A key ring transceiver module activates when a child has been left inside of a car seat when the corresponding buckle transceiver is out of range. The buckle transceiver system includes a weight sensor indicating that a child is inside of the baby seat, a pair of limit or indication switches indicating that a child is retrained within the baby seat, and a pair of PING/PONG sending and receiving radio pairs that communicate range of the baby buckle transceiver from the key ring transceiver. When the baby seat contains a child restrained within, and the transceiver moves out of range, a distress alarm/signal will be enabled on the transceiver to indicate that the baby is still confined to the restraints of the baby seat. The key ring transceiver will continue to signal a distress mechanism until the baby buckle transceiver trigger has been reset by removing the child from the car seat. Although several variations of the embodiment have been presented with similar computational schemes, this present embodiment contains the minimal number of necessary component for effective alerting, and fulfills several requirements of exception to previous system designs. Lastly most systems to date have incorporated elements of the vehicle, which can require OEM installation or absorbent aftermarket fabrication to the vehicle.

A car seat includes an air outlet located in a seat upper portion (a portion provided above a seat cushion and including a seat back and a headrest) to let out air therethrough; an air inlet located in the seat upper portion to draw in air therethrough; at least one fan configured to produce a current of air flowing from the air outlet toward the air inlet at a front side of the seat upper portion; and a scenting device configured to scent air to be forced out through the air outlet. The air outlet and the air inlet are located in such positions that at least part of the headrest is positioned between the air outlet and the air inlet in a direction from the air outlet toward the air inlet as viewed from a front side.

A seat having features of evaluating a physical state of a seated occupant, in which motivation to use the features is enhanced, is provided. A physical state sharable seat is proposed which includes: a seat body; a sensor (8) configured to acquire a measurement value specific to a physical state of an occupant seated on the seat body; and a controller (100) connected to the sensor and thereby allowed to acquire the measurement value from the sensor, and configured to be capable of communicating with other equipment. The controller (100) includes: an evaluation unit (121) configured to compute an evaluation value on the physical state, based on the measurement value; an evaluation value presentation unit (122) configured to present the evaluation value at a terminal to be used by the occupant; a shared data acquisition unit (161) configured to acquire an other-occupant evaluation value that is an evaluation value on a physical state of another person, acquired either by the evaluation unit or from another physical state sharable seat; and a shared data presentation unit (162) configured to present the other-occupant evaluation value at the terminal to be used by the occupant.

A profile for an occupant is stored. The profile includes a plurality of clusters of sitting positions for the occupant in a seat and classifications of respective clusters as preferred or nonpreferred. Respective clusters are classified as preferred or nonpreferred based on sitting scores for the respective sitting positions in that cluster. A higher sitting score increases a likelihood of the classification being preferred. A series of pressure maps indicating a respective series of sitting positions of the occupant in the seat are received. The pressure maps include a current pressure map. One of the sitting positions is assigned to one of the clusters that is classified as preferred in response to the sitting score of that sitting position being greater than a threshold score. A physical configuration of the seat is adjusted in response to the current sitting position being in one of the clusters that is classified as nonpreferred.

A service providing apparatus includes a detector provided on a seat and configured to detect a motion of a user seated on the seat; a control device including a processor and a memory coupled to the processor, having a plurality of service functions and configured to determine a service content in the plurality of service functions based on the motion detected by the detector and a presentation unit configured to present the service content determined by the control device.

The present disclosure relates to a method for determining the occupancy status of a seat of a motor vehicle, the method being implemented by a determination system comprising a seat, six interdigitated capacitive sensors, and a controller comprising a reference capacitance value and a threshold value for each interdigitated capacitive sensor, the method comprising a step of measuring three capacitance values for each interdigitated capacitive sensor, the following steps being implemented by the controller for the measured capacitance values: calculating a resulting capacitance value based on the measured capacitance values, calculating the difference between the resulting capacitance value and the reference capacitance value, comparing the calculated difference to the threshold value, determining the occupancy status of the seat, based on the result of the comparison.

An occupant knee support device provided in a vehicle includes a knee outer side surface support member and a knee lower surface support member. The knee outer side surface support member is disposed in a side part of the seat surface part in a stored state, protrudes forward and upward beyond the seat surface part in a support state to support an outer side surface of a knee of the occupant. The knee lower surface support member is, in the stored state, provided in a vicinity of a front end part of the seat surface part and separated from a lower surface of the knee of the occupant. The knee lower surface support member is configured to support the lower surface of the knee of the occupant in the supported state.

A child safety system for alerting caregivers that the child has been unintentionally or recklessly abandoned. The system includes a child presence detecting device having a Bluetooth Low Energy beacon that transmits a signal only when a child is detected in a location. A local mobile device receives and interprets the signal so as to generate a local alert when the signal strength falls below a threshold. The local alert tells a caregiver carrying the local mobile device that the child has been unintentionally or recklessly abandoned. The local mobile device also sends a remote alert via internet to a central server that communicates the remote alert to at least one remote mobile device. The local mobile device also sends the remote alert via an internet connection to a second server that communicate the remote alert to at least one additional remote mobile device via a respective individual internet connection.

A system for alerting caregivers that a child has been unintentionally or recklessly abandoned in a location, such as a car seat. The system transmits a signal only when the child is detected in the location. A local mobile device generates a local alert when the signal strength falls below a threshold. The local alert tells a caregiver carrying the local mobile device that the child has been abandoned. The local mobile device also sends a remote alert to a central server that sends the remote alert to at least one remote mobile device. The central server can also send a remote alert to at least one remote mobile device indicating that the caregiver has abandoned both the child and the local mobile device if the child is detected, the local mobile device has not moved for a while, and the caregiver has not responded to local mobile device prompts.

An autonomous driving vehicle includes a user detection monitoring device and a start control device. The user detection monitoring device detects a user who got out of the autonomous driving vehicle after the autonomous driving vehicle stopped at a destination as an alighted user and monitors the alighted user. The start control device maintains a stopped state of the autonomous driving vehicle after the alighted user was detected until a start condition is satisfied and, if the start condition is satisfied, permits a start of the autonomous driving vehicle. The start condition is one of a condition indicating that the alighted user at least moves out of a movement determination area around the autonomous driving vehicle and a condition indicating that the alighted user is present in the movement determination area but remains at the same position for a certain period of time or longer.