Datasets

(2023) Infant body position classification (data and reproducible manuscript). Zenodo. doi:10.5281/zenodo.8310338

(2023) Infant body position classification (example of machine learning pipeline). Zenodo. doi:10.5281/zenodo.8312007

(2023) Longitudinal relations between independent walking, body position, and object experiences in home life (data and reproducible manuscript). OSF. doi:10.17605/OSF.IO/YPD95

(2022) Machine learning classification of infant body position. OSF. doi:10.17605/OSF.IO/WCGA9

(2022) Eye-head-body coordination affects the motor-memory trade-off. OSF. doi:10.17605/OSF.IO/X8QAC

(2021) Adapting the coordination of eyes and head to differences in task and environment during fully-mobile visual exploration. CodeOcean. doi:10.24433/CO.8767371.v2

(2020) Head and body structure infants’ visual experiences during mobile, naturalistic play. Databrary. doi:10.17910/b7.1216

(2019) Transfer of calibration between squeezing and fitting affordances. OSF. doi:10.17605/OSF.IO/ZBN9E

(2018) Spontaneous exploration in affordance recalibration. OSF. doi:10.17605/OSF.IO/EUGPN

(2015) Free viewing gaze behavior in infants and adults. Databrary. doi:10.17910/B7.192

(2015) 12-month-olds and their caregivers wearing head-mounted eye trackers during spontaneous free play in lab playroom. Databrary. doi:10.17910/B7.135

(2015) Understanding the development of motion processing by characterizing optic flow experienced by infants and their mothers. Databrary. doi:10.17910/B7.116

(2015) Head-mounted eye tracking: A new method to describe infant looking. Databrary. doi:10.17910/B7.124

(2015) What infants know and what they do: Perceiving possibilities for walking through openings. Databrary. doi:10.17910/B7.136

(2013) Crawling and walking infants see the world differently. Databrary. doi:10.17910/B7RP4H

(2013) Younger and older adults’ perception of action possibilities. Databrary. doi:10.17910/B7H592