2013
DOI: 10.1007/s11633-013-0738-5
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Learning Robotic Hand-eye Coordination Through a Developmental Constraint Driven Approach

Abstract: Abstract:The skill of robotic hand-eye coordination not only helps robots to deal with real time environment, but also affects the fundamental framework of robotic cognition. A number of approaches have been developed in the literature for construction of the robotic hand-eye coordination. However, several important features within infant developmental procedure have not been introduced into such approaches. This paper proposes a new method for robotic hand-eye coordination by imitating the developmental progr… Show more

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Cited by 14 publications
(13 citation statements)
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“…Because artificial neural networks contain excellent non-linear approximation ability, the robotic hand-eye mappings used various types of artificial neural networks [37]. For example, a double neural network structure mimicking the working loops between the basal ganglia and cerebra was adopted to create a robot system, which can handle reaching movements by using long and short movements [9].…”
Section: Constructive Neural Network For Incremental Learningmentioning
confidence: 99%
See 2 more Smart Citations
“…Because artificial neural networks contain excellent non-linear approximation ability, the robotic hand-eye mappings used various types of artificial neural networks [37]. For example, a double neural network structure mimicking the working loops between the basal ganglia and cerebra was adopted to create a robot system, which can handle reaching movements by using long and short movements [9].…”
Section: Constructive Neural Network For Incremental Learningmentioning
confidence: 99%
“…Robotic hand-eye coordination, or reaching ability, regarded as a basic cooperation of robotic eyes and hands/arms, is implemented by two radically different methods: (1) the mathematical approach, which employs forward or inverse kinematics [8]; and (2) the learning approach [9], which uses mainly artificial neural networks. The mathematical approach is especially suitable for static or industrial environments (see [10]); however, the learning approach brings more self-adaptive properties to robots.…”
Section: Introductionmentioning
confidence: 99%
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“…All above mentioned basis function models were trained using two step complex training phases: learning of number of basis function neurons their RFs sizes and peak locations; learning of connection weights between the basis function neurons and the output neurons. For number of basis function neurons, RFs sizes and locations optimization: [23] used orthogonal least square algorithm, [18][19][20] used simplified node-decoupled extended Kalman filter algorithm, in [13,14,17,24] basis function units with fixed RFs size and defined locations were used. To learn the network connection weights: [17] used least-mean-square (LMS) gradient descent learning technique, in [23] linear least square (LLS) algorithm was used, in [18][19][20] simplified node-decouple extended Kalman filter (SDEKF) algorithm was employed, [14] used delta rule gradient descent technique, [13] used recursive least square (RLS) algorithm and in [24] extended Kalman filter was used.…”
Section: Introductionmentioning
confidence: 99%
“…Moreover, little work has been done on 3-D eye-head-arm coordination using basis function networks. Some methods have applied basis function networks to perform only the direct visuo-motor transformation [18,23,24]. Other work [13,14,17] has used basis function networks to implement bi-directional visuo-motor trans-formations, however to do so separate networks for direct and inverse transformations were required.…”
Section: Introductionmentioning
confidence: 99%