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Anatoli Djanatliev
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- affiliation: Friedrich Alexander University of Erlangen-Nuremberg, Department of Computer Science, Erlangen, Germany
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2020 – today
- 2024
- [c54]Matthias Frei, Reinhard German, Anatoli Djanatliev:
An Edge Resource Selection Scheme Considering QoS and Computational Parameters. ICCCN 2024: 1-9 - 2023
- [j1]Alexander Brummer, Reinhard German, Anatoli Djanatliev:
Methodology and Performance Assessment of Three-Dimensional Vehicular Ad-Hoc Network Simulation. IEEE Access 11: 36349-36364 (2023) - [c53]Matthias Frei, Reinhard German, Anatoli Djanatliev:
Evaluating Optimistic Synchronization of Network Graphs in Mobile Networks With MEC Support. CloudNet 2023: 185-193 - [c52]Michael Niebisch, Daniel Pfaller, Anatoli Djanatliev:
Enhancing Vehicular Cooperative Downloading with Continuous Seeding Through Deep Reinforcement Learning. LATINCOM 2023: 1-6 - [c51]Michael Niebisch, Daniel Pfaller, Reinhard German, Anatoli Djanatliev:
On the Benefits of Opportunistic WiFi in Cooperative Downloading. VTC2023-Spring 2023: 1-6 - 2022
- [c50]Matthias Frei, Reinhard German, Anatoli Djanatliev:
meQ: Selecting MEC Resources by Considering Service Communication Requirements. CloudCom 2022: 66-73 - [c49]Michael Niebisch, Daniel Pfaller, Anatoli Djanatliev:
Cooperative Downloading in Heterogeneous Vehicular Networks: A Cost Analysis. ICEIC 2022: 1-4 - [c48]Christoph Stadler, Reinhard German, Anatoli Djanatliev:
Towards a Multivariate Scoring Metric for the Evaluation of Simulation Scenarios in Automated Driving. ITSC 2022: 2508-2513 - [c47]Michael Niebisch, Daniel Pfaller, Reinhard German, Anatoli Djanatliev:
Performance Improvements in Cooperative Downloading: Encoding and Strategies for Heterogeneous Vehicular Networks. LCN 2022: 438-446 - [c46]Michael Niebisch, Daniel Pfaller, Anatoli Djanatliev:
CoDiPy: Performance Evaluation of Vehicular Cooperative Downloading in Python. WiMob 2022: 461-465 - 2021
- [c45]Francesco Montanari, Christoph Stadler, Jörg Sichermann, Reinhard German, Anatoli Djanatliev:
Maneuver-based Resimulation of Driving Scenarios based on Real Driving Data. IV 2021: 1124-1131 - [c44]Christoph Stadler, Kevin Rauner, Reinhard German, Anatoli Djanatliev:
Simulation-Based Parameter Identification for Accuracy Definitions in Virtual Environment Models for Validation of Automated Driving. IV 2021: 1138-1143 - [c43]Thomas Deinlein, Moustafa Roshdi, Tianxiang Nan, Thomas Heyn, Anatoli Djanatliev, Reinhard German:
On the Impact of priority-based MAC Layer Scheduling in 5G V2N multi-application Scenarios. WMNC 2021: 63-70 - [c42]Matthias Frei, Thomas Deinlein, Reinhard German, Anatoli Djanatliev:
An Evaluation of the Communication Performance of MEC-Dependent Services in 5G Networks. NCA 2021: 1-8 - [c41]Alexander Brummer, Thomas Deinlein, Anatoli Djanatliev:
On the Simulation of Vehicular Networking Scenarios in Multi-Story Parking Garages. VNC 2021: 87-94 - [c40]Thomas Deinlein, Alexander Brummer, Reinhard German, Anatoli Djanatliev:
On the Impact of Buildings on the LoS Evaluation in System-Level V2I/N Simulations. VTC Fall 2021: 1-5 - [c39]Francesco Montanari, Haoyu Ren, Anatoli Djanatliev:
Scenario Detection in Unlabeled Real Driving Data with a Rule-Based State Machine Supported by a Recurrent Neural Network. VTC Spring 2021: 1-5 - [c38]Michael Niebisch, Reinhard German, Anatoli Djanatliev:
GRETEL: Graph-based Street Coverage Calculation for Vehicle-to-Infrastructure Communication. WONS 2021: 1-7 - [c37]Moritz Gütlein, Reinhard German, Anatoli Djanatliev:
Hide Your Model! Layer Abstractions for Data-Driven Co-Simulations. WSC 2021: 1-12 - 2020
- [c36]Moritz Gütlein, Wojciech Baron, Christopher Renner, Anatoli Djanatliev:
Performance Evaluation of HLA RTI Implementations. DS-RT 2020: 1-8 - [c35]Thomas Deinlein, Reinhard German, Anatoli Djanatliev:
5G-Sim-V2I/N: Towards a Simulation Framework for the Evaluation of 5G V2I/V2N Use Cases. EuCNC 2020: 353-357 - [c34]Bernd Huber, Paul Schmidl, Christoph Sippl, Anatoli Djanatliev:
A Validated Failure Behavior Model for Driver Behavior Models for Generating Skid-Scenarios on Motorways. IHSI 2020: 92-98 - [c33]Bernd Huber, Steffen Herzog, Christoph Sippl, Reinhard German, Anatoli Djanatliev:
Evaluation of Virtual Traffic Situations for Testing Automated Driving Functions based on Multidimensional Criticality Analysis. ITSC 2020: 1-7 - [c32]Francesco Montanari, Reinhard German, Anatoli Djanatliev:
Pattern Recognition for Driving Scenario Detection in Real Driving Data. IV 2020: 590-597 - [c31]Moritz Gütlein, Anatoli Djanatliev:
On-demand Simulation of Future Mobility Based on Apache Kafka. SIMULTECH (Selected Papers) 2020: 18-41 - [c30]Moritz Gütlein, Anatoli Djanatliev:
Modeling and Simulation as a Service using Apache Kafka. SIMULTECH 2020: 171-180 - [c29]Alexander Brummer, Moritz Gütlein, Matthias Schäfer, Reinhard German, Anatoli Djanatliev:
Experimental Evaluation of the N-Ray Ground Interference Model. VNC 2020: 1-8 - [c28]Thomas Deinlein, Reinhard German, Anatoli Djanatliev:
Evaluation of the 5G Data Plane for Advanced Vehicular Use Cases with 5G-Sim-V2I/N. VNC 2020: 1-8 - [c27]Michael Niebisch, Thomas Deinlein, Daniel Pfaller, Reinhard German, Anatoli Djanatliev:
Impact of the Communication Direction on the Reliability of Vehicle-to-Everything (V2X) Communications. VNC 2020: 1-7
2010 – 2019
- 2019
- [c26]Alexander Brummer, Reinhard German, Anatoli Djanatliev:
Modeling V2X Communications across Multiple Road Levels. CAVS 2019: 1-5 - [c25]Moritz Gütlein, Reinhard German, Anatoli Djanatliev:
Performance Gains in V2X Experiments Using Distributed Simulation in the Veins Framework. DS-RT 2019: 1-7 - [c24]Bernd Huber, Christoph Sippl, Reinhard German, Anatoli Djanatliev:
A Validated Failure Behavior Model for Driver Models to Test Automated Driving Functions. IHIET 2019: 255-261 - [c23]Alexander Brummer, Lorenz Ammon, Anatoli Djanatliev:
N-Ray Ground Interference: Extending the Two-Ray Interference Model for 3D Terrain Shapes. VNC 2019: 1-4 - [c22]Thomas Deinlein, Reinhard German, Anatoli Djanatliev:
Simulative Comparison of 4G/5G ITU Channel Models in the Context of V2I. VTC Fall 2019: 1-5 - [c21]Moritz Gütlein, Anatoli Djanatliev:
Coupled Traffic Simulation by Detached Translation Federates: An HLA-Based Approach. WSC 2019: 1378-1389 - 2018
- [c20]Moritz Gütlein, Reinhard German, Anatoli Djanatliev:
Towards a Hybrid Co-Simulation Framework: HLA-Based Coupling of MATSim and SUMO. DS-RT 2018: 234-242 - [c19]Christoph Sippl, Benedikt Schwab, Peter M. Kielar, Anatoli Djanatliev:
Distributed Real-Time Traffic Simulation for Autonomous Vehicle Testing in Urban Environments. ITSC 2018: 2562-2567 - [c18]Thomas Deinlein, Reinhard German, Anatoli Djanatliev:
Evaluation of Single-Hop Beaconing with Congestion Control in IEEE WAVE and ETSI ITS-G5. MMB 2018: 273-282 - [c17]Alexander Brummer, Thomas Deinlein, Kai-Steffen Hielscher, Reinhard German, Anatoli Djanatliev:
Measurement-Based Evaluation of Environmental Diffraction Modeling for 3D Vehicle-to-X Simulation. VNC 2018: 1-8 - [c16]Alexander Brummer, Reinhard German, Anatoli Djanatliev:
On the Necessity of Three-Dimensional Considerations in Vehicular Network Simulation. WONS 2018: 75-82 - [c15]Tillal Eldabi, Sally C. Brailsford, Anatoli Djanatliev, Martin H. Kunc, Navonil Mustafee, Andrés F. Osorio:
Hybrid simulation Challenges and Opportunities: a Life-Cycle Approach. WSC 2018: 1500-1514 - [c14]Peter Bazan, Anatoli Djanatliev, Marco Pruckner, Reinhard German, Christoph Lauer:
Rebalancing and fleet sizing of Mobility-on-demand Networks with combined simulation, Optimization and Queueing Network Analysis. WSC 2018: 1527-1538 - 2017
- [c13]Christina Stadler, Xenia Flamm, Thomas Gruber, Anatoli Djanatliev, Reinhard German, David Eckhoff:
A stochastic V2V LOS/NLOS model using neural networks for hardware-in-the-loop testing. VNC 2017: 195-202 - [c12]Navonil Mustafee, Sally C. Brailsford, Anatoli Djanatliev, Tillal Eldabi, Martin H. Kunc, Andreas Tolk:
Purpose and benefits of hybrid simulation: Contributing to the convergence of its definition. WSC 2017: 1631-1645 - 2016
- [c11]Anatoli Djanatliev, Florian Meier:
Hospital processes within an integrated system view: A hybrid simulation approach. WSC 2016: 1364-1375 - 2015
- [b1]Anatoli Djanatliev:
Hybrid Simulation for Prospective Healthcare Decision-Support: System Dynamics, Discrete-Event and Agent-Based Simulation. University of Erlangen-Nuremberg, Verlag Dr. Hut 2015, pp. 1-252 - [c10]Anatoli Djanatliev, Reinhard German:
Towards a guide to domain-specific hybrid simulation. WSC 2015: 1609-1620 - 2014
- [c9]Marion Gantner-Bär, Florian Meier, Peter L. Kolominsky-Rabas, Anatoli Djanatliev, Armin Metzger, Wieland Voigt, Hans-Ulrich Prokosch, Martin Sedlmayr:
Prospective Assessment of an innovative test for prostate cancer screening using the VITA process model framework. MIE 2014: 236-240 - [c8]Anatoli Djanatliev, Peter Bazan, Reinhard German:
Partial paradigm hiding and reusability in hybrid simulation modeling using the frameworks health-DS and i7-AnyEnergy. WSC 2014: 1723-1734 - 2013
- [c7]Anatoli Djanatliev, Reinhard German:
Large scale healthcare modeling by hybrid simulation techniques using AnyLogic. SimuTools 2013: 248-257 - [c6]Anatoli Djanatliev, Reinhard German:
Prospective healthcare decision-making by combined system dynamics, discrete-event and agent-based simulation. WSC 2013: 270-281 - 2012
- [c5]Marion Gantner-Bär, Anatoli Djanatliev, Hans-Ulrich Prokosch, Martin Sedlmayr:
Conceptual Modeling for Prospective Health Technology Assessment. MIE 2012: 33-37 - [c4]Anatoli Djanatliev, Peter L. Kolominsky-Rabas, Bernd M. Hofmann, Axel Aisenbrey, Reinhard German:
System Dynamics and Agent-Based Simulation for Prospective Health Technology Assessments. SIMULTECH (Selected Papers) 2012: 85-96 - [c3]Anatoli Djanatliev, Peter L. Kolominsky-Rabas, Bernd M. Hofmann, Axel Aisenbrey, Reinhard German:
Hybrid Simulation Approach for Prospective Assessment of Mobile Stroke Units. SIMULTECH 2012: 357-366 - [c2]Anatoli Djanatliev, Reinhard German, Peter L. Kolominsky-Rabas, Bernd M. Hofmann:
Hybrid simulation with loosely coupled system dynamics and agent-based models for prospective health technology assessments. WSC 2012: 69:1-69:12 - 2011
- [c1]Anatoli Djanatliev, Winfried Dulz, Reinhard German, Vitali Schneider:
Veritas - a versatile modeling environment for test-driven agile simulation. WSC 2011: 3662-3671
Coauthor Index
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last updated on 2024-09-12 02:30 CEST by the dblp team
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