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Rolf Hoffmann
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2020 – today
- 2024
- [c68]Miroslaw Szaban, Michal Seredynski, Rolf Hoffmann, Dominique Désérable, Franciszek Seredynski:
Pattern Formation by Collective Behavior of Competing Cellular Automata-Based Agents. ACRI 2024: 34-44 - 2023
- [j23]Rolf Hoffmann
:
Generating Loop Patterns with a Genetic Algorithm and a Probabilistic Cellular Automata Rule. Algorithms 16(7): 352 (2023) - [j22]Franciszek Seredynski
Evolutionary self-optimization of large CA-based multi-agent systems. J. Comput. Sci. 68: 101994 (2023) - [j21]Franciszek Seredynski
Coverage and Lifetime Optimization by Self-Optimizing Sensor Networks. Sensors 23(8): 3930 (2023) - 2022
- [j20]Rolf Hoffmann
Cellular automata rules solving the wireless sensor network coverage problem. Nat. Comput. 21(3): 417-447 (2022) - [c67]Franciszek Seredynski
Towards Self-optimizing Sensor Networks: Game-Theoretic Second-Order CA-Based Approach. ACRI 2022: 208-219 - [c66]Franciszek Seredynski
Towards evolutionary self-optimization of large multi-agent systems. GECCO Companion 2022: 200-203 - [c65]Franciszek Seredynski
Competition and Cooperation Mechanisms for Collective Behavior in Large Multi-agent Systems. ICCS (1) 2022: 610-623 - [i4]Rolf Hoffmann:
Forming Point Patterns by a Probabilistic Cellular Automata Rule. CoRR abs/2202.06656 (2022) - [i3]Rolf Hoffmann:
Global Cellular Automata GCA - A Massively Parallel Computing Model. CoRR abs/2207.04885 (2022) - 2021
- [j19]Rolf Hoffmann
A cellular automata rule placing a maximal number of dominoes in the square and diamond. J. Supercomput. 77(8): 9069-9087 (2021) - [c64]Rolf Hoffmann, Dominique Désérable, Franciszek Seredynski
Minimal Covering of the Space by Domino Tiles. PaCT 2021: 453-465 - 2020
- [c63]Franciszek Seredynski
The Second Order CA-Based Multi-agent Systems with Income Sharing. ACRI 2020: 134-145 - [c62]Rolf Hoffmann, Franciszek Seredynski
Covering the Space with Sensor Tiles. ACRI 2020: 156-168 - [i2]Genaro J. Martínez, Andrew Adamatzky, Rolf Hoffmann, Dominique Désérable, Ivan Zelinka:
On patterns and dynamics of Rule 22 cellular automaton. CoRR abs/2005.01480 (2020)
2010 – 2019
- 2019
- [j18]Genaro J. Martínez, Andrew Adamatzky, Rolf Hoffmann, Dominique Désérable, Ivan Zelinka
On Patterns and Dynamics of Rule 22 Cellular Automaton. Complex Syst. 28(2) (2019) - [j17]Rolf Hoffmann, Dominique Désérable
Domino pattern formation by cellular automata agents. J. Supercomput. 75(12): 7799-7813 (2019) - [c61]Rolf Hoffmann, Dominique Désérable, Franciszek Seredynski
A Probabilistic Cellular Automata Rule Forming Domino Patterns. PaCT 2019: 334-344 - [c60]Franciszek Seredynski
Experiments with Heterogenous Automata-Based Multi-agent Systems. PPAM (2) 2019: 433-444 - 2018
- [c59]Jakub Gasior
Towards Self-organizing Sensor Networks: Game-Theoretic \epsilon -Learning Automata-Based Approach. ACRI 2018: 125-136 - [c58]Rolf Hoffmann, Dominique Désérable, Franciszek Seredynski
Termination and Stability Levels in Evolved CA Agents for the Black-Pattern Task. ACRI 2018: 137-145 - [p1]Rolf Hoffmann:
Simple Block-Substitution Rule Exhibits Interesting Patterns. Reversibility and Universality 2018: 463-479 - 2017
- [c57]Rolf Hoffmann, Dominique Désérable:
Generating Maximal Domino Patterns by Cellular Automata Agents. PaCT 2017: 18-31 - [i1]Michail-Antisthenis I. Tsompanas, Nikolaos I. Dourvas, Konstantinos Ioannidis, Georgios Ch. Sirakoulis, Rolf Hoffmann, Andrew Adamatzky:
Cellular Automata Applications in Shortest Path Problem. CoRR abs/1712.05202 (2017) - 2016
- [j16]Dominique Désérable, Rolf Hoffmann, Genaro Juárez Martínez:
Preface. J. Cell. Autom. 11(1): 1-3 (2016) - [j15]Dominique Désérable, Rolf Hoffmann:
Rectangular vs. Triangular Minimal Routing and Performance Study. J. Cell. Autom. 11(1): 47-61 (2016) - [c56]Rolf Hoffmann, Dominique Désérable:
Line Patterns Formed by Cellular Automata Agents. ACRI 2016: 424-434 - 2015
- [c55]Dominique Désérable, Rolf Hoffmann:
Hexagonal Bravais-Miller Routing by Cellular Automata Agents. PaCT 2015: 164-178 - 2014
- [j14]Rolf Hoffmann, Dominique Désérable:
All-to-all communication with cellular automata agents in 2d grids: topologies, streets and performances. J. Supercomput. 69(1): 70-80 (2014) - [c54]Rolf Hoffmann:
How Agents Can Form a Specific Pattern. ACRI 2014: 660-669 - 2013
- [j13]Dominique Désérable, Rolf Hoffmann, Genaro Juárez Martínez:
Preface. J. Cell. Autom. 8(1-2): 1-3 (2013) - [j12]Patrick Ediger, Rolf Hoffmann, Dominique Désérable:
Rectangular vs Triangular Routing with Evolved Agents. J. Cell. Autom. 8(1-2): 73-89 (2013) - [j11]Rolf Hoffmann, Maurice Margenstern:
Modeling and Simulation of a Car Race. J. Cell. Autom. 8(5-6): 443-456 (2013) - [c53]Rolf Hoffmann, Dominique Désérable
CA Agents for All-to-All Communication Are Faster in the Triangulate Grid. PaCT 2013: 316-329 - 2012
- [j10]Patrick Ediger, Rolf Hoffmann:
Efficiency Analysis of the Time-Shuffling Method for the Evolution of Agent Behavior. Int. J. Found. Comput. Sci. 23(2): 523-542 (2012) - [j9]Dominique Désérable, Rolf Hoffmann:
Preface. J. Cell. Autom. 7(1): 1-3 (2012) - [j8]Patrick Ediger, Rolf Hoffmann, Dominique Désérable:
Routing in the Triangular Grid with Evolved Agents. J. Cell. Autom. 7(1): 47-65 (2012) - [c52]Rolf Hoffmann, Maurice Margenstern:
Modeling and Simulation of a Car Race. ACRI 2012: 785-794 - [c51]Dominique Désérable
Rectangular vs. triangular minimal routing and performance study. HPCS 2012: 231-237 - 2011
- [j7]Christian Schäck, Rolf Hoffmann, Wolfgang Heenes:
Efficient Traffic Simulation Using Agents within the Global Cellular Automata Model. Int. J. Netw. Comput. 1(1): 2-20 (2011) - [j6]Christian Schäck, Rolf Hoffmann, Wolfgang Heenes:
Specialized Multicore Architectures Supporting Efficient Multi-Agent Simulations. Int. J. Netw. Comput. 1(2): 191-210 (2011) - [c50]Patrick Ediger, Rolf Hoffmann, Sylvia Grüner:
Effectively Evolving Finite State Machines Compared to Enumeration. EUROCAST (1) 2011: 303-310 - [c49]Patrick Ediger, Rolf Hoffmann, Dominique Désérable
Rectangular vs triangular routing with evolved agents. HPCS 2011: 787-793 - [c48]Rolf Hoffmann, Dominique Désérable
Efficient Minimal Routing in the Triangular Grid with Six Channels. PaCT 2011: 152-165 - 2010
- [c47]Patrick Ediger, Rolf Hoffmann:
All-to-All Communication with CA Agents by Active Coloring and Acknowledging. ACRI 2010: 24-34 - [c46]Patrick Ediger, Rolf Hoffmann:
Routing Based on Evolved Agents. ARCS Workshops 2010: 45-54 - [c45]Rolf Hoffmann:
The Massively Parallel Computing Model GCA. Euro-Par Workshops 2010: 77-84 - [c44]Christian Schäck, Wolfgang Heenes, Rolf Hoffmann:
Multiprocessor Architectures Specialized for Multi-agent Simulation. ICNC 2010: 232-236 - [c43]Patrick Ediger, Rolf Hoffmann, Dominique Désérable
Routing in the triangular grid with evolved agents. HPCS 2010: 582-590 - [c42]Patrick Ediger, Rolf Hoffmann:
Evolving hybrid time-shuffled behavior of agents. IPDPS Workshops 2010: 1-8 - [c41]Christian Schäck, Rolf Hoffmann, Wolfgang Heenes:
Efficient traffic simulation using the GCA model. IPDPS Workshops 2010: 1-7
2000 – 2009
- 2009
- [j5]Johannes Jendrsczok, Patrick Ediger, Rolf Hoffmann:
A scalable configurable architecture for the massively parallel GCA model. Int. J. Parallel Emergent Distributed Syst. 24(4): 275-291 (2009) - [c40]Johannes Jendrsczok, Rolf Hoffmann, Thomas Lenck:
Generated Horizontal and Vertical Data Parallel GCA Machines for the N-Body Force Calculation. ARCS 2009: 96-107 - [c39]Patrick Ediger, Rolf Hoffmann, Mathias Halbach:
Evolving 6-State Automata for Optimal Behaviors of Creatures Compared to Exhaustive Search. EUROCAST 2009: 689-696 - [c38]Marcus Komann, Patrick Ediger, Dietmar Fey, Rolf Hoffmann:
On the Effectiveness of Evolution Compared to Time-Consuming Full Search of Optimal 6-State Automata. EuroGP 2009: 280-291 - [c37]Christian Schäck, Wolfgang Heenes, Rolf Hoffmann:
GCA Multi-Softcore Architecture for Agent Systems Simulation. GI Jahrestagung 2009: 2268-2282 - [c36]Patrick Ediger, Rolf Hoffmann:
Combining genetic algorithm with time-shuffling in order to evolve agent systems more efficiently. IPDPS 2009: 1-8 - [c35]Patrick Ediger, Rolf Hoffmann:
Solving All-to-All Communication with CA Agents More Effectively with Flags. PaCT 2009: 182-193 - [c34]Rolf Hoffmann:
The GCA-w Massively Parallel Model. PaCT 2009: 194-206 - [c33]Christian Schäck, Wolfgang Heenes, Rolf Hoffmann:
A Multiprocessor Architecture with an Omega Network for the Massively Parallel Model GCA. SAMOS 2009: 98-107 - [c32]Patrick Ediger, Rolf Hoffmann:
CA Models for Target Searching Agents. AUTOMATA 2009: 41-54 - 2008
- [j4]Johannes Jendrsczok, Rolf Hoffmann, Jörg Keller:
Implementing Hirschberg's PRAM-Algorithm for Connected Components on a Global Cellular Automaton. Int. J. Found. Comput. Sci. 19(6): 1299-1316 (2008) - [c31]Patrick Ediger, Rolf Hoffmann:
Improving the Behavior of Creatures by Time-Shuffling. ACRI 2008: 345-353 - [c30]Rolf Hoffmann, Patrick Ediger:
Evolving Multi-creature Systems for All-to-All Communication. ACRI 2008: 550-554 - [c29]Patrick Ediger, Rolf Hoffmann, Mathias Halbach:
How Efficient are Creatures with Time-shuffled Behaviors? PASA 2008: 93-103 - [c28]Patrick Ediger, Rolf Hoffmann:
Optimizing the creature's rule for all-to-all communication. Automata 2008: 398-412 - [c27]Patrick Ediger, Rolf Hoffmann, Mathias Halbach:
Is a non-uniform system of creatures more efficient than a uniform one? IPDPS 2008: 1-8 - [c26]Johannes Jendrsczok, Patrick Ediger, Rolf Hoffmann:
A scalable configurable architecture for the massively parallel GCA model. IPDPS 2008: 1-8 - [e1]Wolfgang E. Nagel, Rolf Hoffmann, Andreas Koch:
9th Workshop on Parallel Systems and Algorithms (PASA) held at the 21st Conference on the Architecture of Computing Systems (ARCS), February 26th, 2008, in Dresden, Germany. LNI P-124, GI 2008, ISBN 978-3-88579-218-5 [contents] - 2007
- [c25]Mathias Halbach, Rolf Hoffmann:
Solving the Exploration's Problem with Several Creatures More Efficiently. EUROCAST 2007: 596-603 - [c24]Johannes Jendrsczok, Rolf Hoffmann, Jörg Keller:
Hirschberg's Algorithm on a GCA and Its Parallel Hardware Implementation. Euro-Par 2007: 815-824 - [c23]Johannes Jendrsczok, Rolf Hoffmann, Jörg Keller:
Implementing Hirschberg's PRAM-Algorithm for Connected Components on a Global Cellular Automaton. IPDPS 2007: 1-8 - [c22]Mathias Halbach, Rolf Hoffmann:
Parallel Hardware Architecture to Simulate Movable Creatures in the CA Model. PaCT 2007: 418-431 - 2006
- [c21]Mathias Halbach, Rolf Hoffmann, Lars Both:
Optimal 6-State Algorithms for the Behavior of Several Moving Creatures. ACRI 2006: 571-581 - [c20]Rolf Hoffmann, Mathias Halbach:
Are Several Creatures More Efficient Than a Single One? ACRI 2006: 707-711 - [c19]Mathias Halbach, Rolf Hoffmann:
Minimising the Hardware Resources for a Cellular Automaton with Moving Creatures. ARCS Workshops 2006: 323-332 - [c18]Wolfgang Heenes, Rolf Hoffmann, Johannes Jendrsczok:
A multiprocessor architecture for the massively parallel model GCA. IPDPS 2006 - 2005
- [c17]Wolfgang Heenes, Rolf Hoffmann, Sebastian Kanthak:
FPGA Implementations of the Massively Parallel GCA Model. IPDPS 2005 - [c16]Mathias Halbach, Rolf Hoffmann:
Optimal Behavior of a Moving Creature in the Cellular Automata Model. PaCT 2005: 129-140 - 2004
- [c15]Mathias Halbach, Wolfgang Heenes, Rolf Hoffmann, Jan Tisje:
Optimizing the Behavior of a Moving Creature in Software and in Hardware. ACRI 2004: 841-850 - [c14]Mathias Halbach, Rolf Hoffmann, Patrick Röder:
FPGA Implementation of Cellular Automata Compared to Software Implementation. ARCS Workshops 2004: 309-317 - [c13]Mathias Halbach, Rolf Hoffmann:
Implementing Cellular Automata in FPGA Logic. IPDPS 2004 - [c12]Rolf Hoffmann, Wolfgang Heenes, Mathias Halbach:
Implementation of the Massively Parallel Model GCA. PARELEC 2004: 135-139 - 2003
- [c11]Rolf Hoffmann, Klaus-Peter Völkmann, Wolfgang Heenes:
GCA: A Massively Parallel Model. IPDPS 2003: 270 - 2001
- [c10]Rolf Hoffmann, Klaus-Peter Völkmann, Stefan Waldschmidt, Wolfgang Heenes:
GCA: Global Cellular Automata. A Flexible Parallel Model. PaCT 2001: 66-73 - 2000
- [c9]Rolf Hoffmann, Bernd Ulmann, Klaus-Peter Völkmann, Stefan Waldschmidt:
A Stream Processor Architecture Based on the Configurable CEPRA-S. FPL 2000: 822-825 - [c8]Christian Hochberger, Rolf Hoffmann, Klaus-Peter Völkmann, Stefan Waldschmidt:
The Cellular Processor Architecture CEPRA-1X and Its Configuration by CDL. IPDPS Workshops 2000: 898-905
1990 – 1999
- 1999
- [c7]Christian Hochberger, Rolf Hoffmann, Stefan Waldschmidt:
CDL++ for the Description of Moving Objects in Cellular Automata. PaCT 1999: 428-435 - 1998
- [j3]Christian Hochberger, Rolf Hoffmann, Ralf Schneider:
The parallel program development environment CDL/ACL for cellular processing. J. Syst. Archit. 45(1): 83-96 (1998) - 1997
- [c6]Rolf Hoffmann, Klaus-Peter Völkmann:
Hardware Support for 3D Cellular Processing. PaCT 1997: 322-329 - 1996
- [c5]Christian Hochberger, Rolf Hoffmann:
Solving Routing Problems with Cellular Automata. ACRI 1996: 89-98 - [c4]P. Hartmann, Christian Hochberger, Rolf Hoffmann, Ralf Schneider, Klaus-Peter Völkmann:
Hardware Supported Simulation Systems for Graph Based and 3-D Cellular Processing. ACRI 1996: 168-176 - [c3]Ralf Schneider, Rolf Hoffmann:
A Mapping Strategy for Cellular Models to Different Parallel Target Architectures. Parcella 1996: 322-323 - 1995
- [c2]Christian Hochberger, Rolf Hoffmann, Stefan Waldschmidt:
Compilation of CDL for Different Target Architectures. PaCT 1995: 169-179 - 1994
- [c1]Rolf Hoffmann, Klaus-Peter Völkmann, Mark Sobolewski:
The Cellular Processing Machine CEPRA-8L. Parcella 1994: 179-188 - 1993
- [b2]Rolf Hoffmann:
Rechnerentwurf - Rechenwerke, Mikroprogrammierung, Risc (3. Aufl.). Oldenbourg 1993, ISBN 978-3-486-22174-9, pp. 1-392 - 1991
- [j2]Hans Liebig, Thomas Flik, Rolf Hoffmann:
Parallelgraphen zur Darstellung paralleler Prozesse / Parallel Graphs for the Representation of Parallel Processes. it Inf. Technol. 33(4): 198-207 (1991)
1980 – 1989
- 1987
- [b1]Lothar Kaufmann, Rolf Hoffmann:
Simulationssystem MODS(OS) und seine rechentechnische Implementation. Martin Luther University of Halle-Wittenberg, Saxony-Anhalt, Germany, 1987 - [j1]Rolf Hoffmann:
Statusdiagramme - Zur Darstellung von Algorithmen / Status Diagrams - A Representation of Algorithms. it Inf. Technol. 29(2): 77-82 (1987)
Coauthor Index
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last updated on 2024-09-14 01:11 CEST by the dblp team
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