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Daniel Merkle
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- affiliation: University of Southern Denmark, Dept. of Mathematics and Computer Science, Odense, Denmark
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2020 – today
- 2024
- [j47]Casper Asbjørn Eriksen, Jakob Lykke Andersen, Rolf Fagerberg, Daniel Merkle:
Toward the Reconciliation of Inconsistent Molecular Structures from Biochemical Databases. J. Comput. Biol. 31(6): 498-512 (2024) - [j46]Tieu-Long Phan, Klaus Weinbauer, Thomas Gärtner, Daniel Merkle, Jakob L. Andersen, Rolf Fagerberg, Peter F. Stadler:
Reaction rebalancing: a novel approach to curating reaction databases. J. Cheminformatics 16(1): 82 (2024) - [i26]Jakob L. Andersen, Akbar Davoodi, Rolf Fagerberg, Christoph Flamm, Walter Fontana, Juraj Kolcák, Christophe V. F. P. Laurent, Daniel Merkle, Nikolai Nøjgaard:
Automated Inference of Graph Transformation Rules. CoRR abs/2404.02692 (2024) - 2023
- [c46]Casper Asbjørn Eriksen, Jakob Lykke Andersen, Rolf Fagerberg, Daniel Merkle:
Reconciling Inconsistent Molecular Structures from Biochemical Databases. ISBRA 2023: 58-71 - [c45]Jakob L. Andersen, Sissel Banke, Rolf Fagerberg, Christoph Flamm, Daniel Merkle, Peter F. Stadler:
On the Realisability of Chemical Pathways. ISBRA 2023: 409-419 - [i25]Casper Asbjørn Eriksen, Jakob Lykke Andersen, Rolf Fagerberg, Daniel Merkle:
Reconciling Inconsistent Molecular Structures from Biochemical Databases. CoRR abs/2308.12735 (2023) - [i24]Jakob L. Andersen, Sissel Banke, Rolf Fagerberg, Christoph Flamm, Daniel Merkle, Peter F. Stadler:
On the Realisability of Chemical Pathways. CoRR abs/2309.10629 (2023) - 2022
- [j45]Jakob L. Andersen, Rolf Fagerberg, Christoph Flamm, Walter Fontana, Juraj Kolcák, Christophe V. F. P. Laurent, Daniel Merkle, Nikolai Nøjgaard:
Representing Catalytic Mechanisms with Rule Composition. J. Chem. Inf. Model. 62(22): 5513-5524 (2022) - [j44]Christoph Flamm, Marc Hellmuth, Daniel Merkle, Nikolai Nøjgaard, Peter F. Stadler:
Generic Context-Aware Group Contributions. IEEE ACM Trans. Comput. Biol. Bioinform. 19(1): 429-442 (2022) - [i23]Jakob L. Andersen, Rolf Fagerberg, Juraj Kolcák, Christophe V. F. P. Laurent, Daniel Merkle, Nikolai Nøjgaard:
Efficient Modular Graph Transformation Rule Application. CoRR abs/2201.04360 (2022) - [i22]Jakob L. Andersen, Rolf Fagerberg, Christoph Flamm, Walter Fontana, Juraj Kolcák, Christophe V. F. P. Laurent, Daniel Merkle, Nikolai Nøjgaard:
Characterizing Catalytic Mechanisms with Overlay Graphs. CoRR abs/2201.04515 (2022) - 2021
- [j43]Jakob L. Andersen, Rolf Fagerberg, Christoph Flamm, Walter Fontana, Juraj Kolcák, Christophe V. F. P. Laurent, Daniel Merkle, Nikolai Nøjgaard:
Graph transformation for enzymatic mechanisms. Bioinform. 37(Supplement): 392-400 (2021) - [j42]Nikolai Nøjgaard, Walter Fontana, Marc Hellmuth, Daniel Merkle:
Cayley Graphs of Semigroups Applied to Atom Tracking in Chemistry. J. Comput. Biol. 28(7): 701-715 (2021) - [j41]Nicolas Behr, Jean Krivine, Jakob L. Andersen, Daniel Merkle:
Rewriting theory for the life sciences: A unifying theory of CTMC semantics. Theor. Comput. Sci. 884: 68-115 (2021) - [i21]Jakob L. Andersen, Rolf Fagerberg, Christoph Flamm, Walter Fontana, Juraj Kolcák, Christophe V. F. P. Laurent, Daniel Merkle, Nikolai Nøjgaard:
Graph Transformation for Enzymatic Mechanisms. CoRR abs/2102.03292 (2021) - [i20]Nicolas Behr, Jean Krivine, Jakob L. Andersen, Daniel Merkle:
Rewriting Theory for the Life Sciences: A Unifying Theory of CTMC Semantics (Long version). CoRR abs/2106.02573 (2021) - [i19]Jakob L. Andersen, Christoph Flamm, Daniel Merkle, Peter F. Stadler:
Defining Autocatalysis in Chemical Reaction Networks. CoRR abs/2107.03086 (2021) - [i18]Nikolai Nøjgaard, Walter Fontana, Marc Hellmuth, Daniel Merkle:
Cayley Graphs of Semigroups Applied to Atom Tracking in Chemistry. CoRR abs/2108.04077 (2021) - 2020
- [j40]Jakob L. Andersen, Daniel Merkle, Peter S. Rasmussen:
Combining Graph Transformations and Semigroups for Isotopic Labeling Design. J. Comput. Biol. 27(2): 269-287 (2020) - [j39]Jakob L. Andersen, Daniel Merkle:
A Generic Framework for Engineering Graph Canonization Algorithms. ACM J. Exp. Algorithmics 25: 1-26 (2020) - [c44]Marc Hellmuth, Daniel Merkle, Nikolai Nøjgaard:
Atom Tracking Using Cayley Graphs. ISBRA 2020: 406-415 - [c43]Jakob Lykke Andersen, Marc Hellmuth, Daniel Merkle, Nikolai Nøjgaard, Marco Peressotti:
A Graph-Based Tool to Embed the π-Calculus into a Computational DPO Framework. SOFSEM (Doctoral Student Research Forum) 2020: 121-132
2010 – 2019
- 2019
- [j38]Jakob L. Andersen, Christoph Flamm, Daniel Merkle, Peter F. Stadler:
Chemical Transformation Motifs - Modelling Pathways as Integer Hyperflows. IEEE ACM Trans. Comput. Biol. Bioinform. 16(2): 510-523 (2019) - [c42]Jakob L. Andersen, Daniel Merkle, Peter S. Rasmussen:
Graph Transformations, Semigroups, and Isotopic Labeling. ISBRA 2019: 196-207 - [i17]Jakob Lykke Andersen, Marc Hellmuth, Daniel Merkle, Nikolai Nøjgaard, Marco Peressotti:
A Graph-Based Tool to Embed the π-Calculus into a Computational DPO Framework. CoRR abs/1911.00407 (2019) - 2018
- [j37]Nikolai Nøjgaard, Manuela Geiß, Daniel Merkle, Peter F. Stadler, Nicolas Wieseke, Marc Hellmuth:
Time-consistent reconciliation maps and forbidden time travel. Algorithms Mol. Biol. 13(1): 2:1-2:17 (2018) - [j36]Rolf Fagerberg, Christoph Flamm, Rojin Kianian, Daniel Merkle, Peter F. Stadler:
Finding the K best synthesis plans. J. Cheminformatics 10(1): 19:1-19:21 (2018) - [j35]Bjarke N. Hansen, Kim S. Larsen, Daniel Merkle, Alexei Mihalchuk:
DNA-templated synthesis optimization. Nat. Comput. 17(4): 693-707 (2018) - [c41]Jakob L. Andersen, Daniel Merkle:
A Generic Framework for Engineering Graph Canonization Algorithms. ALENEX 2018: 139-153 - [c40]Marc Hellmuth, Anders S. Knudsen, Michal Kotrbcík, Daniel Merkle, Nikolai Nøjgaard:
Linear Time Canonicalization and Enumeration of Non-Isomorphic 1-Face Embeddings. ALENEX 2018: 154-168 - [c39]Nikolai Nøjgaard, Nadia El-Mabrouk, Daniel Merkle, Nicolas Wieseke, Marc Hellmuth:
Partial Homology Relations - Satisfiability in Terms of Di-Cographs. COCOON 2018: 403-415 - 2017
- [c38]Bjarke N. Hansen, Kim S. Larsen, Daniel Merkle, Alexei Mihalchuk:
DNA-Templated Synthesis Optimization. DNA 2017: 17-32 - [c37]Jakob Lykke Andersen, Christoph Flamm, Daniel Merkle, Peter F. Stadler:
Chemical Graph Transformation with Stereo-Information. ICGT 2017: 54-69 - [c36]Nikolai Nøjgaard, Manuela Geiß, Daniel Merkle, Peter F. Stadler, Nicolas Wieseke, Marc Hellmuth:
Forbidden Time Travel: Characterization of Time-Consistent Tree Reconciliation Maps. WABI 2017: 17:1-17:12 - [i16]Jakob L. Andersen, Christoph Flamm, Daniel Merkle, Peter F. Stadler:
An Intermediate Level of Abstraction for Computational Systems Chemistry. CoRR abs/1701.09097 (2017) - [i15]Nikolai Nøjgaard, Manuela Geiß, Peter F. Stadler, Daniel Merkle, Nicolas Wieseke, Marc Hellmuth:
Forbidden Time Travel: Characterization of Time-Consistent Tree Reconciliation Maps. CoRR abs/1705.02179 (2017) - [i14]Nikolai Nøjgaard, Nadia El-Mabrouk, Daniel Merkle, Nicolas Wieseke, Marc Hellmuth:
Partial Orthology, Paralogy and Xenology Relations - Satisfiability in terms of Di-Cographs. CoRR abs/1711.00504 (2017) - [i13]Jakob L. Andersen, Daniel Merkle:
A Generic Framework for Engineering Graph Canonization Algorithms. CoRR abs/1711.08289 (2017) - [i12]Jakob L. Andersen, Christoph Flamm, Daniel Merkle, Peter F. Stadler:
Chemical Transformation Motifs - Modelling Pathways as Integer Hyperflows. CoRR abs/1712.02594 (2017) - [i11]Jakob L. Andersen, Christoph Flamm, Daniel Merkle, Peter F. Stadler:
Algorithmic Cheminformatics (Dagstuhl Seminar 17452). Dagstuhl Reports 7(11): 28-45 (2017) - 2016
- [c35]Jakob L. Andersen, Christoph Flamm, Daniel Merkle, Peter F. Stadler:
A Software Package for Chemically Inspired Graph Transformation. ICGT 2016: 73-88 - [c34]Christoph Flamm, Daniel Merkle, Peter F. Stadler, Uffe Thorsen:
Automatic Inference of Graph Transformation Rules Using the Cyclic Nature of Chemical Reactions. ICGT 2016: 206-222 - [i10]Jakob L. Andersen, Christoph Flamm, Daniel Merkle, Peter F. Stadler:
A Software Package for Chemically Inspired Graph Transformation. CoRR abs/1603.02481 (2016) - [i9]Christoph Flamm, Daniel Merkle, Peter F. Stadler, Uffe Thorsen:
Automatic Inference of Graph Transformation Rules Using the Cyclic Nature of Chemical Reactions. CoRR abs/1604.06379 (2016) - 2015
- [j34]Daniel Merkle, Martin Middendorf, Alexander Scheidler:
Task allocation in organic computing systems: networks with reconfigurable helper units. Int. J. Auton. Adapt. Commun. Syst. 8(1): 60-80 (2015) - [j33]Jakob L. Andersen, Christoph Flamm, Martin M. Hanczyc, Daniel Merkle:
Towards Optimal DNA-Templated Computing. Int. J. Unconv. Comput. 11(3-4): 185-203 (2015) - [i8]Jakob L. Andersen, Christoph Flamm, Daniel Merkle, Peter F. Stadler:
Support for Eschenmoser's Glyoxylate Scenario. CoRR abs/1502.07555 (2015) - 2014
- [j32]Jakob L. Andersen, Christoph Flamm, Daniel Merkle, Peter F. Stadler:
Generic strategies for chemical space exploration. Int. J. Comput. Biol. Drug Des. 7(2/3): 225-258 (2014) - [c33]Jakob L. Andersen, Christoph Flamm, Martin M. Hanczyc, Daniel Merkle:
Towards an Optimal DNA-Templated Molecular Assembler. ALIFE 2014: 557-564 - [c32]Jakob Lykke Andersen, Christoph Flamm, Daniel Merkle, Peter F. Stadler:
50 Shades of Rule Composition - From Chemical Reactions to Higher Levels of Abstraction. FMMB 2014: 117-135 - [c31]Felix Palludan Hargreaves, Daniel Merkle, Peter Schneider-Kamp:
Group communication patterns for high performance computing in scala. FHPC@ICFP 2014: 75-85 - [i7]Felix Palludan Hargreaves, Daniel Merkle, Peter Schneider-Kamp:
Group Communication Patterns for High Performance Computing in Scala. CoRR abs/1406.6163 (2014) - [i6]Wolfgang Banzhaf, Christoph Flamm, Daniel Merkle, Peter F. Stadler:
Algorithmic Cheminformatics (Dagstuhl Seminar 14452). Dagstuhl Reports 4(11): 22-39 (2014) - 2013
- [j31]Jakob L. Andersen, Tommy Andersen, Christoph Flamm, Martin M. Hanczyc, Daniel Merkle, Peter F. Stadler:
Navigating the Chemical Space of HCN Polymerization and Hydrolysis: Guiding Graph Grammars by Mass Spectrometry Data. Entropy 15(10): 4066-4083 (2013) - [j30]Alexander Scheidler, Daniel Merkle, Martin Middendorf:
Swarm controlled emergence for ant clustering. Int. J. Intell. Comput. Cybern. 6(1): 62-82 (2013) - [j29]Rolf Fagerberg, Christoph Flamm, Daniel Merkle, Philipp Peters, Peter F. Stadler:
On the Complexity of Reconstructing Chemical Reaction Networks. Math. Comput. Sci. 7(3): 275-292 (2013) - [c30]Christoph Flamm, Chris Hemmingsen, Daniel Merkle:
Barrier Trees for Metabolic Adjustment Landscapes. ECAL 2013: 1151-1158 - [c29]Felix Palludan Hargreaves, Daniel Merkle:
FooPar: A Functional Object Oriented Parallel Framework in Scala. PPAM (2) 2013: 118-129 - [i5]Jakob L. Andersen, Christoph Flamm, Daniel Merkle, Peter F. Stadler:
Generic Strategies for Chemical Space Exploration. CoRR abs/1302.4006 (2013) - [i4]Felix Palludan Hargreaves, Daniel Merkle:
FooPar: A Functional Object Oriented Parallel Framework in Scala. CoRR abs/1304.2550 (2013) - [i3]Rolf Fagerberg, Christoph Flamm, Daniel Merkle, Philipp Peters, Peter F. Stadler:
On the Complexity of Reconstructing Chemical Reaction Networks. CoRR abs/1309.7198 (2013) - 2012
- [c28]Rolf Fagerberg, Christoph Flamm, Daniel Merkle, Philipp Peters:
Exploring Chemistry Using SMT. CP 2012: 900-915 - [i2]Jakob L. Andersen, Christoph Flamm, Daniel Merkle, Peter F. Stadler:
Inferring Chemical Reaction Patterns Using Rule Composition in Graph Grammars. CoRR abs/1208.3153 (2012) - 2011
- [j28]Matthias Bernt, Kuan-Yu Chen, Ming-Chiang Chen, An-Chiang Chu, Daniel Merkle, Hung-Lung Wang, Kun-Mao Chao, Martin Middendorf:
Finding all sorting tandem duplication random loss operations. J. Discrete Algorithms 9(1): 32-48 (2011) - [p3]Alexander Scheidler, Arne Brutschy, Konrad Diwold, Daniel Merkle, Martin Middendorf:
Ant Inspired Methods for Organic Computing. Organic Computing 2011: 95-109 - [i1]Jakob L. Andersen, Christoph Flamm, Daniel Merkle, Peter F. Stadler:
Maximizing Output and Recognizing Autocatalysis in Chemical Reaction Networks is NP-Complete. CoRR abs/1110.6051 (2011) - 2010
- [j27]Daniel Merkle, Martin Middendorf, Nicolas Wieseke:
A parameter-adaptive dynamic programming approach for inferring cophylogenies. BMC Bioinform. 11(S-1): 60 (2010) - [c27]Jacob Midtgaard-Olesen, Carsten Baldauf, Daniel Merkle:
Barrier Trees for Continuous Fitness Landscapes. ALIFE 2010: 368-369 - [e2]Harold Fellermann, Mark Dörr, Martin M. Hanczyc, Lone Ladegaard Laursen, Sarah Elizabeth Maurer, Daniel Merkle, Pierre-Alain Monnard, Kasper Støy, Steen Rasmussen:
Proceedings of the Twelfth International Conference on the Synthesis and Simulation of Living Systems, ALIFE 2010, Odense, Denmark, August 19-23, 2010. MIT Press 2010, ISBN 9780262290753 [contents]
2000 – 2009
- 2009
- [j26]Konrad Diwold, Daniel Merkle, Martin Middendorf:
Adapting to Dynamic Environments: Polyethism in Response Threshold Models for Social Insects. Adv. Complex Syst. 12(3): 327-346 (2009) - [j25]Konstantin Klemm, Daniel Merkle, Eckehard Olbrich:
Editorial: Artificial Life. Adv. Complex Syst. 12(3) (2009) - [j24]Marc Hellmuth, Daniel Merkle, Martin Middendorf:
Extended shapes for the combinatorial design of RNA sequences. Int. J. Comput. Biol. Drug Des. 2(4): 371-384 (2009) - [j23]Karl F. Doerner, Daniel Merkle, Thomas Stützle:
Special issue on ant colony optimization. Swarm Intell. 3(1): 1-2 (2009) - [c26]Matthias Bernt, Ming-Chiang Chen, Daniel Merkle, Hung-Lung Wang, Kun-Mao Chao, Martin Middendorf:
Finding All Sorting Tandem Duplication Random Loss Operations. CPM 2009: 301-313 - [c25]Marc Hellmuth, Daniel Merkle, Martin Middendorf:
On the Design of RNA Sequences for Realizing Extended Shapes. IJCBS 2009: 167-173 - 2008
- [j22]Stefan Janson, Daniel Merkle, Martin Middendorf:
Molecular docking with multi-objective Particle Swarm Optimization. Appl. Soft Comput. 8(1): 666-675 (2008) - [j21]Stefan Janson, Daniel Merkle, Martin Middendorf:
A decentralization approach for swarm intelligence algorithms in networks applied to multi swarm PSO. Int. J. Intell. Comput. Cybern. 1(1): 25-45 (2008) - [j20]Daniel Merkle, Martin Middendorf, Alexander Scheidler:
Self-Organized Task Allocation for Service Tasks in Computing Systems with Reconfigurable Components. J. Math. Model. Algorithms 7(2): 237-254 (2008) - [j19]Daniel Merkle, Martin Middendorf:
Swarm intelligence and signal processing [DSP Exploratory]. IEEE Signal Process. Mag. 25(6): 152-158 (2008) - [j18]Matthias Bernt, Daniel Merkle, Martin Middendorf:
Solving the Preserving Reversal Median Problem. IEEE ACM Trans. Comput. Biol. Bioinform. 5(3): 332-347 (2008) - [j17]Alexander Scheidler, Daniel Merkle, Martin Middendorf:
Stability and performance of ant queue inspired task partitioning methods. Theory Biosci. 127(2): 149-161 (2008) - [c24]Arne Brutschy, Alexander Scheidler, Daniel Merkle, Martin Middendorf:
Learning from House-Hunting Ants: Collective Decision-Making in Organic Computing Systems. ANTS Conference 2008: 96-107 - [c23]Alexander Scheidler, Christian Blum, Daniel Merkle, Martin Middendorf:
Emergent Sorting in Networks of Router Agents. ANTS Conference 2008: 299-306 - [c22]Alexander Scheidler, Daniel Merkle, Martin Middendorf:
Congestion Control in Ant Like Moving Agent Systems. BICC 2008: 33-43 - [c21]Matthias Bernt, Daniel Merkle, Martin Middendorf:
An Algorithm for Inferring Mitogenome Rearrangements in a Phylogenetic Tree. RECOMB-CG 2008: 143-157 - [p2]Daniel Merkle, Martin Middendorf, Alexander Scheidler:
Self-adaptive Worker-Helper Systems with Self-Organized Task Allocation. Organic Computing 2008: 221-239 - [p1]Daniel Merkle, Martin Middendorf, Alexander Scheidler:
Organic Computing and Swarm Intelligence. Swarm Intelligence 2008: 253-281 - [e1]Christian Blum, Daniel Merkle:
Swarm Intelligence: Introduction and Applications. Natural Computing Series, Springer 2008, ISBN 978-3-540-74088-9 [contents] - 2007
- [j16]Matthias Bernt, Daniel Merkle, Martin Middendorf:
Using median sets for inferring phylogenetic trees. Bioinform. 23(2): 129-135 (2007) - [j15]Matthias Bernt, Daniel Merkle, Kai Ramsch, Guido Fritzsch, Marleen Perseke, Detlef Bernhard, Martin Schlegel, Peter F. Stadler, Martin Middendorf:
CREx: inferring genomic rearrangements based on common intervals. Bioinform. 23(21): 2957-2958 (2007) - [c20]Matthias Bernt, Daniel Merkle, Martin Middendorf:
A Fast and Exact Algorithm for the Perfect Reversal Median Problem. ISBRA 2007: 305-316 - [c19]Daniel Merkle, Martin Middendorf, Alexander Scheidler:
Swarm Controlled Emergence - Designing an Anti-Clustering Ant System. SIS 2007: 242-249 - 2006
- [j14]Daniel Merkle, Martin Middendorf:
Marco Dorigo and Thomas Stützle, Ant Colony Optimization, MIT Press (2004) ISBN 0-262-04219-3. Eur. J. Oper. Res. 168(1): 269-271 (2006) - [j13]Daniel Merkle, Martin Middendorf, Alexander Scheidler:
Modeling Ant Brood ending Patterns with Cellular Automata. J. Cell. Autom. 1(2): 183-194 (2006) - [j12]Matthias Bernt, Daniel Merkle, Martin Middendorf:
Genome Rearrangement Based on Reversals that Preserve Conserved Intervals. IEEE ACM Trans. Comput. Biol. Bioinform. 3(3): 275-288 (2006) - [c18]Matthias Bernt, Daniel Merkle, Martin Middendorf:
The Reversal Median Problem, Common Intervals, and Mitochondrial Gene Orders. CompLife 2006: 52-63 - [c17]Daniel Merkle, Martin Middendorf, Alexander Scheidler:
Using Decentralized Clustering for Task Allocation in Networks with Reconfigurable Helper Units. IWSOS/EuroNGI 2006: 137-147 - [c16]Daniel Merkle, Martin Middendorf, Alexander Scheidler:
Self-organized task allocation for computing systems with reconfigurable components. IPDPS 2006 - 2005
- [j11]Daniel Merkle, Martin Middendorf, Alexander Scheidler:
Decentralized packet clustering in router-based networks. Int. J. Found. Comput. Sci. 16(2): 321-341 (2005) - [j10]Daniel Merkle, Martin Middendorf:
On solving permutation scheduling problems with ant colony optimization. Int. J. Syst. Sci. 36(5): 255-266 (2005) - [j9]Daniel Merkle, Christian Blum:
Swarm Intelligence - An Optimization-Based Introduction. Künstliche Intell. 19(4): 5-10 (2005) - [j8]Daniel Merkle, Martin Middendorf:
Reconstruction of the cophylogenetic history of related phylogenetic trees with divergence timing information. Theory Biosci. 123(4): 277-299 (2005) - [c15]Daniel Merkle, Martin Middendorf, Alexander Scheidler:
Dynamic Decentralized Packet Clustering in Networks. EvoWorkshops 2005: 574-583 - [c14]Stefan Janson, Daniel Merkle:
A New Multi-objective Particle Swarm Optimization Algorithm Using Clustering Applied to Automated Docking. Hybrid Metaheuristics 2005: 128-141 - [c13]Daniel Merkle, Martin Middendorf, Alexander Scheidler:
Modelling Ant Brood Tending Behavior with Cellular Automata. International Conference on Computational Science (2) 2005: 412-419 - [c12]Matthias Bernt, Daniel Merkle, Martin Middendorf:
A Parallel Algorithm for Solving the Reversal Median Problem. PPAM 2005: 1089-1096 - 2004
- [j7]Daniel Merkle, Martin Middendorf:
Dynamic Polyethism and Competition for Tasks in Threshold Reinforcement Models of Social Insects. Adapt. Behav. 12(3-4): 251-262 (2004) - [c11]Daniel Merkle, Martin Middendorf:
Competition Controlled Pheromone Update for Ant Colony Optimization. ANTS Workshop 2004: 95-105 - [c10]Daniel Merkle, Martin Middendorf, Alexander Scheidler:
Decentralized Packet Clustering in Networks. IPDPS 2004 - 2003
- [j6]Daniel Merkle, Martin Middendorf:
Ant Colony Optimization with Global Pheromone Evaluation for Scheduling a Single Machine. Appl. Intell. 18(1): 105-111 (2003) - [j5]Stefan Janson, Daniel Merkle, Martin Middendorf, Hossam A. ElGindy, Hartmut Schmeck:
On Enforced Convergence of ACO and its Implementation on the Reconfigurable Mesh Architecture Using Size Reduction Tasks. J. Supercomput. 26(3): 221-238 (2003) - 2002
- [b1]Daniel Merkle:
Ameisenalgorithmen: Optimierung und Modellierung. Karlsruhe Institute of Technology, Germany, 2002, pp. 1-212 - [j4]Daniel Merkle, Martin Middendorf:
Modeling the Dynamics of Ant Colony Optimization. Evol. Comput. 10(3): 235-262 (2002) - [j3]Daniel Merkle, Thomas Worsch:
Formal language recognition by stochastic cellular automata. Fundam. Informaticae 52(1-3): 183-201 (2002) - [j2]Daniel Merkle, Martin Middendorf:
Fast Ant Colony Optimization on Runtime Reconfigurable Processor Arrays. Genet. Program. Evolvable Mach. 3(4): 345-361 (2002) - [j1]Daniel Merkle, Martin Middendorf, Hartmut Schmeck:
Ant colony optimization for resource-constrained project scheduling. IEEE Trans. Evol. Comput. 6(4): 333-346 (2002) - [c9]Daniel Merkle, Martin Middendorf:
Modelling ACO: Composed Permutation Problems. Ant Algorithms 2002: 149-162 - [c8]Jürgen Branke, Michael Decker, Daniel Merkle, Hartmut Schmeck:
Coevolutionary Ant Algorithms Playing Games. Ant Algorithms 2002: 298-299 - [c7]Daniel Merkle, Martin Middendorf:
Ant Colony Optimization with the Relative Pheromone Evaluation Method. EvoWorkshops 2002: 325-333 - [c6]Daniel Merkle, Martin Middendorf:
Studies On The Dynamics Of Ant Colony Optimization Algorithms. GECCO 2002: 105-112 - 2001
- [c5]