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dc.contributor Avila Vilchis, Juan Carlos
dc.contributor.advisor AVILA VILCHIS, JUAN CARLOS; 59656
dc.contributor.author SANCHEZ DELGADO, CARLOS ALBERTO
dc.creator SANCHEZ DELGADO, CARLOS ALBERTO; 863661
dc.date.accessioned 2021-05-18T01:27:31Z
dc.date.available 2021-05-18T01:27:31Z
dc.date.issued 2020-07-17
dc.identifier.uri http://hdl.handle.net/20.500.11799/110475
dc.description.abstract In robotics, locomotion is a fundamental task for the development of high-level activities such as navigation. For a robotic system, the challenge of evading environmental obstacles depends both on its physical capabilities and on the strategies followed to achieve it. Thus, a robot with the ability to develop several modes of locomotion (walking, flying or swimming) has a greater probability of success in achieving its goal than a robot that develops only one. In nature, Hymenoptera insects use terrestrial and aerial modes of locomotion to carry out their activities. Mimicry the physical capabilities of these insects opens the possibility of improvements in the area of robotic locomotion. Therefore, this work seeks to generate a bio-inspired robotic system that integrates the terrestrial and aerial modes of locomotion. The methodology used in this research project has considered the anatomical study and characterization of Hymenoptera insects locomotion, the proposal of conceptual models that integrate terrestrial and aerial modes locomotion, the construction of a physical platform and experimental testing of the system. In addition, a gait generation approach based on an artificial nervous system of coupled nonlinear oscillators has been proposed. This approach has resulted in the generation of a coherent and functional gait pattern that, in combination with the flight capabilities of the system, has constituted an aero-terrestrial robot. The results obtained in this work include the construction of a bioinspired physical platform, the generation of the gait process using an artificial nervous system and the experimental tests on the integration of aero-terrestrial locomotion. es
dc.description.sponsorship Conacyt - Becario Nacional es
dc.language.iso eng es
dc.publisher Universidad Autónoma del Estado de México es
dc.rights openAccess es
dc.rights.uri http://creativecommons.org/licenses/by-nc-nd/4.0
dc.subject Bioinspired robotic system es
dc.subject Aerial and terrestrial locomotion modes es
dc.subject Nonlinear oscillator-based gait generation es
dc.subject Research Subject Categories es
dc.subject.classification INGENIERÍA Y TECNOLOGÍA
dc.title Integration of aerial and terrestrial locomotion modes in a bioinspired robotic system es
dc.type Tesis de Maestría es
dc.provenance Científica es
dc.road Verde es
dc.organismo Ingeniería es
dc.ambito Nacional es
dc.cve.CenCos 20501 es
dc.cve.progEstudios 679 es
dc.modalidad Tesis es
dc.audience students es
dc.audience researchers es
dc.type.conacyt masterThesis
dc.identificator 7


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  • Título
  • Integration of aerial and terrestrial locomotion modes in a bioinspired robotic system
  • Autor
  • SANCHEZ DELGADO, CARLOS ALBERTO
  • Director(es) de tesis, compilador(es) o coordinador(es)
  • Avila Vilchis, Juan Carlos
  • Fecha de publicación
  • 2020-07-17
  • Editor
  • Universidad Autónoma del Estado de México
  • Tipo de documento
  • Tesis de Maestría
  • Palabras clave
  • Bioinspired robotic system
  • Aerial and terrestrial locomotion modes
  • Nonlinear oscillator-based gait generation
  • Research Subject Categories
  • Los documentos depositados en el Repositorio Institucional de la Universidad Autónoma del Estado de México se encuentran a disposición en Acceso Abierto bajo la licencia Creative Commons: Atribución-NoComercial-SinDerivar 4.0 Internacional (CC BY-NC-ND 4.0)

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