System, methods, and other embodiments described herein relate to improving deployment of an airbag by controlling a steering wheel in a vehicle. In one embodiment, a method includes identifying at least a hand position for one or more hands of the operator on the steering wheel using orientation data acquired from at least one sensor of the vehicle. The method includes determining, as a function of at least the hand position, a mitigation action associated with deploying the airbag. The method includes, in response to detecting that deployment of the airbag is imminent, controlling the steering wheel according to the mitigation action.

A car seat includes a first heater, a second heater, and a control unit which controls an output to the first heater and an output to the second heater. The control unit executes a temperature-difference adjustment control, in which the output of the second heater is controlled such that the temperature of the bulging portion heated by the second heater with respect to the temperature of the seating surface portion heated by the first heater is made lower when an ambient temperature is a first temperature than when the ambient temperature is a second temperature which is higher than the first temperature.

An integrated safety seat permanently built into a vehicle. The safety seat may be united with other seats or separated from other seats, or other integrated safety seats. The integrated safety seat is configured to accommodate an occupant from newborn to adulthood in a seat bottom, as well as in a back, whereby the seat bottom, back and a cradle in between may incline upward and downward by an internal mechanism, to a plurality of angles, ranging from rear facing to forward facing. The integrated safety seat includes a headrest and footrests support in the forward facing position, which serve as a footrest and headrest support, respectively in the rear facing position. The integrated safety seat includes harnesses and lap-belts with hasps, armrests, and headrests, footrests, inserts, within that elevate. The safety seat further includes integrated safety controls that operate regardless of whether the vehicle is in operation.

In embodiments, apparatuses, methods and storage media (transitory and non-transitory) are described that are associated with providing alerts to a caregiver in a vehicle. In various embodiments, an apparatus may include a first sensor coupled with a restraint to provide a restraint indicator, a second sensor coupled with a securing component to provide an attachment indicator, and an alert module operated by one or more processors to cause a wireless transmitter to transmit an alert signal based at least in part on the restraint indicator and the attachment indicator. In various embodiments, a warning apparatus may include an output device and a warning module operated by one or more processors to activate the output device based at least in part on a wireless alert signal from a car seat in a vehicle that indicates the car seat is in use.

Disclosed is an electronic seat switch for a power seat of an autonomous vehicle and a method of operating the power seat by using the electronic seat switch, wherein the power seat is configured to be operated by using the electronic seat switch that is compact and slim.

Adaptive seatbelt systems and methods are provided for adjusting the position of a seatbelt relative to an occupant. An adaptive seatbelt system for a vehicle includes a seat. A belt is configured to restrain an occupant in the seat. An anchor point along the belt is provided at an elevated position. An actuator raises or lowers the anchor point relative to the seat. A controller receives an input signal containing occupant identifying information and biometric data corresponding to occupant identification data. A processor compares the occupant identifying information to occupant identification data to verify an occupant's identity. The processor may determine an optimal comfort height or an optimal restraint height for the third anchor point based on the biometric data. The actuator adjusts the anchor point to the optimal comfort height or to the optimal restraint height in response to signals from the processor.

Method and apparatus are disclosed for determining vehicle seat occupancy. An example vehicle includes a vehicle seat, an accelerometer coupled to the vehicle seat, and a restraint control module. The restraint control module is configured to determine a minute of arc measurement for the vehicle seat based on data received from the accelerometer, determine that the vehicle seat is occupied based on the minute of arc measurement, and provide an alert.

Disclosed are active vehicle seat assemblies, methods for making and using such seat assemblies, and vehicles with active seat assemblies for counteracting unwanted inertial forces. An active vehicle seat assembly is disclosed that includes an occupant chair with interconnected seat and backrest portions. A motion sensor detects motion of the occupant chair and outputs signals indicative thereof. An automated platform movably mounts the occupant chair to the vehicle body. The platform includes: a pitch plate that pivots about two lateral axes; a pitch actuator that selectively pivots the pitch plate; a roll plate that pivots about two longitudinal axes; and a roll actuator that selectively pivots the roll plate. An on-board controller responds to signals from the motion sensor indicative of inertial motion disturbances to the chair by transmitting control signals to the pitch and/or roll actuators to pivot the pitch and/or roll plates to thereby counteract the inertial disturbances.

Various embodiments for monitoring safety by a processor. A presence of a living thing is detected inside an enclosed environment to be monitored. The enclosed environment is capable of motion. The presence of the living thing is monitored in combination with at least one environmental factor in the enclosed environment. If the at least one environmental factor exceeds a predetermined threshold, an alert notification to indicate a current status of the environmental factor is provided to a user.

A seating posture is stabilized for the shoulders of a passenger seated on a vehicle seat. A vehicle seat is provided with a seat back configured to support the seated person from the rear. A shoulder support portion of the seat back configured to support a corresponding one of the shoulders of the seated passenger includes an air cell configured to expand when air is supplied. When the air cell expands, one end portion of the shoulder support portion on the outside in the width direction of the vehicle seat moves more forward than the other end portion of the shoulder support portion on the inside in the width direction.