The vehicle child safety system is a safety system that is configured for use in a vehicle. The vehicle child safety system is configured for use with a child safety seat. The vehicle child safety system: 1) determines whether the child safety seat is installed within the vehicle; 2) determines whether the child safety seat is occupied; 3) requires the operator to acknowledge the presence of the child safety seat before the operation of the vehicle; 4) monitors the location of the key fob relative to the vehicle. If it is determined: 1) that the key fob is external to the vehicle; and, 2) that the child safety seat is occupied; then, 3) the vehicle child safety system activates the horn and alarm flashes the exterior lights; and, 4) sends a message informing an appropriate authority that

The disclosed method is stored as computer readable instructions and carried out by a processor that is part of a disclosed occupant monitoring system (OMS). The method starts with the receipt of an external signal by the processor. The external signal can be the starting of the vehicle engine, an indication of semi-autonomous or autonomous driving mode, or an indication that the occupant is seated, is in contact with a steering wheel, and/or is in contact with at least one dashboard control. The receipt of the external signal causes the processor to capture an image, analyze the image to determine if at least one monitoring condition is met, generate an adjustment signal if the monitoring condition is not met, and communicate the adjustment signal to at least one VCS, and repeating the monitoring loop. In some implementations, multiple images are captured and analyzed during the cycling of a monitoring loop.

System and method for obtaining and recording information about cargo includes a frame defining a cargo-receivable compartment, a position determining system at least partly on the frame and that allows for determination of position of the frame, an identification system on the frame that obtains information about cargo when present in the compartment, a memory component that receives and records information about position and movement of the frame, and the obtained information about cargo when present in the compartment in association with a unique identification of the frame, and a communications system on the frame to enable communication of information to and from the memory component.

A vehicle seat includes sheet-shaped sensors configured to detect electric signals associated with the biopotential of a seated passenger, the vehicle seat being configured to remove noise caused due to static electricity to stably measure a bioelectric signal (e.g., heart rate) of the passenger. A seat back includes the sheet-shaped sensors. A cushion pad placed on a seat back frame is covered with a trim cover. Vertically-extending conductive fabric in a belt shape is disposed on an outer surface of the trim cover. The portion where the conductive fabric is disposed has a three-layer structure of the conductive fabric, a skin, and a wadding. A free end of the conductive fabric drawn into the seat back is provided with a J-hook hooked onto a lower frame bridging portion, thus part of the conductive fabric and the lower frame bridging portion contact each other to be electrically conductive with each other.

Method and apparatus are disclosed for providing discrete autonomous notifications to a passenger of a vehicle. An example vehicle includes a plurality of seats, a plurality of audio transducers, and a processor. The processor is configured to determine a passenger seat corresponding to a passenger having a predetermined destination, determine a notification based on the predetermined destination, and transmit, via one or more of the plurality of audio transducers, a notification to the passenger based on a determined passenger head position.

The present disclosure provides systems and methods for occupancy detection. In various embodiments, the occupancy detection system includes a server configured to wirelessly communicate with one or more occupancy detectors. Each occupancy detector includes or is associated with an object holder. The object holder can have one of two occupancy states: an occupied state in which an object occupies the object holder or an unoccupied state in which no object occupies the object holder. The occupancy detector includes a sensor and a controller configured to use sensor feedback to determine when the object holder changes occupancy states from the occupied state to the unoccupied state or from the unoccupied state to the occupied state. When the controller determines that the object holder changes occupancy states, the controller generates occupancy data that reflects this changed state and sends it to the server.

Aspects of the disclosure relate to determining and responding to an internal state of a self-driving vehicle. For instance, an image of an interior of the vehicle captured by a camera mounted in the vehicle is received. The image is processed in order to identify one or more visible markers at predetermined locations within the vehicle. The internal state of the vehicle is determined based on the identified one or more visible markers. A responsive action is identified action using the determined internal state, and the vehicle is controlled in order to perform the responsive action.

Various systems and methods are provided for determining a posture of an occupant of a vehicle. In one embodiment, a method comprises capturing images of an occupant in a vehicle via a vehicle camera, determining a current posture of the occupant and a recommended posture for the occupant based on the captured images and body measurements of the occupant, and outputting a guidance based on a difference between the current posture and the recommended posture. In this way, a comfort of the occupant may be increased by guiding the occupant toward a more ergonomic posture.

One variation of a method for renting a vehicle includes: receiving a signal from a fleet manager, the signal specifying a current availability of the vehicle for rent; updating a visual indicator arranged on the vehicle according to the signal, the visual indicator visually detectable from outside the vehicle; receiving identification information of a user proximal the vehicle; enabling access to the vehicle for the user in response to verification of the user as a driver of the vehicle; determining, through a sensor arranged within the vehicle, that the user is seated in a driver's seat within the vehicle; and enabling ignition of the vehicle for the user in response to determination that the user is seated in the driver's seat.

A system comprising: a heater located within a steering wheel and a heater located within a vehicle seat; wherein the steering wheel is a first plate and the vehicle seat is a second plate and a shift in a signal is monitored from the first plate, the second plate, or both so that a presence and absence of an occupant is detected, and wherein the heater in the steering wheel and the heater in the vehicle seat are a sensor.