| A.1 S Tari J Shah H Pien, extraction of shape skeletons from grayscale images. "Computer Vision Image Understanding", 66, (1997).|
A.2 Tarý, S., An Integrated Approach to Computational Vision. "Advances in Imaging and Electron Physics", 111, (1999), p.327-366.
A.3 Tarý, S. and Shah, J., Nested Local Symmetry Set. "Computer Vision and Image Understanding", 79, (2000), p.267-280.
A.4 C. Aslan, A. Erdem, E. Erdem and S. Tari, Disconnected Skeleton: Shape at its Absolute Scale. "IEEE Transcations on Pattern Analysis and Machine Intelligence", 30, (2008), p.2188-2203.
A.5 E Erdem, S Tari, Mumford-Shah regularizer with contextual feedback. "Journal of Mathematical Imaging and Vision", 33, (2009), p.67-84.
A.6 Baseski, E, A Erdem, S Tari, Dissimilarity between two skeletal trees in a context. "Pattern Recognition", 42, (2009), p.370-384.
A.7 H.Y. Keles, M. Ozkar, S. Tari, Embedding shapes without predefined parts. "Environment and Planning B", 37, (2010), p.664 – 681.
A.8 A. Erdem, S. Tari, A similarity-based approach for shape classification using Aslan skeletons. "Pattern Recognition Letters", 31, (2010), p.2024-2032.
A.9 Sibel Tari, Murat Genctav, From a non-local ambrosio-tortorelli phase field to a randomized part hierarchy tree. "Journal of Mathematical Imaging and Vision", 49, (2014), p.69-86.
A.10 A. Guler, S. Tari, G. Unal, Screened Poisson Hyperfields for Shape Coding. "SIAM Journal on Imaging Science", 7, (2014), p.2558-2590.
A.11 H. Y. Keles, S. Tari, A robust method for scale independent detection of curvature-based criticalities and intersections in line drawings. "Pattern Recognition", 48, (2015), p.140-155.
A.12 J. Diebold, S. Tari, D. Cremers, The Role of Diffusion in Figure Hunt Games. "Journal of Mathematical Imaging and Vision", 52, (2015), p.108-123.
A.13 A. Guler, S. Tari, G. Unal, Landmarks inside the shape: Shape matching using image descriptors. "Pattern Recognition", 49, (2015), p.79–88.
A.14 M. Genctav, A. Genctav and S. Tari, NonLocal via Local–NonLinear via Linear: A New Part-coding Distance Field via Screened Poisson Equation. "Journal of Mathematical Imaging and Vision", 55, (2015), p.242-252.
A.15 B. Altinoklu, I. Ulusoy, S. Tari, A probabilistic sparse skeleton based object detection. "Pattern Recognition Letters", 83, (2016), p.243-250.
A.16 A. Guler, S. Tari, G. Unal, Landmarks inside the shape: Shape matching using image descriptors. "Pattern Recognition", 49, (2016), p.79-88.
A.17 V. Adanova, S. Tari, Beyond symmetry groups: A grouping study on Escher’s Euclidean ornaments. "Graphical Models", 83, (2016), p.15-27.
A.18 M. Genctav, A. Genctav, S. Tari, NonLocal via Local–NonLinear via Linear: A New Part-coding Distance Field via Screened Poisson Equation. "Journal of Mathematical Imaging and Vision", 55, (2016), p.242–252.
| A.1 Tarý, S. and Shah, J., Local Symmetries of Shapes in Arbitrary Dimension. "IEEE International Conference on Computer Vision", 6, (1998), p.1123-1128.|
A.2 Tarý, S., Coloring 3D Symmetry Set: Perceptual Meaning and Significance in 3D. "Proceeding of the International Society for Optical Engineering", 3716, (1999), p.105-109.
A.3 Tarý, S., Nonlinear Diffusion in Computer Vision. "Nonlinear Analysis 2000", (2000).
A.4 C Aslan and S Tari, An axis based representation for recognition. "Int. Conference in Computer Vision - ICCV", (2005), p.1339-1346.
A.5 Erdem E , Erdem A, Tari S, Edge Strength Functions as Shape Priors in Image Segmentation.. "Energy Minimization Methods in Computer Vision Pattern Recognition", (2005), p.490-502.
A.6 S Tari C Aslan E Baseki A Erdem, Representing Shapes at their Absolute Scales. "Siam Annual Meeting", (2006).
A.7 E. Erdem A. Sancar-Yilmaz S. Tari, Mumford Shah Regularizer with Spatial Coherence. "Scale Space and Variational Methods in Computer Vision -- Lecture Notes in Computer Science", 4485, (2007), p.545-555.
A.8 S. Erdem S. Tari, Articulated Motion Analysis via an Axis Based Representation. "SPIE Photonics East", 6764, (2007).
A.9 Tari, S, The Edge Strength Function. "SIAM Annual Meeting", (2008).
A.10 Erdem, E. and Tari, S., Mumford Shah Regularizer with Contextual Feedback. "SIAM Imaging Science", (2008).
A.11 E Erdem, S Tari, L Vese, Segmentation Using The Edge Strength Function as a Shape Prior within a Local Deformation Model. "ICIP", (2009).
A.12 S Tari, B Burgeth, I Tari, Modified Laplacians for shape analysis. "International Symposium on Mathematical Morphology", (2009), p.5-8.
A.13 A Erdem, S Tari, Coarse-to-Fine matching of shapes using disconnected skeletons by learning class-specific boundary deformations. "Graph-based Representations in Pattern Recognition", LNCS 5534, (2009), p.21-34.
A.14 HY Keles, M Ozkar, S Tari, Revisiting shape embedding. "Proceedings of the Conference on Education in Computer Aided Architecture and Design Europe", (2009), p.1-8.
A.15 S Tari, Hierarchical shape decomposition via level sets. "Mathematical Morphology and Its Applications to Signal and Image Processing", LNCS 5720., (2009), p.215-225.
A.16 S. Tar,i B. Burgeth, I. Tari, Components of the Shape Revisited. "2010 AAAI Spring Symposium Series", (2010), p.45-49.
A.17 Venera Adanova, Sibel Tari, Beyond symmetry groups: a grouping study on Escher's Euclidean ornaments. "SIGGRAPH Asia 2014 Creative Shape Modeling and Design", (2014).
A.18 A. Genctav, M. Genctav, S. Tari, Diffusion is Ubiquitus: A Volume Decomposition Approach for 3D Printing. "Prooceedings of the First Thermal Engineering Summer Conference", (2015).
A.19 A. Genctav, Y. Sahillioglu, S. Tari, 3D shape correspondence under topological noise. "SIU 2016", (2016).
A.20 V. Adanova, S. Tari, Extracting Unit Cells from Tilings with Color Symmetries: Case of Counterchange Patterns. "Proceedings of Bridges 2016: Mathematics, Music, Art, Architecture, Education, Culture", (2016), p.453–456.
A.21 G. Basara, I. Tari, S. Tari, Stress Distribution Based Partitioning of Helmets for 3-D Printing. "ASME IMECE 2016", (2016).
A.22 M. Genctav, A. Genctav, S. Tari, NonLocal via Local Nonlinear via Linear. "SIAM Imaging Science", (2016).
Book and Chapter in a Book
| A.1 B. Burgeth J. Weickert S. Tari, Minimally Stochastic Schemes for Singular PDEs. "Image Processing Based on Partial Differential Equations / Springer Series on Mathematics and Visual", (2007).|
A.2 S Tari, Extracting parts of 2D shapes using local and global interactions simultaneously. "Handbook of Pattern Recognition and Computer Vision 4th edition", (2009), p.283-303.
A.3 E. Erdem, S. Tari, Revisiting Skeletons from Natural Images. "Research in Shape Modelling", 1, (2015), p.101-113.
A.4 S. Tari, Part-Aware Distance Fields for Easy inbetweening in Arbitrary Dimensions. "Research in Shape Modelling", 1, (2015), p.27-39.
A.5 W. Guo, J. Qin, S. Tari, Automatic Prior Shape Selection for Image Segmentation. "Research in Shape Modelling", 1, (2015), p.1-8.
A.6 S. Tari, Ornament Analysis with the Help of Screened Poisson Shape Fields. "Perspectives in Shape Analysis", (2016), p.3-13.