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Thomas Schmickl

Showing results (1-10 of 36) with videos related to

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Journal of Theoretical Biology|November 19, 2015
How regulation based on a common stomach leads to economic optimization of honeybee foragingThomas Schmickl, Istvan Karsai
Plos One|November 22, 2017
Resilience of honeybee colonies via common stomach: A model of self-regulation of foragingThomas Schmickl, Istvan Karsai
Artificial Life|April 16, 2014
Generation of diversity in a reaction-diffusion-based controllerPayam Zahadat, Thomas Schmickl
Science Robotics|November 20, 2024
Robots and animals teaming up in the wild to tackle ecosystem challengesThomas Schmickl, Donato Romano
Biomimetics (Basel, Switzerland)|June 23, 2022
Mycelial Beehives of HIVEOPOLIS: Designing and Building Therapeutic Inner Nest Environments for HoneybeesAsya Ilgun, Thomas Schmickl
Proceedings of the National Academy of Sciences of the United States of America|December 12, 2018
Integral feedback control is at the core of task allocation and resilience of insect societiesThomas Schmickl, Istvan Karsai
Plos One|December 11, 2014
Sting, Carry and Stock: How Corpse Availability Can Regulate De-Centralized Task Allocation in a Ponerine Ant ColonyThomas Schmickl, Istvan Karsai
Plos One|February 7, 2019
Correction: Resilience of honeybee colonies via common stomach: A model of self-regulation of foragingThomas Schmickl, Istvan Karsai
Bioinspiration & Biomimetics|March 2, 2023
Will biomimetic robots be able to change a hivemind to guide honeybees' ecosystem services?Dajana Lazic, Thomas Schmickl
Heliyon|October 9, 2023
Self-complexification through integral feedback in eusocial paper wasps of various levels of socialityThomas Schmickl, Istvan Karsai
Pageof 4

Showing results (1-10 of 36) with videos related to

Sort By:
Pageof 4
Journal of Theoretical Biology|November 19, 2015
How regulation based on a common stomach leads to economic optimization of honeybee foragingThomas Schmickl, Istvan Karsai
Plos One|November 22, 2017
Resilience of honeybee colonies via common stomach: A model of self-regulation of foragingThomas Schmickl, Istvan Karsai
Artificial Life|April 16, 2014
Generation of diversity in a reaction-diffusion-based controllerPayam Zahadat, Thomas Schmickl
Science Robotics|November 20, 2024
Robots and animals teaming up in the wild to tackle ecosystem challengesThomas Schmickl, Donato Romano
Biomimetics (Basel, Switzerland)|June 23, 2022
Mycelial Beehives of HIVEOPOLIS: Designing and Building Therapeutic Inner Nest Environments for HoneybeesAsya Ilgun, Thomas Schmickl
Proceedings of the National Academy of Sciences of the United States of America|December 12, 2018
Integral feedback control is at the core of task allocation and resilience of insect societiesThomas Schmickl, Istvan Karsai
Plos One|December 11, 2014
Sting, Carry and Stock: How Corpse Availability Can Regulate De-Centralized Task Allocation in a Ponerine Ant ColonyThomas Schmickl, Istvan Karsai
Plos One|February 7, 2019
Correction: Resilience of honeybee colonies via common stomach: A model of self-regulation of foragingThomas Schmickl, Istvan Karsai
Bioinspiration & Biomimetics|March 2, 2023
Will biomimetic robots be able to change a hivemind to guide honeybees' ecosystem services?Dajana Lazic, Thomas Schmickl
Heliyon|October 9, 2023
Self-complexification through integral feedback in eusocial paper wasps of various levels of socialityThomas Schmickl, Istvan Karsai
Pageof 4