An occupant-support base includes a seat pad and a pad-extension system. The seat pad includes a fixed portion and a movable portion that is configured to move relative to the fixed portion. The pad-extension system is configured to move the movable portion to fit occupants of different sizes.

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.

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.

A device for controlling the correct operating state of a restraining harness, intended for a safety seat, including at least one retaining strap that is under tension when the harness is in the state of restraining the occupant, the device being intended to be disposed in a predefined area of the latter, the device including: at least one sensor device including an elongate flexible element that is suitable for being positioned on the strap, and in particular rigidly connected thereto in the predefined area, and that is provided with a measuring system to measure, in the predefined area, at least a level of bending and/or tilting of the strap, a device to collect values linked to the level of bending and/or tilting, and internal or external device configured to analyze the values and of communicating with a receiver for receiving information on the operating state of the retaining harness.

An occupant detection apparatus includes: a sensor electrode; a conductor portion facing the sensor electrode; a moving object that moves by input of a seat load loaded on a seat and changes an electrostatic capacitance between the sensor electrode and the conductor portion; and a signal output unit that outputs a sensor signal based on the electrostatic capacitance.

A textile assembly includes a knitted or woven textile panel of non-conductive fibers, and defines a first delimited area. A first conductive filament is knitted or woven into the textile panel in the first delimited area, and is arranged to form an electronic device, such as a sensor or a switch, in the first delimited area. The textile assembly may further include a third conductive filament that is knitted or woven into the textile panel in a second delimited area. The third conductive filament is arranged to form a second electronic device, such as a sensor or a switch, in the second delimited area. A controller may use a signal from the first electronic device and the second electronic device to execute a function, such as generate a pressure map of the textile panel.

A heater/sensor assembly is configured to perform heating and proximity sensing and includes a heater carrier substrate including first and second surfaces. A heater wire is arranged in a predetermined pattern adjacent to and in contact with the first surface of the heater carrier substrate, wherein the heater wire is insulated. A proximity sensor includes a conductive thread attaching the heater wire to the first surface of the heater carrier substrate.

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.

A capacitance measurement circuit for determining a capacitance of a guard-sense capacitive sensor includes a microcontroller that uses a combination of several synchronized PWM outputs for generating a low distortion sine wave. The sine wave is used as a guard voltage for the guard electrode of the capacitive sensor. The capacitance value of an unknown capacitor is measured by impinging the guard voltage on the sense electrode of the capacitive sensor by a modified sigma-delta modulator unit. The digital output of the sigma-delta modulator unit is first multiplied by an XOR gate before being routed into a decimator/low pass filter. The second input of the XOR gate is driven by a square wave from a square wave generator with the same frequency as the guard voltage, but with a substantially 90? phase shift. The output of the decimator/low pass filter is indicative of the capacitance value of the unknown capacitor.

A seat assembly is provided herein. The seat assembly includes a seat member having a support surface. A pair of seat member bolsters is disposed on opposing sides of the seat member. A seat base supports the seat member and has a wraparound sidewall that extends above a bottom portion of each seat member bolster.