摘要:
Provided are mechanisms and processes for more effectively monitoring infants to enhance caregiving and infant development. A system may include a wearable infant monitoring device, transmission interface, and monitoring hub. The wearable infant monitoring device includes sensors that detect activity and position of an infant. The transmission interface transmits measurement data associated with the activity and position of the infant. The monitoring hub receives the measurement data and includes a processor configured to determine the infant's receptivity to learning. Learning materials are then provided to a caregiver through a display interface based on the infant's receptivity to learning.
摘要:
Provided are mechanisms and processes for more effectively monitoring infants to enhance caregiving and infant development. In one example, a system includes an infant monitoring device interface, a device interface, and a processor. The infant monitoring device interface receives measurement data transmitted from an infant monitoring device. The measurement data includes motion and position of an infant associated with the infant monitoring device. The device interface receives sensor data including visual data from a camera. The processor determines an orientation of the infant based on the measurement data received from the infant monitoring device and the visual data received from the camera. This orientation includes whether the infant is prone or supine.
摘要:
Provided are mechanisms and processes for more effectively monitoring infant caregiving to enhance caregiving and infant development. A system may include multiple sensors, a transmission interface, and a wearable casing. The multiple sensors gather measurement data associated with activity of a caregiver. The transmission interface transmits the measurement data detected by the plurality of sensors to a remote monitoring hub, where proximity of the caregiver to an infant can be determined based on the measurement data. The wearable casing is configured to house the multiple sensors and the transmission interface.
摘要:
Provided are mechanisms and processes for predicting infant sleep patterns. Measurement data is received from multiple infant monitoring systems. The multiple infant monitoring systems each include an infant monitoring device and an infant monitoring hub. The infant monitoring device is configured to gather measurement data for an infant and the monitoring hub is configured to process the measurement data. The measurement data is analyzed to identify sleep patterns associated with the plurality of infant monitoring systems. The sleep patterns include sleep transitions, wake transitions, sleep durations, and wake durations over a period of time for infants of various ages. A model is generated based on the sleep patterns associated with infants of various ages. The model is used to predict upcoming sleep patterns for a first infant based on recent measurement data associated with the first infant.
摘要:
Provided are mechanisms and processes for more effectively monitoring pets to enhance caregiving and pet development. In one example, a system includes a pet monitoring device having a plurality of sensors that gather measurement data, such as motion and arousal, from a pet. The system also includes a monitoring hub that receives the measurement data from the pet monitoring device and analyzes the measurement data in relation to a learning receptivity model obtained from a remote platform. The measurement data is analyzed to predict a time and duration when a pet associated with the pet monitoring device will be receptive to learning.
摘要:
Provided are mechanisms and processes for presenting customized learning content for an infant based on developmental age. In one example, a system includes an infant monitoring device and a monitoring hub. The infant monitoring device includes sensors that gather measurement data associated with the infant when the infant is presented with a first module of learning content. The monitoring hub receives the measurement data and analyzes the measurement data in relation to a development model obtained from a remote platform to determine whether the first module of learning content was appropriate for the infant. The measurement data is analyzed to determine a developmental age for the infant and present a second module of learning content customized to the developmental age of the infant.
摘要:
Provided are mechanisms and processes for determining an infant's developmental age relative to biological age. In one example, a system includes an infant monitoring device and a monitoring hub. The infant monitoring device includes sensors that gather measurement data associated with the infant. The monitoring hub receives the measurement data and analyzes the measurement data in relation to a development model obtained from a remote platform to determine a developmental age for the infant. The monitoring hub then provides a comparison of the developmental age with a biological age of the infant, where the biological age is obtained by manual input by a user at the monitoring hub.
摘要:
Provided are mechanisms and processes for an infant data aggregation system. The system includes a platform interface and a platform processor. A platform interface is configured to receive measurement data from multiple infant monitoring systems, each of the multiple infant monitoring systems including an infant monitoring device and an infant monitoring hub. Each of the plurality of infant monitoring systems is associated with a corresponding infant. A platform processor is configured to remove personally identifiable information associated with the observations received in order to generate infant de-identified observations and analyze the observations received from the plurality of infant monitoring systems in order to generate a dynamic model reflecting infant trends relating to the observation for infants of different ages. The dynamic model is viewable by users associated with infant monitoring systems. The platform interface may be further configured to send the dynamic model to a first infant monitoring system.
摘要:
Provided are mechanisms and processes for an infant data aggregation system. The system includes a platform interface and a platform processor. A platform interface is configured to receive measurement data transmitted from multiple infant monitoring systems. Each of the multiple infant monitoring systems include an infant monitoring device and an infant monitoring hub. The infant monitoring device is configured to gather measurement data for an infant and the monitoring hub configured to process the measurement data. A platform processor is configured to analyze the measurement data to identify patterns including a first pattern of activity of infants associated with the multiple infant monitoring systems. The first pattern of activity is associated with an inference about the infants. The platform processor is further configured to generate a model for the inference based on the first pattern of activity for infants of various ages. The model is used to predict behavior related to the inference for a first infant that has expressed the first pattern of activity.
摘要:
Provided are mechanisms and processes for more effectively monitoring pets to enhance caregiving and pet development. In one example, a system includes a pet monitoring device having a plurality of sensors that gather measurement data, such as motion and arousal, from a pet. The system also includes a monitoring hub that receives the measurement data from the pet monitoring device and analyzes the measurement data in relation to a learning receptivity model obtained from a remote platform. The measurement data is analyzed to predict a time and duration when a pet associated with the pet monitoring device will be receptive to learning.