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Autonomous mobile robot platform with multi-variant task-specific end-effector and voice activation

conference contribution
posted on 2016-10-04, 00:00 authored by J Tapia, E Wineman, P Benavidez, A Jaimes, E Cobb, J Parsi, D Clifton, M Jamshidi, Benjamin ChampionBenjamin Champion
The purpose of the paper is to demonstrate how 3D printing can be used to aid in the construction, design and implementation of an autonomous robot to accomplish a variety of tasks. A robot is designed using Polylactic acid (PLA) that has 3 modes: remote control, autonomous, and voice activation. Using these modes the robot is able to accomplish two specific tasks based on the given end-effector. The two tasks are to open a valve and to pick up an object. In addition analysis on how 3D printing can aid educational use and high risk situations will be presented.

History

Volume

2016-October

Pagination

1-6

Location

Rio Grande, Puerto Rico

Start date

2016-07-31

End date

2016-08-04

ISSN

2154-4824

eISSN

2154-4832

ISBN-13

9781889335513

Language

eng

Publication classification

E Conference publication, E1 Full written paper - refereed

Copyright notice

[2016, IEEE]

Title of proceedings

WAC 2016 : Machine Learning, Autonomous Vehicle Modeling and Control : Proceedings of the 2016 World Automation Congress

Event

World Automation Congress (2016 : Rio Grande, Puerto Rico)

Publisher

IEEE

Place of publication

Piscataway, N.J.

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    Research Publications

    Categories

    Keywords

    polylactic acid (PLA)acrylonitrie butadiene styrene (ABS)mecanum wheelsolid worksvoice recognitionfused filament fabrication (FFF)3D printingSchool of Engineering4007 Control engineering, mechatronics and robotics4017 Mechanical engineering

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    All Rights Reserved

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