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Dr. rer. nat. Philipp Neumann

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: My Erdös number is 5.
 
: My Erdös number is 5.
 
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; '''Teaching:'''
 
: You can check out a [http://www5.in.tum.de/~neumanph/introduction_to_teaching.pdf very very short introduction to teaching here].
 
: You can check out the Android App LB2M for Lattice Boltzmann flow simulations [http://www5.in.tum.de/~neumanph/lb2m_multithreading.apk here] - thanks to Michael Zellner and his developments during and after his Bachelor's thesis. The app is still under development, so you have to enable installation from unknown sources.
 
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: ''SS09''
 
: [http://www5.in.tum.de/wiki/index.php/Lab_Course_Computational_Fluid_Dynamics_-_Summer_09 Lab Course Computational Fluid Dynamics]
 
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: [http://www.ferienakademie.de/2009/K9/K9.html Ferienakademie 2009 - Course 9: Simulation technology]
 
: → [http://www.ferienakademie.de/2009/K9/K9_hist.html Course material: Handouts and slides]
 
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: ''SS10''
 
: [http://www5.in.tum.de/wiki/index.php/Lab_Course_Computational_Fluid_Dynamics_-_Summer_10 Lab Course Computational Fluid Dynamics]
 
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: ''SS11''
 
: [[Lab Course Computational Fluid Dynamics - Summer 11|Master Lab Course Computational Fluid Dynamics]]
 
: [[PSE Game Physics - Summer 11|Bachelor Lab Course Game Physics]]
 
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: ''SS12''
 
: [[Lab Course Scientific-Computing: Computational Fluid Dynamics - Summer 12|Master Lab Course Computational Fluid Dynamics]]
 
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: ''WS 12/13''
 
: [[Scientific Computing I - Winter 12|Scientific Computing I]]
 
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: ''SS13''
 
: [[Scientific Computing II - Summer 13| Scientific Computing II]]
 
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: ''WS13/14''
 
: [[Turbulent Flow Simulation on HPC-Systems]] (Ernst-Otto-Fischer Lehrpreis)
 
: [[ Seminar Lattice Boltzmann Methods - Theory, Implementation and Applications ]]
 
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: ''SS14''
 
: [[Master-Praktikum: Scientific Computing - Computational Fluid Dynamics - Summer 14|Master Lab Course Computational Fluid Dynamics]]
 
: [[Seminar Lattice Boltzmann Methods - Theory, Implementation and Applications-SS14|Seminar Lattice Boltzmann Methods - Theory, Implementation and Applications]]
 
: [[Short Course Lattice Boltzmann Methods - UFJF|Short Course Lattice Boltzmann Methods (Universidade Federal de Juiz de Fora)]]
 
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: ''WS14/15''
 
: [[Advanced Programming - Winter 14|Advanced Programming]]
 
: [[Einführung in die wissenschaftliche Programmierung - Winter 14|Einführung in die wissenschaftliche Programmierung]]
 
: [[Turbulent Flow Simulation on HPC-Systems]] (Ernst-Otto-Fischer Lehrpreis)
 
: [[BGCE Seminar Supervised Teaching - Winter 14|BGCE Seminar Supervised Teaching]]
 
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: ''SS15''
 
: [[Seminar Lattice Boltzmann Methods - Theory, Implementation and Applications-SS15|Lattice Boltzmann Methods - Theory, Implementation and Applications]]
 
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: ''WS15/16''
 
: [[Advanced Programming - Winter 15|Advanced Programming]]
 
: [[Turbulent Flow Simulation on HPC-Systems]] (Ernst-Otto-Fischer Lehrpreis)
 
: [[PSE Molekulardynamik_WS15|Bachelor-Praktikum: Molekulardynamik]]
 
: [[BGCE Seminar Supervised Teaching - Winter 15|BGCE Seminar Supervised Teaching]]
 
: [[Seminar Lattice Boltzmann Methods - Theory, Implementation and Applications-WS15|Lattice Boltzmann Methods - Theory, Implementation and Applications]]
 
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: ''SS16''
 
: [[Master-Praktikum: Scientific Computing - Computational Fluid Dynamics - Summer 16|Master Lab Course Computational Fluid Dynamics]]
 
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; '''Topics for bachelor's/diploma/ master's theses:'''
 
:[[Particle Insertion in Dense Fluids]]
 
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:[[A hybrid molecular dynamics-Lattice Boltzmann approach to multiscale fluid dynamics]]-->
 
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:[[Implementation of a multispeed Lattice Boltzmann solver]]
 
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:[[Dynamic adaptive refinement techniques for free surface flow simulations]]
 
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: Hybrid MD-LB simulations using a multi-MD approach
 
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: A parallel-in-time method for Lattice Boltzmann and Navier-Stokes solvers
 
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:''Beside the listed topics, individual topics and suggestions are also always welcome! Just drop by my office so that we can discuss your ideas!''
 
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;'''Running student projects:'''
 
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: M. Zellner. Flow Simulation on Android Devices via Remote Computing. Guided research. 2016.
 
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: E. Drossos. Parallel-in-Time Simulaion for Fluid Dynamics Using Lattice Boltzmann Methods. Master's thesis. 2016.
 
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; '''Finished student projects:'''
 
 
: U. Rieger. Extending the Android App LB2M by a Multiphase Flow Model. Bachelor's thesis. 2016.
 
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: M. Zellner. Interactive Lattice Boltzmann Simulation on Android Devices. Bachelor's thesis. 2016.
 
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: I. Bratoev. Lattice Boltzmann Simulations on Spacetree-based Adaptive Grids. Master's thesis. 2015.
 
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: M. Fischer. Parameter Estimation for the USHER Algorithm using Sparse Grids. IDP. 2015.
 
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: S. Sharma. CFD based design optimization for a cooling jacket of an electric machine. Master's thesis (cooperation with BMW). 2015.
 
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: P. Jarmatz. Improving Adaptivity and Stability in LB Simulations using Walberla. Work during employment as student assistant. 2015.
 
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: R. Kommajosyula. Development of a Numerical Scheme for Transient Coupled Lattice Boltzmann-Navier-Stokes Simulations. Master's thesis. 2015.
 
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: S. Zakharov. Hybrid Lattice Boltzmann-Molecular Dynamics Simulations Using the Palabos and OpenLB Frameworks. Master's thesis. 2015.
 
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: H. Flohr. Coupling the Molecular Dynamics Simulation ls1 Mardyn with the Lattice Boltzmann Simulation Walberla Using the Macro-Micro-Coupling Tool. Master's thesis. 2015.
 
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: R. Arora. Coupling Espresso and the Macro-Micro-Coupling Tool. Work during employment as student assistant. 2014.
 
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: E. Voskoboinikova. Investigation of MRT-LB simulations. Work during employment as student assistant. 2014.
 
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: N. Rahman. Towards Solving Boltzmann-Like Equations on Sparse Grids. Work during employment as student assistant. 2014.
 
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: P. Karlshöfer. Parameter Space Exploration for USHER-Based Particle Insertion. Bachelor's thesis. 2014.
 
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: G. Schwarz. A Flexible Cartesian Grid Data Structure for Coupled Simulations. Bachelor's thesis. 2014.
 
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: P. Jarmatz. Coupling the Lattice Boltzmann Software Walberla and Molecular Dynamics Simulations Using the Macro-Micro-Coupling Tool. Bachelor's thesis. 2014.
 
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: A. Mustafa. Validation of Standard Best Practices for External Aerodynamics of an Automobile in Yawed Flow (cooperation with Exa). Master's thesis. 2013.
 
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:C. Pachajoa. Three-Dimensional Coupling of Lattice Boltzmann and Navier-Stokes Solvers. Master's thesis. 2013.
 
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:D. Pinaev. A Patch-Based Concept for Adaptive Lattice Boltzmann Simulations in Peano 3. Master's thesis. 2013.
 
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:C.-Y. Kao. Viscous Flow Computations with Molecular Dynamics. Bachelor's thesis. 2013.
 
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:A. Bakhtiari. MPI Parallelization of GPU-based Lattice Boltzmann Simulations. Master's thesis. 2013.
 
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:N. Rahman. Visualisation of hybrid Lattice Boltzmann-Molecular Dynamics Data using POV-Ray. Work during employment as student assistant. 2013.
 
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:C. Pachajoa, F. Rempe and M. Seravalli. Symbolic Reasoning on Embedded Controllers for Industrial Diagnostics (cooperation with Siemens). BGCE Honours Project. 2013.
 
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:A. Bakhtiari and D. Pinaev. Implementation of a 3D Seismic Wave Model on Adaptive Meshes in PeanoClaw. BGCE Honours Project. 2013.
 
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:T. Kovacevic. Aspects of Hybrid Molecular-Continuum Simulations for Complex Liquids. Master's thesis. 2012. [[Hybrid molecular dynamics-Lattice Boltzmann simulations for complex liquids|Description]]
 
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:N. Tchipev. Parallelisation of a Linked-cell molecular dynamics simulation. Work during employment as student assistant. 2012.
 
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:M. Georgiev, D. Gudu, M. Hinterstocker, T. Kovacevic and A. Shahvarani. MRI goes FRAVE. BGCE Honours Project. 2012.
 
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:P. Hoffmann. Ein Kopplungsansatz für hybride Lattice Boltzmann-Molekulardynamik-Simulationen mit MarDyn. Master's thesis. 2011. [[Coupling strategies for hybrid molecular dynamics-Lattice Boltzmann simulations|Description]].
 
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:W. Wang. Benchmark computations for the Lattice Boltzmann component within the Peano framework. Work during employment as student assistant. 2011.
 
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:T. Rohrmann. Lattice Boltzmann simulations in the finite Knudsen number range within the Peano framework. Bachelor's thesis. 2011. [[Lattice Boltzmann Simulations in the finite Knudsen number range|Description]].
 
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:D. Jarema. Comparison and Coupling of a Lattice-Boltzmann Fluid-Structure Interaction Code with the Faxén Correction Approach. Master's thesis. 2011.
 
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:M. Schreiber. GPU based simulation and visualization of fluids with free surfaces. Diploma thesis. 2010.
 
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:B. Gholami, D. Kleine-Albers, C. Kowitz, N. Melik-Barkhudarov, O. Perro, S. Selcuk and N. Shahriari. Simulating Free Surface Flows with the Lattice Boltzmann Method. BGCE Honours Project. 2010.
 
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:T. Halici. Implementation of the two-relaxation-time model into the Lattice Boltzmann component of the Peano framework. Work during employment as student assistant. 2010.
 
 
[[Category:Chair]]
 
[[Category:Chair]]

Revision as of 20:02, 13 October 2016

Neumanph profile.jpg I have moved to the German Climate Computing Center.
Address:
TU München
Institut für Informatik
Boltzmannstr. 3
85748 Garching b. München
Office:
MI 02.05.060
Email:
Neumanphmail.png
Phone:
(089) 289 18 600
Fax:
(089) 289 18 607
Office Hours:
by arrangement
Homepage:
Welcome to Super-Epsi's world (incl. CV and publications)
Showroom:
Super-Epsi's videos and pics
Fun Facts:
My Erdös number is 5.