Multimodal joint attention through cross facilitative learning based on μX principle

2008 7th IEEE International Conference on Development and Learning Pub Date : 2008-10-10 DOI:10.1109/DEVLRN.2008.4640834

Y. Yoshikawa, T. Nakano, M. Asada, H. Ishiguro

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引用次数: 16

Abstract

Simultaneous learning of multiple functions is one of the fundamental issues not only to design intelligent robots but also to understand humanpsilas cognitive developmental process since we, human, do so in our daily lives but we do not know how to do. Drawing an analogy to the well-known bias in child language development, we propose the mutual exclusivity selection principle (muX principle) for learning multi-modal mappings: selecting more mutually exclusive output leads experiences to make underdeveloped complementary mappings more disambiguated. The muX principle is applied to multi-modal joint attention with utterances for lexicon acquisition, and synthetically modeled in both intra- and inter-module levels of output. Through the series of computer simulations, the effects of the muX principle on the mutual facilitation in learning multi-functions and robustness against errors in segmentation of observation are analyzed. Finally, the correspondence of the synthesized development to infantpsilas one is argued based on the simulation with careful behavior by a caregiver.

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基于μX原理的交叉促进学习多模态联合注意

多功能同时学习不仅是设计智能机器人的基本问题之一，也是理解人类认知发展过程的基本问题之一，因为我们人类在日常生活中都这样做，但我们不知道如何去做。与儿童语言发展中众所周知的偏见类似，我们提出了学习多模态映射的互斥选择原则(muX原则):选择更多互斥输出导致经验，使不发达的互补映射更加消除歧义。将muX原理应用于与话语的多模态联合注意中进行词汇习得，并在输出的模内和模间两个层次上进行综合建模。通过一系列的计算机仿真，分析了muX原理对多函数学习的相互促进性和对观测分割误差的鲁棒性的影响。最后，基于看护人细心行为的模拟，论证了综合发育与幼儿发育的对应关系。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2008 7th IEEE International Conference on Development and Learning

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