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ORCIDMichael Kerber
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- affiliation: TU Graz, Institute of Geometry, Austria
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2020 – today
- 2024
[j26]Xavier Goaoc, Michael Kerber:
Guest Editors' Foreword. Discret. Comput. Geom. 71(1): 1-3 (2024)- [j25]Mickaël Buchet
, Bianca B. Dornelas, Michael Kerber:
Sparse Higher Order Čech Filtrations. J. ACM 71(4): 28:1-28:23 (2024) - [c45]Ángel Javier Alonso, Michael Kerber, Primoz Skraba:
Probabilistic Analysis of Multiparameter Persistence Decompositions into Intervals. SoCG 2024: 6:1-6:19 - [c44]Ángel Javier Alonso, Michael Kerber, Tung Lam, Michael Lesnick:
Delaunay Bifiltrations of Functions on Point Clouds. SODA 2024: 4872-4891 - [i42]Ángel Javier Alonso, Michael Kerber, Primoz Skraba:
Probabilistic Analysis of Multiparameter Persistence Decompositions. CoRR abs/2403.11939 (2024) - [i41]Michael Kerber, Florian Russold:
Graphcode: Learning from multiparameter persistent homology using graph neural networks. CoRR abs/2405.14302 (2024) - 2023
- [j24]Ulderico Fugacci, Michael Kerber, Alexander Rolle:
Compression for 2-parameter persistent homology. Comput. Geom. 109: 101940 (2023) - [j23]René Corbet, Michael Kerber, Michael Lesnick, Georg Osang:
Computing the Multicover Bifiltration. Discret. Comput. Geom. 70(2): 376-405 (2023) - [c43]Ángel Javier Alonso, Michael Kerber, Siddharth Pritam:
Filtration-Domination in Bifiltered Graphs. ALENEX 2023: 27-38 - [c42]Ángel Javier Alonso, Michael Kerber:
Decomposition of Zero-Dimensional Persistence Modules via Rooted Subsets. SoCG 2023: 7:1-7:16 - [c41]Mickaël Buchet, Bianca B. Dornelas, Michael Kerber:
Sparse Higher Order Čech Filtrations. SoCG 2023: 20:1-20:17 - [c40]Michael Kerber, Matthias Söls:
The Localized Union-Of-Balls Bifiltration. SoCG 2023: 45:1-45:19 - [i40]Ángel Javier Alonso, Michael Kerber:
Decomposition of zero-dimensional persistence modules via rooted subsets. CoRR abs/2303.06118 (2023) - [i39]Mickaël Buchet, Bianca B. Dornelas, Michael Kerber:
Sparse Higher Order Čech Filtrations. CoRR abs/2303.06666 (2023) - [i38]Michael Kerber, Matthias Söls:
The Localized Union-of-Balls Bifiltration. CoRR abs/2303.07002 (2023) - [i37]Martin Uray, Barbara Giunti, Michael Kerber, Stefan Huber:
Topological Data Analysis in smart manufacturing processes - A survey on the state of the art. CoRR abs/2310.09319 (2023) - [i36]Ángel Javier Alonso, Michael Kerber, Tung Lam, Michael Lesnick:
Delaunay Bifiltrations of Functions on Point Clouds. CoRR abs/2310.15902 (2023) - 2022
- [c39]Barbara Giunti, Guillaume Houry, Michael Kerber:
Average Complexity of Matrix Reduction for Clique Filtrations. ISSAC 2022: 187-196 - [e1]Xavier Goaoc, Michael Kerber:
38th International Symposium on Computational Geometry, SoCG 2022, June 7-10, 2022, Berlin, Germany. LIPIcs 224, Schloss Dagstuhl - Leibniz-Zentrum für Informatik 2022, ISBN 978-3-95977-227-3 [contents] - [i35]Ángel Javier Alonso, Michael Kerber, Siddharth Pritam:
Filtration-Domination in Bifiltered Graphs. CoRR abs/2211.05574 (2022) - [i34]Ulrich Bauer, Talha Bin Masood, Barbara Giunti, Guillaume Houry, Michael Kerber, Abhishek Rathod:
Keeping it sparse: Computing Persistent Homology revised. CoRR abs/2211.09075 (2022) - 2021
- [j22]Aruni Choudhary, Michael Kerber, Sharath Raghvendra:
Improved approximate rips filtrations with shifted integer lattices and cubical complexes. J. Appl. Comput. Topol. 5(3): 425-458 (2021) - [c38]Michael Kerber, Alexander Rolle:
Fast Minimal Presentations of Bi-graded Persistence Modules. ALENEX 2021: 207-220 - [c37]René Corbet, Michael Kerber, Michael Lesnick, Georg Osang:
Computing the Multicover Bifiltration. SoCG 2021: 27:1-27:17 - [i33]René Corbet, Michael Kerber, Michael Lesnick, Georg Osang:
Computing the Multicover Bifiltration. CoRR abs/2103.07823 (2021) - [i32]Aruni Choudhary, Michael Kerber, Sharath Raghvendra:
Improved Approximate Rips Filtrations with Shifted Integer Lattices and Cubical Complexes. CoRR abs/2105.05151 (2021) - [i31]Ulderico Fugacci, Michael Kerber, Alexander Rolle:
Compression for 2-Parameter Persistent Homology. CoRR abs/2107.10924 (2021) - [i30]Barbara Giunti, Guillaume Houry, Michael Kerber:
Average complexity of matrix reduction for clique filtrations. CoRR abs/2111.02125 (2021) - [i29]Håvard Bakke Bjerkevik, Michael Kerber:
Asymptotic Improvements on the Exact Matching Distance for 2-parameter Persistence. CoRR abs/2111.10303 (2021) - 2020
- [j21]Håvard Bakke Bjerkevik, Magnus Bakke Botnan, Michael Kerber:
Computing the Interleaving Distance is NP-Hard. Found. Comput. Math. 20(5): 1237-1271 (2020) - [j20]Michael Kerber, Arnur Nigmetov:
Metric Spaces with Expensive Distances. Int. J. Comput. Geom. Appl. 30(2): 141-165 (2020) - [j19]Michael Kerber, Michael Lesnick, Steve Oudot:
Exact computation of the matching distance on 2-parameter persistence modules. J. Comput. Geom. 11(2): 4-25 (2020) - [c36]Michael Kerber, Arnur Nigmetov:
Efficient Approximation of the Matching Distance for 2-Parameter Persistence. SoCG 2020: 53:1-53:16 - [c35]Ulderico Fugacci, Michael Kerber, Hugo Manet:
Topology-Preserving Terrain Simplification. SIGSPATIAL/GIS 2020: 36-47 - [i28]Michael Kerber, Alexander Rolle:
Fast Minimal Presentations of Bi-graded Persistence Modules. CoRR abs/2010.15623 (2020)
2010 – 2019
- 2019
- [j18]René Corbet, Ulderico Fugacci, Michael Kerber, Claudia Landi, Bei Wang:
A kernel for multi-parameter persistent homology. Comput. Graph. X 2 (2019) - [j17]Aruni Choudhary, Michael Kerber, Sharath Raghvendra:
Polynomial-Sized Topological Approximations Using the Permutahedron. Discret. Comput. Geom. 61(1): 42-80 (2019) - [j16]Michael Kerber, Hannah Schreiber:
Barcodes of Towers and a Streaming Algorithm for Persistent Homology. Discret. Comput. Geom. 61(4): 852-879 (2019) - [c34]Ulderico Fugacci, Michael Kerber:
Chunk Reduction for Multi-Parameter Persistent Homology. SoCG 2019: 37:1-37:14 - [c33]Michael Kerber, Michael Lesnick, Steve Oudot:
Exact Computation of the Matching Distance on 2-Parameter Persistence Modules. SoCG 2019: 46:1-46:15 - [c32]Aruni Choudhary, Michael Kerber, Sharath Raghvendra:
Improved Topological Approximations by Digitization. SODA 2019: 2675-2688 - [i27]Michael Kerber, Arnur Nigmetov:
Metric Spaces with Expensive Distances. CoRR abs/1901.08805 (2019) - [i26]Ulderico Fugacci, Michael Kerber, Hugo Manet:
Topology-Preserving Terrain Simplification. CoRR abs/1912.03032 (2019) - [i25]Michael Kerber, Arnur Nigmetov:
Efficient Approximation of the Matching Distance for 2-parameter persistence. CoRR abs/1912.05826 (2019) - [i24]Michael Kerber, Vijay Natarajan, Bei Wang:
Topology, Computation and Data Analysis (Dagstuhl Seminar 19212). Dagstuhl Reports 9(5): 110-131 (2019) - 2018
- [j15]René Corbet, Michael Kerber:
The representation theorem of persistence revisited and generalized. J. Appl. Comput. Topol. 2(1-2): 1-31 (2018) - [i23]René Corbet, Ulderico Fugacci, Michael Kerber, Claudia Landi, Bei Wang:
A Kernel for Multi-Parameter Persistent Homology. CoRR abs/1809.10231 (2018) - [i22]Håvard Bakke Bjerkevik, Magnus Bakke Botnan, Michael Kerber:
Computing the interleaving distance is NP-hard. CoRR abs/1811.09165 (2018) - [i21]Aruni Choudhary, Michael Kerber, Sharath Raghvendra:
Improved Topological Approximations by Digitization. CoRR abs/1812.04966 (2018) - [i20]Michael Kerber, Michael Lesnick, Steve Oudot:
Exact computation of the matching distance on 2-parameter persistence modules. CoRR abs/1812.09085 (2018) - 2017
- [j14]Michael Kerber, Dmitriy Morozov, Arnur Nigmetov:
Geometry Helps to Compare Persistence Diagrams. ACM J. Exp. Algorithmics 22 (2017) - [j13]Michael Kerber:
Special issue on algorithms and software for computational topology. J. Symb. Comput. 78: 1-2 (2017) - [j12]Ulrich Bauer, Michael Kerber, Jan Reininghaus, Hubert Wagner:
Phat - Persistent Homology Algorithms Toolbox. J. Symb. Comput. 78: 76-90 (2017) - [c31]Michael Kerber, Robert Tichy, Mario Weitzer:
Constrained Triangulations, Volumes of Polytopes, and Unit Equations. SoCG 2017: 46:1-46:15 - [c30]Michael Kerber, Hannah Schreiber:
Barcodes of Towers and a Streaming Algorithm for Persistent Homology. SoCG 2017: 57:1-57:16 - [c29]Aruni Choudhary, Michael Kerber, Sharath Raghvendra:
Improved Approximate Rips Filtrations with Shifted Integer Lattices. ESA 2017: 28:1-28:13 - [i19]Michael Kerber, Hannah Schreiber:
Barcodes of Towers and a Streaming Algorithm for Persistent Homology. CoRR abs/1701.02208 (2017) - [i18]Aruni Choudhary, Michael Kerber, Sharath Raghvendra:
Improved Approximate Rips Filtrations with Shifted Integer Lattices. CoRR abs/1706.07399 (2017) - [i17]Hamish A. Carr, Michael Kerber, Bei Wang:
Topology, Computation and Data Analysis (Dagstuhl Seminar 17292). Dagstuhl Reports 7(7): 88-109 (2017) - 2016
- [c28]Michael Kerber, Dmitriy Morozov, Arnur Nigmetov:
Geometry Helps to Compare Persistence Diagrams. ALENEX 2016: 103-112 - [c27]Aruni Choudhary, Michael Kerber, Sharath Raghvendra:
Polynomial-Sized Topological Approximations Using the Permutahedron. SoCG 2016: 31:1-31:16 - [c26]Michael Kerber, Donald R. Sheehy, Primoz Skraba:
Persistent Homology and Nested Dissection. SODA 2016: 1234-1245 - [i16]Aruni Choudhary, Michael Kerber, Sharath Raghvendra:
Polynomial-Sized Topological Approximations Using The Permutahedron. CoRR abs/1601.02732 (2016) - [i15]Michael Kerber, Dmitriy Morozov, Arnur Nigmetov:
Geometry Helps to Compare Persistence Diagrams. CoRR abs/1606.03357 (2016) - 2015
- [j11]Michael Kerber, Michael Sagraloff:
Root refinement for real polynomials using quadratic interval refinement. J. Comput. Appl. Math. 280: 377-395 (2015) - [c25]Aruni Choudhary, Michael Kerber:
Local Doubling Dimension of Point Sets. CCCG 2015 - [c24]Michael Kerber, Sharath Raghvendra:
Approximation and Streaming Algorithms for Projective Clustering via Random Projections. CCCG 2015 - [c23]Dan Halperin, Michael Kerber, Doron Shaharabani:
The Offset Filtration of Convex Objects. ESA 2015: 705-716 - [c22]Sergio Cabello, Michael Kerber:
Semi-dynamic Connectivity in the Plane. WADS 2015: 115-126 - [i14]Sergio Cabello, Michael Kerber:
Semi-dynamic connectivity in the plane. CoRR abs/1502.03690 (2015) - 2014
- [c21]Ulrich Bauer, Michael Kerber, Jan Reininghaus:
Distributed Computation of Persistent Homology. ALENEX 2014: 31-38 - [c20]Mabel Iglesias Ham, Michael Kerber, Caroline Uhler:
Sphere Packing with Limited Overlap. CCCG 2014 - [c19]Ulrich Bauer, Michael Kerber, Jan Reininghaus, Hubert Wagner:
PHAT - Persistent Homology Algorithms Toolbox. ICMS 2014: 137-143 - [c18]Chen Gu, Leonidas J. Guibas, Michael Kerber:
Topology-Driven Trajectory Synthesis with an Example on Retinal Cell Motions. WABI 2014: 326-339 - [p1]Ulrich Bauer, Michael Kerber, Jan Reininghaus:
Clear and Compress: Computing Persistent Homology in Chunks. Topological Methods in Data Analysis and Visualization 2014: 103-117 - [i13]Mabel Iglesias Ham, Michael Kerber, Caroline Uhler:
Sphere Packing with Limited Overlap. CoRR abs/1401.0468 (2014) - [i12]Aruni Choudhary, Michael Kerber:
Local Doubling Dimension of Point Sets. CoRR abs/1406.4822 (2014) - [i11]Michael Kerber, Sharath Raghvendra:
Approximation and Streaming Algorithms for Projective Clustering via Random Projections. CoRR abs/1407.2063 (2014) - [i10]Dan Halperin, Michael Kerber, Doron Shaharabani:
The Offset Filtration of Convex Objects. CoRR abs/1407.6132 (2014) - 2013
- [j10]Chao Chen, Michael Kerber:
An output-sensitive algorithm for persistent homology. Comput. Geom. 46(4): 435-447 (2013) - [j9]Michael Kerber:
Embedding the dual complex of hyper-rectangular partitions. J. Comput. Geom. 4(1): 13-37 (2013) - [c17]Michael Kerber, Herbert Edelsbrunner:
3D kinetic alpha complexes and their implementation. ALENEX 2013: 70-77 - [c16]Yang Li, Qixing Huang, Michael Kerber, Lin Zhang, Leonidas J. Guibas:
Large-scale joint map matching of GPS traces. SIGSPATIAL/GIS 2013: 214-223 - [c15]Haochen Tang, Michael Kerber, Qixing Huang, Leonidas J. Guibas:
Locating lucrative passengers for taxicab drivers. SIGSPATIAL/GIS 2013: 494-497 - [c14]Michael Kerber, R. Sharathkumar:
Approximate Čech Complex in Low and High Dimensions. ISAAC 2013: 666-676 - [i9]Michael Kerber, R. Sharathkumar:
Approximate Cech Complexes in Low and High Dimensions. CoRR abs/1307.3272 (2013) - [i8]Ulrich Bauer, Michael Kerber, Jan Reininghaus:
Distributed computation of persistent homology. CoRR abs/1310.0710 (2013) - 2012
- [j8]Herbert Edelsbrunner, Michael Kerber:
Dual Complexes of Cubical Subdivisions of ℝ n. Discret. Comput. Geom. 47(2): 393-414 (2012) - [j7]Eric Berberich, Dan Halperin, Michael Kerber, Roza Pogalnikova:
Deconstructing Approximate Offsets. Discret. Comput. Geom. 48(4): 964-989 (2012) - [j6]Michael Kerber, Michael Sagraloff:
A worst-case bound for topology computation of algebraic curves. J. Symb. Comput. 47(3): 239-258 (2012) - [c13]Herbert Edelsbrunner, Michael Kerber:
Alexander duality for functions: the persistent behavior of land and water and shore. SCG 2012: 249-258 - [i7]Michael Kerber:
Embedding the dual complex of hyper-rectangular partitions. CoRR abs/1207.3202 (2012) - [i6]Herbert Edelsbrunner, Carl-Philipp Heisenberg, Michael Kerber, Gabriel Krens:
The Medusa of Spatial Sorting: Topological Construction. CoRR abs/1207.6474 (2012) - [i5]Michael Kerber, Herbert Edelsbrunner:
The Medusa of Spatial Sorting: 3D Kinetic Alpha Complexes and Implementation. CoRR abs/1209.5434 (2012) - 2011
- [j5]Michael Kerber, Michael Sagraloff:
A Note on the Complexity of Real Algebraic Hypersurfaces. Graphs Comb. 27(3): 419-430 (2011) - [c12]Herbert Edelsbrunner, Michael Kerber:
Covering and Packing with Spheres by Diagonal Distortion in ℝn. Rainbow of Computer Science 2011: 20-35 - [c11]Eric Berberich, Michael Hemmer, Michael Kerber:
A generic algebraic kernel for non-linear geometric applications. SCG 2011: 179-186 - [c10]Eric Berberich, Dan Halperin, Michael Kerber, Roza Pogalnikova:
Deconstructing approximate offsets. SCG 2011: 187-196 - [c9]Chao Chen, Michael Kerber:
An output-sensitive algorithm for persistent homology. SCG 2011: 207-216 - [c8]Michael Kerber, Michael Sagraloff:
Efficient real root approximation. ISSAC 2011: 209-216 - [i4]Michael Kerber, Michael Sagraloff:
Root Refinement for Real Polynomials. CoRR abs/1104.1362 (2011) - [i3]Michael Kerber, Michael Sagraloff:
A Worst-case Bound for Topology Computation of Algebraic Curves. CoRR abs/1104.1510 (2011) - [i2]Eric Berberich, Dan Halperin, Michael Kerber, Roza Pogalnikova:
Deconstructing Approximate Offsets. CoRR abs/1109.2158 (2011) - [i1]Herbert Edelsbrunner, Michael Kerber:
Alexander Duality for Functions: the Persistent Behavior of Land and Water and Shore. CoRR abs/1109.5052 (2011) - 2010
- [j4]Eric Berberich, Michael Kerber, Michael Sagraloff:
An efficient algorithm for the stratification and triangulation of an algebraic surface. Comput. Geom. 43(3): 257-278 (2010) - [j3]Eric Berberich, Efi Fogel, Dan Halperin, Michael Kerber, Ophir Setter:
Arrangements on Parametric Surfaces II: Concretizations and Applications. Math. Comput. Sci. 4(1): 67-91 (2010) - [j2]Paul Bendich, Herbert Edelsbrunner, Michael Kerber:
Computing Robustness and Persistence for Images. IEEE Trans. Vis. Comput. Graph. 16(6): 1251-1260 (2010) - [c7]Paul Bendich, Herbert Edelsbrunner, Michael Kerber, Amit K. Patel:
Persistent Homology under Non-uniform Error. MFCS 2010: 12-23
2000 – 2009
- 2009
- [b1]Michael Kerber:
Geometric algorithms for algebraic curves and surfaces. Saarland University, 2009 - [j1]Michael Kerber:
Division-free computation of subresultants using Bezout matrices. Int. J. Comput. Math. 86(12): 2186-2200 (2009) - [c6]Michael Kerber:
On the Complexity of Reliable Root Approximation. CASC 2009: 155-167 - 2008
- [c5]Eric Berberich, Michael Kerber, Michael Sagraloff:
Exact geometric-topological analysis of algebraic surfaces. SCG 2008: 164-173 - [c4]Pavel Emeliyanenko, Michael Kerber:
Visualizing and exploring planar algebraic arrangements: a web application. SCG 2008: 224-225 - [c3]Eric Berberich, Michael Kerber:
Exact arrangements on tori and Dupin cyclides. Symposium on Solid and Physical Modeling 2008: 59-66 - [c2]Arno Eigenwillig, Michael Kerber:
Exact and efficient 2D-arrangements of arbitrary algebraic curves. SODA 2008: 122-131 - 2007
- [c1]Arno Eigenwillig, Michael Kerber, Nicola Wolpert:
Fast and exact geometric analysis of real algebraic plane curves. ISSAC 2007: 151-158
Coauthor Index
Sharath Raghvendra
aka: R. Sharathkumar
aka: R. Sharathkumar
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