Data‐Driven Kinematic Control for Robotic Spatial Augmented Reality System with Loose Kinematic Specifications

We propose a data‐driven kinematic control method for a robotic spatial augmented reality (RSAR) system. We assume a scenario where a robotic device and a projector‐camera unit (PCU) are assembled in an ad hoc manner with loose kinematic specifications, which hinders the application of a conventiona...

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Vydané v:ETRI journal Ročník 38; číslo 2; s. 337 - 346
Hlavní autori: Lee, Ahyun, Lee, Joo‐Haeng, Kim, Jaehong
Médium: Journal Article
Jazyk:English
Vydavateľské údaje: Electronics and Telecommunications Research Institute (ETRI) 01.04.2016
한국전자통신연구원
Predmet:
B‐spline surface fitting
data‐driven control
real‐time systems
Robot kinematics
spatial augmented reality
전자/정보통신공학
ISSN:1225-6463, 2233-7326
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Popis
Shrnutí:We propose a data‐driven kinematic control method for a robotic spatial augmented reality (RSAR) system. We assume a scenario where a robotic device and a projector‐camera unit (PCU) are assembled in an ad hoc manner with loose kinematic specifications, which hinders the application of a conventional kinematic control method based on the exact link and joint specifications. In the proposed method, the kinematic relation between a PCU and joints is represented as a set of B‐spline surfaces based on sample data rather than analytic or differential equations. The sampling process, which automatically records the values of joint angles and the corresponding external parameters of a PCU, is performed as an off‐line process when an RSAR system is installed. In an on‐line process, an external parameter of a PCU at a certain joint configuration, which is directly readable from motors, can be computed by evaluating the pre‐built B‐spline surfaces. We provide details of the proposed method and validate the model through a comparison with an analytic RSAR model with synthetic noises to simulate assembly errors.
Bibliografia:jhkim504@etri.re.kr
are with the SW & Content Research Laboratory, ETRI, Daejeon, Rep. of Korea.
azsure@etri.re.kr
and Jaehong Kim
This work was supported by the MOTIE under the Robot R & D Program supervised by the KEIT, Rep. of Korea (10048920, Development of Modular Manipulation System Capable of Self‐Reconfiguration of Control and Recognition System for Expansion of Robot Applicability).
Ahyun Lee
Joo‐Haeng Lee (corresponding author
joohaeng@etri.re.kr
http://etrij.etri.re.kr/etrij/journal/article/article.do?volume=38&issue=2&page=337
G704-001110.2016.38.2.007
ISSN:1225-6463
2233-7326
DOI:10.4218/etrij.16.0115.0610