Thomas Schmickl
Thomas Schmickl
Institute of Biology, Artificial Life Lab, University of Graz
Bestätigte E-Mail-Adresse bei - Startseite
Zitiert von
Zitiert von
Re-embodiment of honeybee aggregation behavior in an artificial micro-robotic system
S Kernbach, R Thenius, O Kernbach, T Schmickl
Adaptive Behavior 17 (3), 237-259, 2009
Cannibalism and early capping: strategy of honeybee colonies in times of experimental pollen shortages
T Schmickl, K Crailsheim
Journal of Comparative Physiology A 187, 541-547, 2001
Get in touch: cooperative decision making based on robot-to-robot collisions
T Schmickl, R Thenius, C Moeslinger, G Radspieler, S Kernbach, ...
Autonomous Agents and Multi-Agent Systems 18, 133-155, 2009
Inner nest homeostasis in a changing environment with special emphasis on honey bee brood nursing and pollen supply
T Schmickl, K Crailsheim
Apidologie 35 (3), 249-263, 2004
Standard methods for behavioural studies of Apis mellifera
R Scheiner, CI Abramson, R Brodschneider, K Crailsheim, WM Farina, ...
Journal of Apicultural Research 52 (4), 1-58, 2013
CoCoRo--The Self-Aware Underwater Swarm
T Schmickl, R Thenius, C Möslinger, J Timmis, A Tyrrell, M Read, J Hilder, ...
Self-Adaptive and Self-Organizing Systems Workshops (SASOW), 2011 Fifth IEEE …, 2011
How honeybees (Apis mellifera L.) change their broodcare behaviour in response to non-foraging conditions and poor pollen conditions
T Schmickl, K Crailsheim
Behavioral Ecology and Sociobiology 51, 415-425, 2002
Swarm intelligence and cyber-physical systems: concepts, challenges and future trends
M Schranz, GA Di Caro, T Schmickl, W Elmenreich, F Arvin, A Şekercioğlu, ...
Swarm and Evolutionary Computation 60, 100762, 2021
HoPoMo: A model of honeybee intracolonial population dynamics and resource management
T Schmickl, K Crailsheim
Ecological modelling 204 (1-2), 219-245, 2007
Symbiotic robot organisms: REPLICATOR and SYMBRION projects
S Kernbach, E Meister, F Schlachter, K Jebens, M Szymanski, J Liedke, ...
Proceedings of the 8th workshop on performance metrics for intelligent …, 2008
Trophallaxis within a robotic swarm: bio-inspired communication among robots in a swarm
T Schmickl, K Crailsheim
Autonomous Robots 25, 171-188, 2008
BEECLUST: A swarm algorithm derived from honeybees
T Schmickl, H Hamann
Bio-inspired computing and communication networks, 95-137, 2011
Costs of environmental fluctuations and benefits of dynamic decentralized foraging decisions in honey bees
T Schmickl, K Crailsheim
Adaptive Behavior 12 (3-4), 263-277, 2004
Antbots: A feasible visual emulation of pheromone trails for swarm robots
R Mayet, J Roberz, T Schmickl, K Crailsheim
Lecture Notes in Computer Science 6234, 84-94, 2010
Dynamics of collective decision making of honeybees in complex temperature fields
M Szopek, T Schmickl, R Thenius, G Radspieler, K Crailsheim
PloS one 8 (10), e76250, 2013
Collective perception in a robot swarm
T Schmickl, C Möslinger, K Crailsheim
International Workshop on Swarm Robotics, 144-157, 2006
A minimalist flocking algorithm for swarm robots
C Moeslinger, T Schmickl, K Crailsheim
Advances in Artificial Life. Darwin Meets von Neumann: 10th European …, 2011
Micromanipulation, communication and swarm intelligence issues in a swarm microrobotic platform
P Valdastri, P Corradi, A Menciassi, T Schmickl, K Crailsheim, J Seyfried, ...
Robotics and Autonomous Systems 54 (10), 789-804, 2006
Two different approaches to a macroscopic model of a bio-inspired robotic swarm
T Schmickl, H Hamann, H Wörn, K Crailsheim
Robotics and Autonomous Systems 57 (9), 913-921, 2009
Adaptive collective decision-making in limited robot swarms without communication
S Kernbach, D Häbe, O Kernbach, R Thenius, G Radspieler, T Kimura, ...
The International Journal of Robotics Research 32 (1), 35-55, 2013
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