Centipede bio-extremity elastic model control

Centipede bio-extremity elastic model control

In this research, a specimen of arthropod, infraspecies Cormocephalus calcaratus (centipede) is the matter of study for modeling its trunk-limb biomechanics. The endoskeletal system was built to model and approach its passive dynamics motion. The limb’s musculoskeletal system was digitally ’sculpted...

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Veröffentlicht in:Journal of micro-bio robotics 2021, Vol.17 (1), p.35-57
Hauptverfasser: Miranda Guaderrama, Joel, Martínez-García, Edgar Alonso
Format: Artikel
Sprache:eng
Schlagworte:
Biomechanics
Electronics and Microelectronics
Engineering
Instrumentation
Machines
Manufacturing
Muscles
Musculoskeletal system
Nanotechnology
Passive dynamics
Processes
Research Article
Robotics and Automation
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Zusammenfassung:In this research, a specimen of arthropod, infraspecies Cormocephalus calcaratus (centipede) is the matter of study for modeling its trunk-limb biomechanics. The endoskeletal system was built to model and approach its passive dynamics motion. The limb’s musculoskeletal system was digitally ’sculpted’ in three-dimension using the planar taxonomic sagittal, ventral and transventral views as metrical references, constrained in scale and geometry. The endoskeleton was modeled by an equivalent network of spring-mass-damper muscles with five joints controlled by two input muscles to manipulate the limb’s tip. The kinematic position equations with their higher-order derivatives and the inner muscles dynamics were deduced for a Newton-based dynamic controller to resemble scramble up motion. Simulations produced realistic controlled motions with expected limb’s dexterity underactuation.
ISSN:2194-6418
2194-6426
DOI:10.1007/s12213-021-00141-y