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Disambiguation of "Gorb, Stanislav N."

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Shifting allometry: combination of macroscopic engineering with microscopic biomimetics allows realization of new robot functions in meso dimension.

, , , , , and . ROBOTIK, VDE-Verlag, (2012)

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Stanislav Laznicka

Stanislav Novak

Stanislav Pandelov

Stanislav Nastassine

 

Other publications of authors with the same name

"Cylindrical worlds" in biology: Does the aggregation strategy give a selective advantage?, , and . Biosyst., (2019)A robot leg with compliant tarsus and its neural control for efficient and adaptive locomotion on complex terrains., , , , , , , and . Artif. Life Robotics, 21 (3): 274-281 (2016)Walking inverted on ceilings with wheel-legs and micro-structured adhesives., , , , , and . IROS, page 3308-3313. IEEE, (2015)A Robot that Climbs Walls using Micro-structured Polymer Feet., , , , , and . CLAWAR, page 131-138. Springer, (2005)Fin Ray Crossbeam Angles for Efficient Foot Design for Energy-Efficient Robot Locomotion., , , , , , , , and . Adv. Intell. Syst., (2022)Bio-inspired design and movement generation of dung beetle-like legs., , , , , , , , , and 1 other author(s). Artif. Life Robotics, 23 (4): 555-563 (2018)Exploiting Friction Anisotropy for Soft Robot Locomotion., , , , and . CLAWAR, volume 530 of Lecture Notes in Networks and Systems, page 75-79. Springer, (2022)A body joint improves vertical to horizontal transitions of a wall-climbing robot., , , , , , , , , and . ICRA, page 3046-3051. IEEE, (2008)The application of multi-body simulation approach in the kinematic analysis of beetle leg joints., , , , and . Artif. Life Robotics, 22 (4): 412-420 (2017)A dung beetle-inspired robotic model and its distributed sensor-driven control for walking and ball rolling., , , , , , and . Artif. Life Robotics, 23 (4): 435-443 (2018)