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2020 – today
- 2024
[j17]Hossein Dabirian, Radmir Sultamuratov, James Herring, K. Carlos El-Tallawi, William A. Zoghbi, Andreas Mang, Robert Azencott:
Classification of Deformable Smooth Shapes Through Geodesic Flows of Diffeomorphisms. J. Math. Imaging Vis. 66(6): 1033-1059 (2024)- [i15]Andreas Mang:
CLAIRE: Scalable GPU-Accelerated Algorithms for Diffeomorphic Image Registration in 3D. CoRR abs/2401.17493 (2024) - 2023
- [j16]Andreas Mang
, Jiwen He, Robert Azencott:
An operator-splitting approach for variational optimal control formulations for diffeomorphic shape matching. J. Comput. Phys. 493: 112463 (2023) - [i14]Andreas Mang, Jiwen He, Robert Azencott:
An Operator-Splitting Approach for Variational Optimal Control Formulations for Diffeomorphic Shape Matching. CoRR abs/2307.10114 (2023) - [i13]George Biros, Andreas Mang, Björn H. Menze, Miriam Schulte:
Inverse Biophysical Modeling and Machine Learning in Personalized Oncology (Dagstuhl Seminar 23022). Dagstuhl Reports 13(1): 36-67 (2023) - 2022
- [j15]Naveen Himthani, Malte Brunn, Jae-Youn Kim, Miriam Schulte, Andreas Mang, George Biros:
CLAIRE - Parallelized Diffeomorphic Image Registration for Large-Scale Biomedical Imaging Applications. J. Imaging 8(9): 251 (2022) - [i12]Naveen Himthani, Malte Brunn, Jae-Youn Kim, Miriam Schulte, Andreas Mang, George Biros:
CLAIRE - Parallelized Diffeomorphic Image Registration for Large-Scale Biomedical Imaging Applications. CoRR abs/2209.08189 (2022) - [i11]Hossein Dabirian, Radmir Sultamuratov, James Herring, K. Carlos El-Tallawi, William A. Zoghbi, Andreas Mang, Robert Azencott:
Automatic classification of deformable shapes. CoRR abs/2211.02530 (2022) - 2021
- [j14]Malte Brunn, Naveen Himthani, George Biros, Miriam Mehl, Andreas Mang:
CLAIRE: Constrained Large Deformation Diffeomorphic Image Registration on Parallel Computing Architectures. J. Open Source Softw. 6(61): 3038 (2021) - [j13]Peng Zhang, Andreas Mang, Jiwen He, Robert Azencott, K. Carlos El-Tallawi, William A. Zoghbi:
Diffeomorphic Shape Matching by Operator Splitting in 3D Cardiology Imaging. J. Optim. Theory Appl. 188(1): 143-168 (2021) - [j12]Malte Brunn, Naveen Himthani, George Biros, Miriam Mehl, Andreas Mang:
Fast GPU 3D diffeomorphic image registration. J. Parallel Distributed Comput. 149: 149-162 (2021) - [i10]Sorena Sarmadi, James J. Winkle, Razan N. Alnahhas, Matthew R. Bennett, Kresimir Josic, Andreas Mang, Robert Azencott:
Stochastic Neural Networks for Automatic Cell Tracking in Microscopy Image Sequences of Bacterial Colonies. CoRR abs/2104.13482 (2021) - 2020
- [j11]Klaudius Scheufele, Shashank Subramanian, Andreas Mang, George Biros, Miriam Mehl:
Image-Driven Biophysical Tumor Growth Model Calibration. SIAM J. Sci. Comput. 42(3): B549-B580 (2020) - [c23]Sarthak Pati, Vaibhav Sharma, Heena Aslam, Siddhesh P. Thakur, Hamed Akbari, Andreas Mang, Shashank Subramanian, George Biros, Christos Davatzikos, Spyridon Bakas:
Estimating Glioblastoma Biophysical Growth Parameters Using Deep Learning Regression. BrainLes@MICCAI (1) 2020: 157-167 - [c22]Malte Brunn, Naveen Himthani, George Biros, Miriam Mehl, Andreas Mang:
Multi-node multi-GPU diffeomorphic image registration for large-scale imaging problems. SC 2020: 38 - [i9]Malte Brunn, Naveen Himthani, George Biros, Miriam Mehl, Andreas Mang:
Fast GPU 3D Diffeomorphic Image Registration. CoRR abs/2004.08893 (2020) - [i8]Malte Brunn, Naveen Himthani, George Biros, Miriam Mehl, Andreas Mang:
Multi-Node Multi-GPU Diffeomorphic Image Registration for Large-Scale Imaging Problems. CoRR abs/2008.12820 (2020)
2010 – 2019
- 2019
- [j10]Andreas Mang, Amir Gholami, Christos Davatzikos, George Biros:
CLAIRE: A Distributed-Memory Solver for Constrained Large Deformation Diffeomorphic Image Registration. SIAM J. Sci. Comput. 41(5): C548-C584 (2019) - 2018
- [i7]Andreas Mang, Amir Gholami, Christos Davatzikos, George Biros:
PDE-constrained optimization in medical image analysis. CoRR abs/1803.00058 (2018) - [i6]Andreas Mang, Amir Gholami, Christos Davatzikos, George Biros:
CLAIRE: A distributed-memory solver for constrained large deformation diffeomorphic image registration. CoRR abs/1808.04487 (2018) - 2017
- [j9]Andreas Mang, Lars Ruthotto:
A Lagrangian Gauss-Newton-Krylov Solver for Mass- and Intensity-Preserving Diffeomorphic Image Registration. SIAM J. Sci. Comput. 39(5) (2017) - [j8]Andreas Mang, George Biros:
A Semi-Lagrangian Two-Level Preconditioned Newton-Krylov Solver for Constrained Diffeomorphic Image Registration. SIAM J. Sci. Comput. 39(6) (2017) - [c21]Amir Gholami, Andreas Mang, Klaudius Scheufele, Christos Davatzikos, Miriam Mehl, George Biros:
A framework for scalable biophysics-based image analysis. SC 2017: 19 - [i5]Andreas Mang, Lars Ruthotto:
A Lagrangian Gauss-Newton-Krylov Solver for Mass- and Intensity-Preserving Diffeomorphic Image Registration. CoRR abs/1703.04446 (2017) - 2016
- [j7]Andreas Mang, George Biros:
Constrained H1-Regularization Schemes for Diffeomorphic Image Registration. SIAM J. Imaging Sci. 9(3): 1154-1194 (2016) - [c20]Andreas Mang, Amir Gholami, George Biros:
Distributed-memory large deformation diffeomorphic 3D image registration. SC 2016: 842-853 - [i4]Andreas Mang, George Biros:
A Semi-Lagrangian two-level preconditioned Newton-Krylov solver for constrained diffeomorphic image registration. CoRR abs/1604.02153 (2016) - [i3]Andreas Mang, Amir Gholami, George Biros:
Distributed-memory large deformation diffeomorphic 3D image registration. CoRR abs/1608.03630 (2016) - 2015
- [j6]Andreas Mang, George Biros:
An Inexact Newton-Krylov Algorithm for Constrained Diffeomorphic Image Registration. SIAM J. Imaging Sci. 8(2): 1030-1069 (2015) - [i2]Andreas Mang, George Biros:
Controlling the deformation map in diffeomorphic image registration. CoRR abs/1503.00757 (2015) - 2014
- [j5]Tina Anne Schütz, Andreas Mang, Stefan Becker, Alina Toma, Thorsten M. Buzug:
Identification of Crucial Parameters in a Mathematical Multiscale Model of Glioblastoma Growth. Comput. Math. Methods Medicine 2014: 437094:1-437094:14 (2014) - [i1]Andreas Mang, George Biros:
An inexact Newton-Krylov algorithm for constrained diffeomorphic image registration. CoRR abs/1408.6299 (2014) - 2013
- [c19]Andreas Mang, Jenny Stritzel, Alina Toma, Stefan Becker, Tina A. Schütz, Thorsten M. Buzug:
Personalisierte Modellierung der Progression primärer Hirntumoren als Optimierungsproblem mit Differentialgleichungsnebenbedingung. Bildverarbeitung für die Medizin 2013: 57-62 - 2012
- [j4]Alina Toma, Andreas Mang, Tina A. Schütz, Stefan Becker, Thorsten M. Buzug:
A Novel Method for Simulating the Extracellular Matrix in Models of Tumour Growth. Comput. Math. Methods Medicine 2012: 109019:1-109019:11 (2012) - [c18]Andreas Mang, Alina Toma, Tina A. Schütz, Stefan Becker, Thorsten M. Buzug:
Eine effiziente Parallel-Implementierung eines stabilen Euler-Cauchy-Verfahrens für die Modellierung von Tumorwachstum. Bildverarbeitung für die Medizin 2012: 63-68 - [c17]Alina Toma, Anne Régnier-Vigouroux, Andreas Mang, Tina A. Schütz, Stefan Becker, Thorsten M. Buzug:
In-silico Modellierung der Immunantwort auf Hirntumorwachstum. Bildverarbeitung für die Medizin 2012: 123-128 - [c16]Andreas Mang, Tina A. Schütz, Alina Toma, Stefan Becker, Thorsten M. Buzug:
Ein dämonenartiger Ansatz zur Modellierung tumorinduzierter Gewebedeformation als Prior für die nicht-rigide Bildregistrierung. Bildverarbeitung für die Medizin 2012: 422-427 - [c15]Tina A. Schütz, Stefan Becker, Andreas Mang, Alina Toma, Thorsten M. Buzug:
A computational multiscale model of glioblastoma growth: Regulation of cell migration and proliferation via microRNA-451, LKB1 and AMPK. EMBC 2012: 6620-6623 - [c14]Andreas Mang, Tina A. Schütz, Alina Toma, Stefan Becker, Thorsten M. Buzug:
An efficient, variational non-parametric model of tumour induced brain deformation to aid non-diffeomorphic image registration. ISBI 2012: 732-735 - [c13]Andreas Mang, Tina Anne Schütz, Stefan Becker, Alina Toma, Thorsten M. Buzug:
Cyclic Numerical Time Integration in Variational Non-Rigid Image Registration based on Quadratic Regularisation. VMV 2012: 143-150 - 2011
- [c12]Andreas Mang, Stefan Becker, Alina Toma, Thomas Polzin, Tina A. Schütz, Thorsten M. Buzug:
Modellierung tumorinduzierter Gewebedeformation als Optimierungsproblem mit weicher Nebenbedingung. Bildverarbeitung für die Medizin 2011: 294-298 - [c11]Y. Schröder, Stefan Becker, Alina Toma, Andreas Mang, Tina A. Schütz, Thorsten M. Buzug:
Ein diskreter Ansatz zur Modellierung von Tumorwachstum und Strahlentherapie. Bildverarbeitung für die Medizin 2011: 379-383 - [c10]Anna K. Heye, Stefan Becker, Andreas Mang, Tina A. Schütz, Alina Toma, Thorsten M. Buzug:
Ein kontinuierlicher Ansatz zur Modellierung von Tumorwachstum und Strahlentherapie. Bildverarbeitung für die Medizin 2011: 384-388 - [c9]Andreas Mang, Stefan Becker, Alina Toma, Tina A. Schütz, Jan Küchler, Volker M. Tronnier, Matteo Mario Bonsanto, Thorsten M. Buzug:
A model of tumour induced brain deformation as bio-physical prior for non-rigid image registration. ISBI 2011: 578-581 - [c8]Alina Toma, Andreas Mang, Tina A. Schütz, Stefan Becker, Thorsten M. Buzug:
Is it Necessary to Model the Matrix Degrading Enzymes for Simulating Tumour Growth?. VMV 2011: 361-368 - 2010
- [j3]Stefan Becker, Andreas Mang, Alina Toma, Thorsten M. Buzug:
In-silico oncology: an approximate model of brain tumor mass effect based on directly manipulated free form deformation. Int. J. Comput. Assist. Radiol. Surg. 5(6): 607-622 (2010) - [c7]Stefan Becker, Andreas Mang, Thorsten M. Buzug:
Approximation des Tumormasseeffekts mittels direkt-manipulierender Free-Form Deformation. Bildverarbeitung für die Medizin 2010: 306-310 - [c6]Stefan Becker, Andreas Mang, Alina Toma, Thorsten M. Buzug:
Approximating tumor induced brain deformation using directly manipulated free form deformation. ISBI 2010: 85-88 - [c5]Andreas Mang, Stefan Becker, Alina Toma, Thorsten M. Buzug:
Coupling tumor growth with brain deformation: a constrained parametric non-rigid registration problem. Image Processing 2010: 76230C
2000 – 2009
- 2009
- [c4]Stefan Becker, Jan Ole Jungmann, Andreas Mang, Thorsten M. Buzug:
Tumor-Wachstumsmodellierung als parametrisches Bildregistrierproblem. Bildverarbeitung für die Medizin 2009: 197-201 - [c3]Stefan Becker, Andreas Mang, Jan Ole Jungmann, Thorsten M. Buzug:
In-Silico Modellierung von Tumorwachstum: Approximation des Tumormasseeffektes mittels Thin-Plate-Splines. GI Jahrestagung 2009: 1276-1284 - 2008
- [j2]Andreas Mang, Julia A. Schnabel, William R. Crum, Marc Modat, Oscar Camara-Rey, Christoph Palm, Gisele Brasil-Caseiras, Hans Rolf Jäger, Sébastien Ourselin, Thorsten M. Buzug, David J. Hawkes:
Consistency of parametric registration in serial MRI studies of brain tumor progression. Int. J. Comput. Assist. Radiol. Surg. 3(3-4): 201-211 (2008) - 2007
- [c2]Andreas Mang, Oscar Camara, Gisele Brasil-Caseiras, William R. Crum, Julia A. Schnabel, Thorsten M. Buzug, Jeremy Rees, John S. Thornton, Hans Rolf Jäger, David J. Hawkes:
Registration of Rcbv and Adc Maps with Structural and Physiological Mr Images in Glioma Patients: Study and Validation. ISBI 2007: 37-40 - 2006
- [j1]Andreas Mang, Jan Müller, Thorsten M. Buzug:
A Multi-Modality Computer-Aided Framework Towards Postmortem Identification. J. Comput. Inf. Technol. 14(1): 7-19 (2006) - [c1]Andreas Mang, Michael Wagner, Jan Müller, Manfred Fuchs, Thorsten M. Buzug:
Restoration of the Sphere-Cortex Homeomorphism. Bildverarbeitung für die Medizin 2006: 286-290
Coauthor Index
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