Department of Engineering and Architecture, University of Trieste, Italy; Email: giorgia.nadizar@phd.units.it, emedvet@units.it, fapellegrino@units.it, marco.zullich@phd.units.it"/> Department of Computer Science, Artificial Intelligence Lab, Oslo Metropolitan University, Norway"/> Department of Neuromedicine and Movement Science, Norwegian University of Science and Technology, Norway; Email: olahuser@oslomet.no"/> Department of Holistic Systems, Simula Metropolitan Center for Digital Engineering, Norway; Email: stenic@oslomet.no"/>
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2022 Volume 37
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ORIGINAL RESEARCH   Open Access    

Merging pruning and neuroevolution: towards robust and efficient controllers for modular soft robots – Corrigendum

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  • Nadizar , G., Medvet , E., Huse Ramstad , O., Nichele , S., Pellegrino , F., & Zullich , M. (2022). Merging pruning and neuroevolution: Towards robust and efficient controllers for modular soft robots. The Knowledge Engineering Review, 37, E3. doi: 10.1017/S0269888921000151

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    Giorgia Nadizar, Eric Medvet, Ola Huse Ramstad, Stefano Nichele, Felice Andrea Pellegrino, Marco Zullich. 2022. Merging pruning and neuroevolution: towards robust and efficient controllers for modular soft robots – Corrigendum. The Knowledge Engineering Review 37(1), doi: 10.1017/S0269888922000017
    Giorgia Nadizar, Eric Medvet, Ola Huse Ramstad, Stefano Nichele, Felice Andrea Pellegrino, Marco Zullich. 2022. Merging pruning and neuroevolution: towards robust and efficient controllers for modular soft robots – Corrigendum. The Knowledge Engineering Review 37(1), doi: 10.1017/S0269888922000017
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ORIGINAL RESEARCH   Open Access    

Merging pruning and neuroevolution: towards robust and efficient controllers for modular soft robots – Corrigendum

  • Published online: 26 April 2022
The Knowledge Engineering Review  37 2022, 37(1)  |  Cite this article

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    Giorgia Nadizar, Eric Medvet, Ola Huse Ramstad, Stefano Nichele, Felice Andrea Pellegrino, Marco Zullich. 2022. Merging pruning and neuroevolution: towards robust and efficient controllers for modular soft robots – Corrigendum. The Knowledge Engineering Review 37(1), doi: 10.1017/S0269888922000017
    Giorgia Nadizar, Eric Medvet, Ola Huse Ramstad, Stefano Nichele, Felice Andrea Pellegrino, Marco Zullich. 2022. Merging pruning and neuroevolution: towards robust and efficient controllers for modular soft robots – Corrigendum. The Knowledge Engineering Review 37(1), doi: 10.1017/S0269888922000017
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