A vehicle includes a compressor; a first accumulator fluidly connected with the compressor; a second accumulator fluidly connected with the compressor; a first nozzle directed at a first sensor and fluidly connected with the first accumulator; a second nozzle directed at a second sensor and fluidly connected with the second accumulator; an occupancy sensor; and a computer in communication with the compressor, the accumulators, and the occupancy sensor. The computer is programmed to, upon determining that the vehicle is unoccupied based on data received from the occupancy sensor, instruct the compressor to pressurize the accumulators of the vehicle.

Aspects of the disclosure relate to apparatus and methods for unattended occupant protection system (UOPS) safety systems for passenger vehicles. The UOPS safety system may include a UOPS module. The module may be integrated with a vehicle data bus of the passenger vehicle. The module may be in communication with a plurality of UOPS sensors. The module may launch an equalization mode in response to determining, via the UOPS sensors, the presence of an unattended occupant in the passenger vehicle with a high or rising ambient temperature. The equalization mode may stabilize the ambient temperature of the passenger vehicle.

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.

The current invention are a wireless sensor and app to alert a user if they are walking away from a vehicle in which they left a child in a car seat. A pressure pad sensor is triggered by the weight of a child. An attached transmitter wirelessly communicates to any wireless device with the app. If the receiving device leaves the range of transmission before the transmissions cease, an alarm will be triggered in the receiving device. This allows a user's smartphone to also serve as an alert when about to forget a child in a car. An additional, optional, heart rate and temperature monitor ankle strap would allow the user to monitor a child during long trips.

A ventilated seat having ventilation openings arranged on a seat surface of the seat, a ventilation device for generating an air flow, ventilation channels for air-conducting connection of the ventilation device to the ventilation openings, flow control devices for the individual opening and closure of the ventilation channels and/or of the ventilation openings, sensors for determining a force applied to the seat surface and/or a pressure acting on the seat surface and/or for determining an air pressure in the ventilation channels, and a control unit designed to control the flow control devices in accordance with the force determined and/or the pressure determined by the sensors.

A computing device in a vehicle can be programmed to receive an occupant position measurement from at least one of an acoustic and a light sensor, determine an estimated occupant size based on occupant weight, estimate a vehicle seat position based on the occupant position measurement, and, control a vehicle occupant safety device based on the estimated occupant size and estimated vehicle seat position.

Systems and methods for adapting various autonomous vehicle settings to protect personal information based on the composition of passengers in a vehicle. In particular, sensitive user information is intelligently parsed out or generalized based on user preference and the presence of unknown passengers. In some examples, sensitive user information is routed to more secure channels such as a mobile device application or a personalized display. In some implementations, the position of passengers within a vehicle is determined to identify which displays are in each passenger's field of view. Additionally, pick-up and drop-off locations can be scrambled to nearby destinations to obscure a home address, work address, or other identifiable address information.

A support surface includes a table top, moving portions, base portions, and sensors. The moving portions are configured to move the table top in multiple degrees of freedom. Each moving portion is configured to move the table top in a degree of freedom and prevent movement of the table top in other degrees of freedom. The base portions are coupled to the moving portions and are configured to support the moving portions. The sensors are configured to receive a user input and communicate the user input to the moving portions so that the moving portions move the table top based upon the user input.

An in-seat experience system includes: a seat which includes a seat body, a sensor, and a seat controller allowed to acquire a measurement value from the sensor; an experience instruction device connected to the seat controller, configured to notify an occupant seated on the seat body a motion instruction and to store user identification information; and a server capable of communicating with the experience instruction device. The experience instruction device makes a determination based upon a measurement value of the sensor as to whether or not a first condition is satisfied, and to transmit a result of the determination to the server when at least the first condition is satisfied, and the server is allowed to increase a point score stored for the corresponding user identification information with a condition that the result of the determination that the first condition is satisfied is received from the experience instruction device.

To propose a new value for a seat, a seat system which can make notification of advertising information fit for an occupant seated on the seat with a sensor included therein is provided. The seat system includes: a seat which includes a seat body, and a sensor provided in the seat body and configured to acquire information for use in identifying a physical state of an occupant seated on the seat body; a server having pieces of advertising information stored therein; and a terminal capable of acquiring the information from the sensor and communicating with the server. The terminal or the server is configured to choose, based on the information or an evaluation value based on the information, a piece of advertising information related to the information or the evaluation value from among the pieces of advertising information, and notify the occupant of the piece of advertising information.