3DOR 16

Permanent URI for this collection

https://diglib7.eg.org/handle/10.2312/15070
Preface and Table of Contents
Position Papers
Shape Retrieval and 3D Gestural Interaction
[full paper Image] [meta data Image]
Andrea Giachetti, Fabio Marco Caputo, Alessandro Carcangiu, Riccardo Scateni, and Lucio Davide Spano
Towards an Observer-oriented Theory of Shape Comparison
[full paper Image] [meta data Image]
Patrizio Frosini
3D Objects Exploration: Guidelines for Future Research
[full paper Image] [meta data Image]
Silvia Biasotti, Bianca Falcidieno, Daniela Giorgi, and Michela Spagnuolo
Full Papers
A Descriptor for Voxel Shapes Based on the Skeleton Cut Space
[full paper Image] [meta data Image]
Cong Feng, Andrei C. Jalba, and Alexandru C. Telea
An Experimental Shape Matching Approach for Protein Docking
[full paper Image] [meta data Image]
Francisco Fernandes and Alfredo Ferreira
An Edit Distance for Reeb Graphs
[full paper Image] [meta data Image]
Ulrich Bauer, Barbara Di Fabio, and Claudia Landi
An Evaluation of Local Feature Encodings for Shape Retrieval
[full paper Image] [meta data Image]
Flora Ponjou Tasse, Jiri Kosinka, and Neil A. Dodgson
SHREC'16 Tracks
Retrieval of Human Subjects from Depth Sensor Data
[full paper Image] [meta data Image]
Andrea Giachetti, Francesco Fornasa, Federico Parezzan, Alessandro Saletti, Leonardo Zambaldo, Luisa Zanini, Felix Achilles, Alexandru-Eugen Ichim, Federico Tombari, Nassir Navab, and Santiago Velasco-Forero
3D Sketch-Based 3D Shape Retrieval
[full paper Image] [meta data Image]
Bo Li, Yijuan Lu, Fuqing Duan, Shuilong Dong, Yachun Fan, Lu Qian, Hamid Laga, Haisheng Li, Yuxiang Li, Peng Liu, Maks Ovsjanikov, Hedi Tabia, Yuxiang Ye, Huanpu Yin, and Ziyu Xue
Matching of Deformable Shapes with Topological Noise
[full paper Image] [meta data Image]
Zorah Lähner, Emanuele Rodolà, Michael M. Bronstein, Daniel Cremers, Oliver Burghard, Luca Cosmo, Alexander Dieckmann, Reinhard Klein, and Yusuf Sahillioğlu
Partial Matching of Deformable Shapes
[full paper Image] [meta data Image]
Luca Cosmo, Emanuele Rodolà, Michael M. Bronstein, Andrea Torsello, Daniel Cremers, and Yusuf Sahillioğlu
Shape Retrieval of Low-Cost RGB-D Captures
[full paper Image] [meta data Image]
Pedro B. Pascoal, Pedro Proença, Filipe Gaspar, Miguel Sales Dias, Alfredo Ferreira, Atsushi Tatsuma, Masaki Aono, K. Berker Logoglu, Sinan Kalkan, Alptekin Temizel, Bo Li, Henry Johan, Yijuan Lu, Viktor Seib, Norman Link, and Dietrich Paulus
Partial Shape Queries for 3D Object Retrieval
[full paper Image] [meta data Image]
Ioannis Pratikakis, Michalis A. Savelonas, Fotis Arnaoutoglou, George Ioannakis, Anestis Koutsoudis, Theoharis Theoharis, Minh-Triet Tran, Vinh-Tiep Nguyen, V.-K. Pham, Hai-Dang Nguyen, Hoang-An Le, Ba-Huu Tran, Huu-Quan To, Minh-Bao Truong, Thuyen Van Phan, Minh-Duc Nguyen, Thanh-An Than, Cu-Khoi-Nguyen Mac, Minh N. Do, Anh-Duc Duong, Takahiko Furuya, Ryutarou Ohbuchi, Masaki Aono, Shoki Tashiro, David Pickup, Xianfang Sun, Paul L. Rosin, and Ralph R. Martin
Large-Scale 3D Shape Retrieval from ShapeNet Core55
[full paper Image] [meta data Image]
Manolis Savva, Fisher Yu, Hao Su, Masaki Aono, Baoquan Chen, Daniel Cohen-Or, Weihong Deng, Hang Su, Song Bai, Xiang Bai, Noa Fish, Jiajie Han, Evangelos Kalogerakis, Erik G. Learned-Miller, Yangyan Li, Minghui Liao, Subhransu Maji, Atsushi Tatsuma, Yida Wang, Nanhai Zhang, and Zhichao Zhou
3D Object Retrieval with Multimodal Views
[full paper Image] [meta data Image]
Yue Gao, Weizhi Nie, Anan Liu, Yuting Su, Qionghai Dai, Le An, Fuhai Chen, Liujuan Cao, Shuilong Dong, Yu De, Zan Gao, Jiayun Hao, Rongrong Ji, Haisheng Li, Mingxia Liu, Lili Pan, Yu Qiu, Liwei Wei, Zhao Wang, Hongjiang Wei, Yuyao Zhang, Jun Zhang, Yang Zhang, and Yali Zheng

BibTeX (3DOR 16)
@inproceedings{
10.2312:3dor.20161079,

booktitle = {
Eurographics Workshop on 3D Object Retrieval},

editor = {
A. Ferreira and A. Giachetti and D. Giorgi
},
title = {{
Shape Retrieval and 3D Gestural Interaction}},

author = {
Giachetti, Andrea
 and 
Caputo, Fabio Marco
 and 
Carcangiu, Alessandro
 and 
Scateni, Riccardo
 and 
Spano, Lucio Davide
},
year = {
2016},

publisher = {
The Eurographics Association},


ISSN = {1997-0471},
ISBN = {978-3-03868-004-8},

DOI = {
10.2312/3dor.20161079}

}
@inproceedings{
10.2312:3dor.20161081,

booktitle = {
Eurographics Workshop on 3D Object Retrieval},

editor = {
A. Ferreira and A. Giachetti and D. Giorgi
},
title = {{
3D Objects Exploration: Guidelines for Future Research}},

author = {
Biasotti, Silvia
 and 
Falcidieno, Bianca
 and 
Giorgi, Daniela
 and 
Spagnuolo, Michela
},
year = {
2016},

publisher = {
The Eurographics Association},


ISSN = {1997-0471},
ISBN = {978-3-03868-004-8},

DOI = {
10.2312/3dor.20161081}

}
@inproceedings{
10.2312:3dor.20161080,

booktitle = {
Eurographics Workshop on 3D Object Retrieval},

editor = {
A. Ferreira and A. Giachetti and D. Giorgi
},
title = {{
Towards an Observer-oriented Theory of Shape Comparison}},

author = {
Frosini, Patrizio
},
year = {
2016},

publisher = {
The Eurographics Association},


ISSN = {1997-0471},
ISBN = {978-3-03868-004-8},

DOI = {
10.2312/3dor.20161080}

}
@inproceedings{
10.2312:3dor.20161082,

booktitle = {
Eurographics Workshop on 3D Object Retrieval},

editor = {
A. Ferreira and A. Giachetti and D. Giorgi
},
title = {{
A Descriptor for Voxel Shapes Based on the Skeleton Cut Space}},

author = {
Feng, Cong
 and 
Jalba, Andrei C.
 and 
Telea, Alexandru C.
},
year = {
2016},

publisher = {
The Eurographics Association},


ISSN = {1997-0471},
ISBN = {978-3-03868-004-8},

DOI = {
10.2312/3dor.20161082}

}
@inproceedings{
10.2312:3dor.20161084,

booktitle = {
Eurographics Workshop on 3D Object Retrieval},

editor = {
A. Ferreira and A. Giachetti and D. Giorgi
},
title = {{
An Edit Distance for Reeb Graphs}},

author = {
Bauer, Ulrich
 and 
Fabio, Barbara Di
 and 
Landi, Claudia
},
year = {
2016},

publisher = {
The Eurographics Association},


ISSN = {1997-0471},
ISBN = {978-3-03868-004-8},

DOI = {
10.2312/3dor.20161084}

}
@inproceedings{
10.2312:3dor.20161087,

booktitle = {
Eurographics Workshop on 3D Object Retrieval},

editor = {
A. Ferreira and A. Giachetti and D. Giorgi
},
title = {{
3D Sketch-Based 3D Shape Retrieval}},

author = {
Li, Bo
 and 
Lu, Yijuan
 and 
Ovsjanikov, Maks
 and 
Tabia, Hedi
 and 
Ye, Yuxiang
 and 
Yin, Huanpu
 and 
Xue, Ziyu
 and 
Duan, Fuqing
 and 
Dong, Shuilong
 and 
Fan, Yachun
 and 
Qian, Lu
 and 
Laga, Hamid
 and 
Li, Haisheng
 and 
Li, Yuxiang
 and 
Liu, Peng
},
year = {
2016},

publisher = {
The Eurographics Association},


ISSN = {1997-0471},
ISBN = {978-3-03868-004-8},

DOI = {
10.2312/3dor.20161087}

}
@inproceedings{
10.2312:3dor.20161085,

booktitle = {
Eurographics Workshop on 3D Object Retrieval},

editor = {
A. Ferreira and A. Giachetti and D. Giorgi
},
title = {{
An Evaluation of Local Feature Encodings for Shape Retrieval}},

author = {
Tasse, Flora Ponjou
 and 
Kosinka, Jiri
 and 
Dodgson, Neil A.
},
year = {
2016},

publisher = {
The Eurographics Association},


ISSN = {1997-0471},
ISBN = {978-3-03868-004-8},

DOI = {
10.2312/3dor.20161085}

}
@inproceedings{
10.2312:3dor.20161083,

booktitle = {
Eurographics Workshop on 3D Object Retrieval},

editor = {
A. Ferreira and A. Giachetti and D. Giorgi
},
title = {{
An Experimental Shape Matching Approach for Protein Docking}},

author = {
Fernandes, Francisco
 and 
Ferreira, Alfredo
},
year = {
2016},

publisher = {
The Eurographics Association},


ISSN = {1997-0471},
ISBN = {978-3-03868-004-8},

DOI = {
10.2312/3dor.20161083}

}
@inproceedings{
10.2312:3dor.20161086,

booktitle = {
Eurographics Workshop on 3D Object Retrieval},

editor = {
A. Ferreira and A. Giachetti and D. Giorgi
},
title = {{
Retrieval of Human Subjects from Depth Sensor Data}},

author = {
Giachetti, A.
 and 
Fornasa, F.
 and 
Velasco-Forero, S.
 and 
Parezzan, F.
 and 
Saletti, A.
 and 
Zambaldo, L.
 and 
Zanini, L.
 and 
Achilles, F.
 and 
Ichim, A. E.
 and 
Tombari, F.
 and 
Navab, N.
},
year = {
2016},

publisher = {
The Eurographics Association},


ISSN = {1997-0471},
ISBN = {978-3-03868-004-8},

DOI = {
10.2312/3dor.20161086}

}
@inproceedings{
10.2312:3dor.20161091,

booktitle = {
Eurographics Workshop on 3D Object Retrieval},

editor = {
A. Ferreira and A. Giachetti and D. Giorgi
},
title = {{
Partial Shape Queries for 3D Object Retrieval}},

author = {
Pratikakis, I.
 and 
Savelonas, M.A.
 and 
Le, H.-A.
 and 
Tran, B.-H.
 and 
To, Q.H.
 and 
Truong, M.-B.
 and 
Phan, T.V.
 and 
Nguyen, M.-D.
 and 
Than, T.-A.
 and 
Mac, K.-N.C.
 and 
Do, M.N.
 and 
Duong, A-D.
 and 
Arnaoutoglou, F.
 and 
Furuya, T.
 and 
Ohbuchi, R.
 and 
Aono, M.
 and 
Tashiro, S.
 and 
Pickup, D.
 and 
Sun, X.
 and 
Rosin, P.L.
 and 
Martin, R.R.
 and 
Ioannakis, G.
 and 
Koutsoudis, A.
 and 
Theoharis, T.
 and 
Tran, M.-T.
 and 
Nguyen, V.-T.
 and 
Pham, V.-K.
 and 
Nguyen, H.-D.
},
year = {
2016},

publisher = {
The Eurographics Association},


ISSN = {1997-0471},
ISBN = {978-3-03868-004-8},

DOI = {
10.2312/3dor.20161091}

}
@inproceedings{
10.2312:3dor.20161093,

booktitle = {
Eurographics Workshop on 3D Object Retrieval},

editor = {
A. Ferreira and A. Giachetti and D. Giorgi
},
title = {{
3D Object Retrieval with Multimodal Views}},

author = {
Gao, Yue
 and 
Nie, Weizhi
 and 
Gao, Zan
 and 
Hao, Jiayun
 and 
Ji, Rongrong
 and 
Li, Haisheng
 and 
Liu, Mingxia
 and 
Pan, Lili
 and 
Qiu, Yu
 and 
Wei, Liwei
 and 
Wang, Zhao
 and 
Wei, Hongjiang
 and 
Liu, Anan
 and 
Zhang, Yuyao
 and 
Zhang, Jun
 and 
Zhang, Yang
 and 
Zheng, Yali
 and 
Su, Yuting
 and 
Dai, Qionghai
 and 
An, Le
 and 
Chen, Fuhai
 and 
Cao, Liujuan
 and 
Dong, Shuilong
 and 
De, Yu
},
year = {
2016},

publisher = {
The Eurographics Association},


ISSN = {1997-0471},
ISBN = {978-3-03868-004-8},

DOI = {
10.2312/3dor.20161093}

}
@inproceedings{
10.2312:3dor.20161089,

booktitle = {
Eurographics Workshop on 3D Object Retrieval},

editor = {
A. Ferreira and A. Giachetti and D. Giorgi
},
title = {{
Partial Matching of Deformable Shapes}},

author = {
Cosmo, L.
 and 
Rodolà, E.
 and 
Bronstein, M. M.
 and 
Torsello, A.
 and 
Cremers, D.
 and 
Sahillioglu, Y.
},
year = {
2016},

publisher = {
The Eurographics Association},


ISSN = {1997-0471},
ISBN = {978-3-03868-004-8},

DOI = {
10.2312/3dor.20161089}

}
@inproceedings{
10.2312:3dor.20161088,

booktitle = {
Eurographics Workshop on 3D Object Retrieval},

editor = {
A. Ferreira and A. Giachetti and D. Giorgi
},
title = {{
Matching of Deformable Shapes with Topological Noise}},

author = {
Lähner, Z.
 and 
Rodolà, E.
 and 
Bronstein, M. M.
 and 
Cremers, D.
 and 
Burghard, O.
 and 
Cosmo, L.
 and 
Dieckmann, A.
 and 
Klein, R.
 and 
Sahillioglu, Y.
},
year = {
2016},

publisher = {
The Eurographics Association},


ISSN = {1997-0471},
ISBN = {978-3-03868-004-8},

DOI = {
10.2312/3dor.20161088}

}
@inproceedings{
10.2312:3dor.20161090,

booktitle = {
Eurographics Workshop on 3D Object Retrieval},

editor = {
A. Ferreira and A. Giachetti and D. Giorgi
},
title = {{
Shape Retrieval of Low-Cost RGB-D Captures}},

author = {
Pascoal, Pedro B.
 and 
Proença, Pedro
 and 
Li, Bo
 and 
Johan, Henry
 and 
Lu, Yijuan
 and 
Seib, Viktor
 and 
Link, Norman
 and 
Paulus, Dietrich
 and 
Gaspar, Filipe
 and 
Dias, Miguel Sales
 and 
Ferreira, Alfredo
 and 
Tatsuma, Atsushi
 and 
Aono, Masaki
 and 
Logoglu, K. Berker
 and 
Kalkan, Sinan
 and 
Temizel, Alptekin
},
year = {
2016},

publisher = {
The Eurographics Association},


ISSN = {1997-0471},
ISBN = {978-3-03868-004-8},

DOI = {
10.2312/3dor.20161090}

}
@inproceedings{
10.2312:3dor.20161092,

booktitle = {
Eurographics Workshop on 3D Object Retrieval},

editor = {
A. Ferreira and A. Giachetti and D. Giorgi
},
title = {{
Large-Scale 3D Shape Retrieval from ShapeNet Core55}},

author = {
Savva, M.
 and 
Yu, F.
 and 
Fish, N.
 and 
Han, J.
 and 
Kalogerakis, E.
 and 
Learned-Miller, E. G.
 and 
Li, Y.
 and 
Liao, M.
 and 
Maji, S.
 and 
Tatsuma, A.
 and 
Wang, Y.
 and 
Zhang, N.
 and 
Su, Hao
 and 
Zhou, Z.
 and 
Aono, M.
 and 
Chen, B.
 and 
Cohen-Or, D.
 and 
Deng, W.
 and 
Su, Hang
 and 
Bai, S.
 and 
Bai, X.
},
year = {
2016},

publisher = {
The Eurographics Association},


ISSN = {1997-0471},
ISBN = {978-3-03868-004-8},

DOI = {
10.2312/3dor.20161092}

}

Browse

Recent Submissions

Now showing 1 - 16 of 16
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    Shape Retrieval and 3D Gestural Interaction
    (The Eurographics Association, 2016) Giachetti, Andrea; Caputo, Fabio Marco; Carcangiu, Alessandro; Scateni, Riccardo; Spano, Lucio Davide; A. Ferreira and A. Giachetti and D. Giorgi
    Despite the emerging importance of Virtual Reality and immersive interaction research, no papers on application of 3D shape retrieval to this topic have been presented in recent 3D Object Retrieval workshops. In this paper we discuss how geometric processing and geometric shape retrieval methods could be extremely useful to implement effective natural interaction systems for 3D immersive virtual environments. In particular, we will discuss how the reduction of complex gesture recognition tasks to simple geometric retrieval ones could be useful to solve open issue in gestural interaction. Algorithms for robust point description in trajectories data with learning of inter-subject invariant features could, for example, solve relevant issues of direct manipulation algorithms, and 3D object retrieval methods could be used as well to build dictionaries and implement guidance system to maximize usability of natural gestural interfaces.
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    3DOR 2016: Frontmatter
    (Eurographics Association, 2016) Alfredo Ferreira; Andrea Giachetti; Daniela Giorgi;
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    3D Objects Exploration: Guidelines for Future Research
    (The Eurographics Association, 2016) Biasotti, Silvia; Falcidieno, Bianca; Giorgi, Daniela; Spagnuolo, Michela; A. Ferreira and A. Giachetti and D. Giorgi
    Search engines provide the interface to interact with 3D object repositories, which are rapidly growing in both number and size. This position paper presents the current state of the art on 3D dataset navigation and 3D model retrieval. We discuss a number of challenges we consider as the main points to be tackled for developing effective 3D object exploration systems.
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    Towards an Observer-oriented Theory of Shape Comparison
    (The Eurographics Association, 2016) Frosini, Patrizio; A. Ferreira and A. Giachetti and D. Giorgi
    In this position paper we suggest a possible metric approach to shape comparison that is based on a mathematical formalization of the concept of observer, seen as a collection of suitable operators acting on a metric space of functions. These functions represent the set of data that are accessible to the observer, while the operators describe the way the observer elaborates the data and enclose the invariance that he/she associates with them. We expose this model and illustrate some theoretical reasons that justify its possible use for shape comparison.
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    A Descriptor for Voxel Shapes Based on the Skeleton Cut Space
    (The Eurographics Association, 2016) Feng, Cong; Jalba, Andrei C.; Telea, Alexandru C.; A. Ferreira and A. Giachetti and D. Giorgi
    Two-dimensional medial axes and three-dimensional curve skeletons have been long used for shape retrieval tasks. In contrast, and despite their ability to fully capture shape geometry and topology, three-dimensional surface skeletons have seen much less usage in this context. We present here a framework for shape matching and retrieval based on such surface skeletons. To this end, we construct a space of cuts generated by the surface skeleton, which has desirable invariance properties with respect to shape size, rotation, translation, pose, and noise. Next, we extract a histogram-based descriptor from this cut space, and discuss three different metrics to compare such histograms for shape retrieval. We illustrate our proposal by showing our descriptor's effectiveness in shape retrieval using a known shape-database benchmark.
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    An Edit Distance for Reeb Graphs
    (The Eurographics Association, 2016) Bauer, Ulrich; Fabio, Barbara Di; Landi, Claudia; A. Ferreira and A. Giachetti and D. Giorgi
    We consider the problem of assessing the similarity of 3D shapes using Reeb graphs from the standpoint of robustness under perturbations. For this purpose, 3D objects are viewed as spaces endowed with real-valued functions, while the similarity between the resulting Reeb graphs is addressed through a graph edit distance. The cases of smooth functions on manifolds and piecewise linear functions on polyhedra stand out as the most interesting ones. The main contribution of this paper is the introduction of a general edit distance suitable for comparing Reeb graphs in these settings. This edit distance promises to be useful for applications in 3D object retrieval because of its stability properties in the presence of noise.
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    3D Sketch-Based 3D Shape Retrieval
    (The Eurographics Association, 2016) Li, Bo; Lu, Yijuan; Duan, Fuqing; Dong, Shuilong; Fan, Yachun; Qian, Lu; Laga, Hamid; Li, Haisheng; Li, Yuxiang; Liu, Peng; Ovsjanikov, Maks; Tabia, Hedi; Ye, Yuxiang; Yin, Huanpu; Xue, Ziyu; A. Ferreira and A. Giachetti and D. Giorgi
    Sketch-based 3D shape retrieval has unique representation availability of the queries and vast applications. Therefore, it has received more and more attentions in the research community of content-based 3D object retrieval. However, sketch-based 3D shape retrieval is a challenging research topic due to the semantic gap existing between the inaccurate representation of sketches and accurate representation of 3D models. In order to enrich and advance the study of sketch-based 3D shape retrieval, we initialize the research on 3D sketch-based 3D model retrieval and collect a 3D sketch dataset based on a developed 3D sketching interface which facilitates us to draw 3D sketches in the air while standing in front of a Microsoft Kinect. The objective of this track is to evaluate the performance of different 3D sketch-based 3D model retrieval algorithms using the hand-drawn 3D sketch query dataset and a generic 3D model target dataset. The benchmark contains 300 sketches that are evenly divided into 30 classes, as well as 1258 3D models that are classified into 90 classes. In this track, nine runs have been submitted by five groups and their retrieval performance has been evaluated using seven commonly used retrieval performance metrics.We wish this benchmark, the comparative evaluation results and the corresponding evaluation code will further promote sketch-based 3D shape retrieval and its applications.
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    An Evaluation of Local Feature Encodings for Shape Retrieval
    (The Eurographics Association, 2016) Tasse, Flora Ponjou; Kosinka, Jiri; Dodgson, Neil A.; A. Ferreira and A. Giachetti and D. Giorgi
    Local features are successfully used in 3D shape retrieval by encoding features descriptors into global shape signatures. Previous 3D retrieval systems use different encoding methods, such as histogram encoding and Fisher encodings, making it difficult to evaluate one encoding technique against another. We perform a comparative analysis of four recent encoding methods when used in shape retrieval. The analysis shows that Vector of Locally Aggregated Descriptors (VLAD) encoding is the best method of the four tested, since it offers the best trade-off between precision and computational cost.
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    An Experimental Shape Matching Approach for Protein Docking
    (The Eurographics Association, 2016) Fernandes, Francisco; Ferreira, Alfredo; A. Ferreira and A. Giachetti and D. Giorgi
    Proteins play a vital role in biological processes, with their function being largely determined by their structure. It is important to know what a protein binds, where it binds, how it binds, and what is its final conformation. Several methodologies have been applied to solve this complex protein-protein docking problem, but the number of degrees of freedom renders this a very slow and computationally heavy challenge. To handle this problem, we propose a multi-level space partition approach to describe the three-dimensional shape of the protein. By combining two proteins in the same data structure we are able to easily detect the shape-complementary regions. Moreover, by directly integrating bio-energetic information, we can drive the algorithm by both parameters and provide a fast and efficient way to overcome some of the limitations of previous approaches.
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    Retrieval of Human Subjects from Depth Sensor Data
    (The Eurographics Association, 2016) Giachetti, A.; Fornasa, F.; Parezzan, F.; Saletti, A.; Zambaldo, L.; Zanini, L.; Achilles, F.; Ichim, A. E.; Tombari, F.; Navab, N.; Velasco-Forero, S.; A. Ferreira and A. Giachetti and D. Giorgi
    In this paper we report the results of the SHREC 2016 contest on "Retrieval of human subjects from depth sensor data". The proposed task was created in order to verify the possibility of retrieving models of query human subjects from single shots of depth sensors, using shape information only. Depth acquisition of different subjects were realized under different illumination conditions, using different clothes and in three different poses. The resulting point clouds of the partial body shape acquisitions were segmented and coupled with the skeleton provided by the OpenNI software and provided to the participants together with derived triangulated meshes. No color information was provided. Retrieval scores of the different methods proposed were estimated on the submitted dissimilarity matrices and the influence of the different acquisition conditions on the algorithms were also analyzed. Results obtained by the participants and by the baseline methods demonstrated that the proposed task is, as expected, quite difficult, especially due the partiality of the shape information and the poor accuracy of the estimated skeleton, but give useful insights on potential strategies that can be applied in similar retrieval procedures and derived practical applications.
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    Partial Shape Queries for 3D Object Retrieval
    (The Eurographics Association, 2016) Pratikakis, I.; Savelonas, M.A.; Arnaoutoglou, F.; Ioannakis, G.; Koutsoudis, A.; Theoharis, T.; Tran, M.-T.; Nguyen, V.-T.; Pham, V.-K.; Nguyen, H.-D.; Le, H.-A.; Tran, B.-H.; To, Q.H.; Truong, M.-B.; Phan, T.V.; Nguyen, M.-D.; Than, T.-A.; Mac, K.-N.C.; Do, M.N.; Duong, A-D.; Furuya, T.; Ohbuchi, R.; Aono, M.; Tashiro, S.; Pickup, D.; Sun, X.; Rosin, P.L.; Martin, R.R.; A. Ferreira and A. Giachetti and D. Giorgi
    Despite numerous recent efforts, 3D object retrieval based on partial shape queries remains a challenging problem, far from being solved. The problem can be defined as: given a partial view of a shape as query, retrieve all partially similar 3D models from a repository. The objective of this track is to evaluate the performance of partial 3D object retrieval methods, for partial shape queries of various scan qualities and degrees of partiality. The retrieval problem is often found in cultural heritage applications, for which partial scans of objects query a dataset of geometrically distinct classes.
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    3D Object Retrieval with Multimodal Views
    (The Eurographics Association, 2016) Gao, Yue; Nie, Weizhi; Liu, Anan; Su, Yuting; Dai, Qionghai; An, Le; Chen, Fuhai; Cao, Liujuan; Dong, Shuilong; De, Yu; Gao, Zan; Hao, Jiayun; Ji, Rongrong; Li, Haisheng; Liu, Mingxia; Pan, Lili; Qiu, Yu; Wei, Liwei; Wang, Zhao; Wei, Hongjiang; Zhang, Yuyao; Zhang, Jun; Zhang, Yang; Zheng, Yali; A. Ferreira and A. Giachetti and D. Giorgi
    This paper reports the results of the SHREC'16 track: 3D Object Retrieval with Multimodal Views, whose goal is to evaluate the performance of retrieval algorithms when multimodal views are employed for 3D object representation. In this task, a collection of 605 objects is generated and both the color images and the depth images are provided for each object. 200 objects including 100 3D printing models and 100 3D real objects are selected as the queries while the other 405 objects are selected as the tests and average retrieval performance is measured. The track attracted seven participants and the submission of 9 runs. Comparing to the last year's results, 3D printing models obviously introduce a bad influence. The performance of this year is worse than that of last year. This condition also shows a promising scenario about multimodal view-based 3D retrieval methods, and reveal interesting insights in dealing with multimodal data.
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    Partial Matching of Deformable Shapes
    (The Eurographics Association, 2016) Cosmo, L.; Rodolà, E.; Bronstein, M. M.; Torsello, A.; Cremers, D.; Sahillioglu, Y.; A. Ferreira and A. Giachetti and D. Giorgi
    Matching deformable 3D shapes under partiality transformations is a challenging problem that has received limited focus in the computer vision and graphics communities. With this benchmark, we explore and thoroughly investigate the robustness of existing matching methods in this challenging task. Participants are asked to provide a point-to-point correspondence (either sparse or dense) between deformable shapes undergoing different kinds of partiality transformations, resulting in a total of 400 matching problems to be solved for each method - making this benchmark the biggest and most challenging of its kind. Five matching algorithms were evaluated in the contest; this paper presents the details of the dataset, the adopted evaluation measures, and shows thorough comparisons among all competing methods.
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    Matching of Deformable Shapes with Topological Noise
    (The Eurographics Association, 2016) Lähner, Z.; Rodolà, E.; Bronstein, M. M.; Cremers, D.; Burghard, O.; Cosmo, L.; Dieckmann, A.; Klein, R.; Sahillioglu, Y.; A. Ferreira and A. Giachetti and D. Giorgi
    A particularly challenging setting of the shape matching problem arises when the shapes being matched have topological artifacts due to the coalescence of spatially close surface regions - a scenario that frequently occurs when dealing with real data under suboptimal acquisition conditions. This track of the SHREC'16 contest evaluates shape matching algorithms that operate on 3D shapes under synthetically produced topological changes. The task is to produce a pointwise matching (either sparse or dense) between 90 pairs of shapes, representing the same individual in different poses but with different topology. A separate set of 15 shapes with ground-truth correspondence was provided as training data for learning-based techniques and for parameter tuning. Three research groups participated in the contest; this paper presents the track dataset, and describes the different methods and the contest results.
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    Shape Retrieval of Low-Cost RGB-D Captures
    (The Eurographics Association, 2016) Pascoal, Pedro B.; Proença, Pedro; Gaspar, Filipe; Dias, Miguel Sales; Ferreira, Alfredo; Tatsuma, Atsushi; Aono, Masaki; Logoglu, K. Berker; Kalkan, Sinan; Temizel, Alptekin; Li, Bo; Johan, Henry; Lu, Yijuan; Seib, Viktor; Link, Norman; Paulus, Dietrich; A. Ferreira and A. Giachetti and D. Giorgi
    RGB-D cameras allow to capture digital representations of objects in an easy and inexpensive way. Such technology enables ordinary users to capture everyday object into digital 3D representations. In this context, we present a track for the Shape Retrieval Contest, which focus on objects digitized using the latest version of Microsoft Kinect, namely, Kinect One. The proposed, track encompasses a dataset of two hundred objects and respective classification.
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    Large-Scale 3D Shape Retrieval from ShapeNet Core55
    (The Eurographics Association, 2016) Savva, M.; Yu, F.; Su, Hao; Aono, M.; Chen, B.; Cohen-Or, D.; Deng, W.; Su, Hang; Bai, S.; Bai, X.; Fish, N.; Han, J.; Kalogerakis, E.; Learned-Miller, E. G.; Li, Y.; Liao, M.; Maji, S.; Tatsuma, A.; Wang, Y.; Zhang, N.; Zhou, Z.; A. Ferreira and A. Giachetti and D. Giorgi
    With the advent of commodity 3D capturing devices and better 3D modeling tools, 3D shape content is becoming increasingly prevalent. Therefore, the need for shape retrieval algorithms to handle large-scale shape repositories is more and more important. This track aims to provide a benchmark to evaluate large-scale shape retrieval based on the ShapeNet dataset. We use ShapeNet Core55, which provides more than 50 thousands models over 55 common categories in total for training and evaluating several algorithms. Five participating teams have submitted a variety of retrieval methods which were evaluated on several standard information retrieval performance metrics. We find the submitted methods work reasonably well on the track benchmark, but we also see significant space for improvement by future algorithms. We release all the data, results, and evaluation code for the benefit of the community.