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Searching for HyperNEAT with no syntactic query expansion in all metadata.

Publication years (Num. hits)
2007-2011 (18) 2012-2017 (15) 2018-2021 (5)
Publication types (Num. hits)
article(1) incollection(2) inproceedings(35)
Venues (Conferences, Journals, ...)
GECCO(14) EvoApplications(3) GECCO (Companion)(2) IEEE Congress on Evolutionary ...(2) IPCAT(2) ALIFE(1) CEC(1) CoRR(1) ECAL(1) Growing Adaptive Machines(1) ICANN (2)(1) ICANNGA(1) ICES(1) ICGEC(1) IJCNN(1) LA-CCI(1) More (+10 of total 20)
Authors
Kenneth O. Stanley(9) Jeff Clune(8) Charles Ofria(5) Sebastian Risi(5) Phillip Verbancsics(4) Robert T. Pennock(4) David B. D'Ambrosio(3) Jan Koutník(3) Miroslav Snorek(3) A. E. Eiben(2) Benjamin E. Beckmann(2) Hod Lipson(2) Jakob Merrild(2) Jan Drchal(2) Jason Gauci(2) Jason Yosinski(2) More (+10 of total 67)
GrowBag graphs for keyword ? (Num. hits/coverage)

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The graphs summarize 40 occurrences of 15 keywords
Results
Found 38 publication records. Showing 38 according to the selection in the facets
Hits ? Authors Title Venue Year Link Author keywords
266Jeff Clune, Benjamin E. Beckmann, Philip K. McKinley, Charles Ofria Investigating whether hyperNEAT produces modular neural networks. Search on Bibsonomy GECCO The full citation details ... 2010 DBLP  DOI  BibTeX  RDF developmental encodings, generative encodings, artificial neural networks, modularity, neuroevolution, neat, indirect encodings, hyperneat
195Sebastian Risi, Joel Lehman, Kenneth O. Stanley Evolving the placement and density of neurons in the hyperneat substrate. Search on Bibsonomy GECCO The full citation details ... 2010 DBLP  DOI  BibTeX  RDF substrate evolution, neuroevolution, neat, hyperneat
195Jeff Clune, Charles Ofria, Robert T. Pennock The sensitivity of HyperNEAT to different geometric representations of a problem. Search on Bibsonomy GECCO The full citation details ... 2009 DBLP  DOI  BibTeX  RDF developmental encoding, generative encoding, artificial neural networks, geometry, neuroevolution, neat, indirect encoding, hyperneat
56Matthew J. Hausknecht, Piyush Khandelwal, Risto Miikkulainen, Peter Stone HyperNEAT-GGP: a hyperNEAT-based atari general game player. Search on Bibsonomy GECCO The full citation details ... 2012 DBLP  DOI  BibTeX  RDF
52Jan Drchal, Ondrej Kapral, Jan Koutník, Miroslav Snorek Combining Multiple Inputs in HyperNEAT Mobile Agent Controller. Search on Bibsonomy ICANN (2) The full citation details ... 2009 DBLP  DOI  BibTeX  RDF
50David B. D'Ambrosio, Kenneth O. Stanley Generative encoding for multiagent learning. Search on Bibsonomy GECCO The full citation details ... 2008 DBLP  DOI  BibTeX  RDF CPPNs, neural networks, multiagent systems, NEAT, HyperNEAT
50Jason Gauci, Kenneth O. Stanley Generating large-scale neural networks through discovering geometric regularities. Search on Bibsonomy GECCO The full citation details ... 2007 DBLP  DOI  BibTeX  RDF compositional pattern producing networks, large-scale artificial neural networks, NEAT, HyperNEAT
50David B. D'Ambrosio, Kenneth O. Stanley A novel generative encoding for exploiting neural network sensor and output geometry. Search on Bibsonomy GECCO The full citation details ... 2007 DBLP  DOI  BibTeX  RDF compositional pattern producing networks, large-scale artifical neural networks, NEAT, HyperNEAT
47Phillip Verbancsics, Kenneth O. Stanley Transfer learning through indirect encoding. Search on Bibsonomy GECCO The full citation details ... 2010 DBLP  DOI  BibTeX  RDF artifical neural networks, robocup soccer, task transfer, generative and developmental systems
28Amund Tenstad, Pauline C. Haddow DES-HyperNEAT: Towards Multiple Substrate Deep ANNs. Search on Bibsonomy CEC The full citation details ... 2021 DBLP  DOI  BibTeX  RDF
28Francesco Calimeri, Aldo Marzullo, Claudio Stamile, Giorgio Terracina Blood Vessel Segmentation in Retinal Fundus Images Using Hypercube NeuroEvolution of Augmenting Topologies (HyperNEAT). Search on Bibsonomy Quantifying and Processing Biomedical and Behavioral Signals The full citation details ... 2019 DBLP  DOI  BibTeX  RDF
28Andrés N. Vargas González, Seng Lee Koh, Gustavo I. Cali Mena, Shreyas Somashekara, Joseph J. LaViola Shoot-Out: Exploring HyperNEAT for an optimal Final-Third Approach in Robocup-2D Soccer. Search on Bibsonomy LA-CCI The full citation details ... 2019 DBLP  DOI  BibTeX  RDF
28Collin Cappelle, Josh C. Bongard Embodied Embeddings for Hyperneat. Search on Bibsonomy ALIFE The full citation details ... 2018 DBLP  DOI  BibTeX  RDF
28Jakob Merrild, Mikkel Angaju Rasmussen, Sebastian Risi HyperNTM: Evolving Scalable Neural Turing Machines Through HyperNEAT. Search on Bibsonomy EvoApplications The full citation details ... 2018 DBLP  DOI  BibTeX  RDF
28Jakob Merrild, Mikkel Angaju Rasmussen, Sebastian Risi HyperENTM: Evolving Scalable Neural Turing Machines through HyperNEAT. Search on Bibsonomy CoRR The full citation details ... 2017 DBLP  BibTeX  RDF
28Maxim Sokolov, Ilya Afanasyev 0001, Alexandr Klimchik, Nikolaos Mavridis HyperNEAT-based flipper control for a crawler robot motion in 3D simulation environment. Search on Bibsonomy ROBIO The full citation details ... 2017 DBLP  DOI  BibTeX  RDF
28Oscar A. Silva, Pascal Sigel, María-José Escobar Time delays in a HyperNEAT network to improve gait learning for legged robots. Search on Bibsonomy IJCNN The full citation details ... 2017 DBLP  DOI  BibTeX  RDF
28Ben P. Jolley, Alastair Channon Toward evolving robust, deliberate motion planning with HyperNEAT. Search on Bibsonomy SSCI The full citation details ... 2017 DBLP  DOI  BibTeX  RDF
28Jacob Schrum, Joel Lehman, Sebastian Risi Automatic Evolution of Multimodal Behavior with Multi-Brain HyperNEAT. Search on Bibsonomy GECCO (Companion) The full citation details ... 2016 DBLP  DOI  BibTeX  RDF
28John Reeder Team Search Tactics Through Multi-Agent HyperNEAT. Search on Bibsonomy IPCAT The full citation details ... 2015 DBLP  DOI  BibTeX  RDF
28Phillip Verbancsics, Josh Harguess Feature Learning HyperNEAT: Evolving Neural Networks to Extract Features for Classification of Maritime Satellite Imagery. Search on Bibsonomy IPCAT The full citation details ... 2015 DBLP  DOI  BibTeX  RDF
28Phillip Verbancsics, Josh Harguess Classifying Maritime Vessels from Satellite Imagery with HyperNEAT. Search on Bibsonomy GECCO (Companion) The full citation details ... 2015 DBLP  DOI  BibTeX  RDF
28David B. D'Ambrosio, Jason Gauci, Kenneth O. Stanley HyperNEAT: The First Five Years. Search on Bibsonomy Growing Adaptive Machines The full citation details ... 2014 DBLP  DOI  BibTeX  RDF
28Massimiliano D'Angelo, Berend Weel, A. E. Eiben HyperNEAT Versus RL PoWER for Online Gait Learning in Modular Robots. Search on Bibsonomy EvoApplications The full citation details ... 2014 DBLP  DOI  BibTeX  RDF
28Joost Huizinga, Jeff Clune, Jean-Baptiste Mouret Evolving neural networks that are both modular and regular: HyperNEAT plus the connection cost technique. Search on Bibsonomy GECCO The full citation details ... 2014 DBLP  DOI  BibTeX  RDF
28Suchan Lee, Jason Yosinski, Kyrre Glette, Hod Lipson, Jeff Clune Evolving Gaits for Physical Robots with the HyperNEAT Generative Encoding: The Benefits of Simulation. Search on Bibsonomy EvoApplications The full citation details ... 2013 DBLP  DOI  BibTeX  RDF
28Justin K. Pugh, Kenneth O. Stanley Evolving multimodal controllers with HyperNEAT. Search on Bibsonomy GECCO The full citation details ... 2013 DBLP  DOI  BibTeX  RDF
28Thomas G. van den Berg, Shimon Whiteson Critical factors in the performance of hyperNEAT. Search on Bibsonomy GECCO The full citation details ... 2013 DBLP  DOI  BibTeX  RDF
28Jason Yosinski, Jeff Clune, Diana Hidalgo, Sarah Nguyen, Juan Cristóbal Zagal, Hod Lipson Evolving robot gaits in hardware: the HyperNEAT generative encoding vs. parameter optimization. Search on Bibsonomy ECAL The full citation details ... 2011 DBLP  BibTeX  RDF
28Sebastian Risi, Kenneth O. Stanley Enhancing es-hyperneat to evolve more complex regular neural networks. Search on Bibsonomy GECCO The full citation details ... 2011 DBLP  DOI  BibTeX  RDF
28Phillip Verbancsics, Kenneth O. Stanley Constraining connectivity to encourage modularity in HyperNEAT. Search on Bibsonomy GECCO The full citation details ... 2011 DBLP  DOI  BibTeX  RDF
28Jessica Lowell, Sergey Grabkovsky, Kir Birger Comparison of NEAT and HyperNEAT Performance on a Strategic Decision-Making Problem. Search on Bibsonomy ICGEC The full citation details ... 2011 DBLP  DOI  BibTeX  RDF genetic algorithms, machine learning, neuroevolution, algorithm performance
28Evert Haasdijk, Andrei A. Rusu, A. E. Eiben HyperNEAT for Locomotion Control in Modular Robots. Search on Bibsonomy ICES The full citation details ... 2010 DBLP  DOI  BibTeX  RDF
28Jan Drchal, Jan Koutník, Miroslav Snorek HyperNEAT controlled robots learn how to drive on roads in simulated environment. Search on Bibsonomy IEEE Congress on Evolutionary Computation The full citation details ... 2009 DBLP  DOI  BibTeX  RDF
28Jeff Clune, Benjamin E. Beckmann, Charles Ofria, Robert T. Pennock Evolving coordinated quadruped gaits with the HyperNEAT generative encoding. Search on Bibsonomy IEEE Congress on Evolutionary Computation The full citation details ... 2009 DBLP  DOI  BibTeX  RDF
28Zdenek Buk, Jan Koutník, Miroslav Snorek NEAT in HyperNEAT Substituted with Genetic Programming. Search on Bibsonomy ICANNGA The full citation details ... 2009 DBLP  DOI  BibTeX  RDF
26Jeff Clune, Charles Ofria, Robert T. Pennock How a Generative Encoding Fares as Problem-Regularity Decreases. Search on Bibsonomy PPSN The full citation details ... 2008 DBLP  DOI  BibTeX  RDF ANN, modularity, Evolution, regularity, NEAT, HyperNEAT
26Jeff Clune, Charles Ofria, Robert T. Pennock How generative encodings fare on less regular problems. Search on Bibsonomy GECCO The full citation details ... 2008 DBLP  DOI  BibTeX  RDF ANN, modularity, evolution, regularity, NEAT, HyperNEAT
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