| scholarly article | Q13442814 |
| P50 | author | Michael S. Vitevitch | Q50558466 |
| Kit Ying Chan | Q84081501 | ||
| P2093 | author name string | Rutherford Goldstein | |
| P2860 | cites work | Community structure in social and biological networks | Q24534298 |
| Timed picture naming in seven languages | Q24633229 | ||
| Classes of small-world networks | Q24676405 | ||
| Emergence of Scaling in Random Networks | Q27037290 | ||
| Assortative Mixing in Networks | Q27349399 | ||
| Collective dynamics of 'small-world' networks | Q27861064 | ||
| A theory of lexical access in speech production | Q28212379 | ||
| The TRACE model of speech perception | Q28304078 | ||
| A web-based interface to calculate phonotactic probability for words and nonwords in English | Q28757015 | ||
| Error and attack tolerance of complex networks | Q29547268 | ||
| Misperceptions of spoken words: data from a random sample of American English words | Q30435737 | ||
| Complex network structure influences processing in long-term and short-term memory. | Q30452952 | ||
| Speech Perception, Word Recognition and the Structure of the Lexicon | Q30460111 | ||
| Recognizing spoken words: the neighborhood activation model | Q30462601 | ||
| Processing of indexical information requires time: Evidence from change deafness | Q30467785 | ||
| Simulating retrieval from a highly clustered network: implications for spoken word recognition. | Q30472086 | ||
| Word Identification in Noise | Q30475143 | ||
| The influence of the phonological neighborhood clustering coefficient on spoken word recognition. | Q30478439 | ||
| What can graph theory tell us about word learning and lexical retrieval? | Q30490391 | ||
| Influence of onset density on spoken-word recognition. | Q30493257 | ||
| The spread of the phonological neighborhood influences spoken word recognition | Q30493260 | ||
| Naturalistic and experimental analyses of word frequency and neighborhood density effects in slips of the ear. | Q30493325 | ||
| Community structure in the phonological network | Q30543664 | ||
| jTRACE: a reimplementation and extension of the TRACE model of speech perception and spoken word recognition | Q33286883 | ||
| Word concepts: A theory and simulation of some basic semantic capabilities | Q34054593 | ||
| The lexical restructuring hypothesis and graph theoretic analyses of networks based on random lexicons | Q34161826 | ||
| The perceptron: a probabilistic model for information storage and organization in the brain | Q34245162 | ||
| Longitudinal analysis of early semantic networks: preferential attachment or preferential acquisition? | Q34438359 | ||
| Revisiting "scale-free" networks | Q34451081 | ||
| Google and the mind: predicting fluency with PageRank | Q34716661 | ||
| The parallel distributed processing approach to semantic cognition | Q35097321 | ||
| Shortlist B: a Bayesian model of continuous speech recognition. | Q37143468 | ||
| Examining the acquisition of phonological word forms with computational experiments | Q37696648 | ||
| The place of modeling in cognitive science | Q38244087 | ||
| The large-scale structure of semantic networks: statistical analyses and a model of semantic growth | Q38418043 | ||
| Word-frequency and phonological-neighborhood effects on verbal short-term memory | Q38431383 | ||
| On the role of competing word units in visual word recognition: the neighborhood frequency effect | Q38483587 | ||
| Functional parallelism in spoken word-recognition | Q38489600 | ||
| A spreading-activation theory of retrieval in sentence production. | Q38491256 | ||
| Duration differences between rare and common words and their implications for the interpretation of word frequency effects | Q38502577 | ||
| Comorbidity: a network perspective. | Q45241713 | ||
| Revisiting the foundations of network analysis | Q46086879 | ||
| Sidestepping the combinatorial explosion: an explanation of n-gram frequency effects based on naive discriminative learning . | Q46153583 | ||
| Understanding human navigation using network analysis | Q46163036 | ||
| Echoes of echoes? An episodic theory of lexical access | Q50167225 | ||
| An auditory analogue of the visual reversible figure. | Q50705097 | ||
| Bridging automatic speech recognition and psycholinguistics: extending Shortlist to an end-to-end model of human speech recognition. | Q52005366 | ||
| Examining the time course of indexical specificity effects in spoken word recognition. | Q52055601 | ||
| Similarity neighbourhoods of words in young children's lexicons. | Q52059212 | ||
| Phonetic priming, neighborhood activation, and PARSYN. | Q52166560 | ||
| Word Length and Lexical Competition: Longer is the Same as Shorter | Q60148841 | ||
| Making up materials is a confounded nuisance, or: will we be able to run any psycholinguistic experiments at all in 1990? | Q70671293 | ||
| Verbal transformation effect and auditory perceptual mechanisms | Q72221143 | ||
| Some effects of intermittent silence | Q74481857 | ||
| Does node stability underlie the verbal transformation effect? A test of node structure theory | Q74681685 | ||
| Network structure influences speech production | Q84081502 | ||
| Scale-free networks: a decade and beyond | Q84285284 | ||
| P304 | page(s) | 1-32 | |
| P577 | publication date | 2013-11-20 | |
| P1433 | published in | Cognitive Psychology | Q15758465 |
| P1476 | title | Insights into failed lexical retrieval from network science | |
| P478 | volume | 68 |
| Q35752358 | A Complex Network Approach to Distributional Semantic Models |
| Q38412855 | Examining assortativity in the mental lexicon: Evidence from word associations. |
| Q47861327 | Flexibility of thought in high creative individuals represented by percolation analysis |
| Q33732644 | Investigating the structure of semantic networks in low and high creative persons |
| Q40979783 | Keywords in the mental lexicon. |
| Q38884609 | Local Patterns to Global Architectures: Influences of Network Topology on Human Learning |
| Q38823536 | Multiplex lexical networks reveal patterns in early word acquisition in children |
| Q95270425 | On Curiosity: A Fundamental Aspect of Personality, a Practice of Network Growth |
| Q91130031 | Phonological network fluency identifies phonological restructuring through mental search |
| Q38426140 | Rigidity, chaos and integration: hemispheric interaction and individual differences in metaphor comprehension |
| Q95763894 | Speech error and tip of the tongue diary for mobile devices |
| Q30598936 | The influence of clustering coefficient on word-learning: how groups of similar sounding words facilitate acquisition. |
| Q30397516 | The influence of known-word-frequency on the acquisition of new neighbors in adults: evidence for exemplar representations in word-learning |
| Q92162143 | The orthographic similarity structure of English words: Insights from network science |
| Q38300254 | Using network science in the language sciences and clinic. |
Search more.