Yu Song scite author profile

A seventeenth-century canvas painting is usually comprised of varnish and (translucent) paint layers on a substrate. A viewer's perception of a work of art can be affected by changes in and damages to these layers. Crack formation in the multi-layered stratigraphy of the painting is visible in the surface topology. Furthermore, the impact of mechanical abrasion, (photo)chemical processes and treatments can affect the topography of the surface and thereby its appearance. New technological advancements in non-invasive imaging allow for the documentation and visualisation of a painting's 3D shape across larger segments or even the complete surface. In this manuscript we compare three 3D scanning techniques, which have been used to capture the surface topology of Girl with a Pearl Earring by Johannes Vermeer (c. 1665): a painting in the collection of the Mauritshuis, the Hague. These three techniques are: multi-scale optical coherence tomography, 3D scanning based on fringe-encoded stereo imaging (at two resolutions), and 3D digital microscopy. Additionally, scans were made of a reference target and compared to 3D data obtained with white-light confocal profilometry. The 3D data sets were aligned using a scale-invariant template matching algorithm, and compared on their ability to visualise topographical details of interest. Also the merits and limitations for the individual imaging techniques are discussed in-depth. We find that the 3D digital microscopy and the multi-scale optical coherence tomography offer the highest measurement accuracy and precision. However, the small field-of-view of these techniques, makes them relatively slow and thereby less viable solutions for capturing larger (areas of) paintings. For Girl with a Pearl Earring we find that the 3D data provides an unparalleled insight into the surface features of this painting, specifically related to 'moating' around impasto, the effects of paint consolidation in earlier restoration campaigns and aging, through visualisation of the crack pattern. Furthermore, the data sets provide a starting point for future documentation and monitoring of the surface topology changes over time. These scans were carried out as part of the research project 'The Girl in the Spotlight' .

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User Interaction in Semi-Automatic Segmentation of Organs at Risk: a Case Study in Radiotherapy

Ramkumar

Dolz²,

Kirişli³

et al. 2015

J Digit Imaging

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Accurate segmentation of organs at risk is an important step in radiotherapy planning. Manual segmentation being a tedious procedure and prone to inter- and intra-observer variability, there is a growing interest in automated segmentation methods. However, automatic methods frequently fail to provide satisfactory result, and post-processing corrections are often needed. Semi-automatic segmentation methods are designed to overcome these problems by combining physicians’ expertise and computers’ potential. This study evaluates two semi-automatic segmentation methods with different types of user interactions, named the “strokes” and the “contour”, to provide insights into the role and impact of human-computer interaction. Two physicians participated in the experiment. In total, 42 case studies were carried out on five different types of organs at risk. For each case study, both the human-computer interaction process and quality of the segmentation results were measured subjectively and objectively. Furthermore, different measures of the process and the results were correlated. A total of 36 quantifiable and ten non-quantifiable correlations were identified for each type of interaction. Among those pairs of measures, 20 of the contour method and 22 of the strokes method were strongly or moderately correlated, either directly or inversely. Based on those correlated measures, it is concluded that: (1) in the design of semi-automatic segmentation methods, user interactions need to be less cognitively challenging; (2) based on the observed workflows and preferences of physicians, there is a need for flexibility in the interface design; (3) the correlated measures provide insights that can be used in improving user interaction design.

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A New Universal Cellular Automaton on the Pentagrid

Margenstern¹,

Song²

2009

Parallel Process. Lett.

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In this paper, we significantly improve a result of the first author, published in an issue of Theoretical Computer Science in 2003. In this paper, the authors showed the existence of a weakly universal cellular automaton on the pentagrid with 22 states. The simulation used a railway circuit which simulates a register machine. In the present paper, using the same simulation tool, we lower the number of states for a weakly universal cellular automaton down to 9. A~t~~b t h h~i s t h a tthiunomctaagle.hmthib,mo m~mthatWIllussofth~bolicphmnon-aecasltIfrtadontyIfthey have a camon p q e n d h h , Parallel Process. Lett. 2009.19:227-246. Downloaded from www.worldscientific.com by AUSTRALIAN NATIONAL UNIVERSITY on 03/15/15. For personal use only.w h M contains the other part of the path. We my that the t r a W is a-j. Wc may mume that in all tho cmbqp, one pith b 1-3 end t L othm is 5-2, lFlguro 12. Tho l o w d m through a c r -:ham from q w r h 6 to qwrhr 2, lhgure 11 repmmta the locomotive going through the path 1-3 of pa a d F w 12 rqmmits tho through tho p t h 8-2.Note that on tine wth 5-2, a new date a p p m in the all 2(l) . w h the front of the locomotive errivee at the centre of the mmhg, b h cell 0. TW ie d e d for the working of the Axsd witch as-will be seen I&. Note that by rotational e m r y , the cell 2(3) ia changed in a sirnfler way when the front d the locomotive Iwm tho ecU l(2) for the dl 4(2), The M e sAll mitehee a e hilt w c d h g to to mmilar pattcm, Throe tr& meat at a cmW, the cemtrd cell of Fig, 13,14 end 16. W o wwm that an active croeelogdm ssriw Parallel Process. Lett. 2009.19:227-246. Downloaded from www.worldscientific.com by AUSTRALIAN NATIONAL UNIVERSITY on 03/15/15. For personal use only.1(1] and 1(3) mdd attract G, d t i n g into t w t o o o~i v e e , whiah is dd out by lha ahuhtlon. Thh b wlp. the cell P(1) h h tbe state X2 whtm the d l(6) is u h r 0. I~B pmmm allaplrs ths cell l(1) L) to that it ~~u n d e a B . N o b % t h e t h p r o b l e m~h h~i f m~u a e t h s~e d 9 i n~d Q I f i o s t L W o f h M i w i n d O . Ffgum 18, TIM hmmotiw c m m m a &wrl rnvitrh from the n o a -s r e w tradr, h m in quytar I . Parallel Process. Lett. 2009.19:227-246. Downloaded from www.worldscientific.com by AUSTRALIAN NATIONAL UNIVERSITY on 03/15/15. For personal use only.

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Developing a parametric ear model for auricular reconstruction: A new step towards patient-specific implants

Bos

Scholten

Song

et al. 2015

Journal of Cranio-Maxillofacial Surgery

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A Universal Cellular Automaton on the Ternary Heptagrid

Margenstern

Song

2008

Electronic Notes in Theoretical Computer Science

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Yu Song

Comparison of three 3D scanning techniques for paintings, as applied to Vermeer’s ‘Girl with a Pearl Earring’

User Interaction in Semi-Automatic Segmentation of Organs at Risk: a Case Study in Radiotherapy

A New Universal Cellular Automaton on the Pentagrid

Developing a parametric ear model for auricular reconstruction: A new step towards patient-specific implants

A Universal Cellular Automaton on the Ternary Heptagrid

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