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Ken'ichi Morooka
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2020 – today
- 2024
- [c43]Caio Azevedo, Sanchayan Santra
, Sudhakar Kumawat
Deep Volume Reconstruction from Multi-focus Microscopic Images. MICCAI (4) 2024: 47-57 - 2023
- [c42]Chujie Chang, Shoko Miyauchi, Ken'ichi Morooka, Ryo Kurazume, Óscar Martínez Mozos
FusionNet: A Frame Interpolation Network for 4D Heart Models. MTSAIL/LEAF/AI4Treat/MMMI/REMIA@MICCAI 2023: 35-44 - 2022
- [c41]Kotaro Mayumi, Takayuki Matsuno, Tetsushi Kamegawa, Ken'ichi Morooka, Takao Hiraki, Yuichiro Toda:
Automatic Puncture Needle Detection by Image Processing Using Deep Learning and CT Values. MHS 2022: 1-6 - [i1]Shoko Miyauchi, Ken'ichi Morooka, Ryo Kurazume:
Isomorphic mesh generation from point clouds with multilayer perceptrons. CoRR abs/2210.14157 (2022) - 2020
- [c40]Bilel Daoud
A Deep Learning-Based Method for Predicting Volumes of Nasopharyngeal Carcinoma for Adaptive Radiation Therapy Treatment. ICPR 2020: 3256-3263
2010 – 2019
- 2019
- [j11]Bilel Daoud
3D segmentation of nasopharyngeal carcinoma from CT images using cascade deep learning. Comput. Medical Imaging Graph. 77 (2019) - [j10]Ken'ichi Morooka
Ancient pelvis reconstruction from collapsed component bones using statistical shape models. Mach. Vis. Appl. 30(1): 59-69 (2019) - [c39]Aoi Shinjo
Spatiotemporal Statistical Model of Anatomical Landmarks on a Human Embryonic Brain. UNSURE/CLIP@MICCAI 2019: 94-103 - [c38]Bilel Daoud
Dose Distribution Prediction for Optimal Treamtment of Modern External Beam Radiation Therapy for Nasopharyngeal Carcinoma. AIRT@MICCAI 2019: 128-136 - [c37]Takahiro Yamaguchi, Hajime Nagahara, Ken'ichi Morooka, Yuta Nakashima, Yuki Uranishi, Shoko Miyauchi, Ryo Kurazume
3D Image Reconstruction from Multi-focus Microscopic Images. PSIVT Workshops 2019: 73-85 - [c36]Ken'ichi Morooka, Xueru Zhang, Shoko Miyauchi, Ryo Kurazume
GAN-Based Method for Synthesizing Multi-focus Cell Images. PSIVT Workshops 2019: 100-107 - 2018
- [c35]Ken'ichi Morooka, Shoko Miyauchi, Xian Chen, Ryo Kurazume
Hexahedron Model Generation of Human Organ by Self-Organizing Deformable Model. WAC 2018: 1-5 - 2016
- [c34]Shoko Miyauchi, Ken'ichi Morooka, Tokuo Tsuji, Yasushi Miyagi, Takaichi Fukuda, Ryo Kurazume
Angle- and volume-preserving mapping of organ volume model based on modified Self-organizing Deformable Model. ICPR 2016: 2204-2209 - [c33]Shoko Miyauchi, Ken'ichi Morooka, Tokuo Tsuji, Yasushi Miyagi, Takaichi Fukuda, Ryo Kurazume
Volume Representation of Parenchymatous Organs by Volumetric Self-organizing Deformable Model. SeSAMI@MICCAI 2016: 39-50 - [c32]Shoko Miyauchi, Ken'ichi Morooka, Tokuo Tsuji, Yasushi Miyagi, Takaichi Fukuda, Ryo Kurazume
A method for mapping tissue volume model onto target volume using volumetric self-organizing deformable model. Medical Imaging: Image Processing 2016: 97842Z - 2015
- [j9]YoonSeok Pyo
Service robot system with an informationally structured environment. Robotics Auton. Syst. 74: 148-165 (2015) - [j8]Tokuo Tsuji, Óscar Martínez Mozos
An Informationally Structured Room for Robotic Assistance. Sensors 15(4): 9438-9465 (2015) - [c31]YoonSeok Pyo, Kouhei Nakashima, Tokuo Tsuji, Ryo Kurazume
Motion planning for fetch-and-give task using wagon and service robot. AIM 2015: 925-932 - [c30]Osama A. Omer
Efficient Resolution Enhancement Algorithm for Compressive Sensing Magnetic Resonance Image Reconstruction. ICIAP (1) 2015: 519-527 - [c29]Tokuo Tsuji, Kosei Baba, Kenji Tahara, Kensuke Harada
Grasp stability evaluation based on energy tolerance in potential field. IROS 2015: 2311-2316 - 2014
- [j7]YoonSeok Pyo, Tsutomu Hasegawa, Tokuo Tsuji, Ryo Kurazume
Floor Sensing System Using Laser Reflectivity for Localizing Everyday Objects and Robot. Sensors 14(4): 7524-7540 (2014) - [c28]Kaoru Kobayashi, Ken'ichi Morooka, Yasushi Miyagi, Takaichi Fukuda, Tokuo Tsuji, Ryo Kurazume
Estimation of brain internal structures by deforming brain atlas using finite element method. EMBC 2014: 5558-5561 - [c27]Tokuo Tsuji, Soichiro Uto, Kensuke Harada
Grasp planning for constricted parts of objects approximated with quadric surfaces. IROS 2014: 2447-2453 - 2013
- [j6]Ken'ichi Morooka, Masahiko Nakamoto, Yoshinobu Sato:
A Survey on Statistical Modeling and Machine Learning Approaches to Computer Assisted Medical Intervention: Intraoperative Anatomy Modeling and Optimization of Interventional Procedures. IEICE Trans. Inf. Syst. 96-D(4): 784-797 (2013) - [c26]Ken'ichi Morooka, Yousuke Nakasuka, Ryo Kurazume
Navigation system with real-time finite element analysis for minimally invasive surgery. EMBC 2013: 2996-2999 - [c25]Yumi Iwashita, Shuhei Takaki, Ken'ichi Morooka, Tokuo Tsuji, Ryo Kurazume
Abnormal Behavior Detection Using Privacy Protected Videos. EST 2013: 55-57 - [c24]Shoko Miyauchi, Ken'ichi Morooka, Yasushi Miyagi, Takaichi Fukuda, Tokuo Tsuji, Ryo Kurazume
Tissue Surface Model Mapping onto Arbitrary Target Surface Based on Self-Organizing Deformable Model. EST 2013: 79-82 - [c23]Óscar Martínez Mozos
The Intelligent Room for Elderly Care. IWINAC (1) 2013: 103-112 - [c22]Ken'ichi Morooka, Shuji Sonoki, Ryo Kurazume
A Method for Estimating Patient Specific Parameters for Simulation of Tissue Deformation by Finite Element Analysis. IWINAC (1) 2013: 113-120 - [c21]YoonSeok Pyo, Tsutomu Hasegawa, Masahide Tanaka, Tokuo Tsuji, Ken'ichi Morooka, Ryo Kurazume
Measurement and estimation of indoor human behavior of everyday life based on floor sensing with minimal invasion of privacy. ROBIO 2013: 2170-2176 - 2012
- [c20]Ken'ichi Morooka, Tomoyuki Taguchi, Xian Chen, Ryo Kurazume
A method for constructing real-time FEM-based simulator of stomach behavior with large-scale deformation by neural networks. Medical Imaging: Image-Guided Procedures 2012: 83160J - [c19]Óscar Martínez Mozos
Tracing Commodities in Indoor Environments for Service Robotics. SyRoCo 2012: 71-76
2000 – 2009
- 2009
- [j5]Kenoki Ohuchida
The effect of CyberDome, a novel 3-dimensional dome-shaped display system, on laparoscopic procedures. Int. J. Comput. Assist. Radiol. Surg. 4(2): 125-132 (2009) - 2008
- [c18]Yumi Iwashita, Ryo Kurazume
Fast 3D reconstruction of human shape and motion tracking by parallel fast level set method. ICRA 2008: 980-986 - [c17]Ken'ichi Morooka, Xian Chen, Ryo Kurazume, Seiichi Uchida, Kenji Hara, Yumi Iwashita, Makoto Hashizume:
Real-Time Nonlinear FEM with Neural Network for Simulating Soft Organ Model Deformation. MICCAI (2) 2008: 742-749 - 2007
- [c16]Ken'ichi Morooka, Shun Matsui, Hiroshi Nagahashi:
Self-organizing Deformable Model for Mapping 3D Object Model onto Arbitrary Target Surface. 3DIM 2007: 193-200 - [c15]Shun Matsui, Kohta Aoki
Cross-Parameterization for Triangular Meshes with Semantic Features. PG 2007: 457-460 - 2006
- [j4]Ken'ichi Morooka, Kazuhisa Hamamoto, Hiroshi Nagahashi:
Autonomous motion recognition by combining reinforcement learning and hidden Markov model. Syst. Comput. Jpn. 37(14): 34-43 (2006) - [c14]Ken'ichi Morooka, Hiroshi Nagahashi:
A Method for Integrating Range Images with Different Resolutions for 3-D Model Construction. ICRA 2006: 3070-3075 - 2005
- [j3]Yousun Kang, Ken'ichi Morooka, Hiroshi Nagahashi:
Texture Classification Using Hierarchical Linear Discriminant Space. IEICE Trans. Inf. Syst. 88-D(10): 2380-2388 (2005) - [c13]Ken'ichi Morooka, Hiroshi Nagahashi:
Self-organizing Deformable Model: A New Method for Fitting Mesh Model to Given Object Surface. ISVC 2005: 151-158 - [c12]Yousun Kang, Ken'ichi Morooka, Hiroshi Nagahashi:
Scale Invariant Texture Analysis Using Multi-scale Local Autocorrelation Features. Scale-Space 2005: 363-373 - 2004
- [j2]Hiroshi Nagahashi, Rikima Mitsuhashi, Ken'ichi Morooka:
A Method for Watermarking to Bezier Polynomial Surface Models. IEICE Trans. Inf. Syst. 87-D(1): 224-232 (2004) - [j1]Ken'ichi Morooka, Hongbin Zha, Tsutomu Hasegawa:
View space representation and viewpoint planning computation for automatic 3D object modeling. Syst. Comput. Jpn. 35(4): 60-71 (2004) - [c11]Junya Arakawa, Ken'ichi Morooka, Yousun Kang, Hiroshi Nagahashi:
A method for detecting human face region based on generation and selection of kernel features. SMC (3) 2004: 2191-2196 - [c10]Kazuhisa Hamamoto, Ken'ichi Morooka, Hiroshi Nagahashi:
Motion recognition by combining HMM and reinforcement learning. SMC (6) 2004: 5259-5264 - [c9]Syuichi Yasuoka, Yousun Kang, Ken'ichi Morooka, Hiroshi Nagahashi:
Texture classification using hierarchical discriminant analysis. SMC (7) 2004: 6395-6400 - 2003
- [c8]Ken'ichi Morooka, Hiroyuki Takagi, Hiroshi Nagahashi:
Active Balloon Model Based On 3D Skeleton Extraction By Competitive Learning. 3DIM 2003: 87-94 - [c7]K. Ikesako, Ken'ichi Morooka, Hiroshi Nagahashi:
Watermarking for Bézier Polynomial Surface Models. Computer Graphics and Imaging 2003: 193-199 - [c6]Kohta Aoki
Animation synthesis by observation and learning. CIRA 2003: 1258-1263
1990 – 1999
- 1999
- [c5]Ken'ichi Morooka, Hongbin Zha, Tsutomu Hasegawa:
Computations on a Spherical View Space for Efficient Planning of Viewpoints in 3-D Object Modeling. 3DIM 1999: 138-147 - 1998
- [c4]Hongbin Zha, Ken'ichi Morooka, Tsutomu Hasegawa:
Next Best Viewpoint (NBV) Planning for Active Object Modeling Based on a Learning-by-Showing Approach. ACCV (2) 1998: 185-192 - [c3]Ken'ichi Morooka, Hongbin Zha, Tsutomu Hasegawa:
Next best viewpoint (NBV) planning for active object modeling based on a learning-by-showing approach. ICPR 1998: 677-681 - [c2]Nobuhiro Okada, Hongbin Zha, Tadashi Nagata, Eiji Kondo, Ken'ichi Morooka:
3-dimensional object model construction from range images taken by a range finder on a mobile robot. IROS 1998: 1853-1858 - 1997
- [c1]Hongbin Zha, Ken'ichi Morooka, Tsutomu Hasegawa, Tadashi Nagata:
Active Modeling of 3-D Objects: Planning on the Next Best Pose (NBP) for Acquiring Range Images. 3DIM 1997: 68-75
Coauthor Index
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last updated on 2024-11-07 20:28 CET by the dblp team
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