Add to ORKGThe objective of this research is to implement an autonomous learning approach to robotic hand-eye coordination ability, so as to bring higher adaptive ability to robots in the practical environment. The approach is inspired by human infant's developmental procedure, a brain-like computational structure is constructed to simulate human brain cortices of controlling hand-eye coordination; and then, a behavioral pattern is adopted from infant development when forming handeye coordination. The combination of the computational structure and the behavioral pattern is applied to building a novel robotic hand-eye coordination learning algorithm. This work is supported by experimental evaluation, which shows that this approach is able to drive the ...
In this paper we describe a biologically constrained architecture for developmental learning of eye–...
In this paper we describe a biologically constrained architecture for developmental learning of eye–...
Advanced autonomous artificial systems will need incremental learning and adaptive abilities similar...
distribution, and reproduction in any medium, provided the original work is properly cited. Abstract...
Conference Name:2012 12th International Conference on Control, Automation, Robotics and Vision, ICAR...
This paper presents a novel developmental learning approach for hand-eye coordination in an autonomo...
This paper presents a novel developmental learning approach for hand-eye coordination in an autonomo...
This paper presents a developmental learning approach for eye-hand coordination in autonomous roboti...
This paper presents a developmental learning approach for eye-hand coordination in autonomous roboti...
Understanding the mechanism mediating the change from inaccurate pre-reaching to accurate reaching i...
Understanding the mechanism mediating the change from inaccurate pre-reaching to accurate reaching i...
From infants to adults, each individual undergoes changes both physically and mentally through inter...
From infants to adults, each individual undergoes changes both physically and mentally through inter...
Robotic hand-eye coordination is recognized as an important skill to deal with complex real environm...
Robotic hand-eye coordination is recognized as an important skill to deal with complex real environm...
In this paper we describe a biologically constrained architecture for developmental learning of eye–...
In this paper we describe a biologically constrained architecture for developmental learning of eye–...
Advanced autonomous artificial systems will need incremental learning and adaptive abilities similar...
distribution, and reproduction in any medium, provided the original work is properly cited. Abstract...
Conference Name:2012 12th International Conference on Control, Automation, Robotics and Vision, ICAR...
This paper presents a novel developmental learning approach for hand-eye coordination in an autonomo...
This paper presents a novel developmental learning approach for hand-eye coordination in an autonomo...
This paper presents a developmental learning approach for eye-hand coordination in autonomous roboti...
This paper presents a developmental learning approach for eye-hand coordination in autonomous roboti...
Understanding the mechanism mediating the change from inaccurate pre-reaching to accurate reaching i...
Understanding the mechanism mediating the change from inaccurate pre-reaching to accurate reaching i...
From infants to adults, each individual undergoes changes both physically and mentally through inter...
From infants to adults, each individual undergoes changes both physically and mentally through inter...
Robotic hand-eye coordination is recognized as an important skill to deal with complex real environm...
Robotic hand-eye coordination is recognized as an important skill to deal with complex real environm...
In this paper we describe a biologically constrained architecture for developmental learning of eye–...
In this paper we describe a biologically constrained architecture for developmental learning of eye–...
Advanced autonomous artificial systems will need incremental learning and adaptive abilities similar...