SlideShare ist ein Scribd-Unternehmen logo

Latinoware: Robots libres e Imprimibles

Als ODP, PDF herunterladen
O
obijuan_cube

En esta charla se presentarán los robots libres e imprimibles. Que un robot sea libre significa que están disponibles todos sus esquemas para que cualquiera los pueda utilizar, estudiar, modificar, distribuir, fabricar o vender. Esto los hace especialmente indicados para entornos educativos. "Imprimible" significa que se pueden fabricar utilizando una impresora 3D open-source. Estos robots tienen la capacidad de que se pueden compartir fácilmente por la comunidad a través de Internet. Esto hace que mejoren y evolucionen. Se presentará el robot Miniskybot, uno de los primeros robots libres e imprimibles y se analizarán los diseños derivados que han creado los estudiantes de la Escuela Politécnica Superior de la Universidad Carlos III de Madrid

1 von 53
Robots Libres e Imprimibles Juan González-Gómez y Alberto Valero Gómez, Robotics Lab Universidad Carlos III de Madrid VIII Conferência Latino-Americana de Software Livre 20 de outubro de 2011 - Foz do Iguaçu | PR | Brasil [email_address]
Índice ,[object Object]
El robot Miniskybot
Robots derivados
Plastic Valley UC3M
Conclusiones y trabajos futuros Robots libres e imprimibles Latinoware 2011
Introducción: Robots libres e imprimibles Latinoware 2011 Robótica Libre
Modelo “Open source” ,[object Object]
Modelo distribuido, con alcance mundial
Miles de personas cooperando
Aparición de comunidades
Herramientas: repositorios, wikis,...
Patrimonio tecnológico de la humanidad
Robótica Libre (I) ,[object Object]
Compartidos por Internet
Robots que evolucionan
¡Emergencia de diseños asombrosos! ,[object Object],Ventajas:
Robótica Libre (II) ,[object Object]
Se necesita tiempo y dinero para duplicar un objeto físico ,[object Object],Problemas: Enfoque: Internet Planos (Bits) Planos (Bits) Compartir Fabricar Objeto físico Convertir a bits Objeto físico
Robótica Libre (III) Software Mecánica Planos mećanicos Electrónica Planos eléctricos Programa Robot físico Robot Libre ,[object Object],void timer0_delay(unsigned char t0ini) { //-- Dar valor inicial del timer TMR0=t0ini; //-- Flag de interrupcion a cero T0IF=0; //-- Esperar a que transcurra el tiempo indicado while(T0IF==0);
Robótica Libre (IV) ,[object Object],Software Tool chains Robot físico Robot Libre Herramientas generadoras EDA CAD void timer0_delay(unsigned char t0ini) { //-- Dar valor inicial del timer TMR0=t0ini; //-- Flag de interrupcion a cero T0IF=0; //-- Esperar a que transcurra el tiempo indicado while(T0IF==0);
Herramientas generadoras (I) ,[object Object],[object Object]
Gratis, pero... ,[object Object]
Restricciones en el uso ,[object Object]
Planos en formatos propietarios
Hardware libre² 2 ,[object Object]
Software propietario ,[object Object]
Software Libre ,[object Object],Hardware libre Hardware libre²
Introducción: Robots libres e imprimibles Latinoware 2011 Impresoras 3D Open Source
Impresoras 3D ,[object Object],[object Object]
Open source: 350€ - 2.000€ ,[object Object],Objeto físico Bits
Ejemplos de Objetos “impresos” ,[object Object],http://www.thingiverse.com/thing:4110 ,[object Object],http://www.thingiverse.com/thing:7215 ,[object Object],http://www.thingiverse.com/thing:7916
Vídeo 1: Una impresora en acción
Impresoras 3D Open source ,[object Object],[object Object],[object Object]
Robots libres e imprimibles para educación ,[object Object],2 ,[object Object],[object Object],[object Object],[object Object],[object Object],[object Object]
Índice ,[object Object]
El robot Miniskybot
Robots derivados
Proyecto Plastic Valley UC3M
Conclusiones y trabajos futuros Robots libres e imprimibles Latinoware 2011
Robots previos (I) : Tritt ,[object Object]
Año: 1997
Mećanica: Piezas de Lego
Electrónica: ,[object Object]
Microcontrolador: 68hc11 Motorola http://goo.gl/Z7NZf Problemas : ,[object Object]
Cada taller de robótica con un diseño nuevo
Dependencia de Lego
Vídeo 2: El robot Tritt
Robots previos (II) : Skybot ,[object Object]
Año: 2005
Mećanica: Plástico cortado por láser
Electrónica: ,[object Object]
Microcontrolador: 16F876A (Microchip) ,[object Object],Problemas : ,[object Object],http://goo.gl/cOVYx

Empfohlen

Printbots: Robots libres e imprimibles. Madridbot-2012
Printbots: Robots libres e imprimibles. Madridbot-2012Printbots: Robots libres e imprimibles. Madridbot-2012
Printbots: Robots libres e imprimibles. Madridbot-2012
obijuan_cube
 
PrintBots: Robots libres e imprimibles
PrintBots: Robots libres e imprimiblesPrintBots: Robots libres e imprimibles
PrintBots: Robots libres e imprimibles
obijuan_cube
 
Bio-impresion 3D
Bio-impresion 3DBio-impresion 3D
Bio-impresion 3D
DanielOrive
 
IMPRESIÓN EN 3D
IMPRESIÓN EN 3DIMPRESIÓN EN 3D
IMPRESIÓN EN 3D
Giuliana Gallardo
 
Impresion 3 d
Impresion 3 dImpresion 3 d
Impresion 3 d
Aldo Dattoli
 
IMPRESION 3D
IMPRESION 3DIMPRESION 3D
IMPRESION 3D
Mariela Rivera
 
Impresora 3 d un aparato desarrollado
Impresora 3 d un aparato desarrolladoImpresora 3 d un aparato desarrollado
Impresora 3 d un aparato desarrollado
Elkin Mauricio. Rincon Galvis.
 
Impresión 3D
Impresión 3DImpresión 3D
Impresión 3D
G. Ibán de la Horra Villacé
 

Empfohlen

Printbots: Robots libres e imprimibles. Madridbot-2012
Printbots: Robots libres e imprimibles. Madridbot-2012Printbots: Robots libres e imprimibles. Madridbot-2012
Printbots: Robots libres e imprimibles. Madridbot-2012
obijuan_cube
 
PrintBots: Robots libres e imprimibles
PrintBots: Robots libres e imprimiblesPrintBots: Robots libres e imprimibles
PrintBots: Robots libres e imprimibles
obijuan_cube
 
Bio-impresion 3D
Bio-impresion 3DBio-impresion 3D
Bio-impresion 3D
DanielOrive
 
IMPRESIÓN EN 3D
IMPRESIÓN EN 3DIMPRESIÓN EN 3D
IMPRESIÓN EN 3D
Giuliana Gallardo
 
Impresion 3 d
Impresion 3 dImpresion 3 d
Impresion 3 d
Aldo Dattoli
 
IMPRESION 3D
IMPRESION 3DIMPRESION 3D
IMPRESION 3D
Mariela Rivera
 
Impresora 3 d un aparato desarrollado
Impresora 3 d un aparato desarrolladoImpresora 3 d un aparato desarrollado
Impresora 3 d un aparato desarrollado
Elkin Mauricio. Rincon Galvis.
 
Impresión 3D
Impresión 3DImpresión 3D
Impresión 3D
G. Ibán de la Horra Villacé
 
Impresión 3D
Impresión 3DImpresión 3D
Impresión 3D
Kevin HR
 
Revolución 3D en educación, ideas, sueños y robótica imprimible
Revolución 3D en educación, ideas, sueños y robótica imprimibleRevolución 3D en educación, ideas, sueños y robótica imprimible
Revolución 3D en educación, ideas, sueños y robótica imprimible
Monica L. Torres
 
Impresión 3D: Desktop Manufacturing
Impresión 3D: Desktop ManufacturingImpresión 3D: Desktop Manufacturing
Impresión 3D: Desktop Manufacturing
Mark Villacampa
 
Impresión 3 d
Impresión 3 dImpresión 3 d
Impresión 3 d
Reiuba Luvi
 
IMPRESIÓN 3D
IMPRESIÓN 3DIMPRESIÓN 3D
IMPRESIÓN 3D
Enmer Genaro Leandro Ricra
 
Reporte de noticia de Octubre
Reporte de noticia de OctubreReporte de noticia de Octubre
Reporte de noticia de Octubre
ShanaWest1009
 
Noticia de octubre
Noticia de octubreNoticia de octubre
Noticia de octubre
feernaandaatreejoo
 
IMPRESORAS 3D
IMPRESORAS 3DIMPRESORAS 3D
IMPRESORAS 3D
erickvaz
 
IEEE impresoras 3 d
IEEE impresoras 3 dIEEE impresoras 3 d
IEEE impresoras 3 d
Tatiana9303
 
Impresoras 3D en Argentina - Precios, Caraterísticas, Historia
Impresoras 3D en Argentina - Precios, Caraterísticas, HistoriaImpresoras 3D en Argentina - Precios, Caraterísticas, Historia
Impresoras 3D en Argentina - Precios, Caraterísticas, Historia
Fabian Hoffman
 
Impresoras 3D
Impresoras 3DImpresoras 3D
Impresoras 3D
ohsxph
 
IMPRESORAS 3D
IMPRESORAS 3DIMPRESORAS 3D
IMPRESORAS 3D
CristinaFilgueiraL
 
Las impresoras 3 d y su uso en la
Las impresoras 3 d y su uso en laLas impresoras 3 d y su uso en la
Las impresoras 3 d y su uso en la
laloramos
 
Impresion 3 d
Impresion 3 dImpresion 3 d
Impresion 3 d
SofiaCasas7
 
Diapositiva de impresora 3d
Diapositiva de impresora 3dDiapositiva de impresora 3d
Diapositiva de impresora 3d
fernando santiago
 
Electrónica: Impresión 3D, una introducción
Electrónica: Impresión 3D, una introducciónElectrónica: Impresión 3D, una introducción
Electrónica: Impresión 3D, una introducción
SANTIAGO PABLO ALBERTO
 
F. Suarez. Escaneado e impresión 3D: Posibilidades, soluciones y tendencias. ...
F. Suarez. Escaneado e impresión 3D: Posibilidades, soluciones y tendencias. ...F. Suarez. Escaneado e impresión 3D: Posibilidades, soluciones y tendencias. ...
F. Suarez. Escaneado e impresión 3D: Posibilidades, soluciones y tendencias. ...
COIICV
 
Estudio de caso 1. la evolución de la tecnología.
Estudio de caso 1. la evolución de la tecnología.Estudio de caso 1. la evolución de la tecnología.
Estudio de caso 1. la evolución de la tecnología.
Sabela1995
 
Impresoras 3 d
Impresoras 3 dImpresoras 3 d
Impresoras 3 d
Juan Robles
 
Laboratorios de Impresión 3D
Laboratorios de Impresión 3DLaboratorios de Impresión 3D
Laboratorios de Impresión 3D
Ideas Disruptivas
 
Introductionto robotics a
Introductionto robotics aIntroductionto robotics a
Introductionto robotics a
Iftekhar Ali
 
Introduction to electropneumatic
Introduction to electropneumaticIntroduction to electropneumatic
Introduction to electropneumatic
Aditya Kurniawan
 

Weitere ähnliche Inhalte

Was ist angesagt?

Laboratorios de Impresión 3D
Laboratorios de Impresión 3DLaboratorios de Impresión 3D
Laboratorios de Impresión 3D
Ideas Disruptivas
 

Was ist angesagt? (20)

Impresión 3D
Impresión 3DImpresión 3D
Impresión 3D
 
Revolución 3D en educación, ideas, sueños y robótica imprimible
Revolución 3D en educación, ideas, sueños y robótica imprimibleRevolución 3D en educación, ideas, sueños y robótica imprimible
Revolución 3D en educación, ideas, sueños y robótica imprimible
 
Impresión 3D: Desktop Manufacturing
Impresión 3D: Desktop ManufacturingImpresión 3D: Desktop Manufacturing
Impresión 3D: Desktop Manufacturing
 
Impresión 3 d
Impresión 3 dImpresión 3 d
Impresión 3 d
 
IMPRESIÓN 3D
IMPRESIÓN 3DIMPRESIÓN 3D
IMPRESIÓN 3D
 
Reporte de noticia de Octubre
Reporte de noticia de OctubreReporte de noticia de Octubre
Reporte de noticia de Octubre
 
Noticia de octubre
Noticia de octubreNoticia de octubre
Noticia de octubre
 
IMPRESORAS 3D
IMPRESORAS 3DIMPRESORAS 3D
IMPRESORAS 3D
 
IEEE impresoras 3 d
IEEE impresoras 3 dIEEE impresoras 3 d
IEEE impresoras 3 d
 
Impresoras 3D en Argentina - Precios, Caraterísticas, Historia
Impresoras 3D en Argentina - Precios, Caraterísticas, HistoriaImpresoras 3D en Argentina - Precios, Caraterísticas, Historia
Impresoras 3D en Argentina - Precios, Caraterísticas, Historia
 
Impresoras 3D
Impresoras 3DImpresoras 3D
Impresoras 3D
 
IMPRESORAS 3D
IMPRESORAS 3DIMPRESORAS 3D
IMPRESORAS 3D
 
Las impresoras 3 d y su uso en la
Las impresoras 3 d y su uso en laLas impresoras 3 d y su uso en la
Las impresoras 3 d y su uso en la
 
Impresion 3 d
Impresion 3 dImpresion 3 d
Impresion 3 d
 
Diapositiva de impresora 3d
Diapositiva de impresora 3dDiapositiva de impresora 3d
Diapositiva de impresora 3d
 
Electrónica: Impresión 3D, una introducción
Electrónica: Impresión 3D, una introducciónElectrónica: Impresión 3D, una introducción
Electrónica: Impresión 3D, una introducción
 
F. Suarez. Escaneado e impresión 3D: Posibilidades, soluciones y tendencias. ...
F. Suarez. Escaneado e impresión 3D: Posibilidades, soluciones y tendencias. ...F. Suarez. Escaneado e impresión 3D: Posibilidades, soluciones y tendencias. ...
F. Suarez. Escaneado e impresión 3D: Posibilidades, soluciones y tendencias. ...
 
Estudio de caso 1. la evolución de la tecnología.
Estudio de caso 1. la evolución de la tecnología.Estudio de caso 1. la evolución de la tecnología.
Estudio de caso 1. la evolución de la tecnología.
 
Impresoras 3 d
Impresoras 3 dImpresoras 3 d
Impresoras 3 d
 
Laboratorios de Impresión 3D
Laboratorios de Impresión 3DLaboratorios de Impresión 3D
Laboratorios de Impresión 3D
 

Andere mochten auch

Introductionto robotics a
Introductionto robotics aIntroductionto robotics a
Introductionto robotics a
Iftekhar Ali
 
Introduction to electropneumatic
Introduction to electropneumaticIntroduction to electropneumatic
Introduction to electropneumatic
Aditya Kurniawan
 
Robotics technology
Robotics technologyRobotics technology
Robotics technology
kapil200
 
Motion Control of Differential Wheeled Robots with Joint Limit Constraints (S...
Motion Control of Differential Wheeled Robots with Joint Limit Constraints (S...Motion Control of Differential Wheeled Robots with Joint Limit Constraints (S...
Motion Control of Differential Wheeled Robots with Joint Limit Constraints (S...
obijuan_cube
 
David 1000 basta
David 1000 bastaDavid 1000 basta
David 1000 basta
Julio Gomez
 
PROF. RONALD ESTELA - FENCYT 2007 - CARRO ROBOT
PROF. RONALD ESTELA - FENCYT 2007 - CARRO ROBOTPROF. RONALD ESTELA - FENCYT 2007 - CARRO ROBOT
PROF. RONALD ESTELA - FENCYT 2007 - CARRO ROBOT
ronaldestelafencyt
 

Andere mochten auch (20)

Introductionto robotics a
Introductionto robotics aIntroductionto robotics a
Introductionto robotics a
 
Introduction to electropneumatic
Introduction to electropneumaticIntroduction to electropneumatic
Introduction to electropneumatic
 
Robotics technology
Robotics technologyRobotics technology
Robotics technology
 
Motion Control of Differential Wheeled Robots with Joint Limit Constraints (S...
Motion Control of Differential Wheeled Robots with Joint Limit Constraints (S...Motion Control of Differential Wheeled Robots with Joint Limit Constraints (S...
Motion Control of Differential Wheeled Robots with Joint Limit Constraints (S...
 
Vision Based Autonomous Mobile Robot Navigation
Vision Based Autonomous Mobile Robot NavigationVision Based Autonomous Mobile Robot Navigation
Vision Based Autonomous Mobile Robot Navigation
 
Introduction to locomotor
Introduction to locomotorIntroduction to locomotor
Introduction to locomotor
 
Introduction to Mobile Robotics
Introduction to Mobile RoboticsIntroduction to Mobile Robotics
Introduction to Mobile Robotics
 
COIED2_Robots na aula de Matemática
COIED2_Robots na aula de MatemáticaCOIED2_Robots na aula de Matemática
COIED2_Robots na aula de Matemática
 
Ist Ihr Marketing müde? Zeit für Lean und Inbound Marketing!
Ist Ihr Marketing müde? Zeit für Lean und Inbound Marketing!Ist Ihr Marketing müde? Zeit für Lean und Inbound Marketing!
Ist Ihr Marketing müde? Zeit für Lean und Inbound Marketing!
 
David 1000 basta
David 1000 bastaDavid 1000 basta
David 1000 basta
 
SEO für Studenten: Contentmanagement & so
SEO für Studenten: Contentmanagement & soSEO für Studenten: Contentmanagement & so
SEO für Studenten: Contentmanagement & so
 
sadsdasd
sadsdasdsadsdasd
sadsdasd
 
PROF. RONALD ESTELA - FENCYT 2007 - CARRO ROBOT
PROF. RONALD ESTELA - FENCYT 2007 - CARRO ROBOTPROF. RONALD ESTELA - FENCYT 2007 - CARRO ROBOT
PROF. RONALD ESTELA - FENCYT 2007 - CARRO ROBOT
 
Curso básico de SEO
Curso básico de SEOCurso básico de SEO
Curso básico de SEO
 
Sibrape Robot XT5 e XT7 Sibrape
Sibrape Robot XT5 e XT7 SibrapeSibrape Robot XT5 e XT7 Sibrape
Sibrape Robot XT5 e XT7 Sibrape
 
Robots
RobotsRobots
Robots
 
Robotica
RoboticaRobotica
Robotica
 
Nxt
NxtNxt
Nxt
 
Robot-Performance
Robot-PerformanceRobot-Performance
Robot-Performance
 
-getrieben. Wer treibt eigentlich die Test-Entwicklung?
-getrieben. Wer treibt eigentlich die Test-Entwicklung?-getrieben. Wer treibt eigentlich die Test-Entwicklung?
-getrieben. Wer treibt eigentlich die Test-Entwicklung?
 

Ähnlich wie Latinoware: Robots libres e Imprimibles

PrintBots: Robots libres e imprimibles. Cybertech 2012
PrintBots: Robots libres e imprimibles. Cybertech 2012PrintBots: Robots libres e imprimibles. Cybertech 2012
PrintBots: Robots libres e imprimibles. Cybertech 2012
obijuan_cube
 
Taller -evaluacion
Taller -evaluacionTaller -evaluacion
Taller -evaluacion
Flakito Xd
 
Publicaciones de el comercio
Publicaciones de el comercioPublicaciones de el comercio
Publicaciones de el comercio
cabo45
 
CROL - Proyecto CoDiCe TIC Robótica Arduino.pdf
CROL - Proyecto CoDiCe TIC Robótica Arduino.pdfCROL - Proyecto CoDiCe TIC Robótica Arduino.pdf
CROL - Proyecto CoDiCe TIC Robótica Arduino.pdf
Edwin4321
 
Introduccion a la robotica educativa
Introduccion a la robotica educativaIntroduccion a la robotica educativa
Introduccion a la robotica educativa
Helman Pinto
 

Ähnlich wie Latinoware: Robots libres e Imprimibles (20)

Robots libres e Imprimibles
Robots libres e ImprimiblesRobots libres e Imprimibles
Robots libres e Imprimibles
 
PrintBots: Robots libres e imprimibles. Cybertech 2012
PrintBots: Robots libres e imprimibles. Cybertech 2012PrintBots: Robots libres e imprimibles. Cybertech 2012
PrintBots: Robots libres e imprimibles. Cybertech 2012
 
PrintBots: Robots libres e imprimibles. Málaga 2012
PrintBots: Robots libres e imprimibles. Málaga 2012PrintBots: Robots libres e imprimibles. Málaga 2012
PrintBots: Robots libres e imprimibles. Málaga 2012
 
BQ: Construyendo nuevas herramientas para emprender, por Adán Muñoz, cofundad...
BQ: Construyendo nuevas herramientas para emprender, por Adán Muñoz, cofundad...BQ: Construyendo nuevas herramientas para emprender, por Adán Muñoz, cofundad...
BQ: Construyendo nuevas herramientas para emprender, por Adán Muñoz, cofundad...
 
Sesión 01 NXT
Sesión 01 NXTSesión 01 NXT
Sesión 01 NXT
 
Taller NXT(2) Sesión 001
Taller NXT(2) Sesión 001Taller NXT(2) Sesión 001
Taller NXT(2) Sesión 001
 
Tic 2016
Tic 2016Tic 2016
Tic 2016
 
Taller -evaluacion
Taller -evaluacionTaller -evaluacion
Taller -evaluacion
 
Publicaciones de el comercio
Publicaciones de el comercioPublicaciones de el comercio
Publicaciones de el comercio
 
Tecnologías 4.0 en la educación
Tecnologías 4.0 en la educaciónTecnologías 4.0 en la educación
Tecnologías 4.0 en la educación
 
Proyecto
ProyectoProyecto
Proyecto
 
Alambres musculares
Alambres muscularesAlambres musculares
Alambres musculares
 
Arquitectura examem
Arquitectura examemArquitectura examem
Arquitectura examem
 
CROL - Proyecto CoDiCe TIC Robótica Arduino.pdf
CROL - Proyecto CoDiCe TIC Robótica Arduino.pdfCROL - Proyecto CoDiCe TIC Robótica Arduino.pdf
CROL - Proyecto CoDiCe TIC Robótica Arduino.pdf
 
Pfonseca robotica virtual (1)
Pfonseca robotica virtual (1)Pfonseca robotica virtual (1)
Pfonseca robotica virtual (1)
 
Robotica de carlo carucci boscariol
Robotica de carlo carucci boscariolRobotica de carlo carucci boscariol
Robotica de carlo carucci boscariol
 
Introduccion a la robotica educativa
Introduccion a la robotica educativaIntroduccion a la robotica educativa
Introduccion a la robotica educativa
 
Introduccion a la robotica educativa
Introduccion a la robotica educativaIntroduccion a la robotica educativa
Introduccion a la robotica educativa
 
T-ESPE-018549-D.pptx
T-ESPE-018549-D.pptxT-ESPE-018549-D.pptx
T-ESPE-018549-D.pptx
 
Informatica Sociedad
Informatica SociedadInformatica Sociedad
Informatica Sociedad
 

Mehr von obijuan_cube

Electrónica digital para todos con FPGAs libres
Electrónica digital para todos con FPGAs libresElectrónica digital para todos con FPGAs libres
Electrónica digital para todos con FPGAs libres
obijuan_cube
 
Electrónica digital para todos con FPGAs libres
Electrónica digital para todos con FPGAs libresElectrónica digital para todos con FPGAs libres
Electrónica digital para todos con FPGAs libres
obijuan_cube
 
2017 05-20-murcia-meetup-day-elec-dig-para-todos-con-fpg as-libres
2017 05-20-murcia-meetup-day-elec-dig-para-todos-con-fpg as-libres2017 05-20-murcia-meetup-day-elec-dig-para-todos-con-fpg as-libres
2017 05-20-murcia-meetup-day-elec-dig-para-todos-con-fpg as-libres
obijuan_cube
 
2017 05-05-peac-elec-dig-divertida-con-fpg as-libres
2017 05-05-peac-elec-dig-divertida-con-fpg as-libres2017 05-05-peac-elec-dig-divertida-con-fpg as-libres
2017 05-05-peac-elec-dig-divertida-con-fpg as-libres
obijuan_cube
 
Electrónica digital divertica con FPGAs Libres. Malakabot 2017
Electrónica digital divertica con FPGAs Libres. Malakabot 2017Electrónica digital divertica con FPGAs Libres. Malakabot 2017
Electrónica digital divertica con FPGAs Libres. Malakabot 2017
obijuan_cube
 
Diseño Hardware con FPGAs Libres
Diseño Hardware con FPGAs LibresDiseño Hardware con FPGAs Libres
Diseño Hardware con FPGAs Libres
obijuan_cube
 
Electrónica digital divertica con FPGAs Libres
Electrónica digital divertica con FPGAs LibresElectrónica digital divertica con FPGAs Libres
Electrónica digital divertica con FPGAs Libres
obijuan_cube
 

Mehr von obijuan_cube (17)

Electrónica digital para todos con FPGAs libres
Electrónica digital para todos con FPGAs libresElectrónica digital para todos con FPGAs libres
Electrónica digital para todos con FPGAs libres
 
Electrónica digital para todos con FPGAs libres
Electrónica digital para todos con FPGAs libresElectrónica digital para todos con FPGAs libres
Electrónica digital para todos con FPGAs libres
 
Nosotros compartimos
Nosotros compartimosNosotros compartimos
Nosotros compartimos
 
2017 05-20-murcia-meetup-day-elec-dig-para-todos-con-fpg as-libres
2017 05-20-murcia-meetup-day-elec-dig-para-todos-con-fpg as-libres2017 05-20-murcia-meetup-day-elec-dig-para-todos-con-fpg as-libres
2017 05-20-murcia-meetup-day-elec-dig-para-todos-con-fpg as-libres
 
2017 05-05-peac-elec-dig-divertida-con-fpg as-libres
2017 05-05-peac-elec-dig-divertida-con-fpg as-libres2017 05-05-peac-elec-dig-divertida-con-fpg as-libres
2017 05-05-peac-elec-dig-divertida-con-fpg as-libres
 
Electrónica digital divertica con FPGAs Libres. Malakabot 2017
Electrónica digital divertica con FPGAs Libres. Malakabot 2017Electrónica digital divertica con FPGAs Libres. Malakabot 2017
Electrónica digital divertica con FPGAs Libres. Malakabot 2017
 
Diseño Hardware con FPGAs Libres
Diseño Hardware con FPGAs LibresDiseño Hardware con FPGAs Libres
Diseño Hardware con FPGAs Libres
 
Electrónica digital divertica con FPGAs Libres
Electrónica digital divertica con FPGAs LibresElectrónica digital divertica con FPGAs Libres
Electrónica digital divertica con FPGAs Libres
 
2016 12-10-ourense-makerslab-fpgas-libres
2016 12-10-ourense-makerslab-fpgas-libres2016 12-10-ourense-makerslab-fpgas-libres
2016 12-10-ourense-makerslab-fpgas-libres
 
2016 11-18-maker-faire-bilbao-fpgas-libres
2016 11-18-maker-faire-bilbao-fpgas-libres2016 11-18-maker-faire-bilbao-fpgas-libres
2016 11-18-maker-faire-bilbao-fpgas-libres
 
2016 11-09-urjc-fpgas-libres
2016 11-09-urjc-fpgas-libres2016 11-09-urjc-fpgas-libres
2016 11-09-urjc-fpgas-libres
 
2016 11-05-osh wdem16-fpgas-libres
2016 11-05-osh wdem16-fpgas-libres2016 11-05-osh wdem16-fpgas-libres
2016 11-05-osh wdem16-fpgas-libres
 
FPGAs libres. UC3M-El-Evento. 2016-10-24
FPGAs libres. UC3M-El-Evento. 2016-10-24FPGAs libres. UC3M-El-Evento. 2016-10-24
FPGAs libres. UC3M-El-Evento. 2016-10-24
 
2016 09-24-mini-maker-faire-madrid
2016 09-24-mini-maker-faire-madrid2016 09-24-mini-maker-faire-madrid
2016 09-24-mini-maker-faire-madrid
 
FPGAs libres
FPGAs libresFPGAs libres
FPGAs libres
 
Let's build modular robots!
Let's build modular robots!Let's build modular robots!
Let's build modular robots!
 
IMPRESORAS 3D OPEN-SOURCE: Orígenes y evolución
IMPRESORAS 3D OPEN-SOURCE: Orígenes y evoluciónIMPRESORAS 3D OPEN-SOURCE: Orígenes y evolución
IMPRESORAS 3D OPEN-SOURCE: Orígenes y evolución
 

Latinoware: Robots libres e Imprimibles

Hinweis der Redaktion

  1. Thanks Prof. Matellan. I am going to start the presentation of my Dissertation which is about the Locomotion of Limbless Modular robots
  2. This presentation is divided into 7 parts. First I will introduce the Locomotion problem and the objectives of the dissertation. Second, I will explain the general classification for all the modular robots. Then I will present the central ideas of the dissertation: Locomotion of limbless robots in 1D, 2D and the locomotion of the minimal configurations. Then I will describe some experiments and we will see some videos and simulations. Finally, the conclusions and future work are summarized.
  3. This presentation is divided into 7 parts. First I will introduce the Locomotion problem and the objectives of the dissertation. Second, I will explain the general classification for all the modular robots. Then I will present the central ideas of the dissertation: Locomotion of limbless robots in 1D, 2D and the locomotion of the minimal configurations. Then I will describe some experiments and we will see some videos and simulations. Finally, the conclusions and future work are summarized.
  4. A big challenge in robotics is the development of a very versatile mobile robot capable of moving on different terrains. As a first approach, the study of locomotion of the mobile robots can be divided into two big leves. The higher level involves the perception of the environment, planning trajectories, navigation and making decisions. The lower level is in charge of the control and coordination of the joints in order to move the robot a step in any direction. This Locomotion lower level is the scope of the dissertation
  5. A big challenge in robotics is the development of a very versatile mobile robot capable of moving on different terrains. As a first approach, the study of locomotion of the mobile robots can be divided into two big leves. The higher level involves the perception of the environment, planning trajectories, navigation and making decisions. The lower level is in charge of the control and coordination of the joints in order to move the robot a step in any direction. This Locomotion lower level is the scope of the dissertation
  6. A big challenge in robotics is the development of a very versatile mobile robot capable of moving on different terrains. As a first approach, the study of locomotion of the mobile robots can be divided into two big leves. The higher level involves the perception of the environment, planning trajectories, navigation and making decisions. The lower level is in charge of the control and coordination of the joints in order to move the robot a step in any direction. This Locomotion lower level is the scope of the dissertation
  7. A big challenge in robotics is the development of a very versatile mobile robot capable of moving on different terrains. As a first approach, the study of locomotion of the mobile robots can be divided into two big leves. The higher level involves the perception of the environment, planning trajectories, navigation and making decisions. The lower level is in charge of the control and coordination of the joints in order to move the robot a step in any direction. This Locomotion lower level is the scope of the dissertation
  8. A big challenge in robotics is the development of a very versatile mobile robot capable of moving on different terrains. As a first approach, the study of locomotion of the mobile robots can be divided into two big leves. The higher level involves the perception of the environment, planning trajectories, navigation and making decisions. The lower level is in charge of the control and coordination of the joints in order to move the robot a step in any direction. This Locomotion lower level is the scope of the dissertation
  9. A big challenge in robotics is the development of a very versatile mobile robot capable of moving on different terrains. As a first approach, the study of locomotion of the mobile robots can be divided into two big leves. The higher level involves the perception of the environment, planning trajectories, navigation and making decisions. The lower level is in charge of the control and coordination of the joints in order to move the robot a step in any direction. This Locomotion lower level is the scope of the dissertation
  10. A big challenge in robotics is the development of a very versatile mobile robot capable of moving on different terrains. As a first approach, the study of locomotion of the mobile robots can be divided into two big leves. The higher level involves the perception of the environment, planning trajectories, navigation and making decisions. The lower level is in charge of the control and coordination of the joints in order to move the robot a step in any direction. This Locomotion lower level is the scope of the dissertation
  11. A big challenge in robotics is the development of a very versatile mobile robot capable of moving on different terrains. As a first approach, the study of locomotion of the mobile robots can be divided into two big leves. The higher level involves the perception of the environment, planning trajectories, navigation and making decisions. The lower level is in charge of the control and coordination of the joints in order to move the robot a step in any direction. This Locomotion lower level is the scope of the dissertation
  12. A big challenge in robotics is the development of a very versatile mobile robot capable of moving on different terrains. As a first approach, the study of locomotion of the mobile robots can be divided into two big leves. The higher level involves the perception of the environment, planning trajectories, navigation and making decisions. The lower level is in charge of the control and coordination of the joints in order to move the robot a step in any direction. This Locomotion lower level is the scope of the dissertation
  13. A big challenge in robotics is the development of a very versatile mobile robot capable of moving on different terrains. As a first approach, the study of locomotion of the mobile robots can be divided into two big leves. The higher level involves the perception of the environment, planning trajectories, navigation and making decisions. The lower level is in charge of the control and coordination of the joints in order to move the robot a step in any direction. This Locomotion lower level is the scope of the dissertation
  14. A big challenge in robotics is the development of a very versatile mobile robot capable of moving on different terrains. As a first approach, the study of locomotion of the mobile robots can be divided into two big leves. The higher level involves the perception of the environment, planning trajectories, navigation and making decisions. The lower level is in charge of the control and coordination of the joints in order to move the robot a step in any direction. This Locomotion lower level is the scope of the dissertation
  15. A big challenge in robotics is the development of a very versatile mobile robot capable of moving on different terrains. As a first approach, the study of locomotion of the mobile robots can be divided into two big leves. The higher level involves the perception of the environment, planning trajectories, navigation and making decisions. The lower level is in charge of the control and coordination of the joints in order to move the robot a step in any direction. This Locomotion lower level is the scope of the dissertation
  16. This presentation is divided into 7 parts. First I will introduce the Locomotion problem and the objectives of the dissertation. Second, I will explain the general classification for all the modular robots. Then I will present the central ideas of the dissertation: Locomotion of limbless robots in 1D, 2D and the locomotion of the minimal configurations. Then I will describe some experiments and we will see some videos and simulations. Finally, the conclusions and future work are summarized.
  17. A big challenge in robotics is the development of a very versatile mobile robot capable of moving on different terrains. As a first approach, the study of locomotion of the mobile robots can be divided into two big leves. The higher level involves the perception of the environment, planning trajectories, navigation and making decisions. The lower level is in charge of the control and coordination of the joints in order to move the robot a step in any direction. This Locomotion lower level is the scope of the dissertation
  18. A big challenge in robotics is the development of a very versatile mobile robot capable of moving on different terrains. As a first approach, the study of locomotion of the mobile robots can be divided into two big leves. The higher level involves the perception of the environment, planning trajectories, navigation and making decisions. The lower level is in charge of the control and coordination of the joints in order to move the robot a step in any direction. This Locomotion lower level is the scope of the dissertation
  19. A big challenge in robotics is the development of a very versatile mobile robot capable of moving on different terrains. As a first approach, the study of locomotion of the mobile robots can be divided into two big leves. The higher level involves the perception of the environment, planning trajectories, navigation and making decisions. The lower level is in charge of the control and coordination of the joints in order to move the robot a step in any direction. This Locomotion lower level is the scope of the dissertation
  20. A big challenge in robotics is the development of a very versatile mobile robot capable of moving on different terrains. As a first approach, the study of locomotion of the mobile robots can be divided into two big leves. The higher level involves the perception of the environment, planning trajectories, navigation and making decisions. The lower level is in charge of the control and coordination of the joints in order to move the robot a step in any direction. This Locomotion lower level is the scope of the dissertation
  21. A big challenge in robotics is the development of a very versatile mobile robot capable of moving on different terrains. As a first approach, the study of locomotion of the mobile robots can be divided into two big leves. The higher level involves the perception of the environment, planning trajectories, navigation and making decisions. The lower level is in charge of the control and coordination of the joints in order to move the robot a step in any direction. This Locomotion lower level is the scope of the dissertation
  22. A big challenge in robotics is the development of a very versatile mobile robot capable of moving on different terrains. As a first approach, the study of locomotion of the mobile robots can be divided into two big leves. The higher level involves the perception of the environment, planning trajectories, navigation and making decisions. The lower level is in charge of the control and coordination of the joints in order to move the robot a step in any direction. This Locomotion lower level is the scope of the dissertation
  23. A big challenge in robotics is the development of a very versatile mobile robot capable of moving on different terrains. As a first approach, the study of locomotion of the mobile robots can be divided into two big leves. The higher level involves the perception of the environment, planning trajectories, navigation and making decisions. The lower level is in charge of the control and coordination of the joints in order to move the robot a step in any direction. This Locomotion lower level is the scope of the dissertation
  24. A big challenge in robotics is the development of a very versatile mobile robot capable of moving on different terrains. As a first approach, the study of locomotion of the mobile robots can be divided into two big leves. The higher level involves the perception of the environment, planning trajectories, navigation and making decisions. The lower level is in charge of the control and coordination of the joints in order to move the robot a step in any direction. This Locomotion lower level is the scope of the dissertation
  25. A big challenge in robotics is the development of a very versatile mobile robot capable of moving on different terrains. As a first approach, the study of locomotion of the mobile robots can be divided into two big leves. The higher level involves the perception of the environment, planning trajectories, navigation and making decisions. The lower level is in charge of the control and coordination of the joints in order to move the robot a step in any direction. This Locomotion lower level is the scope of the dissertation
  26. A big challenge in robotics is the development of a very versatile mobile robot capable of moving on different terrains. As a first approach, the study of locomotion of the mobile robots can be divided into two big leves. The higher level involves the perception of the environment, planning trajectories, navigation and making decisions. The lower level is in charge of the control and coordination of the joints in order to move the robot a step in any direction. This Locomotion lower level is the scope of the dissertation
  27. This presentation is divided into 7 parts. First I will introduce the Locomotion problem and the objectives of the dissertation. Second, I will explain the general classification for all the modular robots. Then I will present the central ideas of the dissertation: Locomotion of limbless robots in 1D, 2D and the locomotion of the minimal configurations. Then I will describe some experiments and we will see some videos and simulations. Finally, the conclusions and future work are summarized.
  28. A big challenge in robotics is the development of a very versatile mobile robot capable of moving on different terrains. As a first approach, the study of locomotion of the mobile robots can be divided into two big leves. The higher level involves the perception of the environment, planning trajectories, navigation and making decisions. The lower level is in charge of the control and coordination of the joints in order to move the robot a step in any direction. This Locomotion lower level is the scope of the dissertation
  29. A big challenge in robotics is the development of a very versatile mobile robot capable of moving on different terrains. As a first approach, the study of locomotion of the mobile robots can be divided into two big leves. The higher level involves the perception of the environment, planning trajectories, navigation and making decisions. The lower level is in charge of the control and coordination of the joints in order to move the robot a step in any direction. This Locomotion lower level is the scope of the dissertation
  30. A big challenge in robotics is the development of a very versatile mobile robot capable of moving on different terrains. As a first approach, the study of locomotion of the mobile robots can be divided into two big leves. The higher level involves the perception of the environment, planning trajectories, navigation and making decisions. The lower level is in charge of the control and coordination of the joints in order to move the robot a step in any direction. This Locomotion lower level is the scope of the dissertation
  31. A big challenge in robotics is the development of a very versatile mobile robot capable of moving on different terrains. As a first approach, the study of locomotion of the mobile robots can be divided into two big leves. The higher level involves the perception of the environment, planning trajectories, navigation and making decisions. The lower level is in charge of the control and coordination of the joints in order to move the robot a step in any direction. This Locomotion lower level is the scope of the dissertation
  32. A big challenge in robotics is the development of a very versatile mobile robot capable of moving on different terrains. As a first approach, the study of locomotion of the mobile robots can be divided into two big leves. The higher level involves the perception of the environment, planning trajectories, navigation and making decisions. The lower level is in charge of the control and coordination of the joints in order to move the robot a step in any direction. This Locomotion lower level is the scope of the dissertation
  33. A big challenge in robotics is the development of a very versatile mobile robot capable of moving on different terrains. As a first approach, the study of locomotion of the mobile robots can be divided into two big leves. The higher level involves the perception of the environment, planning trajectories, navigation and making decisions. The lower level is in charge of the control and coordination of the joints in order to move the robot a step in any direction. This Locomotion lower level is the scope of the dissertation
  34. A big challenge in robotics is the development of a very versatile mobile robot capable of moving on different terrains. As a first approach, the study of locomotion of the mobile robots can be divided into two big leves. The higher level involves the perception of the environment, planning trajectories, navigation and making decisions. The lower level is in charge of the control and coordination of the joints in order to move the robot a step in any direction. This Locomotion lower level is the scope of the dissertation
  35. This presentation is divided into 7 parts. First I will introduce the Locomotion problem and the objectives of the dissertation. Second, I will explain the general classification for all the modular robots. Then I will present the central ideas of the dissertation: Locomotion of limbless robots in 1D, 2D and the locomotion of the minimal configurations. Then I will describe some experiments and we will see some videos and simulations. Finally, the conclusions and future work are summarized.
  36. A big challenge in robotics is the development of a very versatile mobile robot capable of moving on different terrains. As a first approach, the study of locomotion of the mobile robots can be divided into two big leves. The higher level involves the perception of the environment, planning trajectories, navigation and making decisions. The lower level is in charge of the control and coordination of the joints in order to move the robot a step in any direction. This Locomotion lower level is the scope of the dissertation
  37. A big challenge in robotics is the development of a very versatile mobile robot capable of moving on different terrains. As a first approach, the study of locomotion of the mobile robots can be divided into two big leves. The higher level involves the perception of the environment, planning trajectories, navigation and making decisions. The lower level is in charge of the control and coordination of the joints in order to move the robot a step in any direction. This Locomotion lower level is the scope of the dissertation
  38. A big challenge in robotics is the development of a very versatile mobile robot capable of moving on different terrains. As a first approach, the study of locomotion of the mobile robots can be divided into two big leves. The higher level involves the perception of the environment, planning trajectories, navigation and making decisions. The lower level is in charge of the control and coordination of the joints in order to move the robot a step in any direction. This Locomotion lower level is the scope of the dissertation
  39. A big challenge in robotics is the development of a very versatile mobile robot capable of moving on different terrains. As a first approach, the study of locomotion of the mobile robots can be divided into two big leves. The higher level involves the perception of the environment, planning trajectories, navigation and making decisions. The lower level is in charge of the control and coordination of the joints in order to move the robot a step in any direction. This Locomotion lower level is the scope of the dissertation
  40. A big challenge in robotics is the development of a very versatile mobile robot capable of moving on different terrains. As a first approach, the study of locomotion of the mobile robots can be divided into two big leves. The higher level involves the perception of the environment, planning trajectories, navigation and making decisions. The lower level is in charge of the control and coordination of the joints in order to move the robot a step in any direction. This Locomotion lower level is the scope of the dissertation
  41. A big challenge in robotics is the development of a very versatile mobile robot capable of moving on different terrains. As a first approach, the study of locomotion of the mobile robots can be divided into two big leves. The higher level involves the perception of the environment, planning trajectories, navigation and making decisions. The lower level is in charge of the control and coordination of the joints in order to move the robot a step in any direction. This Locomotion lower level is the scope of the dissertation
  42. A big challenge in robotics is the development of a very versatile mobile robot capable of moving on different terrains. As a first approach, the study of locomotion of the mobile robots can be divided into two big leves. The higher level involves the perception of the environment, planning trajectories, navigation and making decisions. The lower level is in charge of the control and coordination of the joints in order to move the robot a step in any direction. This Locomotion lower level is the scope of the dissertation
  43. A big challenge in robotics is the development of a very versatile mobile robot capable of moving on different terrains. As a first approach, the study of locomotion of the mobile robots can be divided into two big leves. The higher level involves the perception of the environment, planning trajectories, navigation and making decisions. The lower level is in charge of the control and coordination of the joints in order to move the robot a step in any direction. This Locomotion lower level is the scope of the dissertation
  44. Thanks Prof. Matellan. I am going to start the presentation of my Dissertation which is about the Locomotion of Limbless Modular robots