A vehicle seat comprises a seat component having a contour; wherein the contour changes when at least a portion of a user's body is in contact with the seat component and at least one multibend sensor operatively connected to the seat component and adapted to at least partially conform to the contour of the seat component; the at least one multibend sensor comprising a signal generation source adapted to transmit signals and a signal receiver adapted to receive at least some of the transmitted signals. The seat further comprises a signal processor operatively connected to the signal receiver, the signal processor adapted to make at least one measurement associated with the received signals; and, a sensing module operatively connected to the signal processor and configured to use the at least one measurement to determine information regarding the contour of the seat component.

A vehicle airbag control system has an airbag module, a detector and an electronic controller. The airbag module has an airbag that is configured to be positioned below a vehicle floor panel in an undeployed state. The airbag that is configured to be positioned to be above the vehicle floor panel in the deployed state. The detector is configured to detect a presence of an obstruction over the airbag module at a location above the vehicle floor panel. The electronic controller is programmed to deploy the airbag based on a detected result of the detector.

A capacitive detection device comprising at least one electrode of a capacitive sensor of said component, an alternating voltage source, a device for measuring a complex value of impedance or admittance between the detection electrode and an electrical circuit reference point and a calibration resistor, and a switching device arranged so as to connect the voltage source to the electrode, in the measurement mode, and to connect the voltage source to the calibration resistor and disconnect the voltage source from the electrode in the calibration mode. The measuring device is arranged so as to measure a first complex value of the calibration resistor, during operation in the calibration mode; to measure a second complex value between the electrode and the electrical circuit reference point during operation in measurement mode, and to correct the second measured complex value according to the first measured complex value.

A passengers weight measurement device for a vehicle seat includes an upper rail provided on a lower rail that is fixable to a vehicle floor, the upper rail being movable in at least one of rear and front directions; a load sensor fixed onto the upper rail; and a frame provided on the load sensor and below the vehicle seat. In plan view, the load sensor protrudes from the frame in at least one of left and right directions.

A passenger's weight measurement device for a vehicle seat includes an upper rail provided on a lower rail that is fixable to a vehicle floor, the upper rail being movable in at least one of rear and front directions; a load sensor fixed onto the upper rail; and a frame provided on the load sensor and below the vehicle seat. In plan view, the load sensor protrudes from the frame in at least one of left and right directions.

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.

A vehicle seat includes a load sensor for measuring a load applied from an occupant and a seat cushion frame, wherein the seat cushion frame comprises right and left side frames extending in a front-and-rear direction, the load sensor is attached to the seat cushion frame, and a concave portion is formed in at least one of the right and left side frames at a position opposite to the load sensor.

A vehicle seat includes a seat cushion that includes a seat cushion frame, a riser that supports the seat cushion frame, a seat position adjusting device that moves and adjusts the seat cushion back and forth, and a load detector that detects a load applied to the seat cushion. The riser includes a bottom wall and a sidewall that extends upward from an end portion of the bottom wall. The seat position adjusting device includes an upper rail that supports the riser and slides a lower rail. The load detector is positioned between the upper rail and the bottom wall. The upper rail, the load detector, the bottom wall, and the bracket are co-clamped with a first fastening member, and the bracket is secured to the sidewall with a second fastening member.

A system that includes a server, a seat control communications unit and a plurality of sensors to monitor passenger comfort and environmental conditions on a transport vehicle, such as an aircraft. The sensors include temperature, distance measuring, strain gauges, air quality, and other sensors to monitor specific locations on a seat to ensure safe occupancy and comfort.

A power supply apparatus acquires peripheral information regarding whether a living body is present outside a vehicle near a power supplying unit, during power supply to the vehicle. The power supply apparatus acquires in-vehicle information regarding whether a living body is present inside the vehicle, during power supply to the vehicle. The power supply apparatus restricts supplied electric power when in-vehicle information indicating that a living body is present inside the vehicle is acquired or when peripheral information indicating that a living body is present near the power supplying unit is acquired. The power supply apparatus changes a restriction amount of the supplied electric power when at least either of in-vehicle information indicating that a living body is present inside the vehicle or peripheral information indicating that a living body is present near the power supplying unit is acquired, compared to that when neither piece of information is acquired.