An integrated vehicle occupant safety system to alert an emergency responder at regular intervals is disclosed. The integrated vehicle occupant safety system comprises a sensor module placed at one or more predetermined positions inside a vehicle is configured to send a signal to a communication device via a wireless transmitter after a predefined time on detecting the occupant activity inside the vehicle. A smartphone module and an engine control module is configured to activate a vehicle ignition system after another predefined time via the signal transmitted by the sensor module on detecting the occupant activity inside the vehicle. A vehicle tracking system is configured to transmit a location of the vehicle to the emergency responder within the predefined time to rescue the occupant. A method of alerting an emergency responder using an integrated vehicle occupant safety system is disclosed.

An automatic window tinting system for a vehicle includes a selectively transparent window, a controller including a processing unit and a non-transitory computer readable memory, a temperature sensor, an occupant sensor, a proximity sensor, and a computer readable and executable instruction set. The computer readable and executable instruction set causes the processing unit to receive an occupant sensor signal, a temperature signal and a proximity sensor signal, maintain the selectively transparent window in a first light transmissivity state when the occupant sensor signal is indicative of a presence of an unattended occupant, transition the selectively transparent window to a second light transmissivity state when the temperature signal is indicative of a temperature inside the vehicle that is greater than a threshold value, and transition the selectively transparent window to a third light transmissivity state when the proximity sensor signal is indicative of the presence of a passerby.

A seat configured so that the accuracy of detection of each sensor provided in the seat to detect the body potential of a seated occupant can be improved without degrading the sense and comfort of the seat. A seat includes a trim cover having a contact surface for a seated occupant, and sensors arranged opposite to the contact surface and configured to detect the body potential of the seated occupant. Each sensor is a capacitive coupling sensor configured to detect the body potential through the trim cover. Moreover, a portion of the seat facing each sensor includes a dielectric configured to increase the dielectric constant of such a portion.

A vehicle seat in accordance with the present disclosure includes a seat bottom and a seat back. The seat back is coupled to the seat bottom to move relative to the seat bottom. The seat bottom is coupled to a floor of a vehicle and configured to move relative to the seat back.

A wheel adjustment system for an agricultural implement includes a controller having a processor and a memory. The processor is configured to receive a first signal indicative of a ground speed of the agricultural implement, receive a second signal indicative of a desired position of a wheel of the agricultural implement, receive a third signal indicative of a current position of the wheel of the agricultural implement, and output a control signal to adjust a position of the wheel of the agricultural implement based on the first signal, the second signal, and the third signal, wherein a rate of adjustment of the position of the wheel varies based on the first signal.

A system for alerting a presence of a passenger in a vehicle includes a sensor, a personal alarm, a vehicle alarm and a controller. The system for alerting a presence of a passenger in a vehicle is useful for detecting and alerting the presence of a passenger in a vehicle while the vehicle is in the parked state.

A safety seat is provided, including a seat base and a seat back. The seat back includes a framework adjustable in shape and a covering part covering the framework and made of flexible material. A surface of the covering part is provided with multiple sensors for obtaining back position information of a person sitting on the safety seat. The safety seat further includes a data processing device and a driving structure. The data processing device is for receiving the back position information, determine a shape of a back surface of the person and send a covering part adjustment signal. The driving structure is for adjusting a shape of the framework according to the covering part adjustment signal and changing a shape of the surface of the covering part by changing the shape of the framework so as to match the shape of the back surface of the person.

A method for controlling a safety device of a vehicle. The safety device reacts to an imminent collision by an intervention in a longitudinal and/or lateral guidance of the vehicle. The method includes reading in environment data and trip data regarding the collision object in an environment of the vehicle and the vehicle, and seat occupancy data regarding an occupancy state of at least one seat of the vehicle; ascertaining: an expected impingement side of the collision object on the vehicle; a velocity change of the vehicle in the context of the collision; and a seat occupancy distribution in the vehicle, using the seat occupancy data; executing an evaluation of the velocity change with regard to a threshold value and/or of the seat occupancy distribution relative to the expected impingement side; generating, depending on a result of the evaluation, a control signal for the safety device.

A system capable of determining a type of a passenger sitting on a seat according to a body type is disclosed. The system includes a seat detecting means detecting a position of a seat and an angle of a seat back, a passenger detecting means detecting a passenger based on a state where a specific passenger normally sits on the seat, and a controller detecting a passenger's body part along with a seat-back area where the seat back is positioned and a passenger area where the passenger is positioned using information detected by the seat detecting means and the passenger detecting means, and learning a parameter value that is input as a relationship of detected information and a classification result for a body type of the passenger that is output by the parameter value, thus setting a body-type classification model.

Systems and techniques are described herein for detecting a state of presence of a given object in a vehicle. In aspects, techniques include processing data received over time from various devices in the vehicle to determine a set of accumulated scores. The data includes parameters indicative of a presence or absence of a detected object in the vehicle. Further, the processing may be effective to determine a set of accumulated scores. The techniques further include determining an object-related confidence value representing a likelihood that the detected object is present in the vehicle, based on the set of accumulated scores, and then comparing the object-related confidence value to a predetermined threshold. The comparison is sufficient to detect the presence of the detected object in the vehicle if the object-related confidence value exceeds the predetermined threshold.