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2020 – today
- 2021
[c57]Arthur Penty
, Gunnar Tufte:
A Representation of Artificial Spin Ice for Evolutionary Search. ALIFE 2021: 99- 2020
- [c56]Sidney Pontes-Filho, Pedro G. Lind, Anis Yazidi, Jianhua Zhang, Hugo Hammer, Gustavo B. M. Mello, Ioanna Sandvig, Gunnar Tufte, Stefano Nichele:
EvoDynamic: A Framework for the Evolution of Generally Represented Dynamical Systems and Its Application to Criticality. EvoApplications 2020: 133-148 - [c55]Johannes H. Jensen, Gunnar Tufte:
Reservoir Computing in Artificial Spin Ice. ALIFE 2020: 376-383 - [i4]Kristine Heiney, Gunnar Tufte, Stefano Nichele:
On Artificial Life and Emergent Computation in Physical Substrates. CoRR abs/2009.04518 (2020)
2010 – 2019
- 2019
- [c54]Martinius Knudsen, Sverre Hendseth, Gunnar Tufte, Axel Sandvig:
Viewing Rate-Based Neurons as Biophysical Conductance Outputting Models. UCNC 2019: 164-177 - [i3]Sidney Pontes-Filho, Anis Yazidi, Jianhua Zhang, Hugo Hammer, Gustavo B. M. Mello, Ioanna Sandvig, Gunnar Tufte, Stefano Nichele:
A general representation of dynamical systems for reservoir computing. CoRR abs/1907.01856 (2019) - [i2]Kristine Heiney, Vibeke Devold Valderhaug, Ioanna Sandvig, Axel Sandvig, Gunnar Tufte, Hugo Lewi Hammer, Stefano Nichele:
Evaluation of the criticality of in vitro neuronal networks: Toward an assessment of computational capacity. CoRR abs/1907.02351 (2019) - [i1]Magnus Själander, Magnus Jahre, Gunnar Tufte, Nico Reissmann:
EPIC: An Energy-Efficient, High-Performance GPGPU Computing Research Infrastructure. CoRR abs/1912.05848 (2019) - 2018
- [j9]Stefano Nichele, Mathias Berild Ose, Sebastian Risi, Gunnar Tufte:
CA-NEAT: Evolved Compositional Pattern Producing Networks for Cellular Automata Morphogenesis and Replication. IEEE Trans. Cogn. Dev. Syst. 10(3): 687-700 (2018) - [c53]Johannes H. Jensen, Erik Folven, Gunnar Tufte:
Computation in artificial spin ice. ALIFE 2018: 15-22 - 2017
- [j8]Stefano Nichele, Sigve Sebastian Farstad, Gunnar Tufte:
Universality of Evolved Cellular Automata in-Materio. Int. J. Unconv. Comput. 13(1): 1-34 (2017) - [c52]Johannes H. Jensen, Gunnar Tufte:
Reservoir computing with a chaotic circuit. ECAL 2017: 222-229 - [c51]Dragana Laketic, Gunnar Tufte:
Evolution-in-materio computations: Hierarchies rising from electron dynamics in carbon nanotubes. ECAL 2017: 255-256 - [c50]Peter Aaser, Martinius Knudsen, Ola Huse Ramstad, Rosanne van de Wijdeven, Stefano Nichele, Ioanna Sandvig, Gunnar Tufte, Ulrich Stefan Bauer, Øyvind Halaas, Sverre Hendseth, Axel Sandvig, Vibeke Valderhaug:
Towards making a cyborg: A closed-loop reservoir-neuro system. ECAL 2017: 430-437 - [c49]Stefano Nichele, Sebastian Risi, Gunnar Tufte, Laura Beloff:
Towards a plant bio-machine. SSCI 2017: 1-8 - 2016
- [j7]Stefano Nichele, Andreas Giskeødegård, Gunnar Tufte:
Evolutionary Growth of Genome Representations on Artificial Cellular Organisms with Indirect Encodings. Artif. Life 22(1): 76-111 (2016) - [j6]Dragana Laketic, Gunnar Tufte, Odd Rune Lykkebø, Stefano Nichele:
An Explanation of Computation - Collective Electrodynamics in Blobs of Carbon Nanotubes. EAI Endorsed Trans. Future Intell. Educ. Environ. 2(9): e3 (2016) - [j5]Maktuba Mohid, Julian F. Miller, Simon L. Harding, Gunnar Tufte, Mark K. Massey, Michael C. Petty:
Evolution-in-materio: solving computational problems using carbon nanotube-polymer composites. Soft Comput. 20(8): 3007-3022 (2016) - [c48]Gunnar Tufte, Odd Rune Lykkebø:
Evolution-in-Materio of a dynamical system with dynamical structures. ALIFE 2016: 242-249 - [c47]Sigve Sebastian Farstad, Stefano Nichele, Gunnar Tufte:
Towards standalone in-materio devices: Stable logic gates and elementary cellular automata in carbon nanotubes material. CEC 2016: 5246-5254 - [c46]Stefano Nichele, Tom Eivind Glover, Gunnar Tufte:
Genotype Regulation by Self-modifying Instruction-Based Development on Cellular Automata. PPSN 2016: 14-25 - [c45]Dragana Laketic, Gunnar Tufte:
A hierarchical view on Evolution-In-Materio computations. SSCI 2016: 1-10 - 2015
- [c44]Dragana Laketic, Gunnar Tufte, Odd Rune Lykkebø, Stefano Nichele:
An Explanation of Computation - Collective Electrodynamics in Blobs of Carbon Nanotubes. BICT 2015: 43-48 - [c43]Stefano Nichele, Gunnar Tufte:
Morphogenesis and Replication of Multi-Cellular Organisms with Evolved Variable Length Self-Modifying Genomes. ECAL 2015: 42 - [c42]Odd Rune Lykkebø, Stefano Nichele, Gunnar Tufte:
An Investigation of Square Waves for Evolution in Carbon Nanotubes Material. ECAL 2015: 503-510 - [c41]Stefano Nichele, Odd Rune Lykkebø, Gunnar Tufte:
An Investigation of Underlying Physical Properties Exploited by Evolution in Nanotubes Materials. SSCI 2015: 1220-1228 - 2014
- [j4]Julian F. Miller, Simon L. Harding, Gunnar Tufte:
Evolution-in-materio: evolving computation in materials. Evol. Intell. 7(1): 49-67 (2014) - [c40]Stefano Nichele, Håkon Hjelde Wold, Gunnar Tufte:
Investigation of Genome Parameters and Sub-Transitions to Guide Evolution of Artificial Cellular Organisms. EvoApplications 2014: 113-124 - [c39]Maktuba Mohid, Julian Francis Miller, Simon L. Harding, Gunnar Tufte, Odd Rune Lykkebø, Mark Kieran Massey, Michael C. Petty:
Evolution-in-materio: Solving bin packing problems using materials. ICES 2014: 38-45 - [c38]Maktuba Mohid, Julian Francis Miller, Simon L. Harding, Gunnar Tufte, Odd Rune Lykkebø, Mark Kieran Massey, Michael C. Petty:
Evolution-in-materio: A frequency classifier using materials. ICES 2014: 46-53 - [c37]Odd Rune Lykkebø, Gunnar Tufte:
Comparison and evaluation of signal representations for a carbon nanotube computational device. ICES 2014: 54-60 - [c36]Stefano Nichele, Gunnar Tufte:
Evolutionary growth of genomes for the development and replication of multicellular organisms with indirect encoding. ICES 2014: 141-148 - [c35]Maktuba Mohid, Julian Francis Miller, Simon L. Harding, Gunnar Tufte, Odd Rune Lykkebø, Mark K. Massey, Michael C. Petty:
Evolution-In-Materio: Solving Machine Learning Classification Problems Using Materials. PPSN 2014: 721-730 - [c34]Odd Rune Lykkebø, Simon Harding, Gunnar Tufte, Julian F. Miller:
Mecobo: A Hardware and Software Platform for In Materio Evolution. UCNC 2014: 267-279 - [c33]Maktuba Mohid, Julian Francis Miller, Simon L. Harding, Gunnar Tufte, Odd Rune Lykkebø, Mark K. Massey, Michael C. Petty:
Evolution-in-materio: Solving function optimization problems using materials. UKCI 2014: 1-8 - 2013
- [c32]Stefano Nichele, Gunnar Tufte:
Evolution of Incremental Complex Behavior on Cellular Machines. ECAL 2013: 63-70 - [c31]Stefano Nichele, Gunnar Tufte:
Measuring Phenotypic Structural Complexity of Artificial Cellular Organisms - Approximation of Kolmogorov Complexity with Lempel-Ziv Compression. IBICA 2013: 23-35 - 2012
- [j3]Hajo Broersma, Faustino J. Gomez, Julian F. Miller, Mike Petty, Gunnar Tufte:
Nascence Project: Nanoscale Engineering for Novel Computation Using Evolution. Int. J. Unconv. Comput. 8(4): 313-317 (2012) - [c30]Konstantinos Antonakopoulos, Gunnar Tufte:
Investigation of Developmental Mechanisms in Common Developmental Genomes. BIONETICS 2012: 169-183 - [c29]Konstantinos Antonakopoulos, Gunnar Tufte:
On the Evolvability of Different Computational Architectures using a Common Developmental Genome. IJCCI 2012: 122-129 - [c28]Stefano Nichele, Gunnar Tufte:
Genome Parameters as Information to Forecast Emergent Developmental Behaviors. UCNC 2012: 186-197 - [c27]Susan Stepney, Ada Diaconescu, René Doursat, Jean-Louis Giavitto, Taras Kowaliw, Ottoline Leyser, Bruce J. MacLennan, Olivier Michel, Julian F. Miller, Igor Nikolic, Antoine Spicher, Christof Teuscher, Gunnar Tufte, Francisco J. Vico, Lidia Yamamoto:
Gardening Cyber-Physical Systems. UCNC 2012: 237-238 - 2011
- [j2]Dragana Laketic, Gunnar Tufte:
Autonomous adaptation inspired by the model of a minimal living system provided by chemoton theory. Nano Commun. Networks 2(2-3): 125-140 (2011) - [c26]Konstantinos Antonakopoulos, Gunnar Tufte:
A common genetic representation capable of developing distinct computational architectures. IEEE Congress on Evolutionary Computation 2011: 1264-1271 - [c25]Gunnar Tufte, Stefano Nichele:
On the correlations between developmental diversity and genomic composition. GECCO 2011: 1507-1514 - 2010
- [c24]Stefano Nichele, Gunnar Tufte:
Trajectories and attractors as specification for the evolution of behaviour in cellular automata. IEEE Congress on Evolutionary Computation 2010: 1-8 - [c23]Dragana Laketic, Gunnar Tufte:
Achieving Robustness in Adaptive Systems - Can Hierarchies Help? ICAART (1) 2010: 422-427
2000 – 2009
- 2009
- [c22]Dragana Laketic, Gunnar Tufte, Pauline C. Haddow:
Stochastic Adaptation to Environmental Changes Supported by Endocrine System Principles. AHS 2009: 215-222 - [c21]Gunnar Tufte:
The discrete dynamics of developmental systems. IEEE Congress on Evolutionary Computation 2009: 2209-2216 - [c20]Cristina Costa Santini, Gunnar Tufte, Pauline C. Haddow:
Bio-inspired reverse engineering of regulatory networks. IEEE Congress on Evolutionary Computation 2009: 2716-2723 - [c19]Dragana Laketic, Gunnar Tufte:
Adaptation in Tissue Sustained by Hormonal Loops. ECAL (1) 2009: 67-74 - [c18]Gunnar Tufte:
Metamorphosis and Artificial Development: An Abstract Approach to Functionality. ECAL (1) 2009: 83-90 - [c17]Dragana Laketic, Gunnar Tufte:
Living Systems' Organisation and Processes for Achieving Adaptation - Principles to Borrow from Biology. IJCCI 2009: 254-259 - 2008
- [c16]Gunnar Tufte:
Evolution, Development and Environment Toward Adaptation through Phenotypic Plasticity and Exploitation of External Information. ALIFE 2008: 624-631 - [c15]Gunnar Tufte, Espen Gangvik:
TransFormer #13: Exploration and Adaptation of Evolution Expressed in a Dynamic Sculpture. EvoWorkshops 2008: 509-514 - [c14]Gunnar Tufte:
Phenotypic, developmental and computational resources: scaling in artificial development. GECCO 2008: 859-866 - [c13]Gunnar Tufte:
Discovery and Investigation of Inherent Scalability in Developmental Genomes. ICES 2008: 189-200 - 2007
- [c12]Gunnar Tufte, Pauline C. Haddow:
Achieving environmental tolerance through the initiation and exploitation of external information. IEEE Congress on Evolutionary Computation 2007: 2485-2492 - [c11]Gunnar Tufte, Pauline C. Haddow:
Extending Artificial Development: Exploiting Environmental Information for the Achievement of Phenotypic Plasticity. ICES 2007: 297-308 - 2006
- [c10]Gunnar Tufte:
Gene Regulation Mechanisms Introduced in the Evaluation Criteria for a Hardware Cellular Development System. AHS 2006: 137-144 - [c9]Gunnar Tufte:
Cellular Development: A Search for Functionality. IEEE Congress on Evolutionary Computation 2006: 2669-2676 - 2005
- [j1]Gunnar Tufte, Pauline C. Haddow:
Towards Development on a Silicon-based Cellular Computing Machine. Nat. Comput. 4(4): 387-416 (2005) - 2004
- [c8]Gunnar Tufte, Pauline C. Haddow:
Biologically-Inspired: A Rule-Based Self-Reconfiguration of a Virtex Chip. International Conference on Computational Science 2004: 1249-1256 - 2003
- [c7]Gunnar Tufte, Pauline C. Haddow:
Identification of functionality during development on a virtual Sblock FPGA. IEEE Congress on Evolutionary Computation 2003: 731-738 - [c6]Gunnar Tufte, Pauline C. Haddow:
Building Knowledge into Developmental Rules for Circuit Design. ICES 2003: 69-80 - 2001
- [c5]Pauline C. Haddow, Gunnar Tufte:
Bridging The Genotype-Phenotype Mapping For Digital Fpgas. Evolvable Hardware 2001: 109-115 - [c4]Pauline C. Haddow, Gunnar Tufte, Piet van Remortel:
Shrinking the Genotype: L-systems for EHW? ICES 2001: 128-139 - 2000
- [c3]Pauline C. Haddow, Gunnar Tufte:
An evolvable hardware FPGA for adaptive hardware. CEC 2000: 553-560 - [c2]Gunnar Tufte, Pauline C. Haddow:
Evolving an Adaptive Digital Filter. Evolvable Hardware 2000: 143-150
1990 – 1999
- 1999
- [c1]Gunnar Tufte, Pauline C. Haddow:
Prototyping a GA Pipeline for Complete Hardware Evolution. Evolvable Hardware 1999: 18-25
Coauthor Index
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