A vehicle occupant detection system including at least one weight sensing pad, at least one infrared sensor, and at least one motion sensor disposed within an automobile. Each of the at least one weight sensing pad, the at least one infrared sensor, and the at least one motion sensor is in operational communication with each of a battery and a computer system of the automobile. The computer system is configured to activate at least one of a horn, an alarm, an engine, at least one power window, a wireless communication with a remotely disposed fob, a wireless text communication with a remotely disposed personal electronic device, and a cellular communication with an emergency responder when at least one of the at least one infrared sensor, the at least one weight sensing pad, and the at least one motion sensor detects a passenger disposed within the vehicle.

In an embodiment, there is provided a chair including: a chair body; at least one sensing element on the chair body for sensing a human body pressure on the chair body; at least one gasbag on the chair body for supporting a waist of a human body; a gas pump for performing inflation and deflation of the at least one gasbag; and a control assembly in signal connection with the at least one sensing element for controlling the gas pump to perform inflation and deflation of the at least one gasbag according to information acquired by the sensing element.

Systems, Methods and Apparatuses are provided for a seat adjustment system for a vehicle which includes: a plurality of sensors configured to produce sensor data associated with an occupancy by an internal or external user of a particular seat of the vehicle and a processor, configured to receive the sensor data to: determine a state of one or more settings of the seat adjustment system for the particular seat of the vehicle based on stored data or the received sensor data; determine in a near future whether a particular seat will be occupied by the external user based on the received sensor data; determine currently whether a particular seat is occupied by the internal user based on the received sensor data; and adjust settings of the particular seat in accordance with determinations of the state of settings and occupancy of the particular seat.

Systems, devices, and techniques are provided for occupancy assessment of a vehicle. For one or more occupants of the vehicle, the occupancy assessment establishes position and/or identity for some or all of the occupant(s).

The present disclosure provides an inflatable air cushion system of a vehicle seat. The inflatable air cushion system includes an inflatable air cushion positioned within a side supporting portion of the seat and configured to expand away from a middle supporting portion of a cushion substantially in a widthwise direction, an inflator connecting to the inflatable air cushion, and a controller for controlling the inflator to inflate the inflatable air cushion in response to a passenger occupancy signal.

A vehicle alarm system for inhibiting a passenger from being left in a vehicle includes a vehicle has a processor, a pair of rear seats, a theft alarm and door locks. The processor selectively generates an alarm sequence and the processor is electrically coupled to the theft alarm and the door locks. A plurality of pressure sensors is each positioned within an associated one of the rear seats. Each of the pressure sensors detects when a passenger is seated in the associated rear seat. The processor generates the alarm sequence when the vehicle is turned off and at least one of the pressure sensors detects the passenger in the associated rear seat. Moreover, the theft alarm is turned on when the processor generates the alarm sequence to alert that at least one passenger remains in the vehicle thereby inhibiting the passenger from is injured by heat exposure.

A load detection sensor 5 of the invention includes: a first electrode sheet 50 which includes first electrode 52 and a first contact point 53; a second electrode sheet 60 which includes a second electrode 62 and a second contact point 63; a spacer 70 which is disposed between the first electrode sheet and the second electrode sheet; one terminal 5A which is electrically connected to the first electrode 52; and the other terminal 5B which is electrically connected to the first contact point 53. A connection maintaining portion AP in which an electrical connection is maintained even when an external pressure is not applied thereto is formed by the first contact point 53 and the second contact point 63, and odd series of the switches SW electrically connected in series between one terminal 5A and the other terminal 5B are set.

A vehicle alarm system for inhibiting a passenger from being left in a vehicle includes a vehicle has a processor, a pair of rear seats, a theft alarm and door locks. The processor selectively generates an alarm sequence and the processor is electrically coupled to the theft alarm and the door locks. A plurality of pressure sensors is each positioned within an associated one of the rear seats. Each of the pressure sensors detects when a passenger is seated in the associated rear seat. The processor generates the alarm sequence when the vehicle is turned off and at least one of the pressure sensors detects the passenger in the associated rear seat. Moreover, the theft alarm is turned on when the processor generates the alarm sequence to alert that at least one passenger remains in the vehicle thereby inhibiting the passenger from is injured by heat exposure.

An automatic driving vehicle includes an automatic driving mode in which autonomous traveling is carried out. The automatic driving vehicle receives a setup for a destination and an arrival time after a driver or a passenger gets out of the automatic driving vehicle. The setup for the destination and the arrival time is input when the driver or the passenger gets out of the automatic driving vehicle. The automatic driving vehicle is controlled to move to the destination after the driver or the passenger gets out of the automatic driving vehicle on a basis of the destination and the arrival time.

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.