Implementation of English word learning system using Smartphone TTS

2016 ◽  
Vol 75 (21) ◽  
pp. 13179-13192 ◽  
Author(s):  
Bong-Hyun Kim ◽  
Ki-Chan Kim ◽  
Sang-Young Oh ◽  
Sung-Eon Hong
Keyword(s):  
Word Learning ◽  
English Word ◽  
Learning System

How many words can my robot learn?

2007 ◽  
Vol 8 (1) ◽  
pp. 53-81 ◽  
Author(s):  
Luís Seabra Lopes ◽  
Aneesh Chauhan
Keyword(s):  
Word Learning ◽  
Real World ◽  
Scale Up ◽  
Human Robot Interaction ◽  
Learning System ◽  
Evaluation Methodology ◽  
Robot Interaction ◽  
Instructor Feedback ◽  
Discriminatory Capacity ◽  
Robotic Agent

This paper addresses word learning for human–robot interaction. The focus is on making a robotic agent aware of its surroundings, by having it learn the names of the objects it can find. The human user, acting as instructor, can help the robotic agent ground the words used to refer to those objects. A lifelong learning system, based on one-class learning, was developed (OCLL). This system is incremental and evolves with the presentation of any new word, which acts as a class to the robot, relying on instructor feedback. A novel experimental evaluation methodology, that takes into account the open-ended nature of word learning, is proposed and applied. This methodology is based on the realization that a robot’s vocabulary will be limited by its discriminatory capacity which, in turn, depends on its sensors and perceptual capabilities. The results indicate that the robot’s representations are capable of incrementally evolving by correcting class descriptions, based on instructor feedback to classification results. In successive experiments, it was possible for the robot to learn between 6 and 12 names of real-world office objects. Although these results are comparable to those obtained by other authors, there is a need to scale-up. The limitations of the method are discussed and potential directions for improvement are pointed out.

scholarly journals Overlapping and distinct neural networks supporting novel word learning in bilinguals and monolinguals

2021 ◽  
pp. 1-13
Author(s):  
Iske Bakker-Marshall ◽  
Atsuko Takashima ◽  
Carla B. Fernandez ◽  
Gabriele Janzen ◽  
James M. McQueen ◽  
...  
Keyword(s):  
Word Learning ◽  
Recognition Task ◽  
English Word ◽  
Control Networks ◽  
Bilingual Lexicon ◽  
Word Memory ◽  
Memory Integration ◽  
New Information ◽  
Novel Word Learning ◽  
Novel Words

Abstract This study investigated how bilingual experience alters neural mechanisms supporting novel word learning. We hypothesised that novel words elicit increased semantic activation in the larger bilingual lexicon, potentially stimulating stronger memory integration than in monolinguals. English monolinguals and Spanish–English bilinguals were trained on two sets of written Swahili–English word pairs, one set on each of two consecutive days, and performed a recognition task in the MRI-scanner. Lexical integration was measured through visual primed lexical decision. Surprisingly, no group difference emerged in explicit word memory, and priming occurred only in the monolingual group. This difference in lexical integration may indicate an increased need for slow neocortical interleaving of old and new information in the denser bilingual lexicon. The fMRI data were consistent with increased use of cognitive control networks in monolinguals and of articulatory motor processes in bilinguals, providing further evidence for experience-induced neural changes: monolinguals and bilinguals reached largely comparable behavioural performance levels in novel word learning, but did so by recruiting partially overlapping but non-identical neural systems to acquire novel words.

PROCESSING VARIABILITY IN INTENTIONAL AND INCIDENTAL WORD LEARNING

2019 ◽  
Vol 42 (2) ◽  
pp. 327-357 ◽  
Author(s):  
Bronson Hui
Keyword(s):  
Eye Tracking ◽  
Word Learning ◽  
Frequency Control ◽  
Native English Speakers ◽  
English Word ◽  
Word Knowledge ◽  
Tracking Data ◽  
Learning Experiment ◽  
And Control ◽  
Incidental Word Learning

AbstractI investigated the trajectory of processing variability, as measured by coefficient of variation (CV), using an intentional word learning experiment and reanalyzing published eye-tracking data of an incidental word learning study (Elgort et al., 2018). In the word learning experiment, native English speakers (N = 35) studied Swahili-English word pairs (k = 16) before performing 10 blocks of animacy judgment tasks. Results replicated the initial CV increase reported in Solovyeva and DeKeyser (2018) and, importantly, captured a roughly inverted U-shaped development in CV. In the reanalysis of eye-tracking data, I computed CVs based on reading times on the target and control words. Results did not reveal a similar inverted U-shaped development over time but suggested more stable processing of the high-frequency control words. Taken together, these results uncovered a fuller trajectory in CV development, differences in processing demands for different aspects of word knowledge, and the potential use of CV with eye-tracking research.

Good intentions and bad words

2001 ◽  
Vol 24 (6) ◽  
pp. 1110-1111 ◽  
Author(s):  
Frank C. Keil
Keyword(s):  
Language Acquisition ◽  
Word Learning ◽  
Word Meaning ◽  
Learning System ◽  
Acquisition System ◽  
Critical Questions ◽  
Strong Case

Bloom makes a strong case that word meaning acquisition does not require a dedicated word learning system. This conclusion, however, does not argue against a dedicated language acquisition system for syntax, morphology, and aspects of semantics. Critical questions are raised as to why word meaning should be so different from other aspects of language in the course of acquisition.

Complexities and constraints in nonword repetition and word learning

2006 ◽  
Vol 27 (4) ◽  
pp. 599-613 ◽  
Author(s):  
SUSAN E. GATHERCOLE
Keyword(s):  
Word Learning ◽  
Speech Processing ◽  
Building Blocks ◽  
Learning System ◽  
Efficient Manner ◽  
New Words ◽  
Language System ◽  
Sound Structure ◽  
Multiple Processes ◽  
Learning Language

Because words represent the building blocks upon which the facility to produce and comprehend language at all levels is based, the capacity of a child to learn words has immense impact on his or her developing abilities to communicate and engage properly with the outside world. Both the Keynote Article and the Commentaries in this issue demonstrate that this capacity to acquire vocabulary is neither singular nor simple. Children may fail to learn new words in as rapid and efficient manner as their peers for many reasons: they may, for example, have inadequate environmental experience of either the spoken and printed form of the language (Huttenlocher, Haight, Bryk, Seltzer, & Lyons, 1991), or they may have poor abilities to produce the sound contrasts of the language (Mirak & Rescorla, 1998). The focus of the present discussion lies somewhere in between these extremes of influence, in the intervening perceptual and cognitive processes that constitute the speech processing and word learning system. Here, too, complexities abound. The developing language system is characterized by dependencies between the multiple processes involved in processing and learning language (Bishop, 1997), rarely evincing the dramatic dissociations in adults with acquired language disorders that have served cognitive neuropsychology so well in its bid to identify a modular structure of the language system. Weaknesses in perceptual analysis of the sound structure of the language, in the storage of the resulting mental representations, and in the availability of existing representations that can support the processing of new words, often coexist within an individual. As a consequence, it can be extremely difficult to tease apart the developmental underpinnings of language acquisition. In this article, I argue that real progress toward understanding vocabulary acquisition requires a substantial and systematic body of research evidence designed to provide strong empirical challenges to existing (and new) hypotheses and theories. Whereas mere description is unlikely to lead to major advances, systematic experimental analysis and the specification of detailed theoretical accounts should result in a more complete understanding of the complexities and constraints of new word learning.

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