The Baby Alert Car Seat AlarmSmart Car Seat, is a device or smart car seat that detects the presence of a baby or child placed, or secured in a car seat, within the vehicle, before and after the driver of the vehicle has reached his/her destination; and, after the ignition is turned off, alerts the driver of the vehicle that the baby or child remains place or secured in a car seat within the vehicle; or, once the baby or child is placed, or secured in a car seat, within the vehicle, if the ignition is not turned on within a preset time, the Baby Alert Car Seat AlarmSmart Car Seat will alert the driver of the vehicle that a baby or child remains placed or secured in a car seat within the vehicle.

It is herein described a system such of that implemented in a vehicle (1) having front and rear doors (2) (3) provided with door opening sensors (S.sub.M; S.sub.D, S.sub.E) and one indicative sensor (ST) of locked door. A processing unit (4) calculates, by measuring the time the door remains open as well as by the sequence and/or frequency of openings and closings the doors (2, 3) of the vehicle (1), the possibility of a non-self-sufficient occupant have been forgotten inside the vehicle; and controls the actuation of an alarm (A1, A2, Al) in the event of said calculation indicates the possibility of an occupant non-self-sufficient have been forgotten inside the vehicle. The system identifies the possibility of an occupant has been introduced inside the vehicle when the opening time of the rear door is longer than time T1, and identifies the possibility of an occupant has been forgotten in the vehicle by means of the information processing sent by the door sensors.

A system for adjusting at least one adjustable component (30, 32, 34, 36, 38) of a vehicle (10) is disclosed. The system may include an exterior sensor (44) configured to generate a signal indicative of an identity a user before the user enters the vehicle (10), and a controller (60) in communication with the exterior sensor (44) and an actuator (40) configured to adjust the at least one adjustable component (30, 32, 34, 36, 38). The controller (60) may be configured to automatically cause the actuator (40) to adjust the at least one adjustable component (30, 32, 34, 36, 38) responsive to the signal.

A universal reminder device in the form of a series circuit including a power source, a warning indicator, a pressure-sensitive normally closed momentary switch, and a pressure-sensitive normally open momentary switch.

A vehicle alert system inhibiting a child from being left unattended in a vehicle includes a car seat that is selectively positioned in a vehicle and child is selectively seated in the car seat. A base unit is positioned upon the seat to be sat upon thereby facilitating the base unit to detect weight. The base unit is turned on when the base unit detects weight. A remote unit is carried by the driver of the vehicle. The remote unit is in electrical communication with the base unit. Moreover, the remote unit emits an audible alarm when the remote unit moves beyond a trigger distance from the base unit and the base unit is turned on. In this way the remote unit inhibits the child from being left unattended in the vehicle.

A component for the passenger compartment of a motor vehicle includes a rigid supporting body, made of plastic material, an outer upholstery skin, made of plastic material, and a padding body made of foamed plastic material, which is set between the rigid body and the outer upholstery skin. The rigid body and the outer skin have portions formed by a polymeric material with carbon-based nanofillers, which have respective inner surfaces facing the padding body, which include one or more paths where said polymeric material with carbon-based nanofillers has been rendered electrically conductive by laser irradiation to define one or more electrical circuits, and one or more piezoresistive areas where the polymeric material has been rendered piezoresistive by laser irradiation to define one or more electrical switches, which can be activated by exerting a localized pressure on the outer upholstery skin.

A vehicle adjustment assembly including sensors for adjusting the position of an auxiliary component of the vehicle is disclosed. The sensor is connected to the vehicle and is configured to detect a user's characteristics. The sensor generates data regarding the user's characteristics, and a computer receives the data generated by the sensor related to the user's characteristics. The auxiliary system is adjusted via input signals from the computer in response to the data generated by the sensor.

An autonomous vehicle seat positioning system includes a seat controller connected to a autonomous vehicle controller and a positioning mechanism of a seat assembly. The seat controller is configured to operating the positioning mechanism such that with the autonomous vehicle controller operating the vehicle in a self-driving mode and the vehicle operator's seat assembly being in a reclined setting: in response to the autonomous vehicle controller detecting an emergency condition requiring a change to the manual driving mode, the seat controller operates the positioning mechanism to move the operator's seat assembly from the reclined setting to the upright setting in an emergency re-positioning mode, and in response to the autonomous vehicle controller detecting a non-emergency condition requiring a change to the manual driving mode, the seat controller operates the positioning mechanism to move the operator's seat assembly from the reclined setting to the upright setting in a non-emergency re-positioning mode.

An autonomous vehicle seat positioning system has a controller connected to a display, a control panel and a positioning mechanism of a vehicle seat assembly. The controller operates in a position saving mode and a position selecting mode. In the position saving mode, positioning inputs made by the first occupant are saved in memory as a first upright setting corresponding to the first occupant manually driving the vehicle. Positioning inputs made by the first occupant of the vehicle seat assembly are also saved in memory as a first relaxation setting corresponding to the first occupant viewing the display with the vehicle operating in a self-driving mode. In the position selecting mode, the controller operates the positioning mechanism to move the vehicle seat assembly to positions corresponding the first upright setting or the first relaxation setting.

A vehicle seat includes a seat bottom and a seat back coupled to the seat bottom to extend upwardly away from the seat bottom. The vehicle seat further includes a seat-bottom foundation arranged to interconnect the seat bottom and seat back to translate back and forth relative to a vehicle floor.