRU2008論文集) 2008年07月 口頭発表（一般）
• Improved Space Carving Method for Merging and Interpolating Multiple Range Images Using Information of Light Sources of Active Stereo  [通常講演]

  R. Furukawa; T. Itano; A. Morisaka; H. Kawasaki

  COMPUTER VISION-ACCV2007, 8th Asian Conference on Computer Vision, LNCS 4844 2007年11月 口頭発表（一般）
• Shape Reconstruction from Cast Shadows Using Coplanarities and Metric Constraints  [通常講演]

  H. Kawasaki; R. Furukawa

  COMPUTER VISION-ACCV2007, 8th Asian Conference on Computer Vision, LNCS 4844 2007年11月 口頭発表（一般）
• Geometrical constraint based 3D reconstruction using implicit coplanarities  [通常講演]

  R. Furukawa; H. Kawasaki

  Proceedings of British Machine Vision Conference 2007 (BMVC2007) 2007年09月 口頭発表（一般）
• Shape-merging and interpolation using class estimation for unseen voxels with a GPU-based efficient implementation  [通常講演]

  Ryo Furukawa; Tomoya Itano; Akihiko Morisaka; Hiroshi Kawasaki

  Proceedings of the Sixth International Conference on 3-D Digital Imaging and Modeling (3DIM 2007) 2007年08月 口頭発表（一般）
• Dense 3D Reconstruction method using Coplanarities and Metric Constraints for Line Laser Scanning  [通常講演]

  Hiroshi Kawasaki; Ryo Furukawa

  Proceedings of the Sixth International Conference on 3-D Digital Imaging and Modeling (3DIM 2007) 2007年08月 口頭発表（一般）
• 詳細形状の保存を考慮した距離画像からの雑音除去  [通常講演]

  原田真治; 古川亮; 川崎洋

  画像の認識・理解シンポジウム(MIRU2007) 2007年07月 ポスター発表
• 未観測ボクセルのクラス推定を用いた形状の統合及び補間手法とGPUを用いた高速な実装  [通常講演]

  板野友哉; 森栄晃彦; 古川亮; 川崎洋

  画像の認識・理解シンポジウム(MIRU2007) 2007年07月 口頭発表（一般）
• プロジェクタ・カメラを用いた3次元計測システムにおける複数形状計測時の誤差最小化による精度向上手法  [通常講演]

  榎本和史; 川崎洋; 古川 亮

  画像の認識・理解シンポジウム(MIRU2007) 2007年07月 口頭発表（一般）
• 全周3次元モデル生成のための複数テクスチャのシームレスな合成手法  [通常講演]

  猪瀬健二; 榎本和史; 川崎洋; 古川亮

  画像の認識・理解シンポジウム(MIRU2007) 2007年07月 口頭発表（一般）
• 共面性情報を用いた影による自由曲面形状の復元手法  [通常講演]

  川崎洋; 古川亮

  画像の認識・理解シンポジウム(MIRU2007) 2007年07月 口頭発表（一般）
• 3D acquisition system using uncalibrated line-laser projector  [通常講演]

  Hiroshi Kawasaki; Ryo Furukawa

  International Conference on Pattern Recognition 2006 2006年08月 ポスター発表
• ラインレーザの自己校正による3次元復元手法 -アクティブ3次元計測における最小構成システムについての提案-  [通常講演]

  川崎 洋; 古川 亮; 中村 泰明

  画像の認識・理解シンポジウム(MIRU2006) 2006年07月 口頭発表（一般）
• Self-calibration of multiple laser planes for 3D scene reconstruction  [通常講演]

  Ryo Furukawa; Hiroshi Kawasaki

  Third International Symposium on 3D Data Processing, Visualization and Transmission(3DPVT 2006) 2006年06月 ポスター発表
• Dense 3D reconstruction with an uncalibrated active stereo system  [通常講演]

  Hiroshi Kawasaki; Yutaka Ohsawa; Ryo Furukawa; Yasuaki Nakamura

  LNCS 3851, the 7th Asian Conference on Computer Vision (ACCV06) 2006年01月 口頭発表（一般）
• Synthesis of Textures with Intricate Geometries using BTF and Large Number of Textured Micropolygons  [通常講演]

  Ryo Furukawa; Masaharu Harada; Yasuaki Nakamura; Hiroshi Kawasaki

  Proc. of Texture 2005, The 4th international workshop on texture analysis and synthesis in conjunction with ICCV2005 2005年10月 口頭発表（一般）
• 空間コード化法を用いた未校正ステレオシステムによる 密な3次元形状復元  [通常講演]

  川崎洋; 大澤裕; 古川亮

  画像の認識・理解シンポジウム(MIRU2005) 2005年07月 口頭発表（一般）
• Uncalibrated multiple image stereo system with arbitrary movable camera and projector for wide range scanning  [通常講演]

  Ryo Furukawa; Hiroshi Kawasaki

  Proceedings of the 5th International Conference on 3-D Digital Imaging and Modeling (3DIM 2005) 2005年06月 口頭発表（一般）
• Dense 3D Reconstruction with an Uncalibrated Stereo System using Coded Structured Light  [通常講演]

  Ryo Furukawa; Hiroshi Kawasaki

  International Workshop on Projector-Camera Systems (PROCAMS 2005) 2005年06月 口頭発表（一般）
• Combined use of 2D images and 3D models for retrieving and browsing digital archive contents  [通常講演]

  R. Kadobayashi; R. Furukawa

  Proc. Int. Conf. on Videometrics 2005年01月 口頭発表（一般）
• 回転台を用いた3次元形状の全周リアルタイム獲得システム  [通常講演]

  角野 裕樹; 川崎 洋; 大沢 裕; 古川 亮

  画像の認識・理解シンポジウム(MIRU2004) 2004年07月 ポスター発表
• 3次元形状データの考古学スケッチ風レンダリング  [通常講演]

  水口 隆介; 古川 亮; 門林 理恵子

  画像の認識・理解シンポジウム(MIRU2004) 2004年07月 ポスター発表
• Error Analysis of 3D Measurement System based on Sensitivity of Measuring Conditions  [通常講演]

  Ryo Furukawa; Hiroshi Kawasaki

  Proc. of 6th Asian Conference on Computer Vision(ACCV2004) 2004年01月 口頭発表（一般）
• Interactive Shape Acquisition using Marker Attached Laser Projector  [通常講演]

  R. Furukawa; H. Kawasaki

  Proc. of 4th International Conference on 3-D Digital Imaging and Modeling (3DIM2003) 2003年10月 口頭発表（一般）
• Removal of Shadows and Shadings from Texture Images for Archiving Historical Ruins  [通常講演]

  R. Furukawa; Y. Kiuchi; R. Kadobayashi

  Proc. of ISPRS Internatnional Workshop by WG V/4 & IC WG III/V "Vision Techniques for Digital Architectural and Archaeological Archives" 2003年10月 口頭発表（一般）
• Image-based approach for modeling, deformation, and synthesis of real objects  [通常講演]

  Ryo Furukawa; Hiroshi Kawasaki; Ryunosuke Kawatsu; Masao Sakauchi

  画像の認識・理解シンポジウム(MIRU2002) 論文集 2002年07月 口頭発表（一般）
• Appearance Based Object Modeling using Texture Database: Acquisition, Compression and Rendering  [通常講演]

  R. Furukawa; H. Kawasaki; R. Kawatsu; D. Miyazaki; K. Ikeuchi; M. Sakauchi

  Rendering techniques 2002, Eurographics Workshop Proceedings 2002年06月 口頭発表（一般）
• Acquiring Bidirectional Texture Function for Image Synthesis of Deformed Objects  [通常講演]

  R. Furukawa; H. Kawasaki; K. Ikeuchi

  Proc. of Fifth Asian Conference on Computer Vision(ACCV2002) 2002年01月 ポスター発表
• 白内障手術シミュレーションシステム  [通常講演]

  田中純; 仁井谷 智恵; 児島 彰; 古川亮; 藤野 清次; 中村 泰明

  画像の認識・理解シンポジウム(MIRU2000) 論文集 2000年07月 ポスター発表
• Spatio-temporal Data Management for Moving Objects Using the PMD-tree  [通常講演]

  Y. Nakamura; H. Dekihara; R. Furukawa

  Proc. of the International Workshops on New Database Technologies for Collaborative Work Support \& Spatio-Temporal Data 1998年07月 口頭発表（一般）
• ATMIQ: Active Tubes in Multiscale Image Queue  [通常講演]

  R. Furukawa; M. Imai; T. Uno

  Proceedings of 13th International Conference on Pattern Recognition 1996年08月 ポスター発表
• Robust Algorithm for Motion Analysis Based on Active Tubes  [通常講演]

  R. Furukawa; M. Imai; T. Uno

  Proceedings of WorkShop on Motion of Non-Rigid and Articulated Objects 1994年11月 ポスター発表

MISC

• アクティブステレオ法を用いた3次元内視鏡システムの開発

  古川 亮 精密工学会誌 87 (12) 917 -921 2021年12月 [招待有り]
  
• 深層学習を利用した能動ステレオ法による3次元内視鏡システム—3D endoscope system based on active stereo using deep learning

  古川 亮 画像ラボ / 画像ラボ編集委員会 編 32 (12) 38 -43 2021年12月 [招待有り]
  
• 超高速・微細形状・極端環境における高精度アクティブ3次元計測の挑戦

  川崎 洋; 古川 亮; 佐川 立昌 精密工学会誌 87 (8) 656 -661 2021年08月
• 深層学習を利用した能動ステレオ法

  古川 亮 精密工学会誌 87 (2) 179 -181 2021年02月
• 高速・小型・高精度・水中など極端環境における3次元計測の課題-アクティブ光源による解決レシピ -

  川崎 洋; 古川 亮 精密工学会 画像応用技術専門委員会 2020年度第３回定例研究会 2020年09月
• 時空間レーザースペックルパターンの低次元埋め込みによる物体表面の微小運動の推定

  樋口雄介; 古川 亮; 川崎 洋; 佐川 立昌 第23回画像の認識・理解シンポジウム(MIRU2020) - 2020年08月 [査読有り]
  
• Auto-calibrated 3D endoscope with GCN-based correspondence search

  Ryo Furukawa; Shiro Oka; Takahiro Kotachi; Yuki Okamoto; Shinji Tanaka; Hiroshi Kawasaki 第23回画像の認識・理解シンポジウム (MIRU2020 2020年08月
• MICCAI2019参加報告

  小田昌宏; 伊東隼人; 宮内翔子; 諸岡健一; 松崎博貴; 花岡昇平; 古川亮; 増谷佳孝; 森健策; 森健策 電子情報通信学会技術研究報告 119 (399(MI2019 65-123)(Web)) 2020年
• 構造化光投影を使用した3D内視鏡システムの開発

  古川 亮; 岡 志郎; 田中 信治; 川崎 洋 生体医工学 Annual58 (Abstract) 119 -119 2020年 [招待有り]
  
• CNNを用いた能動ステレオ方式三次元内視鏡 : 機械学習による構造化光パターンの解析

  古川 亮; 川崎 洋 光アライアンス / 光アライアンス編集委員会 編 30 (10) 43 -47 2019年10月 [招待有り]
  
• ３次元内視鏡におけるambient光源にロバストな投影パターン特徴抽出

  古川 亮; 内藤 雅仁; 宮崎 大輔; 馬場 雅志; 日浦 慎作; 岡 志郎; 田中 信治; 川崎 洋 第22回画像の認識・理解シンポジウム 2019年07月
• 疎な構造化光による疎な3次元復元形状のパターン間の陰影学習による高密度化

  岩口 尭史; 栗田 拓弥; 時枝 康大; 古川 亮; 川崎 洋 第22回画像の認識・理解シンポジウム 2019年07月
• 構造化光投影による3次元内視鏡の開発

  古川 亮; 川崎 洋 光技術コンタクト 57 (2) 47 -52 2019年06月 [招待有り]
  
• CNNによる特徴抽出と複数フレームの形状統合による広範囲かつ高精度な3次元内視鏡システム

  古川亮; 内藤雅仁; 溝森将輝; 馬場雅志; 宮崎大輔; 日浦慎作; 岡志郎; 田中信治; 川崎洋 電子情報通信学会技術研究報告 118 (412(MI2018 59-115)(Web)) 2019年
• MICCAI2018参加報告

  小田昌宏; 大竹義人; 伊東隼人; 杉野貴明; 斉藤篤; 古川亮; 大西峻; 井宮淳; 森健策; 森健策 電子情報通信学会技術研究報告 118 (412(MI2018 59-115)(Web)) 2019年
• Underwater accurate shape reconstruction using CNNs

  Kazuto Ichimaru; Ryo Furukawa; Hiroshi Kawasaki 第21回画像の認識・理解シンポジウム 2018年08月
• 能動ステレオ法のためのパターン検出におけるCNNによる複数特徴の同時抽出

  溝森 将輝; 内藤 雅仁; 古川 亮; 馬場 雅志; 宮崎 大輔; 日浦 慎作; 川崎 洋 第21回画像の認識・理解シンポジウム 2018年08月
• Improvement of image quality by using viewpoint following in multi-layer light field display

  Ryo Furukawa; Tsukasa Tadano; Shinsaku Hiura; Hiroshi Kawasaki 3D Image Acquisition and Display: Technology, Perception and Applications: OSA imaging congress 2018年06月 [査読有り]
  
• Grid-based oneshot scan using dot-line pattern

  Ryo Furukawa; Hiroshi Kawasaki 3D Image Acquisition and Display: Technology, Perception and Applications: OSA imaging congress 2018年06月 [査読有り]
  
• Grid-pattern feature detection technique using U-Nets for 3D endoscope

  古川 亮; 川崎 洋 第21回画像の認識・理解シンポジウム - 2018年 [査読有り]
  
• "Intra-frame motion encoding using high-fps structured light for temporal shape super-resolution"

  小野 智司; 古川 亮; 日浦 慎作; 川崎 洋 第20回画像の認識・理解シンポジウム(MIRU2017)論文集 (口頭発表) - 2017年 [査読有り]
  
• "Depth and motion estimation from projected pattern's flow on object's surface"

  古川 亮; 川崎 洋 第20回画像の認識・理解シンポジウム（MIRU2017）論文集 (口頭発表) - 2017年 [査読有り]
  
• 構造化光投影による3次元計測の分類とワンショット動体形状計測法

  川崎 洋; 古川 亮 形の科学会誌 31 65 -76 2016年 [査読有り]
  
• エンタテインメント メタメリズムアート制作のための油絵の具の混合比率推定

  宮崎 大輔; 馬場 雅志; 古川 亮 画像ラボ 26 (6) 20 -27 2015年06月
• 事例ベース推論と自己適応型差分進化による反射特性パラメータの推定手法

  松ヶ野 祐紀; 小野 智司; 川崎 洋; 福田 悠人; 古川 亮 情報処理学会研究報告. CVIM, [コンピュータビジョンとイメージメディア] 2015 (10) 1 -8 2015年01月
• 拡散反射成分と鏡面反射成分の定義に基づく分離

  日浦 慎作; 河野 陽葉; 宮崎 大輔; 馬場 雅志; 古川 亮; 青山 正人 情報処理学会研究報告. CVIM, [コンピュータビジョンとイメージメディア] 2015 (25) 1 -7 2015年01月
• スタティックなWaveパターンとバンドル調整法による水中アクティブワンショット

  森永寛紀; 馬場博久; 三鴨道弘; ビゼンティーニスカルツァネッラ マルコ; 川崎洋; 古川亮; 佐川立昌 情報処理学会研究報告(Web) 2015 (CVIM-199) 2015年
• 多視点プロジェクタ・カメラの可視判定を用いたロバストな全周3次元メッシュ再構築手法

  三鴨道弘; 沖佳憲; SCARZANELLA Marco Visentini; 川崎洋; 古川亮; 佐川立昌 情報処理学会研究報告(Web) 2015 (CVIM-199) 2015年
• 擬似的な陰影を知覚させる油絵の具の混合

  宮崎大輔; 實重貴文; 馬場雅志; 古川亮; 青山正人; 日浦慎作 研究報告コンピュータビジョンとイメージメディア（CVIM） 2014 (15) 1 -8 2014年11月
• タブレツト端末による原爆ドームとCGの実時間マーカレス位置合わせ

  坪石健志; 馬場雅志; 日浦慎作; 宮崎大輔; 青山正人; 古川亮 研究報告グラフィクスとCAD（CG） 2014 (10) 1 -2 2014年06月
• 小型パターン投光器を利用した能動ステレオによる3次元内視鏡システムの開発

  古川亮; 青木広宙; 青山正人; 日浦慎作; 小南陽子; 佐野村洋次; 吉田成人; 田中信治; 佐川立昌; 川崎洋 映像情報メディカル 46 (6) 596 -600 2014年06月 [招待有り]
  
• アクティブステレオによる3次元形状復元を用いた心臓の機械現象の可視化

  青木広宙; 古川亮; 佐川立昌; 川崎洋; 鈴木敦; 志賀剛 映像情報メディカル 46 (4) 76 -80 2014年04月 [招待有り]
  
• D-12-29 ボーンからの高さマップに基づく人体表面形状運動の時系列表現(D-12.パターン認識・メディア理解B(コンピュータビジョンとコンピュータグラフィックス),一般セッション)

  清水 幹也; 古川 亮; 宮崎 大輔; 馬場 雅志; 青山 正人; 日浦 慎作; 佐川 立昌; 川崎 洋 電子情報通信学会総合大会講演論文集 2014 (2) 104 -104 2014年03月
• 焦点距離の異なる複数パターンを投影可能なプロジェクタによるDepth from Defocus手法

  益山仁; 川崎洋; 古川亮 情報処理学会研究報告. CVIM, [コンピュータビジョンとイメージメディア] 2014 (18) 1 -8 2014年02月
• プロジェクタ・カメラシステムによるワンショット計測に最適なモノクロパターンに関する検討

  森永寛紀; 川崎洋; 益山仁; 小野智司; 古川亮 情報処理学会研究報告. CVIM, [コンピュータビジョンとイメージメディア] 2014 (19) 1 -8 2014年02月
• テクスチャの影響の軽減によるロバストな多視点プロジェクタ・カメラを用いた全周形状計測システム

  沖佳憲; ThibaultYohan; 赤木康宏; 古川亮; 佐川立昌; 川崎洋 情報処理学会研究報告. CVIM, [コンピュータビジョンとイメージメディア] 2014 (20) 1 -8 2014年02月
• 実3次元物体の表面反射特性推定における最適化アルゴリズムの性能比較

  松ヶ野 祐紀; 小野 智司; 川崎 洋; 福田 悠人; 古川 亮 電気関係学会九州支部連合大会講演論文集 2014 536 -537 2014年
• グリッド能動ステレオによる三次元形状復元を用いた心拍と呼吸の分離抽出と心拍の可視化に関する検討

  青木広宙; 古川亮; 佐川立昌; 川崎洋; 鈴木敦; 志賀剛 精密工学会誌(Web) 80 (12) 2014年
• 疎な3次元形状を制約条件とした未校正照度差ステレオ法による密な3次元形状の推定

  上川智幸; 宮崎大輔; 馬場雅志; 古川亮; 青山正人; 日浦慎作 情報処理学会研究報告. グラフィクスとCAD研究会報告 2013 (5) 1 -6 2013年11月
• 複数プロジェクタ・カメラを用いた波線グリッドパターン投影によるワンショット全周計測

  糟谷望; 佐川立昌; 古川亮; 川崎洋 研究報告コンピュータビジョンとイメージメディア（CVIM） 2013 (4) 1 -6 2013年11月
• 周期性を考慮したFFDによる心電図同期心臓CT画像の動態解析—Dynamic analysis of ECG-gated cardiac CT image using periodicity-aware FFD—医用画像

  浜岡 裕之; 古川 亮; 青山 正人 電子情報通信学会技術研究報告 = IEICE technical report : 信学技報 113 (281) 11 -16 2013年11月
• アクティブステレオ画像計測を応用した医用生体計測(特別講演,画像による生体計測)

  青木 広宙; 川崎 洋; 佐川 立昌; 古川 亮 電子情報通信学会技術研究報告. MI, 医用画像 113 (281) 23 -23 2013年10月
• 5-1 進化計算による実3次元物体の表面反射特性パラメータの推定(第5部門映像表現&CG)

  松ヶ野 祐紀; 古川 亮; 小野 智司; 福田 悠人; 川崎 洋; 久野 義徳 映像情報メディア学会年次大会講演予稿集 (2013) 5 -1-1-"5-1-2" 2013年08月
• 2012年度論文賞の受賞論文紹介：パターン投光による全周囲形状計測システムへのチャレンジ

  古川 亮; 佐川 立昌; 川崎 洋; 阪下 和弘; 八木 康史; 浅田 尚紀 情報処理 54 (8) 824 -824 2013年07月
• 波線パターン投影による高速表面形状計測,

  糟谷望; 阪下和弘; 佐川立昌; 古川亮; 川崎洋 日本工学出版（株） 検査技術 18 (5) 16 -21 2013年05月
• ARマーカーと平面版を用いた簡易なプロジェクタキャリブレーション手法の提案

  清田祥太; 川崎洋; 古川亮; 佐川立昌 研究報告コンピュータビジョンとイメージメディア（CVIM） 2013 (24) 1 -8 2013年03月
• 2光源・3物体色間におけるメタメリズム生起のための絵の具の調合

  宮崎大輔; 高橋可菜実; 馬場雅志; 青木広宙; 古川亮; 青山正人; 日浦慎作 Visual Computing/グラフィクスとCAD合同シンポジウム予稿集(CD-ROM) 2013 2013年
• 心電図同期心臓CT画像における壁厚計測のための対応点追跡の評価

  中鷹良; 青山正人; 青木広宙; 宮崎大輔; 古川亮; 馬場雅志; 日浦慎作 電気・情報関連学会中国支部連合大会講演論文集(CD-ROM) 64th 2013年
• グリッドアクティブステレオによる三次元画像計測を用いた心拍と呼吸の分離抽出と可視化

  青木広宙; 古川亮; 佐川立昌; 川崎洋; 鈴木敦; 志賀剛 ViEWビジョン技術の実利用ワークショップ講演論文集(CD-ROM) 2013 2013年
• 能動ステレオ法に基づく三次元内視鏡システムの校正手法

  古川亮; 青木広宙; 西谷維心; 青山正人; 日浦慎作; 小南陽子; 松尾泰治; 吉田成人; 田中信治; 佐川立昌; 川崎洋 ViEWビジョン技術の実利用ワークショップ講演論文集(CD-ROM) 2013 2013年
• 波線パターン投影による高速表面形状計測

  糟谷望; 阪下和弘; 佐川立昌; 古川亮; 川崎洋 検査技術 18 (5) 16 -21 2013年
• 共面性条件による3次元復元とbas-relief変換について

  古川亮; 川崎洋; 佐川立昌 研究報告コンピュータビジョンとイメージメディア（CVIM） 2012 (4) 1 -7 2012年11月
• 輝度差の最小化に基づく画像の非剛体位置合わせ

  浜岡 裕之; 古川 亮; 青山 正人; 馬場 雅志; 宮崎 大輔; 青木 広宙; 日浦 慎作 研究報告コンピュータビジョンとイメージメディア（CVIM） 2012 (6) 1 -8 2012年05月
• 招待講演：Web上における大規模データの効率的構築および有効利用に関する試み

  川崎 洋; 河合 由起子; 古川 亮; 小野 晋太郎; 池内 克史 研究報告コンピュータビジョンとイメージメディア（CVIM） 2012 (1) 1 -8 2012年03月
• アクティブ3次元センサを用いた簡易型非接触呼吸計測

  青木 広宙; 宮崎 雅樹; 仲村 秀俊; 古川 亮; 佐川 立昌; 川崎 洋 電子情報通信学会技術研究報告. MBE, MEとバイオサイバネティックス 111 (482) 101 -106 2012年03月
• 平面板を用いたプロジェクタの効率的なキャリブレーション手法の提案

  清田 祥太; 川崎 洋; 古川 亮; 佐川 立昌 研究報告コンピュータビジョンとイメージメディア（CVIM） 2012 (35) 1 -8 2012年01月
• 全周囲形状計測システムにおける機器配置の評価

  平田信吾; 古川亮; 日浦慎作; 青山正人; 青木広宙; 佐川立昌; 川崎洋 知能メカトロニクスワークショップ講演論文集(CD-ROM) 17th 2012年
• アクティブステレオ画像センサを用いた拍動波形検出の提案

  青木広宙; 古川亮; 青山正人; 日浦慎作; 佐川立昌; 川崎洋 電気学会電子・情報・システム部門大会講演論文集(CD-ROM) 2012 2012年
• 球面調和関数に基づく心筋運動のパラメータ変換の試み

  高谷一眞; 青山正人; 古川亮; 青木広宙; 宮崎大輔; 日浦慎作; 浅田尚紀 ViEWビジョン技術の実利用ワークショップ講演論文集(CD-ROM) 2012 2012年
• モデリングによる原爆ドームのドーム形状の解析

  村上涼平; 古川亮; 青木広宙; 青山正人; 馬場雅志; 宮崎大輔; 日浦慎作; 浅田尚紀 ViEWビジョン技術の実利用ワークショップ講演論文集(CD-ROM) 2012 2012年
• Kinectを用いた非接触呼吸計測に関する基礎的検討

  青木広宙; 宮崎雅樹; 仲村秀俊; 古川亮; 佐川立昌; 川崎洋 画像センシングシンポジウム講演論文集(CD-ROM) 18th 2012年
• Pseudo-Hapticsによるゲーム用インタフェースにおける運動ならびに筋電図の同時解析

  青木広宙; 追坂則弘; 松本浩伸; 平田正幸; 追坂明美; 内田泰則; 吉野智昭; 古川亮 電子情報通信学会技術研究報告 111 (464(HCS2011 65-87)) 2012年
• 単色波線グリッドパターンを用いたプロジェクタ・カメラ能動ステレオ(立体映像技術一般)

  糟谷 望; 阪下 和弘; 佐川 立昌; 古川 亮; 川崎 洋 映像情報メディア学会技術報告 36 (0) 13 -16 2012年
• 3次元物体の複数の形状特徴量を用いたグローバル位置合わせ手法

  澤井陽輔; 岩村昂; 石川雅浩; 中島章博; 古川亮; 小野智司; 中山茂; 川崎洋 画像の認識・理解シンポジウム(MIRU2011)論文集 2011 1391 -1396 2011年07月
• 3次元形状を含むシーンにおける手ぶれ映像の超解像処理

  松下侑輝; 福元伸也; 川崎洋; 山口拓真; 古川亮; 福田悠人 画像の認識・理解シンポジウム(MIRU2011)論文集 2011 951 -958 2011年07月
• 連続画像における強いむらのあるヘイズ除去手法の提案

  福元伸也; 松元貴寛; 川崎洋; 古川亮; 福田悠人; 山口拓真 画像の認識・理解シンポジウム(MIRU2011)論文集 2011 1111 -1118 2011年07月
• 平行線投影を用いた連続領域の検出による高密度なワンショット形状復元

  佐川立昌; 川崎洋; 古川亮; 清田祥太 画像の認識・理解シンポジウム(MIRU2011)論文集 2011 416 -423 2011年07月
• 近赤外グリッドパターンを用いたテクスチャ付き形状のワンショット計測法

  阪下和弘; 佐川立昌; 古川亮; 川崎洋; 八木康史 画像の認識・理解シンポジウム(MIRU2011)論文集 2011 1494 -1501 2011年07月
• 複数のプロジェクタ・カメラを用いた形状計測システムにおける未復元投影パターンの再推定

  師岡大志; 古川亮; 川崎洋; 佐川立昌; 日浦慎作; 浅田尚紀 画像の認識・理解シンポジウム(MIRU2011)論文集 2011 1318 -1325 2011年07月
• 赤外光源を用いた2プロジェクタワンショットスキャンによる形状計測システム

  清田祥太; 坂口裕一; 小野智司; 中山茂; 川崎洋; 古川亮; 佐川立昌 画像の認識・理解シンポジウム(MIRU2011)論文集 2011 976 -983 2011年07月
• 多視点プロジェクタ・カメラシステムによる動的シーンの再構成手法

  清田祥太; 川崎洋; 古川亮; 佐川立昌 画像の認識・理解シンポジウム(MIRU2011)論文集 2011 488 -495 2011年07月
• 心電図同期心臓CT画像における心筋の動態解析のためのFFD正則化パラメータの検討

  生藤雅俊; 鈴木雄策; 青山正人; 古川亮; 日浦慎作; 浅田尚紀; 國田英司; 山本秀也; 木原康樹 画像の認識・理解シンポジウム(MIRU2011)論文集 2011 290 -297 2011年07月
• 口唇領域の抽出と認識による発話検出

  甲斐 寛規; 宮崎 大輔; 古川 亮; 青山 正人; 日浦 慎作; 浅田 尚紀 研究報告コンピュータビジョンとイメージメディア（CVIM） 2011 (13) 1 -8 2011年05月
• チュートリアル：動物体のアクティブ3次元計測

  川崎 洋; 佐川 立昌; 古川 亮 研究報告コンピュータビジョンとイメージメディア（CVIM） 2011 (30) 1 -11 2011年05月
• 近赤外ワンショット形状計測による動体3D映像撮影

  阪下 和弘; 佐川 立昌; 古川 亮; 川崎 洋; 八木 康史 研究報告コンピュータビジョンとイメージメディア（CVIM） 2011 (22) 1 -8 2011年03月
• 手ぶれビデオ映像からの超解像処理手法の提案

  山口 拓真; 福田 悠人; 古川 亮; 川崎 洋; 久野 義徳; STURM Peter 電子情報通信学会技術研究報告. PRMU, パターン認識・メディア理解 110 (296) 53 -58 2010年11月
• 実3次元物体の表面反射特性パラメータの効率的推定手法

  福田 悠人; 川崎 洋; 久野 義徳; 古川 亮 研究報告コンピュータビジョンとイメージメディア（CVIM） 2010 (8) 1 -8 2010年05月
• デブルーイン系列と Belief-Propagation を用いた高密度ラインパターン検出による高速動体の3次元計測手法

  佐川 立昌; 大田 雄也; 古川 亮; 川崎 洋; 八木 康史 電気学会研究会資料. GID, 一般産業研究会 2009 (1) 47 -52 2009年12月
• M-033 Web 3次元オブジェクトを用いた物体認識に関する検討(ユビキタス・モバイルコンピューティング,一般論文)

  石川 雅浩; 下野 博; 鈴木 崇之; 古川 亮; 川崎 洋; 河合 由起子 情報科学技術フォーラム講演論文集 8 (4) 315 -318 2009年08月
• プロジェクタ・カメラシステムの移動計測による高精度な全周形状復元手法

  石川 雅浩; 川崎 洋; 古川 亮 電子情報通信学会技術研究報告. PRMU, パターン認識・メディア理解 109 (88) 25 -30 2009年06月
• 視点依存テクスチャマッピングのための非類似度最小化に基づく画像補間

  古川 亮; 平松 淳也; 浅田 尚紀 電子情報通信学会技術研究報告. PRMU, パターン認識・メディア理解 109 (88) 95 -100 2009年06月
• グリッドパターンを用いたワンショットスキャンによるリアルタイムな人体計測システム

  川崎 俊央; 川崎 洋; 古川 亮; 大田 雄也; 佐川 立昌; 八木 康史 電子情報通信学会技術研究報告. PRMU, パターン認識・メディア理解 109 (88) 43 -48 2009年06月
• 切削器具の形状と切削の方向特性を考慮した力覚提示による仮想彫刻

  小川 文夫; 馬場 雅志; 古川 亮; 宮崎 大輔; 椋木 雅之; 浅田 尚紀 画像電子学会年次大会予稿集 37 121 -122 2009年
• IEEE Computer Society Conference on Computer Vision and Pattern Recognition（CVPR2008）報告

  川崎 洋; 清水 雅夫; 高松 淳; 田中 正行; 中澤 篤志; 延原 章平; 古川 亮; 労世紅; 八木 康史 情報処理学会研究報告コンピュータビジョンとイメージメディア（CVIM） 2008 (115) 145 -152 2008年11月
• 改良されたspace carving法による形状の統合と穴埋め－アルゴリズムとGPUによる実装－

  古川 亮; 板野 友哉; 森栄 晃彦; 川崎 洋 情報処理学会研究報告グラフィクスとCAD（CG） 2007 (84) 13 -18 2007年08月
• 自己校正によるアクティブ3次元計測手法の紹介--ラインレーザと1台のカメラだけからなるハンドヘルド型3次元計測装置の開発

  古川 亮; 川崎 洋 画像ラボ 18 (8) 41 -45 2007年08月
• 全周3次元モデル生成のための複数テクスチャのシームレスな合成手法

  猪瀬 健二; 榎本 和史; 川崎 洋; 古川 亮 画像の認識・理解シンポジウム (MIRU2007) 2007年07月 [査読有り]
  
• 時空間画像解析に関する研究紹介 動画像解析から多次元画像解析まで

  川崎 洋; 古川 亮 情報処理学会研究報告コンピュータビジョンとイメージメディア（CVIM） 2007 (1) 69 -76 2007年01月
• プロカム3D : ソフトウェアベースの3次元スキャナ

  小谷 朋宏; 猪瀬 健二; 古川 亮; 川崎 洋 日本バーチャルリアリティ学会誌 = Journal of the Virtual Reality Society of Japan 11 (4) 272 -273 2006年12月
• 共面性とメトリックな制約を用いた3次元再構成

  古川 亮; 川崎 洋 情報処理学会研究報告コンピュータビジョンとイメージメディア（CVIM） 2006 (115) 85 -92 2006年11月
• 第10回コンピュータビジョン国際会議ICCV2005報告

  古川 亮; 川崎 洋; 宮崎 大輔; 佐藤 智和; 内海 章; 佐藤洋一; 加藤丈和; 三田 雄志; 中澤 篤志; 菅谷 保之; 杉本 晃宏; 和田 俊和 情報処理学会研究報告コンピュータビジョンとイメージメディア（CVIM） 2006 (25) 421 -430 2006年03月
• ラインレーザの自己校正による3次元復元手法 -アクティブ3次元計測における最小構成システムについての提案-

  川崎 洋; 古川 亮; 中村 泰明 画像の認識・理解シンホジワム (MIRU 2006) 142 -148 2006年
• リアルタイム3次元形状計測装置

  菅生 宏一; 古川 亮; 川崎 洋 映像情報メディア学会誌 : 映像情報メディア = The journal of the Institute of Image Information and Television Engineers 59 (7) 959 -961 2005年07月
• 事例紹介

  内田 龍男; 北村 喜文; 菅生 広一; 古川 亮; 川崎 洋; 有澤 博; 田中 譲 映像情報メディア学会誌 59 (7) 953 -968 2005年
• 遺跡の3次元モデルをガイドにした写真検索・閲覧手法の提案

  門林 理恵子; 古川 亮 じんもんこん2004論文集 2004 221 -228 2004年12月
• J-020 ハードウェアを用いた実時間描画を実現するためのBTF合成手法(J.グラフィクス・画像)

  徐 慶大; 川崎 洋; 古川 亮; 大澤 裕 情報科学技術フォーラム一般講演論文集 3 (3) 247 -248 2004年08月
• 遺跡アーカイブのためのテクスチャ画像からの影およびシェーディングの除去

  古川 亮; 木内 豊; 門林 理恵子 電子情報通信学会技術研究報告. PRMU, パターン認識・メディア理解 103 (389) 25 -30 2003年10月
• 物体形状の変形が可能な Image-based Rendering 手法

  古川 亮; 川崎 洋; 高橋 聡; 池内 克史; 坂内 正夫 電子情報通信学会技術研究報告. PRMU, パターン認識・メディア理解 102 (156) 67 -74 2002年06月
• 白内障手術シミュレーション : その1

  仁井谷 智恵; 中村 泰明; 古川 亮; 藤野 清次; 児島 彰 全国大会講演論文集 58 211 -212 1999年03月
• 白内障手術シミュレーションシステムの開発 : その2

  田中 純; 児島 彰; 藤野 清次; 古川 亮; 中村 泰明 全国大会講演論文集 58 213 -214 1999年03月
• Active Tubesによる動画像解析のためのロバストなアルゴリズム

  古川 亮; 今井 正和; 烏野 武 全国大会講演論文集 49 133 -134 1994年09月
• 概念図理解を目的としたパターン情報と自然言語情報の統合

  中村; 古川 亮; 長尾 真 信学技報,AI93-67 59 -66 1993年

産業財産権

• 特開2022-44393:画像分析方法および画像分析装置  2022年03月17日

  佐川 立昌, 川崎 洋, 樋口 雄介, 古川 亮
• 特許6969739:位置情報取得システム、位置情報取得方法及びプログラム  

  小野 智司, 川崎 洋, 芝 優希, 日浦 慎作, 古川 亮
• 特許6752468:３次元形状計測装置及び３次元形状計測方法  

  古川 亮, 川崎 洋
• 特許6717488:投影システム、投影方法、パターン生成方法及びプログラム  

  川崎 洋, 益山 仁, マルコ, ヴィゼンティーニ, スカルツァネッラ, 蛭川 琢斗, 日浦 慎作, 古川 亮
• 特許6656611:３次元形状計測装置、診断システム及び３次元形状計測方法  

  古川 亮, 佐川 立昌, 川崎 洋, マルコ, ヴィゼンティーニ, スカルツァネッラ, 吉田 成人
• 特許6014846:呼吸計測方法および装置  

  青木 広宙, 古川 亮, 佐川 立昌, 川崎 洋
• 特許5317169:画像処理装置、画像処理方法およびプログラム  

  川崎 洋, 古川 亮, 佐川 立昌, 八木 康史
• 特許5761750:画像処理方法および装置  

  佐川 立昌, 古川 亮, 川崎 洋
• 特許6097903:３次元形状の取得装置、処理方法およびプログラム  

  川崎 洋, 古川 亮, 佐川 立昌
• 特開2011-242183:画像処理装置、画像処理方法およびプログラム  2011年12月01日

  古川 亮, 川崎 洋, 佐川 立昌, 八木 康史
• 特開2011-180793:３次元オブジェクト検索システム、３次元オブジェクト検索方法、３次元オブジェクト検索プログラム、および、当該プログラムを記録したコンピュータ読み取り可能な記録媒体  2011年09月15日

  川崎 洋, 石川 雅浩, 河合 由起子, 古川 亮
• 特開2009-32123:画像処理装置、画像処理方法およびプログラム  2009年02月12日

  古川 亮, 川崎 洋
• 特許5120926:画像処理装置、画像処理方法およびプログラム    2007年07月27日

  古川 亮, 川崎 洋
• 特許3624353:３次元形状計測方法およびその装置  

  川崎 洋, 古川 亮
• 特許3601031:画像データ計測装置及び画像データを用いた対象物体の自由変形を含む任意視点画像作成方法  

  川崎 洋, 古川 亮

受賞

• 2017年09月 KUKA Best Paper Award MICCAI 2017 3rd Place
  
• 2017年08月 MIRUフロンティア賞
  
• 2017年03月 IEEE Winter Conference on Applications of Computer Vision, Best Paper Honorable Mention
   international_society
• 2016年04月 生体医工学 平成27年度日本生体医工学会論文賞・阪本賞
   グリッドアクティブステレオを用いた三次元消化器内視鏡におけるキャリブレーション手法 official_journal 

  受賞者: 青木広宙;古川 亮;西谷 維心;青山 正人;日浦 慎作;小南 陽子;松尾 泰治;吉田 成人;田中 信治;佐川 立昌;川崎 洋
• 2015年10月 Miccai International Workshop on Computer-Assisted and Robotic Endoscopy (CARE) Best paper award - runner up.
   international_society 

  受賞者: Marco Visentini-Scarzanella;Tatsuya Hanayama;Ryunosuke Masutani;Shigeto Yoshida;Yoko Kominami;Yoji Sanomura;Shinji Tanaka;Ryo Furukawa;Hiroshi Kawasaki
• 2014年10月 IEVC2014, Gold prize Best Paper Award)
   international_society 

  受賞者: Tatsuya Hanayama;Shota Kiyota;Ryo Furukawa;Hiroshi Kawasaki
• 2014年07月 MIRU優秀論文賞
   japan_society 

  受賞者: Hitoshi Masuyama;Hiroshi Kawasaki;Furukawa Ryo
• 2014年 情報処理学会 山下記念研究賞
   "プロジェクタ・カメラシステムによるワンショット計測に最適なモノクロパターンに関する検討" japan_society 

  受賞者: 森永寛紀;川崎洋;益山仁;小野智司;古川亮
• 2012年 IPSJ IPSJ Transactions on CVA Outstanding Paper Award
   

  受賞者: Ryo Furukawa;Ryusuke Sagawa;Hiroshi Kawasaki;Kazuhiro Sakashita;Yasushi Yagi;Naoki Asada
• 2011年07月 画像の認識・理解シンポジウム(Meeting on Image Recognition and Understanding, MIRU 2011) MIRU長尾賞
   平行線投影を用いた連続領域の検出による高密度なワンショット形状復元
• 2010年11月 The 4th Pacific-Rim Symposium on Image and Video Technology (PSIVT 2010) The Best Paper Award
  
• 2009年12月 電気学会優秀論文発表賞A
   デブルーイン系列とBelief-Propagationを用いた高密度ラインパターン検出による高速動体の 3次元計測手法 japan_society 

  受賞者: 佐川 立昌;大田雄也;古川 亮;川崎 洋;八木康史
• 2007年11月 8th Asian Conference on Computer Vision (ACCV2007) Three Best Papers:Songde Ma Outstanding Paper Award
  
• 2007年08月 第10回 画像の認識・理解シンポジウム(MIRU2007) インタラクティブセッション優秀賞
  
• 2005年07月 MIRU2005 画像の認識・理解シンポジウム，インタラクティブセッション優秀賞
  

委員歴

• 2017年04月 - 2021年03月   情報処理学会 コンピュータビジョンとイメージメディア研究会   運営委員
• 2009年04月 - 2013年03月   情報処理学会 コンピュータビジョンとイメージメディア研究会   運営委員
• 2005年04月 - 2006年03月   情報処理推進機構 未踏ソフトウエア創造事業 16年度上半期「3Dファクスの開発」に共同開発者として参加． 情報処理推進機構 未踏ソフトウエア創造事業16年度上半期「3Dファクスの開発」 共同開発者   情報処理推進機構 未踏ソフトウエア創造事業 16年度上半期「3Dファクスの開発」に共同開発者として参加． 情報処理推進機構 未踏ソフトウエア創造事業16年度上半期「3Dファクスの開発」 共同開発者
• 電子情報通信学会   正員
• 情報処理学会   正会員

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