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Hüseyin Kemâl Çakmak
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2020 – today
- 2024
- [j13]Chang Li, Gina Brecher, Jovana Kovacevic, Hüseyin K. Çakmak, Kevin Förderer, Jörg Matthes, Veit Hagenmeyer:
Gossen's first law in the modeling for demand side management: a thorough heat pump case study with deep learning based partial time series data generation. Energy Inform. 7(1): 47 (2024) - [j12]Moritz Weber, Luc Janecke, Hüseyin K. Çakmak, Veit Hagenmeyer:
Open Data-Driven Automation of Residential Distribution Grid Modeling With Minimal Data Requirements. IEEE Trans. Smart Grid 15(6): 5721-5732 (2024) - [c25]Moritz Weber, Alexander Kocher, Hüseyin K. Çakmak, Veit Hagenmeyer:
ePowCoRe: A Novel Generic Representation of Power Grids Enabling Open-Source Model Conversion Modules. OSMSES 2024: 1-6 - [i5]Xinliang Dai, Alexander Kocher, Jovana Kovacevic, Burak Dindar, Yuning Jiang, Colin N. Jones, Hüseyin Kemâl Çakmak, Veit Hagenmeyer:
Ensuring Data Privacy in AC Optimal Power Flow with a Distributed Co-Simulation Framework. CoRR abs/2402.01001 (2024) - 2023
- [j11]Michael Kyesswa, Hüseyin Kemâl Çakmak, Uwe G. Kühnapfel, Veit Hagenmeyer:
A two-stage parallel hybrid method for power system dynamic security assessment. Autom. 71(12): 1002-1017 (2023) - [c24]Moritz Weber, Jona Enzinger, Hüseyin Kemâl Çakmak, Uwe G. Kühnapfel, Veit Hagenmeyer:
PyAPI-RTS: A Python-API for RSCAD Modeling. OSMSES 2023: 1-7 - [i4]Moritz Weber, Luc Janecke, Hüseyin Kemâl Çakmak, Veit Hagenmeyer:
Open Data-Driven Automation of Residential Distribution Grid Modeling with Minimal Data Requirements. CoRR abs/2312.06552 (2023) - 2022
- [c23]Dorina Werling, Benedikt Heidrich, Hüseyin Kemâl Çakmak, Veit Hagenmeyer:
Towards line-restricted dispatchable feeders using probabilistic forecasts for PV-dominated low-voltage distribution grids. e-Energy 2022: 395-400 - [c22]Marian Turowski, Moritz Weber, Oliver Neumann, Benedikt Heidrich, Kaleb Phipps, Hüseyin Kemâl Çakmak, Ralf Mikut, Veit Hagenmeyer:
Modeling and generating synthetic anomalies for energy and power time series. e-Energy 2022: 471-484 - [c21]Hüseyin Kemâl Çakmak, Luc Janecke, Moritz Weber, Veit Hagenmeyer:
An Optimization-based Approach for Automated Generation of Residential Low-Voltage Grid Models Using Open Data and Open Source Software. ISGT-Europe 2022: 1-6 - [c20]Hüseyin Kemâl Çakmak, Veit Hagenmeyer:
Using Open Data for Modeling and Simulation of the All Electrical Society in eASiMOV. OSMSES 2022: 1-6 - [i3]Hüseyin Kemâl Çakmak, Luc Janecke, Veit Hagenmeyer:
Automated generation of large-scale distribution grid models based on open data and open source software using an optimization approach. CoRR abs/2202.13692 (2022) - 2021
- [j10]Moritz Weber, Marian Turowski, Hüseyin Kemâl Çakmak, Ralf Mikut, Uwe G. Kühnapfel, Veit Hagenmeyer:
Data-Driven Copy-Paste Imputation for Energy Time Series. IEEE Trans. Smart Grid 12(6): 5409-5419 (2021) - [c19]Alexander Murray, Michael Kyesswa, Hüseyin Kemâl Çakmak, Veit Hagenmeyer:
On Optimal Grid Partitioning for Distributed Optimization of Reactive Power Dispatch. ISGT 2021: 1-5 - [c18]Anselm Erdmann, Michael Kyesswa, Hüseyin Kemâl Çakmak, Veit Hagenmeyer:
Enabling Sustainability-Driven Control Strategies in Multimodal Energy Systems Simulations. ISGT-Europe 2021: 1-6 - [i2]Moritz Weber, Marian Turowski, Hüseyin Kemâl Çakmak, Ralf Mikut, Uwe G. Kühnapfel, Veit Hagenmeyer:
Data-Driven Copy-Paste Imputation for Energy Time Series. CoRR abs/2101.01423 (2021) - 2020
- [j9]Sadeeb Simon Ottenburger, Hüseyin Kemâl Çakmak, Wilfried Jakob, Andreas Blattmann, Dmytro Trybushnyi, Wolfgang Raskob, Uwe G. Kühnapfel, Veit Hagenmeyer:
A novel optimization method for urban resilient and fair power distribution preventing critical network states. Int. J. Crit. Infrastructure Prot. 29: 100354 (2020) - [c17]Michael Kyesswa, Philipp Schmurr, Hüseyin Kemâl Çakmak, Uwe G. Kühnapfel, Veit Hagenmeyer:
A New Julia-Based Parallel Time-Domain Simulation Algorithm for Analysis of Power System Dynamics. DS-RT 2020: 1-9 - [c16]Alexander Murray, Michael Kyesswa, Philipp Schmurr, Hüseyin Kemâl Çakmak, Veit Hagenmeyer:
On Grid Partitioning in AC Optimal Power Flow. ISGT-Europe 2020: 524-528 - [c15]Michael Kyesswa, Hüseyin Kemâl Çakmak, Uwe G. Kühnapfel, Veit Hagenmeyer:
Dynamic Modeling of Wind and Solar Power Generation with Grid Support for Large-Scale Integration in Power Systems. ISGT-Europe 2020: 569-573
2010 – 2019
- 2019
- [j8]Hüseyin Kemâl Çakmak, Anselm Erdmann, Michael Kyesswa, Uwe G. Kühnapfel, Veit Hagenmeyer:
A new distributed co-simulation architecture for multi-physics based energy systems integration. Autom. 67(11): 972-983 (2019) - [c14]Anselm Erdmann, Hüseyin Kemâl Çakmak, Uwe G. Kühnapfel, Veit Hagenmeyer:
A New Communication Concept for Efficient Configuration of Energy Systems Integration Co-Simulation. DS-RT 2019: 1-8 - [i1]Alexander Murray, Michael Kyesswa, Philipp Schmurr, Hüseyin Kemâl Çakmak, Veit Hagenmeyer:
A Comparison of Partitioning Strategies in AC Optimal Power Flow. CoRR abs/1911.11516 (2019) - 2018
- [j7]Michael Kyesswa, Hüseyin Kemâl Çakmak, Uwe G. Kühnapfel, Veit Hagenmeyer:
Poster Abstract: Implementation of an extended generator subsystem in OpenModelica and comparative analysis with DIgSILENT PowerFactory. Comput. Sci. Res. Dev. 33(1-2): 253-255 (2018) - [c13]Michael Kyesswa, Hüseyin Kemâl Çakmak, Uwe G. Kühnapfel, Veit Hagenmeyer:
A Matlab-Based Simulation Tool For The Analysis Of Unsymmetrical Power System Transients In Large Networks. ECMS 2018: 246-253 - 2017
- [c12]Bálint Hartmann, Hüseyin Kemâl Çakmak, Uwe G. Kuehnapfel, Veit Hagenmeyer:
Enhancing Model Interchangeability For Powerflow Studies: An Example Of A New Hungarian Network Model In Powerfactory And eASiMOV. ECMS 2017: 158-165 - [c11]Michael Kyesswa, Hüseyin Kemâl Çakmak, Uwe G. Kühnapfel, Veit Hagenmeyer:
A Matlab-Based Dynamic Simulation Module for Power System Transients Analysis in the eASiMOV Framework. EMS 2017: 157-162 - 2015
- [j6]Hüseyin Kemâl Çakmak, Heiko Maaß, Felix Bach, Uwe G. Kühnapfel, Veit Hagenmeyer:
Ein Ansatz zur automatisierten Erstellung umfangreicher und komplexer Simulationsmodelle für elektrische Übertragungsnetze aus OpenStreetMap-Daten. Autom. 63(11): 911-925 (2015) - [j5]Heiko Maaß, Hüseyin Kemâl Çakmak, Felix Bach, Ralf Mikut, Aymen Harrabi, Wolfgang Süß, Wilfried Jakob, Karl-Uwe Stucky, Uwe G. Kühnapfel, Veit Hagenmeyer:
Data processing of high-rate low-voltage distribution grid recordings for smart grid monitoring and analysis. EURASIP J. Adv. Signal Process. 2015: 14 (2015) - 2013
- [j4]Heiko Maaß, Hüseyin Kemâl Çakmak, Wolfgang Süß, Alexander Quinte, Wilfried Jakob, Karl-Uwe Stucky, Uwe G. Kuehnapfel:
First Evaluation Results Using the New Electrical Data Recorder for Power Grid Analysis. IEEE Trans. Instrum. Meas. 62(9): 2384-2390 (2013) - [c10]Heiko Maaß, Hüseyin Kemâl Çakmak, Felix Bach, Uwe G. Kühnapfel:
One year high rate low voltage recording - Devices, methods and results. AMPS 2013: 68-72 - [c9]Felix Bach, Hüseyin Kemâl Çakmak, Heiko Maaß, Uwe G. Kuehnapfel:
Power Grid Time Series Data Analysis with Pig on a Hadoop Cluster Compared to Multi Core Systems. PDP 2013: 208-212 - 2012
- [c8]Heiko Maaß, Hüseyin Kemâl Çakmak, Wolfgang Süß, Alexander Quinte, Wilfried Jakob, Karl-Uwe Stucky, Uwe G. Kühnapfel:
Introducing the Electrical Data Recorder as a new capturing device for power grid analysis. AMPS 2012: 1-6 - 2011
- [j3]Marie-Theres Boll, Heiko Maaß, Hüseyin Kemâl Çakmak, Uwe G. Kühnapfel, Georg Bretthauer:
Entwicklung eines Bewertungssystems für Virtual Reality-Simulatoren in der Chirurgie. Autom. 59(11): 683-691 (2011) - 2010
- [c7]Felix Bach, J. Buschmann, Bastian Schmitz, Heiko Maaß, Hüseyin Kemâl Çakmak, Martin Diers, Jens Foell, Sandra Kamping, Herta Flor:
Neue VR- und AR-Umgebungen zur Therapie von Phantomphänomenen. CURAC 2010: 105-110 - [c6]Felix Bach, Bastian Schmitz, Heiko Maaß, Hüseyin Kemâl Çakmak, Martin Diers, Robin Bekrater-Bodmann, Sandra Kamping, Herta Flor:
Using interactive immersive VR/AR for the therapy of phantom limb pain. Humans and Computers 2010: 183-187
2000 – 2009
- 2009
- [j2]Hüseyin Kemâl Çakmak, Heiko Maaß, Christos Trantakis, Gero Strauß, Edgar Nowatius, Uwe G. Kühnapfel:
Haptic ventriculostomy simulation in a grid environment. Comput. Animat. Virtual Worlds 20(1): 25-38 (2009) - 2004
- [c5]Christos Trantakis, Jürgen Meixensberger, Gero Strauß, Edgar Nowatius, Dirk Lindner, Hüseyin Kemâl Çakmak, Heiko Maaß, C. Nagel, Uwe G. Kühnapfel:
"IOMaster 7D" - a new device for virtual neuroendoscopy. CARS 2004: 707-712 - 2003
- [c4]Christos Trantakis, Friedrich Bootz, Gero Strauß, Edgar Nowatius, Dirk Lindner, Hüseyin Kemâl Çakmak, Heiko Maaß, Uwe G. Kühnapfel, Jürgen Meixensberger:
Virtual endoscopy with force feedback - a new system for neurosurgical training. CARS 2003: 782-787 - [c3]Heiko Maaß, Benjamin B. A. Chantier, Hüseyin Kemâl Çakmak, Uwe G. Kühnapfel:
How to Add Force Feedback to a Surgery Simulator. IS4TH 2003: 165-174 - 2001
- [b1]Hüseyin Kemâl Çakmak:
Echtheitssimulation elastodynamischer Gewebe am Beispiel eines "Virtual-reality"-Trainingsgeräts für die minimal invasive Chirurgie. Karlsruhe Institute of Technology, Germany, 2001, pp. 1-146 - 2000
- [j1]Uwe G. Kühnapfel, Hüseyin Kemâl Çakmak, Heiko Maaß:
Endoscopic surgery training using virtual reality and deformable tissue simulation. Comput. Graph. 24(5): 671-682 (2000) - [c2]Hüseyin Kemâl Çakmak, Uwe G. Kühnapfel:
Animation and Simulation Techniques for VR-Training Systems in Endoscopic Surgery. Computer Animation and Simulation 2000: 173-185
1990 – 1999
- 1996
- [c1]Peter Hastreiter, Hüseyin Kemâl Çakmak, Thomas Ertl:
Intuitive and Interactive Manipulation of 3D Data Sets by Integrating Texture Mapping Based Volume Rendering into the OpenInventor Class Hierarchy. Bildverarbeitung für die Medizin 1996
Coauthor Index
aka: Uwe G. Kuehnapfel
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last updated on 2024-12-10 21:44 CET by the dblp team
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