publication_status

mean_age_months

multiple_age_groups

multiple_age_groups_younger_older

number_syllables

familiarization_voice

familiarization_register

max_trial_duration_fam

words_to_passage

familiarization_criterion

participant_design

predicted_outcome

proportion_familiarity_preference

Junge, C., Kooijman, V., Hagoort, P., & Cutler, A. (2012). Rapid recognition at 10 months as a predictor of language development. Developmental Science, 15(4), 463-473.

Junge, Kooijman, Hagoort, & Cutler (2012)

10.1111/j.1467-7687.2012.1144.x

segmentation 500-600

too few artifact-free trials, fussing or crying, refusal to wear cap, missing follow-up information.

40 pairs of unrelated Dutch bisyllables with trochaic stress

Een kleine hommeli zit op het gordijn. Die kleine mammoet zwemt in de rivier. Het is een oude hommel met gele strepen. Er is een oude mammoet in het museum.

21 regularly spaced Ag/AgCl electrodes; 21 placed according to the 10/20 international system, 6 placed bilaterally on non-standard positions

infant-size Brain-Caps

Junge, C., Kooijman, V., Hagoort, P., & Cutler, A. (2012). Rapid recognition at 10 months as a predictor of language development. Developmental Science, 15(4), 463-473.

Junge, Kooijman, Hagoort, & Cutler (2012)

10.1111/j.1467-7687.2012.1144.x

segmentation 200-650

too few artifact-free trials, fussing or crying, refusal to wear cap, missing follow-up information.

40 pairs of unrelated Dutch bisyllables with trochaic stress

Een kleine hommeli zit op het gordijn. Die kleine mammoet zwemt in de rivier. Het is een oude hommel met gele strepen. Er is een oude mammoet in het museum.

21 regularly spaced Ag/AgCl electrodes; 21 placed according to the 10/20 international system, 6 placed bilaterally on non-standard positions

infant-size Brain-Caps

Kooijman, V., Hagoort, P., & Cutler, A. (2005). Electrophysiological evidence for prelinguistic infants' word recognition in continuous speech. Cognitive Brain Research, 24(1), 109-116.

10.1016/j.cogbrainres.2004.12.009

too noisy data or not completed enough

Forty low frequency, two-syllable nouns, with a strong-weak stress pattern. {kiwi sheriff sitar knolzwam hommel mammoet monnik sultan zwaluw viking pelgrim mosterd maestro parka logo kajak tuba medley krokus slede serre krekel gondel otter orka emoe klamboe toffee sandwich metro drummer hinde ketjap tabberd pudding sauna hofnar python fakir poema}

Met een phyton moet je altijd voorzichtig zijn. Gelukkig vangt de lange hofnar hem nog op. Zonder een hofnar lacht er nooit iemand hier. Dat is een lange phyton met scherpe tandne. De hofnar maakt weer eens rare grappen. De koning hoort de boze hofnar vallen. De phyton ziet er nogal gevaarlijk uit. Daar zie ik een boze phyton liggen.

27 Ag/AgCl sintered ring electrodes; 21 placed according to the Amercian Electroencephalographic Society 10% standard system. 6 placed bilaterally on non-standard positions.

infant-size BrainCap

Kooijman, V., Hagoort, P., & Cutler, A. (2009). Prosodic structure in early word segmentation: ERP evidence from Dutch ten‐month‐olds. Infancy, 14(6), 591-612.

10.1080/15250000903263957

familiarization phase

not enough data due to restlessness or sleepiness

Thirty-four bisyllabic words with main stress on the second syllable. six further bisyllabic pseudowords with the same stress pattern were created. (see appendix)

27 Ag/AgCl sintered ring electrodes; 21 placed according to the Amercian Electroencephalographic Society 10% standard system. 6 placed bilaterally on non-standard positions.

infant-size BrainCap

Kooijman, V., Hagoort, P., & Cutler, A. (2009). Prosodic structure in early word segmentation: ERP evidence from Dutch ten‐month‐olds. Infancy, 14(6), 591-612.

10.1080/15250000903263957

weak-strong 680-780

not enough data due to restlessness or sleepiness

Thirty-four bisyllabic words with main stress on the second syllable. six further bisyllabic pseudowords with the same stress pattern were created. (see appendix)

27 Ag/AgCl sintered ring electrodes; 21 placed according to the Amercian Electroencephalographic Society 10% standard system. 6 placed bilaterally on non-standard positions.

infant-size BrainCap

Kooijman, V., Hagoort, P., & Cutler, A. (2009). Prosodic structure in early word segmentation: ERP evidence from Dutch ten‐month‐olds. Infancy, 14(6), 591-612.

10.1080/15250000903263957

weak-strong 370-500

not enough data due to restlessness or sleepiness

Thirty-four bisyllabic words with main stress on the second syllable. six further bisyllabic pseudowords with the same stress pattern were created. (see appendix)

27 Ag/AgCl sintered ring electrodes; 21 placed according to the Amercian Electroencephalographic Society 10% standard system. 6 placed bilaterally on non-standard positions.

infant-size BrainCap

Kooijman, V., Hagoort, P., & Cutler, A. (2009). Prosodic structure in early word segmentation: ERP evidence from Dutch ten‐month‐olds. Infancy, 14(6), 591-612.

10.1080/15250000903263957

strong-weak 55-135

not enough data due to restlessness or sleepiness

Thirty-four bisyllabic words with main stress on the second syllable. six further bisyllabic pseudowords with the same stress pattern were created. (see appendix)

27 Ag/AgCl sintered ring electrodes; 21 placed according to the Amercian Electroencephalographic Society 10% standard system. 6 placed bilaterally on non-standard positions.

infant-size BrainCap

Kooijman, V., Hagoort, P., & Cutler, A. (2009). Prosodic structure in early word segmentation: ERP evidence from Dutch ten‐month‐olds. Infancy, 14(6), 591-612.

10.1080/15250000903263957

strong-weak 300-500

not enough data due to restlessness or sleepiness

Thirty-four bisyllabic words with main stress on the second syllable. six further bisyllabic pseudowords with the same stress pattern were created. (see appendix)

27 Ag/AgCl sintered ring electrodes; 21 placed according to the Amercian Electroencephalographic Society 10% standard system. 6 placed bilaterally on non-standard positions.

infant-size BrainCap

Kooijman, V., Hagoort, P., & Cutler, A. (2009). Prosodic structure in early word segmentation: ERP evidence from Dutch ten‐month‐olds. Infancy, 14(6), 591-612.

10.1080/15250000903263957

strong-weak 200-350

not enough data due to restlessness or sleepiness

Thirty-four bisyllabic words with main stress on the second syllable. six further bisyllabic pseudowords with the same stress pattern were created. (see appendix)

strong-weak words recognition in test phase, time-locked to the second syllable

27 Ag/AgCl sintered ring electrodes; 21 placed according to the Amercian Electroencephalographic Society 10% standard system. 6 placed bilaterally on non-standard positions.

infant-size BrainCap

Goyet, L., de Schonen, S., & Nazzi, T. (2010). Words and syllables in fluent speech segmentation by French-learning infants: An ERP study. Brain Research, 1332, 75-89.

10.1016/j.brainres.2010.03.047

familiarization 300-600

experimenter error, movement artifacts

{cagoule, dorade, perruque. guitare}

two experiments; first experiment familiarization phase (time-locked to final syllable)

62 electrodes placed according to the EGIS system

Geodesic Sensor Net (EGIS V2.0)

Goyet, L., de Schonen, S., & Nazzi, T. (2010). Words and syllables in fluent speech segmentation by French-learning infants: An ERP study. Brain Research, 1332, 75-89.

10.1016/j.brainres.2010.03.047

familiarization 0-150

experimenter error, movement artifacts

{cagoule, dorade, perruque. guitare}

two experiments; first experiment familiarization phase (time-locked to final syllable)

62 electrodes placed according to the EGIS system

Geodesic Sensor Net (EGIS V2.0)

Goyet, L., de Schonen, S., & Nazzi, T. (2010). Words and syllables in fluent speech segmentation by French-learning infants: An ERP study. Brain Research, 1332, 75-89.

10.1016/j.brainres.2010.03.047

experimenter error, movement artifacts

{cagoule, dorade, perruque. guitare}

two experiments; first experiment test phase (time-locked to final syllable)

62 electrodes placed according to the EGIS system

Geodesic Sensor Net (EGIS V2.0)

Kidd, E., Junge, C., Spokes, T., Morrison, L., & Cutler, A. (2018). Individual Differences in Infant Speech Segmentation: Achieving the Lexical Shift. Infancy.

10.1111/infa.12256

Australian English

not enough data across condition, diagnosis after 2 years of age

120 disyllabic trochaic words were used as target words across 240 sentences. Full materials available from authors upon request.

32 channels according to the standard international 10-20 system

ActiveTwo BioSemi system

Kidd, E., Junge, C., Spokes, T., Morrison, L., & Cutler, A. (2018). Individual Differences in Infant Speech Segmentation: Achieving the Lexical Shift. Infancy.

10.1111/infa.12256

Australian English

not enough data across condition, diagnosis after 2 years of age

120 disyllabic trochaic words were used as target words across 240 sentences. Full materials available from authors upon request.

32 channels according to the standard international 10-20 system

ActiveTwo BioSemi system

Kooijman, V. Hagoort, P., & Cutler, A., (2007). Word recognition at seven months: mismatching behavioral and electrophysiological evidence.

fussiness or sleepiness

40 low-frequency bisyllabic nouns with main stress on the first syllable

27 Ag/AgCl electrodes; 21 placed according to the American Electroencephalographic Society 10% standard system. 6 were placed bilaterally on non-standard positions.

Infant-size Brain caps

MinagawaHakunoKobayashiNaoiKoijma2017

Minagawa, Y., Hakuno, Y., Kobayashi, A., Naoi, N., & Kojima, S. (2017). Infant word segmentation recruits the cerebral network of phonological short-term memory. Brain and language, 170, 39-49.

Minagawa, Hakuno, Kobayashi, Naoi, & Koijma (2017)

10.1016/j.bandl.2017.03.005

training 5 months

rejection of NIRS cap, insufficiant trials because of motion artifacts

zakuro tanishi gaika aruji, and 84 additional 3-mora words

four incident and four detection probes arranged in 2x4 square grids (10 channels) were fitted onto the temporal area on each side of the head using the international 10-20 system

MinagawaHakunoKobayashiNaoiKoijma2017

Minagawa, Y., Hakuno, Y., Kobayashi, A., Naoi, N., & Kojima, S. (2017). Infant word segmentation recruits the cerebral network of phonological short-term memory. Brain and language, 170, 39-49.

Minagawa, Hakuno, Kobayashi, Naoi, & Koijma (2017)

10.1016/j.bandl.2017.03.005

rejection of NIRS cap, insufficiant trials because of motion artifacts

zakuro tanishi gaika aruji, and 84 additional 3-mora words

four incident and four detection probes arranged in 2x4 square grids (10 channels) were fitted onto the temporal area on each side of the head using the international 10-20 system

MinagawaHakunoKobayashiNaoiKoijma2017

Minagawa, Y., Hakuno, Y., Kobayashi, A., Naoi, N., & Kojima, S. (2017). Infant word segmentation recruits the cerebral network of phonological short-term memory. Brain and language, 170, 39-49.

Minagawa, Hakuno, Kobayashi, Naoi, & Koijma (2017)

10.1016/j.bandl.2017.03.005

rejection of NIRS cap, insufficiant trials because of motion artifacts

zakuro tanishi gaika aruji, and 84 additional 3-mora words

four incident and four detection probes arranged in 2x4 square grids (10 channels) were fitted onto the temporal area on each side of the head using the international 10-20 system

MinagawaHakunoKobayashiNaoiKoijma2017

Minagawa, Y., Hakuno, Y., Kobayashi, A., Naoi, N., & Kojima, S. (2017). Infant word segmentation recruits the cerebral network of phonological short-term memory. Brain and language, 170, 39-49.

Minagawa, Hakuno, Kobayashi, Naoi, & Koijma (2017)

10.1016/j.bandl.2017.03.005

rejection of NIRS cap, insufficiant trials because of motion artifacts

zakuro tanishi gaika aruji, and 84 additional 3-mora words

four incident and four detection probes arranged in 2x4 square grids (10 channels) were fitted onto the temporal area on each side of the head using the international 10-20 system

MinagawaHakunoKobayashiNaoiKoijma2017

Minagawa, Y., Hakuno, Y., Kobayashi, A., Naoi, N., & Kojima, S. (2017). Infant word segmentation recruits the cerebral network of phonological short-term memory. Brain and language, 170, 39-49.

Minagawa, Hakuno, Kobayashi, Naoi, & Koijma (2017)

10.1016/j.bandl.2017.03.005

training 9 months

rejection of NIRS cap, insufficiant trials because of motion artifacts

zakuro tanishi gaika aruji, and 84 additional 3-mora words

four incident and four detection probes arranged in 2x4 square grids (10 channels) were fitted onto the temporal area on each side of the head using the international 10-20 system

MinagawaHakunoKobayashiNaoiKoijma2017

Minagawa, Y., Hakuno, Y., Kobayashi, A., Naoi, N., & Kojima, S. (2017). Infant word segmentation recruits the cerebral network of phonological short-term memory. Brain and language, 170, 39-49.

Minagawa, Hakuno, Kobayashi, Naoi, & Koijma (2017)

10.1016/j.bandl.2017.03.005

rejection of NIRS cap, insufficiant trials because of motion artifacts

zakuro tanishi gaika aruji, and 84 additional 3-mora words

four incident and four detection probes arranged in 2x4 square grids (10 channels) were fitted onto the temporal area on each side of the head using the international 10-20 system

Kooijman, V., Junge, C., Johnson, E. K., Hagoort, P., & Cutler, A. (2013). Predictive brain signals of linguistic development. Frontiers in psychology, 4, 25.

Kooijman, Junge, Johnson, Hagoort, & Cutler (2013)

10.3389/fpsyg.2013.00025

fusiness or sleepiness

Forty low frequency, two-syllable nouns, with a strong-weak stress pattern. {kiwi sheriff sitar knolzwam hommel mammoet monnik sultan zwaluw viking pelgrim mosterd maestro parka logo kajak tuba medley krokus slede serre krekel gondel otter orka emoe klamboe toffee sandwich metro drummer hinde ketjap tabberd pudding sauna hofnar python fakir poema}

Met een phyton moet je altijd voorzichtig zijn. Gelukkig vangt de lange hofnar hem nog op. Zonder een hofnar lacht er nooit iemand hier. Dat is een lange phyton met scherpe tandne. De hofnar maakt weer eens rare grappen. De koning hoort de boze hofnar vallen. De phyton ziet er nogal gevaarlijk uit. Daar zie ik een boze phyton liggen.

27 Ag/AgCl sintered ring electrodes; 21 placed according to the American Electroencephalographic Society 10% standard system. 6 placed bilaterally on non-standard positions

infant-size Brain-Caps

Kooijman, V., Junge, C., Johnson, E. K., Hagoort, P., & Cutler, A. (2013). Predictive brain signals of linguistic development. Frontiers in psychology, 4, 25.

Kooijman, Junge, Johnson, Hagoort, & Cutler (2013)

10.3389/fpsyg.2013.00025

fusiness or sleepiness

Forty low frequency, two-syllable nouns, with a strong-weak stress pattern. {kiwi sheriff sitar knolzwam hommel mammoet monnik sultan zwaluw viking pelgrim mosterd maestro parka logo kajak tuba medley krokus slede serre krekel gondel otter orka emoe klamboe toffee sandwich metro drummer hinde ketjap tabberd pudding sauna hofnar python fakir poema}

Met een phyton moet je altijd voorzichtig zijn. Gelukkig vangt de lange hofnar hem nog op. Zonder een hofnar lacht er nooit iemand hier. Dat is een lange phyton met scherpe tandne. De hofnar maakt weer eens rare grappen. De koning hoort de boze hofnar vallen. De phyton ziet er nogal gevaarlijk uit. Daar zie ik een boze phyton liggen.

27 Ag/AgCl sintered ring electrodes; 21 placed according to the American Electroencephalographic Society 10% standard system. 6 placed bilaterally on non-standard positions

infant-size Brain-Caps

Kooijman, V., Junge, C., Johnson, E. K., Hagoort, P., & Cutler, A. (2013). Predictive brain signals of linguistic development. Frontiers in psychology, 4, 25.

Kooijman, Junge, Johnson, Hagoort, & Cutler (2013)

10.3389/fpsyg.2013.00025

sentences 350-450

fusiness or sleepiness

Forty low frequency, two-syllable nouns, with a strong-weak stress pattern. {kiwi sheriff sitar knolzwam hommel mammoet monnik sultan zwaluw viking pelgrim mosterd maestro parka logo kajak tuba medley krokus slede serre krekel gondel otter orka emoe klamboe toffee sandwich metro drummer hinde ketjap tabberd pudding sauna hofnar python fakir poema}

Met een phyton moet je altijd voorzichtig zijn. Gelukkig vangt de lange hofnar hem nog op. Zonder een hofnar lacht er nooit iemand hier. Dat is een lange phyton met scherpe tandne. De hofnar maakt weer eens rare grappen. De koning hoort de boze hofnar vallen. De phyton ziet er nogal gevaarlijk uit. Daar zie ik een boze phyton liggen.

27 Ag/AgCl sintered ring electrodes; 21 placed according to the American Electroencephalographic Society 10% standard system. 6 placed bilaterally on non-standard positions

infant-size Brain-Caps

Kooijman, V., Junge, C., Johnson, E. K., Hagoort, P., & Cutler, A. (2013). Predictive brain signals of linguistic development. Frontiers in psychology, 4, 25.

Kooijman, Junge, Johnson, Hagoort, & Cutler (2013)

10.3389/fpsyg.2013.00025

sentences 430-530

fusiness or sleepiness

Forty low frequency, two-syllable nouns, with a strong-weak stress pattern. {kiwi sheriff sitar knolzwam hommel mammoet monnik sultan zwaluw viking pelgrim mosterd maestro parka logo kajak tuba medley krokus slede serre krekel gondel otter orka emoe klamboe toffee sandwich metro drummer hinde ketjap tabberd pudding sauna hofnar python fakir poema}

Met een phyton moet je altijd voorzichtig zijn. Gelukkig vangt de lange hofnar hem nog op. Zonder een hofnar lacht er nooit iemand hier. Dat is een lange phyton met scherpe tandne. De hofnar maakt weer eens rare grappen. De koning hoort de boze hofnar vallen. De phyton ziet er nogal gevaarlijk uit. Daar zie ik een boze phyton liggen.

27 Ag/AgCl sintered ring electrodes; 21 placed according to the American Electroencephalographic Society 10% standard system. 6 placed bilaterally on non-standard positions

infant-size Brain-Caps

Männel, C., & Friederici, A. D. (2013). Accentuate or repeat? Brain signatures of developmental periods in infant word recognition. Cortex, 49(10), 2788-2798.

10.1016/j.cortex.2013.09.003

non-compliance, data artifacts from movement and perspiration

Familiarization and test words were all bisyllabic, trochaic,
low-frequency German words.

the same low-frequency word was presented in eight different sentences (at word positions 2nd to 5th), with a between-sentence inter-stimulus interval (ISI) of 1.7 sec.

Ag/AgCl ring electrodes placed according to the International 10-10 Electrode system.

Easy cap GmbH Germany

Männel, C., & Friederici, A. D. (2013). Accentuate or repeat? Brain signatures of developmental periods in infant word recognition. Cortex, 49(10), 2788-2798.

10.1016/j.cortex.2013.09.003

9 months 400-900

non-compliance, data artifacts from movement and perspiration

Familiarization and test words were all bisyllabic, trochaic,
low-frequency German words.

the same low-frequency word was presented in eight different sentences (at word positions 2nd to 5th), with a between-sentence inter-stimulus interval (ISI) of 1.7 sec.

Ag/AgCl ring electrodes placed according to the International 10-10 Electrode system.

Easy cap GmbH Germany

Männel, C., & Friederici, A. D. (2013). Accentuate or repeat? Brain signatures of developmental periods in infant word recognition. Cortex, 49(10), 2788-2798.

10.1016/j.cortex.2013.09.003

9 months 900-1300

non-compliance, data artifacts from movement and perspiration

Familiarization and test words were all bisyllabic, trochaic,
low-frequency German words.

the same low-frequency word was presented in eight different sentences (at word positions 2nd to 5th), with a between-sentence inter-stimulus interval (ISI) of 1.7 sec.

Ag/AgCl ring electrodes placed according to the International 10-10 Electrode system.

Easy cap GmbH Germany

Männel, C., & Friederici, A. D. (2013). Accentuate or repeat? Brain signatures of developmental periods in infant word recognition. Cortex, 49(10), 2788-2798.

10.1016/j.cortex.2013.09.003

non-compliance, data artifacts from movement and perspiration

Familiarization and test words were all bisyllabic, trochaic,
low-frequency German words.

the same low-frequency word was presented in eight different sentences (at word positions 2nd to 5th), with a between-sentence inter-stimulus interval (ISI) of 1.7 sec.

Ag/AgCl ring electrodes placed according to the International 10-10 Electrode system.

Easy cap GmbH Germany

Von Holzen, K., Nishibayashi, L. L., & Nazzi, T. (2018). Consonant and Vowel Processing in Word Form Segmentation: An Infant ERP Study. Brain sciences, 8(2), 24.

Von Holzen, Nishibayashi, & Nazzi (2018)

10.3390/brainsci8020024

252 monosyllabic French CVC words produced in isolation as well as embedded within sentences.

128 channels placed according to the EGIS system, 54 electrodes used in the data analysis

128 channel HydroCel Geodesic Sensor Net with EGI NetAmps 400 amplifier

Junge, C., Cutler, A., & Hagoort, P. (2014). Successful word recognition by 10‐month‐olds given continuous speech both at initial exposure and test. Infancy, 19(2), 179-193.

10.1111/infa.12040

too few artifact-free trials, computer problems, refusal to wear the cap

10 word-pairs, low-frequency trochaic words

Ag/AgCl electrodes placed according to the 10-20 system

infant-size BrainCap with Ag/AgCl electrodes

Junge, C. (2011). Relating recognition efficiency for word forms at 10 months and for word meaning at 16 months

familiarization 600-900

too few artifact-free trials, computer problems, refusal to wear the cap

10 word-pairs, low-frequency trochaic words

23 Ag/AgCl electrodes placed according to the extended 10-20 system

infant-size BrainCap with Ag/AgCl electrodes

Junge, C. (2011). Relating recognition efficiency for word forms at 10 months and for word meaning at 16 months

too few artifact-free trials, computer problems, refusal to wear the cap

10 word-pairs, low-frequency trochaic words

23 Ag/AgCl electrodes placed according to the extended 10-20 system

infant-size BrainCap with Ag/AgCl electrodes

Junge, C. (2011). Relating recognition efficiency for word forms at 10 months and for word meaning at 16 months

too few artifact-free trials, computer problems, refusal to wear the cap

10 word-pairs, low-frequency trochaic words

23 Ag/AgCl electrodes placed according to the extended 10-20 system

infant-size BrainCap with Ag/AgCl electrodes