A sensing system determines movement and position of passengers and objects within a vehicle. In particular, the determination of the position and movement of body parts can be enhanced by providing features that provide a source of ground for the system. The sensing system is able to transmit a plurality of signals during a transmission period and use the sensed signals during a frame in order to create different heat maps that represent movement and position of person during an integration period. By taking advantage of grounding sources, the system is able to better determine the position and movement of a person or object.

An electronic device for detecting the presence of an occupant on board a vehicle includes an audio sensor to acquire sound-sensing signals on board the vehicle. A movement sensor acquires movement-sensing signals associated with movement of the vehicle and an environmental sensor acquires environmental-sensing signals on board the vehicle. A processing unit is coupled to the audio sensor, movement sensor, and environmental sensor processes the respective sound-sensing signals, movement-sensing signals, and environmental-sensing signals to monitor the presence on board the vehicle of the occupant and the absence of a responsible person to determine a situation of danger and to activate a corresponding alarm warning.

A distraction detection system includes using a first signal, e.g., EDP signals or vehicle speed, and an additional signal to determine whether a person is distracted. The distraction system can be part of a vehicle seating system, A vehicle seating system is described and includes a seat configured to support an occupant and to be mounted in a vehicle and occupant sensing system at least partially integrated into the seat to sense an occupant. The sensing system senses a first criterion with respect to the occupant. A controller is configured to receive the first criterion signal from the sensing system and a second criterion to determine a distraction state of the driver. The controller can also determine a false distraction state using the distraction state and other criterion in a vehicle. The controller outputs a control signal when the distraction state exceeds a distraction threshold and when distraction is confirmed.

Disclosed herein is an apparatus for rear seat detection. The apparatus may include: an indoor camera having a field of view for a vehicle interior and configured to provide image data; an indoor radar having a sensing area for the vehicle interior and configured to provide radar data; a controller including a first processor and a second processor. The first processor configured to obtain information on a change in a front passenger seat and a rear seat of a vehicle based on processing the image data The second processor configured to obtain motion information on an object in the rear seat of the vehicle based on processing the radar data. The first controller may identify a change of a detection area in the rear seat based on the information on the change in the front passenger seat and the rear seat of the vehicle, and determine whether a human is seated in the rear seat of the vehicle based on the motion information on the object in the detection area where the change is identified.

A vehicle is provided that includes a safety system that can provide an alert, external to the vehicle, that can warn other vehicles, people, etc. that a driver and/or passenger(s) are exiting the vehicle. Methods and systems determine when an occupant of a vehicle is about to exit by sensing the exit movement or an exit sequence, which may be detected by internal vehicle sensors. In response to the exit sequence, the vehicle may control one or more alert features, associated with the vehicle, to provide an external alert to other vehicles and/or users outside of the vehicle that a driver and/or passenger(s) is/are about to exit.

There is provided a system comprising a plurality of movable seats arranged in a seating area, a detection device, a non-transitory memory storing an executable code, a hardware processor executing the executable code to receive a first input from the detection device indicating an individual is present in the seating area, determine a first position of the individual in the seating area at a first time based on the first input, and arrange the plurality of seats in a first configuration based on the first position of the individual, wherein arranging the plurality of seats includes moving at least one of the plurality of seats to a new position.

A vehicle detection system includes an RFID reader, a detection device, and an ECU. The RFID reader transmits a transmission signal including at least a signal that supplies power. The detection device includes a second antenna unit that mutually transmits and receives a signal to and from the RFID reader, an RFID detection circuit that is activated using the signal that supplies power included in the transmission signal received by the second antenna unit as driving power and that outputs a detection signal to the second antenna unit, and a switch circuit that switches an electrical connection portion between the second antenna unit and the RFID detection circuit to a contact state or to a non-contact state according to a state inside the vehicle. The ECU determines the state inside the vehicle on the basis of the detection signal received by the RFID reader.

The systems and methods described herein can be applied to a vehicle equipped with a sensor suite that can observe information about a location, for example, a traffic light duration. The system can record information, e.g., the traffic light colors, duration of color changes, and location of the traffic lights and can upload this information to the cloud. Then, the system can augment or learn about the location, e.g., learning of traffic patterns, and store the augmented data as database-based information, where available. The learned information can help a requesting vehicle to better estimate an estimated time of arrival (ETA) for common routes taken, provide more accurate ETAs based on historical knowledge, and/or calculate or provide alternative route information.

A service providing apparatus includes a detector provided on a seat and configured to detect a motion of a user seated on the seat; a control device including a processor and a memory coupled to the processor, having a plurality of service functions and configured to determine a service content in the plurality of service functions based on the motion detected by the detector and a presentation unit configured to present the service content determined by the control device.

A number of variations may include placement of germicidal ultraviolet-C (UV-C) light treatments within vehicle interiors/exteriors to minimize material surface microbial growth and contamination, and sanitizes vehicle surfaces. A number of variations may include vehicles including UV-C light devices mounted in or on the vehicle to treat interiors/exteriors of the vehicle to minimize material surface microbial growth and contamination, and sanitize vehicle surfaces.